Body care product, in particular oral hygiene product

EP4761608A1Pending Publication Date: 2026-06-24TRISA HLDG AG

Patent Information

Authority / Receiving Office
EP · EP
Patent Type
Applications
Current Assignee / Owner
TRISA HLDG AG
Filing Date
2024-08-16
Publication Date
2026-06-24

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Abstract

The invention relates to a body care product, in particular an oral hygiene product, comprising at least one application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) with at least one handle unit (14a; 14c-14r; 14u; 14v; 14aa-14ee), which has at least one physical handle body (16a-16r; 16u; 16v; 16aa-16ee) that consists at least partly, in particular at least mostly, of a paper material, and a connection unit (18a; 18c-18r; 18u; 18v; 18aa- ee), via which the application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) is connected to the handle unit (14a; 14c-14r; 14u; 14v; 14aa-14ee). According to the invention, the connection unit (18a; 18c-18r; 18u; 18v; 18aa-ee) has at least one connection element (20a; 20e-20r; 20u; 20v; 20aa-ee) which is connected to the application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) and at least one additional connection element (22a; 22c-22r; 22u; 22v; 22aa-ee ) which is connected to the handle unit (14a; 14c-14r; 14u; 14v; 14aa-14ee). The connection element (20a; 20e-20r; 20u; 20v; 20aa-ee) of the connection unit (18a; 18c- 18r; 18u; 18v; 18aa-ee) consists at least partly, in particular at least mostly, of a polymer, in particular a plastic.
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Description

[0001] Personal care product, especially oral hygiene product

[0002] State of the art

[0003] The invention relates to a personal care product, in particular an oral hygiene product.

[0004] A personal care product, in particular an oral hygiene product, has already been proposed, comprising at least one application unit, comprising at least one handle unit, which has at least one material handle body which consists at least partially, in particular at least to a large extent, of a paper material, and comprising a connecting unit via which the application unit is connected to the handle unit.

[0005] Oral hygiene products are already known from EP 3 964 166 A1 , DE 20 2020 000 613 U1 , WO 2021 / 081438 A1 and DE 10 2020 100 106 A1.

[0006] The object of the invention is, in particular, to provide a generic device with improved properties in terms of durability, comfort, and ecology. This object is achieved according to the invention by the features of patent claim 1, while advantageous embodiments and further developments of the invention can be found in the subclaims.

[0007] Advantages of the invention

[0008] The invention relates to a personal care product, in particular an oral hygiene product or razor, comprising at least one application unit, at least one handle unit having at least one material handle body which consists at least partially, in particular at least to a large extent, of a paper material, and a connecting unit via which the application unit is connected to the handle unit.

[0009] In comparison to the prior art, in which the handle unit and connecting unit of comparable products are made entirely of plastic and, at most, metal, this invention replaces at least a significant portion of the handle unit with a flat and, if possible, sustainable material such as paper, wood, bamboo, etc. This results in lighter, therefore easier to handle and more sustainable products.

[0010] It is proposed that the connecting unit has at least one connecting element connected to the application unit and at least one further connecting element connected to the handle unit, wherein the connecting element of the connecting unit consists at least partially, in particular at least for the most part, of a polymer, in particular of a plastic or a plastic component. Preferably, the connecting element and the further connecting element are designed to correspond. Preferably, the connecting element forms part of the application unit and the further connecting element forms part of the handle unit. However, a separate design would also be conceivable. Preferably, the connecting element of the connecting unit consists at least for the most part of a hard component.

[0011] By "at least to a large extent" it should be understood in particular that at least a main component of a material of the material handle body of the handle unit is a paper material or of the connecting element of the connecting unit is a polymer, in particular a plastic. Preferably, at least 50 wt.% (percent by weight), preferably at least 70 wt.% and particularly preferably at least 90 wt.% or even 95 wt.% of the material handle body of the handle unit is made of a paper material or of the connecting element of the connecting unit is made of a polymer, in particular a plastic. Particularly preferably, the material handle body of the handle unit consists entirely of a paper material. Preferably, the connecting element of the connecting unit consists entirely of a plastic.Furthermore, in this context, a “paper material” should be understood to mean in particular a preferably flat material that consists essentially of fibers, preferably of plant origin. A flat material is understood to mean a material that is available as a flat material at least during one production step, for example as a blank, sheet, roll or the like. The material is preferably formed by dewatering a fiber suspension on a sieve. The resulting fiber fleece is then in particular compacted and dried. The material is preferably made from cellulose, groundwood and / or waste paper. It is conceivable to replace the paper with another sustainable material alternative such as wood, bamboo or a film made of a plastic component, in particular a sustainable plastic component.These alternatives are also preferably provided in flat form, at least as raw materials and / or semi-finished products. Flat means significantly larger in the first and second dimensions than in the third dimension. Flat materials are usually available in sheet or roll form in a single processing step. Therefore, if reference is made to a paper material in this document, this naturally also applies to the alternatives mentioned, which are preferably made available in flat form.

[0012] The paper material preferably consists in particular of fibers, wherein various processing options exist. The paper material can also be treated. The paper material can be coated, in particular varnished, for example with a varnish to improve the bond during joining and / or to improve resistance to water, and / or impregnated. The paper material can in particular be in flat form, in block form or in liquid to cardboard form and / or consistency, wherein various processing options are possible depending on the form. In flat form, the paper material can be rolled, layered, pressed, laminated, grooved, embossed, folded, punched and / or grained, i.e. in particular roughened or grained.To form a bond, the paper material can be glued, in which case preparatory steps such as graining or the like may be necessary, welded, in particular by ultrasonic welding, sealed (hot or cold), or laminated, etc. To form a bond, special layers may be required on the paper material to enable or improve the bond. Bonds can be made using a paper material or other materials mentioned in this document. In particular, bonds can be made between the paper material and a plastic component. In block form, the paper material can be mechanically processed, for example, milled, drilled, or punched. In liquid form, the paper material can be cast or injection molded, in particular by paper injection molding, paper casting, or fiber casting.Here, the paper material is formed in a cavity, particularly similar to an injection molding process. The molded part is then cured or dried. Preferably, no post-processing is required on the paper material body with paper injection molding, paper casting or fiber casting, although this is possible. For example, mechanical post-processing can be carried out, for example by milling, drilling or punching. With paper injection molding, it is also conceivable to mold it onto other parts or materials, for example plastic overmolded with paper. Alternatively, a plastic part can also be molded onto a paper material by molding the plasticized plastic or the plasticized plastic component (e.g. a thermoplastic or a hard component) positively and / or non-positively onto the paper material.Overall, the product structure of the personal care product can be of various types, such as being made entirely from a paper material or using a hybrid technology, for example from a paper material combined with a plastic component, in particular for example with an interchangeable head and / or with a handle unit made of paper and an application unit made of plastic. Other material combinations with paper can, as mentioned, be plastic and / or metal and / or organic materials such as wood, bamboo and / or inorganic materials such as stone, glass, etc. It should be noted that, for the sake of simplicity, paper is described in this document as the preferred material for the handle unit, but it is certainly within the meaning of the invention to replace paper with a material preferably consisting of essentially sustainable components, such as wood or bamboo, or a film made of a plastic component, in particular a sustainable plastic component.The material for the handle unit is provided at least as raw material or semi-finished product, preferably in a flat form.

[0013] The paper material has particular requirements regarding water resistance, so it should have little to no water absorption. Furthermore, the paper material should exhibit favorable flexural strength, which is particularly important for later applications.

[0014] The paper material can be single-layer or multi-layered. Multi-layer paper material consists of several layers of paper of the same or different thickness and / or different properties and / or at least partially made of different materials. Preferably, several layers of paper can form a layer, whereby the body can in turn consist of one or more layers. Layers can be created, for example, by laminating / gluing / pressing / folding one or more layers. The layers can partially or completely overlap, e.g., to create a connection between the one or more layers and / or to at least partially form a hollow body.

[0015] Outer layers can have different water-repellent properties than inner layers. Outer layers can have a different color than inner layers. Outer layers can consist of a rigid component, preferably a sustainable one. Some or all layers can consist primarily of virgin fiber or primary fiber. Some or all layers can also consist primarily of secondary fiber.

[0016] The paper material can have up to 15 layers, preferably between 1 and 12 layers. Personal care products are particularly preferably made of 1, 2, 3, 4, 5, 6, 7, 8, 9, or 10 layers. The layers can be produced by laminating, gluing, or pressing the layers together, particularly without the use of adhesive.

[0017] The finished personal care product can be made from one or more layers of the paper material, at least in certain areas. For example, 1, 2, 3, 4, 5, or 6 layers can be formed. In this case, the total number of layers is calculated as the sum of the individual integrated layers.

[0018] Multiple layers can be created, for example, by folding one layer. The layers can partially or completely overlap, for example, to create a connection and / or to at least partially form a hollow body.

[0019] In the case of a multi-layer product, a post-processing step has been carried out, particularly through lamination / gluing / pressing / folding, etc. In particular, layer packages have been created. In particular, multiple layers have been bonded.

[0020] A single layer has a surface weight of 50 g / m 2 up to 500 g / m 2, preferably 100 g / m 2 up to 450 g / m 2 The material thickness of the layer is in particular from 0.05 mm to 0.65 mm, preferably from 0.1 mm to 0.5 mm.

[0021] The material is particularly constructed in such a way that elements for water resistance are preferably incorporated directly into the paper material. Therefore, no coating is provided for this purpose; instead, components are added during production of the paper material. The addition of starch, such as potato starch, for example, reduces water absorption. Water absorption is preferably as low as possible, in particular no greater than 30%, preferably no greater than 25%, and particularly preferably no greater than 20%, with the percentage describing in particular a maximum percentage weight increase of the paper material between wet and dry. To evaluate this value, a test strip is immersed in water as described below and weighed beforehand and immediately afterwards.

[0022] Furthermore, the fiber orientation of the paper material can be longitudinal or transverse, with longitudinal orientation, i.e., in the main direction of extension of the personal care product, being preferred. The personal care product is designed in particular so that one or more layers are used.

[0023] Multiple layers can be joined in advance and / or during the actual product creation process, for example, when integrating another element such as the connecting unit. The layers are joined, in particular, by lamination, gluing, folding, and / or sealing.

[0024] The buckling or flexural rigidity of the paper material can be monitored in particular through internal tests. The test can be carried out before and / or during a process. The test involves applying pressure against the paper material until it gives way and bends. For this purpose, test strips with a length of, for example, 100 mm and a width of, for example, 30 mm are used. A test setup in particular provides for the test strip to be clamped at a clamping point 63 mm from the free end. A pressure point is then, in particular, 25 mm from the free end. Furthermore, various types of tests are conceivable. For example, a dry test strip can be used. The material is therefore tested in particular as delivered. Alternatively or additionally, a wet test strip can be tested.For this purpose, it is immersed in water for at least 2 seconds, starting at a distance of 70 mm from the free end, then allowed to drain dry and then tested directly. Alternatively or additionally, a dry-wet test strip can be tested. The procedure is the same as for the wet test strip, although the test strip is left to dry for 24 hours before a test. The dry-wet test strip is used in particular to simulate tooth cleaning using a dry-wet cycle. A single layer in the dry state has a flexural rigidity of 0.8 N to 2 N, preferably 1 N to 1.6 N. The wet-dry test strip has a flexural rigidity of 0.8 N to 2 N, preferably 1 N to 1.6 N.Several connected layers, here in particular 2 connected layers, have a flexural rigidity of 5 N to 7 N, preferably 5.7 N to 6.7 N, when dry, 1 N to 2.5 N, preferably 1.5 N to 2 N, when wet, and 5 N to 7 N, preferably 5.7 N to 6.7 N, when wet-dry.

[0025] The invention particularly describes that the paper material is preferably a flatly prepared material. For this reason, the paper material, as described, can be used synonymously with wood, veneer, or even bamboo materials, which, like paper, are preferably flatly prepared or processed. The described embodiments with paper material can thus be implemented synonymously with the aforementioned alternative materials.

[0026] Preparing wood or bamboo involves a number of different steps. The first step is to peel the wood or bamboo, meaning the surface of the trunk, for example, is freed from the bark. A flat layer is then removed from the wood / bamboo trunk. By peeling, for example, the wood / bamboo is formed into a thin, flat shape, which forms the basis for further processing. The peeled layer of wood can form a roll. The body, for example, is then punched out of this layer for use. It is preferable to punch the entire thing straight away, without the need for further punching later. The pieces prepared in this way are then sanded or tumbled to remove any sharp edges and burrs and to fineren the surface.If the bodies are given a 3D shape, they can then be deformed using pressure and / or heat and / or moisture to ensure they are fully prepared.

[0027] 3D forming of handle bodies and also punching can also take place directly in the injection mold. For example, closing the injection mold simultaneously deforms the body, giving it a 3D geometry. The handle body can also be punched in the same way; closing the tool results in punching. Forming and punching in the injection mold can be implemented for all described products and materials. The various aspects of the invention are described in the context of bodies preferably made from flat raw materials. In principle, however, the aspects can also be applied to more voluminous bodies, for example cylindrical bodies (rods) or other volumes in 3D form. This is used, for example, in connection with the described paper injection molding, paper casting, or fiber casting processes.

[0028] The inventive design of the personal care product makes it possible to provide advantageous properties with regard to ergonomics and manufacturability. In particular, a personal care product that is advantageously ecological or consists largely of sustainable materials can be provided. In particular, a personal care product that is advantageously lightweight and therefore easily maneuverable can be provided.

[0029] In particular, this allows for an advantageously simple separation and disposal of the personal care product. Furthermore, the connecting unit can provide a beneficially durable and stable personal care product.

[0030] The body care product is formed, in particular, by a razor, in particular a manual razor, a dermaplaning razor, a brush, in particular an application brush for cosmetic applications such as hair coloring, or an applicator for medical applications such as applicators in the dental field, such as application brushes for aids for fillings, crowns, or the like, or an applicator for cosmetic applications, for example, an applicator for mascara, and / or an oral hygiene product. The razor can, for example, be a disposable razor or a reusable razor with a replaceable blade.

[0031] An “oral hygiene product” is understood to mean, in particular, a toothbrush and / or a tongue cleaner or a flosser. The oral hygiene product is advantageously designed as a toothbrush, in particular a manual toothbrush. When designed as a toothbrush, the oral hygiene product can be, in particular, a disposable toothbrush (for single use), a reusable toothbrush (for multiple use), or even a replaceable-head toothbrush. However, the oral hygiene product could also generally be a brush product. A “personal care product” is understood to mean, in particular, an oral hygiene brush and / or a cosmetic brush and / or a hairbrush and / or a household brush. Examples of oral hygiene brushes include manual toothbrushes such as reusable toothbrushes, replaceable-head toothbrushes, brush heads for electric toothbrushes, disposable toothbrushes or single-tuft brushes, or tongue cleaners or flossers.Other possible personal care products, particularly cosmetic brushes, include mascara brushes, nail polish brushes, facial brushes, applicators, massagers, make-up brushes, shaving brushes and / or wet razors or other personal care products.

[0032] In general, medical applicators constructed in a similar form to the personal care products can also be realized with the present invention, for example applicators in the dental field, such as application brushes for aids for fillings, crowns or the like, whitening fluids or an applicator for cosmetic applications, for example an applicator for mascara.

[0033] When designed as a toothbrush, it is particularly conceivable for the application unit to be composed of a base body and a bristle plate which is provided with bristles and / or alternative cleaning elements. Furthermore, the application unit can consist of a base body which is overmolded or provided with bristles, or the application unit can be directly or integrally molded without a base body. Preferably, the personal care product consists of an application unit with bristles, the connecting unit, and the handle unit, wherein the handle unit in particular has a neck section. All molded sub-elements can consist of at least one hard and / or one or more soft components and / or one or more materials for molded bristles.

[0034] The personal care product has, in particular, a longitudinal axis that is advantageously arranged at least substantially parallel to a main direction of extension of the personal care product. The longitudinal axis preferably runs at least partially within the personal care product and, in particular, through its center of gravity. In particular, the longitudinal axis of the personal care product is a central axis of the personal care product and / or a central axis of the handle unit. A "central axis" of an object is understood, in particular, to mean an imaginary axis that runs within the object parallel to a main direction of extension of the object and intersects the object at a maximum of two points.By “at least substantially parallel” is meant in particular an orientation of a direction relative to a reference direction, in particular in a plane, wherein the direction has a deviation from the reference direction of in particular less than 8°, advantageously less than 5° and particularly advantageously less than 2°. A “main extension direction” of an object is meant in particular a direction which runs parallel to a longest edge of a smallest imaginary cuboid which just completely encloses the object. A “main extension” of an object in this context is meant in particular an extension of a longest edge of a smallest imaginary cuboid which just completely encloses the object.

[0035] The application unit advantageously has at least one cleaning area which is provided for a tooth cleaning application, in particular in the user's oral cavity. The cleaning area preferably comprises at least one cleaning unit. The cleaning unit can comprise a brush head, advantageously a toothbrush head, preferably with a plurality of bristles and / or bundles of bristles and / or injected cleaning elements or injected bristles and / or soft-elastic cleaning elements. Alternatively or additionally, the cleaning unit can also be designed as a single tuft (i.e. as a single large bundle of bristles), an interdental space cleaning element (e.g. dental floss, toothpick, stick, interdental brush, etc.) or the like. Furthermore, the application unit advantageously has at least one base body which is preferably connected to the cleaning area, in particular directly and / or integrally.Alternatively or additionally, the application unit has at least one application area, which is provided, for example, for storing and dispensing a color, in particular a hair color. Alternatively or additionally, the application unit has at least one shaving area with at least one blade. Alternatively or additionally, the application unit has at least one application area, which is provided, for example, for storing and dispensing a medium, in particular an aid for fillings, crowns or the like, in particular a dental adhesive, primer or the like. This application area is designed as an applicator head, wherein the shape of the applicator head is preferably spherical or ellipsoidal. The surface of the applicator head is designed with elements that support the application or storage and / or dispensing of a medium.For example, recesses can be designed into the surface to enable this, or the applicator head can be provided with flocking to facilitate this. The recesses can be formed all around the applicator head or only partially on certain surfaces. The recesses can be realized as individual, isolated elements—for example, in the form of individual strips—or the recess can be formed as a continuous shape across the entire body—for example, in the form of a spiral.

[0036] The design of a corresponding applicator head can be achieved by injection molding. The applicator head can be molded onto a handle body, the handle body is then overmolded, and the connection between the applicator head and the handle body is formed in this way.

[0037] An applicator head for applying an oral hygiene product, for example a whitening fluid, can be injection-molded onto a handle body. The applicator head, i.e. the application unit, is connected to the further connecting unit or the handle unit by means of the connecting unit. The application unit carries a fluid ball containing a whitening fluid in a carrier of the personal care product, which opens when exposed to saliva. The application unit has a carrier with a depression and, within this depression, radially outward-projecting lamellae, which forms a recess in the center for the fluid ball. Water or saliva can thus flow around the fluid ball, whereupon it dissolves and releases the fluid it contains. As an alternative to the fluid ball, the corresponding area can also be empty so that a user can apply a paste to this opening.The entire application unit can be placed in the mouth, for example, near the teeth to apply the fluid. The slats and the shape of the application unit assist in this process.

[0038] “Integral” should be understood in particular to mean at least materially connected, for example by a joining process such as a welding process, a sealing process, an adhesive process, an injection molding process and / or another process that appears appropriate to a person skilled in the art, and / or advantageously formed in one piece, for example by production from a single casting and / or by production using a single or multi-component injection molding process and advantageously from a single blank. “Intended” should be understood in particular to mean specially designed and / or equipped. The fact that an object is intended for a specific function should be understood in particular to mean that the object fulfills and / or performs this specific function in at least one application and / or operating state.

[0039] The handle unit preferably has at least one handle element, which is advantageously intended to be held with one hand. It is conceivable for the handle element to be tapered at least in some regions and / or to be designed with a concave surface region and / or with a convex surface region. The handle element preferably has, at least in some regions, a cross-section which forms a II profile. This advantageously allows greater stability, a secure hold and optimises ergonomics. The handle element is particularly preferably designed to be elongated, with a longitudinal axis of the handle element advantageously corresponding to the longitudinal axis of the personal care product. The handle element is formed at least substantially, in particular completely, from at least one paper material or the already mentioned alternatives such as wood, bamboo, etc.Alternatively or additionally, the grip element and / or the grip unit can be formed at least partially from a hard component and / or from one or more soft components and / or from material for injected bristles. The material grip body is preferably formed at least largely, in particular completely, from at least one paper material. In particular, the grip element advantageously comprises at least one thumb grip area or finger rest area and / or at least one handle area. The thumb grip area or finger rest area is advantageously arranged on the front side or laterally on the personal care product and in particular on a front side or laterally on the grip element. It is conceivable that the thumb grip area and / or the handle area comprise at least one element and / or a.

[0040] Surface structuring made of at least one paper material, at least one soft component and / or at least one hard component.

[0041] The plastics used for production from hard and / or soft components, which are processed by injection molding, can be classified in particular as follows:

[0042] Conventional materials or material components: Materials, essentially new materials, which are largely petroleum-based. Sustainable materials or sustainable material components: as listed below and described later, preferably bio-based, degradable and / or recycled. o Bio-based materials: Material which is made from renewable raw materials to more than 60%, preferably more than 80% and particularly preferably 100%. Another possible additional property of bio-based materials is, in particular, that the bio-based materials are biodegradable. Preferably, the materials are not based on foodstuffs, such as corn, etc. o Biodegradable materials: Material which is biodegradable according to current standards. This includes, in particular, compostability (industrial or non-industrial). Materials made from renewable raw materials can exhibit this property.o Recycled materials: Materials that originate from a recycling process, such as post-consumer recycled materials, post-industrial recycled materials, ocean waste plastic, or social plastic. A recycled rigid component such as recycled polypropylene (PP) or recycled polyethylene terephthalate (PET) is particularly preferred. The materials used can be recyclable. Recyclable materials are advantageously recycled after use.

[0043] Within the scope of this disclosure, almost any hard components and soft components are possible, which the person skilled in the art will combine and / or select as appropriate.

[0044] Examples of suitable rigid components include styrene polymers such as styrene-acrylonitrile (SAN), polystyrene (PS), acrylonitrile-butadiene-styrene (ABS), styrene-methyl methacrylate (SMMA), styrene-butadiene (SB), or the like. Furthermore, a rigid component can comprise polyolefins such as polypropylene (PP), polyethylene (PE), or the like, particularly in the form of high-density polyethylene (HDPE) or low-density polyethylene (LDPE). Polyesters such as polyethylene terephthalate (PET), particularly in the form of acid-modified polyethylene terephthalate (PETA) or glycol-modified polyethylene terephthalate (PETG), polybutylene terephthalate (PBT), acid-modified polycyclohexylenedimethylene terephthalate (PCT-A), glycol-modified polycyclohexylenedimethylene terephthalate (PCT-G), or the like are also suitable.Furthermore, the use of cellulose derivatives such as cellulose acetate (CA), cellulose acetobutyrate (CAB), cellulose propionate (CP), cellulose acetate phthalate (CAP), cellulose butyrate (CB), or the like is conceivable. Furthermore, a hard component can comprise, for example, polyamides (PA) such as PA 6.6, PA 6.10, PA 6.12, or the like, polymethyl methacrylate (PMMA), polycarbonate (PC), polyoxymethylene (POM), polyvinyl chloride (PVC), polyurethane (PUR), polyamide (PA), or the like. Polyethylene (PE) and polyurethane (PU), in particular, can be used as hard components and / or as soft components. In particular, a hard component has a modulus of elasticity of at least 1000 N / mm. 2 and advantageously of at least 1300 N / mm 2 and / or of not more than 2400 N / mm 2 and advantageously of a maximum of 1800 N / mm 2Polypropylene (PP) is preferred as the hard component. At least certain materials listed as hard components can be sustainable. Materials with a cellulose content, in particular, are at least partially bio-based.

[0045] Hard components are advantageously used for stable and / or structural elements, particularly in the handle element and / or in a connecting element of the application unit or the like. It is advantageously conceivable for a hard component and a soft component to have different colors, so that surface structures, inscriptions, motifs, and the like can be realized by appropriately designing the base body and the soft element.

[0046] Suitable soft components include, for example, thermoplastic styrene elastomers (TPE-S) such as a styrene-ethylene-butylene-styrene copolymer (SEBS), a styrene-butadiene-styrene copolymer (SBS), or the like. The use of thermoplastic polyurethane elastomers (TPE-U), thermoplastic polyamide elastomers (TPE-A), thermoplastic polyolefin elastomers (TPE-O), thermoplastic polyester elastomers (TPE-E), or the like is also conceivable. Furthermore, a soft component can comprise, for example, at least one silicone. Advantageously, a soft component has a Shore A hardness of at most 90, advantageously of at most 50, and particularly advantageously of at most 30. Preferably, at least one soft component forms at least one material bond with at least one hard component, in particular in at least one two- and / or multi-component injection molding, advantageously by means of at least one overmolding and / or insert molding.The materials listed under the soft component can be sustainable materials. Hard components, soft components, or materials for injected bristles do not form a material bond with the paper material.

[0047] When designed as a toothbrush, the personal care product has, in particular, a front side and a back side, which are arranged facing away from one another. The cleaning area or treatment area of ​​the application unit is preferably arranged on the front side of the personal care product. The front side is, in particular, a side of the personal care product that is visible in a viewing direction perpendicular to the longitudinal axis of the personal care product and perpendicular to the width axis of the personal care product. The front side of the personal care product is, in particular, that side of the brush on which the thumb is placed. The front side is normally also the side towards which the bristle field is directed. The back side advantageously corresponds to a side of the personal care product that is visible in an opposite viewing direction.The back of the personal care product is the side of the toothbrush opposite the bristle area. The left side of the personal care product is particularly a side that is on the left when viewed perpendicularly from the front of the personal care product and with the cleaning area at the top. The right side of the personal care product is particularly a side that is on the right when viewed perpendicularly from the front of the personal care product. The top side is particularly an end of the personal care product on which the cleaning area is located. The bottom side is particularly an end of the personal care product opposite the top side and closest to the handle area.

[0048] In this context, a “connecting unit” should be understood to mean, in particular, a unit which is intended to provide a fixed and / or detachable connection between two units, in particular components. The connecting unit preferably connects the application unit to the handle unit. The application unit and the handle unit are preferably connected to one another at least for one use. The connecting unit can preferably be formed by a separate unit or can be at least partially fixedly connected to the handle unit and / or the application unit. The connecting unit has, in particular, the connecting element which is fixedly connected to the application unit and the further connecting element which is fixedly connected to the handle unit.The fact that at least one first element is “connected” to at least one further element should be understood to mean, in particular, that the first element is advantageously connected to the further element via at least one frictional connection and / or at least one positive connection (e.g. by plugging together positive-locking elements) and / or at least one material connection. A frictional connection and / or positive connection can be achieved, for example, via riveting and / or a snap-in connection and / or a tongue and groove connection and / or a riveted connection and / or a clamping connection and / or a plug-in connection and / or another connection that appears appropriate to a person skilled in the art. A material connection can be achieved, for example, by a welding process and / or a sealing process and / or an adhesive process, or under certain circumstances by overmolding orInjection molding process and / or a deformation process and / or another process that appears appropriate to a person skilled in the art. In this context, a “positive connection” is to be understood in particular as a connection in which adjoining surfaces of components connected in a positive-locking manner exert a holding force on one another that acts in the normal direction of the surfaces. In particular, the components are in geometric engagement with one another. Preferably, in particular between the application unit and the handle unit, a positive connection is provided, for example through geometries that are adapted to one another, and / or a positive and / or material connection, such as, in particular under certain circumstances, through an overmolding or injection molding process. In particular, depressions, recesses, ridges and / or positive-locking elements can be provided on the application unit, the handle unit and / or the connecting unit.In particular, the positive connection can also simply serve to orient the connection options, to enable easy connection during assembly or, for example, to absorb harmful transverse forces in an adhesive connection. The orientation of the connection options can be implemented, in particular, around the handle unit, such as on the front, back, or short sides of a brush, razor, or the like. If the personal care product has long and short sides, the orientation of the connection options is implemented, in particular, along a long side.

[0049] Alternatively or additionally, there are additional fastening options for connecting the connecting unit. One fastening option is hot riveting. Here, the connecting element is designed with a rivet geometry and mounted to the other connecting element. The rivet body is then pressed in using a hot stamp. This is particularly possible with a design of the personal care product as a floater, which is not limited to the specific design, if each cap is equipped with a rivet unit, which can extend, for example, through a recess in the arm. Another fastening option is gluing. Another fastening option is a snap connection.

[0050] Another fastening option is welding, for example ultrasonic or friction welding. For this purpose, the paper material, in particular the further connecting element, can be laminated with a film made of a hard component and a bristle field made of a compatible hard component (e.g. using the AFT process) can be connected by welding, in particular ultrasonic welding or friction welding. In particular, welding and / or laminating a first material to a second material represents a further fastening option. In this case, for example, the first material can contain a hard component and the second material a hard component. Another example is that the first material can contain a hard component and the second material a soft component. Another example is that the first material can contain a soft component and the second material a soft component.In some embodiments, the first material comprises a paper material. In some embodiments, the first material and / or the second material may comprise a paper material and a film material (e.g., a PBT film, a polypropylene (PP) film, a polyethylene (PE) film, a polyacrylic (PA) film, a polyurethane (PU) film, or combinations thereof, etc.). In some embodiments, the first material and / or the second material may include a plastic component (e.g., an injection-molded or extruded plastic component).

[0051] For example, the paper material, in particular the further connecting element, can be laminated with a film made of a hard component, e.g. a PA film, and / or a bristle field made of PA bristles (e.g. produced with AFT) can be connected by welding, in particular ultrasonic welding or friction welding.

[0052] For example, the paper material can be laminated with a PBT film and / or a bristle field made of PBT bristles (e.g. manufactured with AFT) can be connected by welding, in particular ultrasonic welding or friction welding.

[0053] For example, the paper material can be laminated with a PP or PE film and / or a thin PP brush head can be welded together. The PP or PE brush head can be fitted with bristles using anchor punching or anchorless processes (e.g., AFT, PTt, in-mold processes, etc.).

[0054] For example, the paper material can be laminated with a PU film and / or a thin, injected PU brush head can be connected by welding.

[0055] Alternatively, the paper material can be laminated with a film made of a plastic component and then overmolded with a compatible plastic component.

[0056] For example, the paper material can be laminated with a PP or PE film and / or a connecting unit or application unit made of PP or PE can be overmolded or injection-molded.

[0057] For example, the paper material can be laminated with a PU film and overmolded with injected PU bristle components. The injected bristles can be formed in the same process as the overmold.

[0058] In these welding processes, the materials used are affine or compatible with the welding process and form a material bond through the welding process.

[0059] The fastening options or material combinations mentioned for the connecting unit can also be used if the application unit is to be attached directly to the handle unit.

[0060] The connecting unit has, in particular, the function of connecting the application unit or an interface of the application unit to the handle unit. The connecting unit, in particular, has multiple functions. In particular, the connecting unit is provided to connect the handle unit and to hold the application unit. The connecting unit, in particular, forms an interface to the handle unit. Furthermore, the connecting unit can, in particular, contain a change system with which the application unit can be exchanged. The connecting unit can also movably mount the application unit.

[0061] In addition, the connecting unit can, for example, have a holding geometry for gripping or holding the personal care product, for example during use. In particular, the connecting unit can have finger rest(s) or thumb rest. This finger rest(s) can have structural elements that make holding easier. The handle unit is preferably designed to be rather thin and flat; this does not have to apply to the connecting unit, as it is made from a molded part. The connecting unit can therefore be designed to be stiffer or less flexible (e.g. with regard to bending, torsion) than the handle unit. The component for the connecting unit is preferably selected to be harder than the component of the handle unit. As a result, the connecting unit, by means of its finger rest(s) or thumb rest, can play an important role in guiding or maneuvering the product during use.

[0062] The connecting unit may be provided with features to facilitate separation from the handle unit or application unit (e.g., for proper disposal). For example, pull tabs, predetermined breaking points, separating aids, etc.

[0063] In particular, a combination of various functions mentioned is conceivable, such as an introduction geometry or a support geometry on the inside and a holding element on the outside.

[0064] Furthermore, the invention is based on a personal care product with at least one application unit with at least one handle unit, which has at least one material handle body which consists at least partially, in particular at least for the most part, of a paper, wood or bamboo material, and with a connecting unit via which the application unit is connected to the handle unit. It is proposed that the connecting unit has at least one connecting element connected to the application unit and at least one further connecting element connected to the handle unit, wherein the connecting element of the connecting unit consists at least partially, in particular at least for the most part, of a polymer, in particular of a plastic. For a flat handle body, in particular a wood or bamboo material or a paper or cardboard base can be used.Wood or bamboo materials are not suitable for the voluminous construction of a handle body consisting of flat elements. Material thicknesses for flat handle bodies are typically between 1 mm and 4 mm, preferably between 1.3 mm and 3 mm. Handle bodies made of wood or bamboo can be advantageously treated by staining, applying paint or varnish, or by pressure impregnation. In general, the handle bodies can be varnished or colored, particularly advantageously.

[0065] In a preferred embodiment, the handle unit consists of a paper, bamboo, or wood material. When using fiber materials such as paper or, preferably, wood, the fiber direction is particularly crucial for the design of the personal care product. For example, for wood, the fiber direction is central to the breakage of the handle body. Loads perpendicular to the fiber direction are poorly absorbed by the body and lead to breakage. Depending on the product design, different fiber orientations can be selected. In the case of a float, a fiber direction can be selected parallel to the longitudinal direction of the arms or perpendicular to the silk. In the case of a razor, the fiber direction runs in the longitudinal direction of the handle. In the case of a dermaplaning razor, the fiber direction runs in the longitudinal direction of the handle. In the case of a beard dyeing brush, the fiber direction runs in the longitudinal direction of the handle.In the case of an interdental brush, the fiber direction runs along the length of the handle. In the case of a toothbrush, the fiber direction runs along the length of the handle.

[0066] Furthermore, the paper material can be formed in particular from a honeycomb paper, in particular with waves or honeycombs in a middle layer, or from a corrugated cardboard.

[0067] Honeycomb paper or corrugated cardboard can be used especially for more voluminous handles. Honeycomb paper or corrugated cardboard can be compressed particularly advantageously.

[0068] It is further proposed that the connecting element of the connecting unit is formed at least partially in one piece with the application unit. Preferably, the connecting element is formed at least partially in one piece with the application unit. Preferably, the connecting element is arranged at an end of the application unit facing the handle unit. Preferably, the connecting element of the connecting unit forms part of the application unit. Preferably, the further connecting element of the connecting unit forms part of the handle unit. In this context, “at least partially in one piece” should be understood in particular to mean that at least one component of at least one object and / or at least one first object is formed in one piece with at least one component of at least one further object and / or in one piece with at least one further object. Advantageously, “in one piece” should also be understood to mean one-piece."One-piece" is understood to mean, in particular, molded in one piece. This single piece is preferably produced from a single blank, a mass, and / or a cast, particularly preferably using an injection molding process, in particular a single- and / or multi-component injection molding process. This makes it possible to provide, in particular, an advantageously reliable connecting unit. Furthermore, the number of components can be advantageously kept low.

[0069] Furthermore, it is proposed that the further connecting element of the connecting unit be formed at least partially in one piece with the handle unit. Preferably, the further connecting element is formed at least partially in one piece with the handle unit. Preferably, the further connecting element is arranged at an end of the handle unit facing the application unit. Preferably, the further connecting element of the connecting unit forms part of the handle unit. This makes it possible, in particular, to provide an advantageously reliable connecting unit. Furthermore, the number of components can be advantageously kept low.

[0070] It is further proposed that the connecting element of the connecting unit is at least partially materially connected to the further connecting element of the connecting unit, wherein the further connecting element of the connecting unit consists at least partially, in particular at least to a large extent, of a paper material. Preferably, the further connecting element consists at least to a large extent of a paper material, while the connecting element consists at least to a large extent of a polymer, in particular a plastic. Preferably, the further connecting element is overmolded or injection-molded by the connecting element. It is further proposed that the further connecting element of the connecting unit is overmolded with the connecting element of the connecting unit. Preferably, the connecting element is produced directly on the further connecting element using an injection molding process.The connecting element is preferably manufactured using an injection-molding process, with the additional connecting element being located, in particular, at least partially within a mold of the connecting element during production of the connecting element. This makes it possible to provide, in particular, an advantageously stable, preferably form-fitting and force-fitting connecting unit.

[0071] Overmolding can, for example, be used to create the connecting unit or the connection between the application unit and the handle unit. For processing, the additional connecting element is inserted into an injection mold, where it is then overmolded. When the additional connecting element is inserted into the injection mold, the element or handle body is held in the tool and sealed in the boundary areas between the overmolded and the non-overmolded part. Sealing can be achieved, for example, by pre-tensioning or pressing, whereby the tool presses onto the additional connecting element or the handle body, thereby compressing it slightly with pre-tension. The pressure that builds up on the additional connecting element and / or the handle body and acts between the additional connecting element and the injection mold serves to seal it.This prevents the plasticized plastic component, preferably a hard component, from expanding along the handle body and thus causing unwanted overmolding.

[0072] The pressure exerted by the injection mold or the cavity wall is created by a difference in the mass of the inserted additional connecting element and / or the handle body and the cavity wall. In the case of a round, cylindrical, or hollow-cylindrical additional connecting element, the difference in diameter is between 0.05 mm and 0.5 mm, preferably between 0.1 mm and 0.3 mm. Generally, the cavity wall penetrates the surface of the additional connecting element and / or the handle body by between 0.025 mm and 0.25 mm, preferably between 0.05 mm and 0.15 mm, per area, and forms the corresponding preload.

[0073] The connection between the additional connecting element and the connecting element created by overmolding can occur in various ways. For example, the additional connecting element can be connected to the connecting element by means of a positive or non-positive connection. The positive connection can take various forms. For example, the additional connecting element can deform during injection due to the injection pressure, so that one or more undercuts are formed which stabilize the connection. The deformation is planned (e.g. depending on the injection pressure) and only goes so far that no defects occur on the additional connecting element. The injected plastic component changes the shape and surface structure of the additional connecting element.The form fit can also develop when the injected plastic clings to the surface and also penetrates into pores and cavities in the surface, thus creating a form fit and / or friction fit. The form fit can also develop when the injected plastic at least partially deforms the previously essentially smooth surface using injection pressure or makes it rougher, thus creating a form fit and / or friction fit. The plastic component can penetrate the surface so that part of the surface is peeled off when the components are separated. Typically, this can cause a fiber tear in a paper material without the paper material and the plastic component entering into a material bond. Analogously, this can also cause a fiber tear in a wood or bamboo material.Surface tearing can be created without the wood or bamboo material and the plastic component forming a material bond. As the plastic cools, the shrinkage exerts additional forces on the paper, wood, or bamboo material, further strengthening the bond. This creates a positive and frictional connection. Options for additionally creating a material bond are discussed below.

[0074] It is also possible to create recesses on the additional connecting element, for example, in the form of blind holes, through holes, grooves, or ridges, through which the plastic flows. This creates a solid, positive connection. The handle body can also be prepared to such an extent that the surface in the contact area—where the overmolding is realized—is roughened in advance, allowing the plastic component to at least partially penetrate the surface. This can improve the bond on the surface through frictional engagement.

[0075] Furthermore, microstructures can be created on the surface of the paper material in the area of ​​the subsequent overmolding. During overmolding, the plastic component can flow around the microstructures, thus creating an adhesion / mechanical bond. As already mentioned, the paper handle unit can additionally or alternatively be laminated on one or both sides with a film made of plastic component. Overmolding with the same or a compatible or similar plastic component then creates the desired material bond. This procedure is suitable for hard or soft components compatible with the laminated film component, sustainable plastic components, or even components for injection-molded bristles.

[0076] Overmolding and joining by means of positive and / or frictional locking as described above can also occur with a minimized overmolded body. This option can be used to create a basis for further processing. For example, to apply a soft component that is difficult to connect to the additional connecting element made of paper material. For example, a hard component can be molded, preferably by means of positive and / or frictional locking, which is attached to the paper material, to which the soft component is subsequently attached. The hard and soft components form a material bond. The hard component is thus used to indirectly attach a soft component with good adhesion to the paper material.

[0077] For example, the paper material can be overmolded using PP or PE, and then the soft TPE component can be overmolded onto the PP or PE overmold. The PP then forms a form-fitting, but not a material-locking, bond with the paper material. However, the soft TPE component can subsequently form a material-locking bond with the PP. Of course, form-fitting connections are also possible.

[0078] Analogous to the process described above by laminating a film made of plastic component onto the paper material, a compatible soft component can also be sprayed onto the paper material or the film laminated onto it.

[0079] It is also possible to pretreat the paper material to enable overmolding. For example, a plastic film can be applied to the paper material as part of a standard paper processing process. This plastic film laminated to the paper material is then preferably compatible with the overmolded soft and / or hard component, which can then be overmolded with a material bond. In this case, the connection between the overmolded component and the plastic surface is a material bond and forms a material seal. For example, a PP or PE film can be laminated to one or both sides of the paper material. If a hard component made of PP or PE or a soft component made of TPE is then overmolded, the desired material bond and advantageous adhesion is achieved.

[0080] The surface of the paper material can also be treated with an adhesion promoter, thus enabling otherwise impossible material combinations. This adhesion promoter, also called an adhesion promoter, strengthens or even enables the bond between the plastic component and the paper material and is applied to the surface of the paper material.

[0081] Alternatively, it is possible to integrate auxiliary materials that support the bond during overmolding directly into the paper material. This makes the bond possible in the first place. For example, an adhesion promoter or a compatible plastic component can be integrated or incorporated directly into the paper material. A mixture of a plastic component and paper fibers can be processed into a flat material or film.

[0082] Overmolding can be used particularly for paper materials and, as mentioned, also for wood and bamboo. In particular, the above-mentioned joining options apply analogously to bamboo and wood; alternatively to the flat paper material, flat wood materials or bamboo materials can be used.

[0083] During overmolding, the hard and / or soft component is injected with an injection pressure of 600 bar to 1500 bar, preferably 800 bar to 1300 bar.

[0084] The bodies that are overmolded may or may not undergo a special surface treatment before they are processed.

[0085] The bodies formed from flat paper material that are overmolded can have any shape. For example, they can be at least partially or completely flat, flat-shaped, folded, etc., and be overmolded completely or partially in a sub-area.

[0086] Furthermore, the body can at least partially form a cylinder or a hollow cylinder (a tube), a cone or a hollow cone, a pyramid or a hollow pyramid. The cross-sections of these bodies can be of any shape, for example, circular, elliptical, n-sided, preferably triangular or quadrangular. These bodies can be at least partially overmolded with a plastic component.

[0087] In this case, it is preferred that the overmolding takes place at one end of the body, and in the case of a hollow body, it is possible for the plastic component of the overmolding material to fill part of the cavity. If hollow bodies are overmolding, the hollow bodies are preferably supported in the interior (cavity) by means of a punch or core in the injection mold. The punch is retracted into the cavity, supports the body, and also limits the overmolding at the end if the material component penetrates the cavity. Alternatively, it is also possible to overmolde the paper material in a flat state and then form it into the body.

[0088] Particularly for bodies that are overmolded in a substantially flat state, it may be necessary to support or position the body so that the plastic component being injected does not displace the other connecting element or body at that point and so that the overmold can be applied around the entire body. For this purpose, for example, small supports can be incorporated into the respective cavity of the injection mold to hold the other connecting element or body in the intended position. These supports are, for example, small cylinders or pins around which the plastic component will later flow.

[0089] It would also be possible to overmold the body in several steps. As already mentioned, this could involve injecting a second component onto a first component that is bonded to the paper material. In addition to this flat case, it is also possible to inject isolated nubs made of hard components in a first step. These nubs serve as spacers to the cavity wall for a subsequent overmold step, but can also serve as holding or fixing points for soft components. The soft component would be injected onto the first component and the paper in a second step. The material bond would be created between the hard and soft components.

[0090] The overmolded body can also be post-treated. For example, the body can be flocked.

[0091] In this case, the application can also be realized with a handle made of wood or bamboo. The described flat shape of the handle can also be used, in particular, for toothbrushes and razors. A flat handle is inserted into the injection mold and overmolded. As a variant, the body can, for example, be subsequently folded to give it a 3D shape, for example, a shape analogous to the described folded handle with a triangular cross-section for toothbrushes or razors. Alternatively or additionally, as a variant, the body can, for example, be subsequently folded to give it a 3D shape, for example, a shape analogous to the described folded handle with a polygonal or prismatic shape, and / or with a triangular, quadrangular, or polygonal cross-section.

[0092] The circumscribed overmolding of the paper material or a wood or bamboo material can also be used for other products such as consumables for dental practices, such as tongue depressors, or for cutlery such as knives, forks, spoons, coffee stirrers, ice cream spoons, etc. Furthermore, a plastic part can be molded or fixed to a paper material by molding the plasticized plastic (e.g., a thermoplastic) onto the paper material in a form-fitting and / or force-fitting manner.

[0093] It is further proposed that the application unit comprise at least one dental floss thread, in particular a dental floss, wherein the dental floss thread is overmolded by the connecting element of the connecting unit. The dental floss thread is formed, in particular, by a dental floss.

[0094] The yarn thickness is preferably between 300 and 2000 dtex, preferably between 400 and 700 dtex. The use of a dental floss thread with a smaller cross-section results in less force during use, which results in less force on the handle body or on the connecting elements or the connecting unit. This can reduce the risk of the handle body kinking or breaking, or the thread tearing.

[0095] The dental floss thread preferably has a diameter of 0.05 mm to 0.3 mm, preferably 0.10 mm to 0.25 mm. The dental floss thread preferably has a fineness of 300 Dtex to 1000 Dtex, preferably 400 Dtex to 700 Dtex. The dental floss thread can be formed from a single filament or a ribbon, or a multifilament consisting of several filaments. In particular, all variants are possible. The dental floss thread preferably has a maximum lubricating effect for maximum durability of the personal care product. The dental floss thread is, in particular, waxed. However, it must be taken into account that it should still be able to hold onto the connecting element.

[0096] The dental floss thread preferably consists of a hard component, particularly polypropylene, polyethylene, e.g., HMWPE (High Molecular Weight Polyethylene), polyamide, or polyester. Alternatively, the dental floss thread consists of a soft component, such as a thermoplastic elastomer.

[0097] The dental floss thread can be made of a sustainable plastic component, for example PA10.10 (based on castor oil), PLA, cellulose.

[0098] Preferably, the plastic component of the dental floss thread is compatible or affine with the material of the connecting element and forms a material bond during overmolding. The same applies, in particular, when welding the dental floss thread to a surface of the paper material. In this case, the paper material is laminated with a plastic film or consists of a mixture of the plastic component and paper fibers.

[0099] For example, a PE thread can be sealed, welded, or overmolded with PP or PE onto a paper surface coated with a PP or PE film. Furthermore, a PA thread can be sealed, welded, or overmolded with PA onto a paper surface coated with a PA film. Furthermore, a polyester thread can be sealed, welded, or overmolded with polyester onto a paper surface coated with a polyester film. Furthermore, a PLA thread can be sealed, welded, or overmolded with PLA onto a paper surface coated with a PLA film.

[0100] Possible combinations are, for example, dental floss thread made of PE and connecting element made of PE or PP, dental floss thread made of PA and connecting element made of PA or dental floss thread made of polyester and connecting element also made of polyester.

[0101] The handle body for a body care product designed as a floater can be supplied as a single piece or in a sheet containing several individual pieces. When supplied as a single piece, the handle body is pre-punched from the paper material, meaning the paper body does not require any further processing involving the removal of paper material at the periphery.

[0102] When provided as a sheet, either no pre-punching takes place, with punching taking place later inline or in the same process step as injection molding, or the sheet is pre-punched. The sheet can be only partially pre-punched, for example only an interface geometry in the overmolding area, i.e. the geometry that will later be over-molded, is pre-punched. The handle body is prepared for overmolding by pre-punching, with the sheet being exposed to such an extent that overmolding is possible. Alternatively, it would also be conceivable for the sheet to be completely punched except for holding points on the sheet. The handle body can therefore be punched out to such an extent that on the one hand the interface geometry is exposed and on the other hand the rest of the body is exposed except for holding points on the sheet. The holding points are there to enable easy handling of the sheet by holding the body care products together in the sheet.The holding points are in particular not in the area of ​​the overmolding. The width of the holding points in the cutting direction can preferably be from 1 mm to 4 mm, preferably from 1.5 mm to 3 mm. The distances between the holding points are in particular from 10 mm to 50 mm, preferably from 15 mm to 30 mm. The distances are preferably as large as possible so that there are as few holding points as possible, since each holding point can be a potential source of errors or an unsightly continuation or discontinuity of the contour after punching, since everything is subject to tolerances. Depending on the geometry of the final body care product and the material, the distances can vary. For example, the distances are larger if stronger material is used, while the distances are shorter if the final geometry is more delicate, in particular so that the handle body can be inserted cleanly and the material does not flutter, i.e.is unstable when folded. The advantage of arches is the ability to handle multiple handles simultaneously. In particular, multiple handles can be moved in one. Furthermore, due to their size, inserting them into the tool is easier, thus reducing the potential for errors. The number of handles per arch is typically between 2 and 20, preferably between 4 and 12.

[0103] One particular problem with punching is that a cut edge is rounded on the knife entry side. As the material penetrates, the blade presses in the punching direction and thus rounds it on the side of the penetrating knife. At the same time, a cut edge on the knife exit side becomes sharp. A sharp cut edge is created on the exit side of the punching knife, which can be problematic for use in the oral hygiene sector. This can be counteracted by post-processing to round the cut edge. For example, a cut edge can be subsequently deburred, pressed and / or overmolded. The radius is from 0.1 mm to 2 mm, preferably from 0.2 mm to 0.7 mm. Furthermore, it is possible to grind, barrel finish, deburr, heat, press, shape and / or crush the punched part in order to soften the cut edge.If a part is overmolded, the pressing, forming or crushing can take place directly in the injection mold.

[0104] For non-pre-cut sheets, punching may be necessary prior to overmolding, as the interface for injection molding must be clear. Punching can be performed inline with injection molding. Inline means that different manufacturing processes are linked together on a single machine or via coupled machines in a flow production process.

[0105] When designed as a raft, the paper material of the handle body has in particular from 1 to 15 layers, preferably from 1 to 12 layers, and particularly preferably 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10 layers. These layers form a layer. The number of layers depends in particular on the desired final thickness or stability of the handle body. In particular, many thin layers or a few thicker layers can be realized. The layers are preferably bonded or laminated using adhesive. By realizing the handle body in several layers, stability advantages arise compared to a body made of one or fewer layers. The paper material has in particular a material thickness of 0.5 mm to 2.5 mm, preferably 0.8 mm to 1.8 mm. A single layer has in particular a basis weight of 50 g / m 2 up to 500 g / m 2 , preferably 100 g / m 2 up to 450 g / m 2The material thickness of each layer is in particular between 0.25 and 0.05 mm and between 0.65 mm, preferably between 0.1 and 0.5 mm. The paper material can also be treated by varnishing, printing, or applying a water-repellent coating.

[0106] When designed as a flosser, the shape of the handle body in the area of ​​the dental floss thread is particularly U-shaped to ensure accessibility to the teeth. A gripping area of ​​the handle body can be straight, i.e. in particular perpendicular to an extension of the dental floss, or diagonally thereto, i.e. at an angle to the dental floss thread. The angle is 15° to 70°, preferably 25° to 45°. When designed as a flosser, the personal care product has in particular a length of 40 mm to 100 mm, preferably 60 mm to 90 mm. The width of the arms is at least 4 mm, in particular at least 5 mm, preferably at least 6 mm, particularly preferably at least 8 mm. The thinnest point of the arms is in particular in the area towards the free end of the arms. A ratio of the thickness of the paper material of the handle body to the width of the arms is from 1:3 to 1:9, preferably from 1:3.5 to 1:8, particularly preferably from 1:4 to 1:7.The distance between the arms is typically between 10 mm and 25 mm, preferably between 12 mm and 20 mm, and corresponds to the free length of the dental floss thread. As discussed, a dental floss band is also subjected to stress by the dental floss thread.

[0107] The additional connecting element made of paper material can, for example, be overmolded with a connecting element made of plastic (hard or soft component) to form a raft and to fix the dental floss thread in place with the overmold. The dental floss thread is held in the end area of ​​the handle body, i.e. in the head area, in a U-shaped geometry with two legs or arms. The respective legs are provided with plastic in their end areas, in which the dental floss thread is fixed. The plastic overmolds part of the handle body or the additional connecting element on the one hand and part of the dental floss thread on the other, on both legs, thus creating a connection between the dental floss thread and the handle body. A hard component or a sustainable plastic component is preferably used as the plastic. The plastic forms a positive and / or non-positive connection with the leg.During overmolding, the plastic changes the surface of the leg, creating a frictional connection. The plastic shrinks onto the leg as it cools, creating a frictional connection. When the plastic is removed, a fiber tear typically occurs in the paper, wood, or bamboo material of the leg.

[0108] During production, a handle body equipped with two partial legs in the future head area and / or the additional connecting element made of paper material is provided. The ends of the partial legs are prepared for overmolding; preferably, they are prepared symmetrically and equipped identically.

[0109] When overmolding the dental floss thread, it is preferably slightly spaced from the ends of the partial legs so that the plastic component can completely flow around the dental floss thread in this area, thus forming an optimal anchor. Less preferably, the dental floss thread should at least partially touch the ends of the partial legs. The plastic component for overmolding and the plastic component of the dental floss thread preferably form a material bond.

[0110] The ends of the dental floss thread can preferably be melted after the overmolding process. This can further strengthen the adhesion of the dental floss thread to the plastic component, because the ball-shaped or mushroom-shaped end of the melted dental floss thread forms an additional mechanical anchor.

[0111] The advantage of this design and the manufacturing process of the flosser is that the paper, wood, or bamboo material preferably needs to be provided in a single layer (possibly consisting of several layers) rather than multiple layers being connected, between which the dental floss thread is fixed. This significantly simplifies production. This method allows for very good anchoring of the dental floss thread. The plastic content should be kept as low as possible. The proportion of plastic and dental floss thread in the entire product should ideally not exceed 5% of the weight to ensure the product can be recycled as easily as possible using paper or cardboard. Ideally, a sustainable plastic is also used. A sustainable plastic component that is biodegradable is preferred for the dental floss thread and / or for the overmolding.

[0112] It is further proposed that the connecting element of the connecting unit be made of a hard plastic. Preferably, the hard plastic can be processed using an injection molding process. The connecting element is preferably designed to be manufactured using an injection molding process. The connecting element consists, in particular, of a hard component.

[0113] The connecting element is preferably made of polypropylene (PP) and / or a sustainable and / or degradable material. Another option would be the use of polyethylene (PE). As already described, the paper material can be laminated with a film. The film is applied to one or both sides as an outer layer. Alternatively, the plastic component is processed with the paper fibers to form a film or a flat material. The plastic component for overmolding the paper material or for producing the connecting element forms a material bond with the plastic component of the film.

[0114] In addition to the basic structure with the aforementioned components, overmolding with an additional plastic component is of course also possible. In particular, an additional plastic component could be applied to the first plastic component of the connecting element. Preferably, the two plastic components form a material bond. Alternatively or additionally, the additional plastic component could also be applied at least partially to the paper material, although this would require an appropriate technical design for the bond. Alternatively or additionally, alternative materials are also conceivable. For example, a paper-based injection-molding material is conceivable, although the properties must fundamentally be similar to the aforementioned hard components.

[0115] Furthermore, further functions of the personal care product are conceivable. For example, further parts of the handle body can be overmolded. In particular, a geometry for holding, such as knobs, can be provided through recesses in the handle body. Furthermore, a toothpick tip can be formed by overmolding. It would also be conceivable for overmolding to be further improved. For example, the adhesion of the connecting element to the handle body can be improved by using affine / compatible materials. Alternatively, the handle body can have a coating made of a compatible material. A corresponding coating could, for example, be a PE coating for a PE overmold. Furthermore, post-processing of the personal care product would also be conceivable. For example, a layer / coating can be applied to the entire personal care product or to part of the personal care product.Possible positions for the layer could, for example, be the tip of a toothpick onto which an oral care product is applied. Alternatively, the entire body care product could be coated, for example with a varnish, whereby the coating improves the stability and / or water resistance of the product or changes the surface texture. Oral care products, varnishes or the like can be considered as a medium for such a layer. Application can, for example, be by dipping, whereby parts of the body care product are dipped in a dipping bath, by printing, spraying or by painting. A toothpick can, in particular, be created on a side facing away from the application unit by a special treatment of this area. For example, this area can be compacted by pressing the paper material.Other methods known to those skilled in the art can be used to make the paper material stiffer and more stable in this area than in the rest of the handle. A point is created, in particular, by means of a tapered geometry.

[0116] Furthermore, hot or cold embossing or punching can be created in the handle body. These embossings or punchings can be used, for example, to improve the feel, for logos, or for graphics such as smileys. Likewise, the embossing in the toothpick area can create surface textures that facilitate cleaning.

[0117] It is further proposed that the material handle body have at least two arms towards the application unit, wherein the further connecting element forms at least two connecting regions at one end of the arms, i.e. one connecting region per arm. The further connecting element is formed in particular in an end region of the handle body. In an end region facing the application unit, the handle body terminates in particular in a II-shaped geometry with two limbs or arms. The respective arms form the further connecting element in their end regions, to which the application unit is fixed. The further connecting element forms in particular part of the handle body. The further connecting element is formed in one piece with the handle body. This makes it possible in particular to provide an advantageous personal care product, in particular designed as a float.In particular, an advantageous connection of the application unit can be provided. Furthermore, an advantageous connection unit can be provided.

[0118] It is further proposed that the connecting element of the connecting unit has at least one cap which at least partially overlaps the further connecting element of the connecting unit. Preferably, the connecting element has in particular two caps, each of which overlaps the arms of the handle body in the region of the further connecting element. Preferably, the connecting element overlaps the further connecting element at least in such a way that at least one point of the further connecting element exists which is enclosed by the connecting element in at least one plane, in particular in a plane perpendicular to a main extension plane of the handle body, in an angular range of at least 120°, preferably at least 180°. Preferably, the connecting element overlaps at least one free tip of the further connecting element.The connecting element extends in particular like a cap around the arms, so that only one side, where the arm comes out of the cap, is open. Alternatively, the connecting element can also extend around the arms like a clamp. The connecting element can in particular form two clamps which extend from the dental floss side over the arms. The personal care product consists in particular of less than 5 wt.% plastic, in particular plastic and dental floss thread as well as paper material and coating combined, in order to enable sustainable disposal or recycling. The personal care product is preferably at least partially or fully biodegradable according to common standards. Preferably, a biodegradable paper material and / or a biodegradable plastic component for overmolding and / or a biodegradable dental floss thread is used.

[0119] A "main extension plane" of a structural unit is understood to mean, in particular, a plane that is parallel to the largest side surface of the smallest imaginary cuboid that just completely encloses the structural unit, and in particular, runs through the center of the cuboid. This makes it possible to provide, in particular, an advantageously stable connecting unit. Furthermore, it is particularly possible to provide an advantageous cover for one end of the handle unit. This, in turn, can prevent injuries from sharp edges.

[0120] It is further proposed that the connecting element of the connecting unit has at least two caps which at least partially overlap the two connecting regions of the further connecting element of the connecting unit, wherein the connecting element has at least one connecting bracket which connects the at least two caps. The connecting bracket is formed integrally with the caps. The connecting bracket extends in particular over the handle body. Preferably, the connecting bracket follows a U-shaped course of the handle body in an end region facing the application unit. Preferably, the connecting bracket is injection-molded onto the handle body, in particular using an injection molding process. The connecting bracket is provided in particular to support the stability of the handle body. The material of the connecting bracket is in particular applied to the base body and guided via the arms to the end of the arms.The material of the connecting bracket can be bonded to the handle body by means of undercuts and openings using positive and / or frictional engagement. The plastic material of the connecting bracket can also be guided over the lateral edges and thus be formed on both sides. This can achieve better adhesion. Furthermore, the connecting bracket can cover a punched edge and serve as protection. For this purpose, the material of the connecting bracket can be guided on the narrow edge in a U-shaped curve between the arms and cover a sharp edge of the handle body. The connecting bracket can be designed in particular as a bumper (protective cushion or protective layer), which, during use, protects the user's gums from injury on an edge of the handle body. Material adhesion and connection between the handle body and the connecting bracket can be achieved using the means already mentioned, such as:can also be achieved through undercuts and / or openings. Alternatively or additionally, the handle body is partially overmolded by the connecting bracket. The connecting bracket can provide design elements, a bumper, and / or a holding geometry for the overmolded material, particularly without openings and undercuts. A punched edge is partially covered by the connecting bracket. Furthermore, an injection point for the connecting element can be realized on the connecting bracket at the same time.

[0121] It would also be conceivable for a pull tab to be formed on the connecting element. The pull tab has the particular purpose of enabling removal of the plastic parts or separation of the paper material and plastic. The pull tab can, for example, be designed as a protruding element on the connecting element, in particular on a cap of the connecting element, which simplifies detachment. In particular, separation of the plastic by pulling it off the handle body is provided. The connection between the plastic and paper material is in particular not designed via through holes, but alternatively via lateral notches to enable removal. It is also conceivable to over-mold the paper, wood, or bamboo material without additional elements. In this case, adhesion is created only through shrinkage and the changed surface structure or the resulting frictional connection.Alternatively, it would also be conceivable for the additional connecting element to be severed along with the connecting element. This would, in particular, enable the paper material, plastic, and dental floss thread to be severed from the paper-based handle body. Furthermore, it would also be conceivable to arrange the pull tab on the connecting bracket. For example, it would be conceivable to provide the pull tab at an injection point of the connecting bracket, particularly if a plastic is attached to the handle body on only one side. Due to the anchoring method according to the invention, fibers of the paper, wood, or bamboo material may remain attached to the removed plastic.

[0122] Furthermore, it is proposed that the connecting element has at least one injection point which is arranged on the cap. An injection point of an injection molding process is preferably in a close region of the dental floss thread, in particular in a close region of a connection point between the dental floss thread and the cap. In this context, a “close region” is to be understood in particular as an imaginary spherical region which extends in particular around a connection point between the dental floss thread and the cap and which has a radius of a maximum of 1.5 cm, preferably a maximum of 1 cm and particularly preferably a maximum of 0.5 cm. This makes it possible in particular to provide an advantageously inconspicuous injection point.

[0123] It is further proposed that the connecting element have at least one injection point arranged on the connecting bracket. The injection point is preferably arranged on the connecting bracket between the first cap and the second cap. The injection point is preferably arranged at a low point of the connecting bracket of the U-shaped profile of the handle body. This makes it possible, in particular, to provide an advantageously unobtrusive injection point. Furthermore, it is possible, in particular, to provide an injection point which is advantageously arranged away from the user's gums during use.

[0124] It is further proposed that the connecting element of the connecting unit be at least partially positively connected to the further connecting element of the connecting unit, wherein the further connecting element of the connecting unit consists at least partially, in particular at least largely, of a paper material. A positive connection can be realized, for example, via a rivet and / or a snap-in connection and / or a tongue and groove connection and / or a riveted connection, a plug-in connection and / or another positive connection deemed appropriate by a person skilled in the art.

[0125] The further connecting element forms in particular a part of the handle body, which in particular consists largely of a paper material. It is further proposed that the further connecting element of the connecting unit has at least one positive locking contour which is intended to form a positive connection with the connecting element. The positive locking contour is in particular designed such that rotation of the connecting element is not possible. It is further proposed that the positive locking contour of the further connecting element is intended to secure the connecting element against rotation. In the case of two arms, the positive locking contour is in particular necessary on both arms. In particular, the plastic of the connecting element must hold on both sides, in particular on both arms. The positive locking contour can, for example, be in the form of a lateral notch.The notches are preferably formed by notches arranged on the outside of the arms. The notches are in particular on the outside on both sides. In the case of caps, the pressure on the dental floss thread causes the cap to be pulled further into the recess, which results in the dental floss thread being held better on the handle body. The notches preferably have a width of 1 mm to 5 mm, preferably 2 mm to 4 mm. The depth preferably corresponds to a maximum of 1 mm to 5 mm, preferably 2 mm to 4 mm. The residual wall thickness of the arms must preferably be 2 mm to 4 mm. The notch of the form-fitting contour is preferably provided to prevent rotation. This makes it possible to provide an advantageously reliable connecting unit. As discussed above, there are also connections without a form-fitting contour, where the adhesion is mainlyThis is ensured by the shrinkage of the plastic component and the frictional connection via the modified surface of the paper, wood, or bamboo material. However, an additional form-fitting contour has advantages, as it further increases adhesion through form-fitting.

[0126] Another option for preventing the plastic from rotating on the paper material is to create embossing or grooves on the arms that are aligned parallel or at a maximum angle of 45° to the longitudinal direction of the dental floss thread. The thickness of the handle body is reduced by embossing / grooving, and it must be checked whether a crack or kink occurs; otherwise, the depth of the embossing / grooving must be reduced. The embossing / grooving is overmolded using injection molding, thus ensuring a positive fit and better fixation of the dental floss thread using the connecting elements.

[0127] It is also proposed that the form-fitting contour of the further connecting element has at least one through-hole, wherein the connecting element extends through the through-hole. Preferably, the form-fitting contour of the further connecting element has two through-holes, which each extend through one of the arms of the handle base body. The at least one through-hole can in particular have the shape of a round hole or an elongated slot. Alternatively, a non-round hole, such as a square hole, a rectangular hole and / or a hole with another geometry that appears reasonable to a person skilled in the art, which in particular creates a rotation lock, would also be conceivable. The diameter of the through-hole is in particular from 1 mm to 5 mm, preferably from 2 mm to 4 mm. The distance to an edge of the handle base body, iea residual wall thickness per side is in particular from 1 mm to 4 mm. It would also be conceivable for the form-fitting contour to combine a through-hole and a notch. The surface or the punched surface of the notch extends in particular perpendicular to the dental floss thread. The notch is arranged in particular on top of the arms so that rotation is not possible. The depth of the notch is in particular from 1 mm to 3 mm, preferably 1.2 mm to 2 mm. The through-hole of the form-fitting contour is preferably provided to prevent rotation. For this purpose, the through-hole is preferably not round so that a material of the connecting element cannot rotate in the through-hole. As a result, the dental floss thread cannot relax due to the rotation of the anchorage. The through-hole is in particular formed, for example, by an elongated hole and / or a round hole with lateral notches.This makes it possible to provide, in particular, an advantageously reliable connection unit.

[0128] The finished personal care product can in particular absorb forces, in particular acting perpendicular to the dental floss thread, of 2 kg to 12 kg, preferably of 4 kg to 10 kg. The anchoring of the dental floss thread can be balanced in such a way that it is not the dental floss thread that tears or tears out, but rather the handle body that bends. In particular, the dental floss thread does not lie against the handle body. There is in particular a distance of 0.2 mm to 3 mm, preferably 0.35 mm to 0.8 mm, between the dental floss thread and the handle body. A plastic of the connecting element must in particular flow around the thread in order to achieve optimal tear-out forces. After the injection process and due to the injection pressure, the dental floss thread can even be closer to the handle body in some areas or, less preferably, even touch it.

[0129] The dental floss thread is arranged in particular on top of the arm, in particular as an extension of the arms. However, it would also be conceivable for the dental floss thread to be arranged to the side of the arms. This, however, can lead to difficulties during demolding in the injection mold. The dental floss thread is in particular only in contact with the plastic of the connecting element. The connecting element is in turn in contact with the paper material of the handle body and the dental floss thread. The paper material of the handle body, i.e. the further connecting element, is preferably only in contact with the plastic of the connecting element. The dental floss thread must lie in the mold parting line, especially during production in the injection mold.

[0130] It is further proposed that the form-fitting contour of the further connecting element has at least one notch, which is backfilled by the connecting element. Preferably, the notch, in particular the notch and / or the through-hole of the form-fitting contour, is completely filled with a material, in particular the plastic component of the connecting element. The notch, in particular, forms an undercut. Backfilling occurs, in particular, during production of the connecting element. This makes it possible, in particular, to achieve an advantageously reliable anti-twist protection.

[0131] The arms of the handle body are designed in an injection mold to partially fit against the cavity wall so that there is no clearance in these sealing areas. The arms must be particularly tight so that the plastic component does not leak during injection and form an overmolding on the paper material. The shape and the fit against the cavity walls prevent the handle body from slipping. The handle body is pressed with the arms into the corresponding recess of the injection mold under preload, particularly in the direction of the dental floss thread. The surfaces are pressed into the injection mold, particularly at an angle. In particular, pressing does not occur via normal cavity walls; means are required, e.g. a pressing mechanism, which effectively presses the handle body under preload towards the dental floss thread and holds it in position. If necessary, a contour is integrated into the handle body to improve pressing.For example, a flattened area can be provided at the rear of the arch, particularly parallel to the dental floss thread. The arms of the handle body are angled, particularly laterally. The arms preferably rest at least partially on the inside against a cavity wall of the arch. Preferably, the arms also rest laterally. The ends of the arms are, in particular, beveled and thus form an angle to each other. This creates an angle of 30° to 70°, preferably 40° to 60°, between the arms.

[0132] A personal care product is further proposed, which has a handle unit that is bent at an angle. A first part of the handle body is at an angle to a second part of the handle body. The second part of the handle body is equipped with the connecting unit. The personal care product can be designed, in particular, as an interdental or cosmetic brush.

[0133] The application unit of this personal care product preferably consists of a twisted brush which extends parallel from the connecting unit.

[0134] The material handle body consists of a rolled, essentially cylindrical paper body.

[0135] The handle body is angled between the head area and the handle area. The handle body is designed with a bending radius of 1.5 cm to 4.5 cm, preferably 2 cm to

[0136] 3.5 cm, angled. The angle between the head area and the handle area is in particular from 120° to 160°, preferably 130° to 150°. The length of the head area after the bend is in particular a maximum of 2 cm, preferably a maximum of 1 cm. The diameter of the handle body is in particular from

[0137] 2.5 mm to 5 mm, preferably 2.5 mm to 4 mm when used in the oral hygiene sector. When the personal care product is used in cosmetics, it would also be particularly conceivable for the handle body to have a diameter of 2.5 mm to 5 mm, preferably 3 mm to 4 mm. The angled region of the handle body is stabilized by subsequent pressing, in particular pressing. The handle body is partially pressed in a region between the head region and the handle region, so that the handle body has an approximately rectangular cross-section in this region. In particular, a transverse extent of the handle body is reduced in this region. Bending of the angled region of the handle body can be improved during production, in particular by moistening, wetting, steam and / or heat. The region of the handle body which has the angle is pressed flat in order to increase its mechanical stability.The pressed thickness of the area of ​​the handle body which has the angle is in particular from 1.5 mm to 3 mm, preferably from 1.7 mm to 2.3 mm both when used in the oral hygiene and cosmetic sectors.

[0138] It is further proposed that the further connecting element of the connecting unit is formed integrally with the handle body and consists of a paper material, wherein the further connecting element is folded in a cross-section perpendicular to a main direction of extension into a polygonal shape which delimits a receiving area. Preferably, the personal care product is constructed in particular in three parts, namely with the handle body, a base body of the application unit, and with a functional part of the application unit, which is formed, for example, by a bristle field. The handle body with the further connecting element consists in particular of a blank for folding. In the assembled state, the handle body forms in particular a triangular cross-section. In the assembled state, the handle body forms at least in sections a hollow pyramid.

[0139] For this purpose, at least two legs of the triangular cross-section in the final product are preferably designed to be at least partially double-layered. At least one, in particular both, of the double layers are in particular connected, for example glued, sealed, welded or the like, but in particular at least the outer double layer. The handle body is in particular conical in design in the longitudinal direction and forms a hollow pyramid at least in sections. In the folded state, the handle body is preferably open at least on the brush head side so that the connecting element can be retracted later. The handle body is preferably also open at a lower, free end. Preferably, the front side of the handle body is longer than the two rear sides. In particular, a progression is formed from a front side of the free end to the side surfaces, which in particular are recessed.The longitudinal extent of the handle body is reduced in particular towards the rear folding edge. Furthermore, the handle body and / or the further connecting element is designed to be open towards the application unit. The front of the handle body is in particular longer than the sides, so that an insertion geometry for the connecting element is formed. The stability of the handle body is achieved in particular by the folding or by the resulting framework in cross-section. An angle between the front and the sides of the base body is in particular symmetrical on the left and right, in particular between 45° and 85°, preferably between 55° and 75°. Between the sides of the handle body, the angle is in particular between 30° and 70°, preferably between 40° and 60°. The length of the handle body is in particular from 130 mm to 210 mm, preferably from 180 mm to 200 mm.The width of the handle body is, in particular at the free end, from 10 mm to 22 mm, preferably from 12 mm to 19 mm, and in the area of ​​the application unit from 5 mm to 13 mm, preferably from 7 mm to 11 mm. The height of the handle body is, in particular, from 10 mm to 20 mm, preferably from 13 mm to 17 mm, at the free end, and from 3 mm to 9 mm, preferably from 4 mm to 7 mm, in an area of ​​the application unit. The handle body is preferably made of a paper material, wood, bamboo, or a film made of a sustainable plastic component. The number of layers of the handle body in the end product is preferably from 1 to 15 layers, preferably from 1 to 10 layers. The handle body preferably consists of exactly one layer. This layer forms the layer. The number of layers depends, in particular, on the desired final thickness of the handle body. Many thin layers or a few thicker layers can be realized. The layers are preferably connected.By constructing the body in multiple layers, stability advantages are achieved compared to a body made of a single mass. The material thickness of the handle body is in particular between 0.3 mm and 1.5 mm, preferably between 0.4 mm and 0.7 mm. A single layer has a surface weight of 300 g / m². 2 up to 500 g / m 2 , preferably 350 g / m 2 up to 450 g / m 2The material thickness of the individual layer is in particular from 0.25 mm to 0.65 mm, preferably from 0.35 mm to 0.5 mm. Furthermore, a material of the handle body can be treated. For example, the handle body can have a varnish and / or print and / or a water-repellent coating and / or consist of a mixture of paper fibers and a plastic component and / or have a film made of a plastic component. This can in particular achieve an advantageous connection of the application unit to the handle unit. In particular, an advantageous connecting unit can be provided. Advantageous protection of the handle unit in wet areas can be ensured.

[0140] It is further proposed that the connecting element have a core extension which is intended to engage in the receiving area of ​​the further connecting element. Preferably, the application unit has a base body, wherein the connecting element is formed integrally with the base body of the application unit. The base body of the application unit is formed in particular by a shoe which is intended to be pushed onto one end of the handle body - of course, other forms of push-on deviating from the shoe shape can also be provided. The core extension serves in particular as a supporting geometry in the interior of the handle body. The core extension follows in particular the cross-section inside the handle body or in the further connecting element. The core extension is formed in particular by a cylinder with a triangular base.The core extension is particularly exposed on one side so that the handle body can be retracted. The core extension is particularly shorter than a sleeve of the handle body that partially encompasses the core extension. However, especially with the fixing alternatives, the core extension can also be longer than the sleeve. The sleeve of the base body lies particularly on the outside of the handle body of the handle unit. Preferably, the handle body is clamped between the sleeve and the core extension in an assembled state. Furthermore, the base body of the application unit has, particularly between the core extension and the sleeve, an interface to an arrangement of a bristle array, in particular a bristle plate. The base body of the application unit has, in particular, a receiving area for receiving a bristle plate.This makes it possible to provide, in particular, an advantageously stable and easy-to-establish connection between the application unit and the handle unit. In particular, bending of the handle unit in an area facing the application unit can be prevented.

[0141] The manufacture and / or assembly of a corresponding personal care product is carried out, in particular, by creating a blank for the handle body, in particular by punching and grooving, and then folding and securing or connecting the paper material of the handle body. The application unit can then be mounted to the handle body using the connecting element. For this purpose, the core extension is retracted into the handle body and, if necessary, locked and / or glued, possibly with an undercut.

[0142] Subsequently, a bristle plate of the application unit is produced, for example by spraying the plate, subsequently providing it with bristles, in particular in an AFT process, conventional anchor punching process, PTt process, etc. and / or for example by spraying the entire bristle plate with sprayed bristles and / or forming the bristle plate by melting the bristles.

[0143] The bristle plate can then be inserted into the receiving area of ​​the base body of the application unit. A paper material of the handle body is clamped between the core extension and the bristle plate or between the base body and the bristle plate. A connection between the bristle plate and the base body is made in particular by gluing, welding, snapping and / or riveting or other joining methods known to those skilled in the art which allow a positive and / or material connection between plastic components. At most, the connection to the handle unit is created in parallel or additionally in the area of ​​the front of the handle body. In this case, the connection to the handle body can be secured, for example, in particular by connecting the core extension and the bristle plate.This connection can be provided using the form-fitting and / or material-locking joining processes between paper material and a plastic component already described in this document.

[0144] In particular, it is also conceivable to design the support geometry of the core extension such that it has at least one protruding cam towards the front of the handle body, wherein the handle body has a corresponding recess and / or corresponding slots into which the at least one cam engages and / or snaps into place. The at least one cam can be formed by a web or a cylindrical cam. Alternatively, the formation of at least one cam on one or more sides of the core extension would also be conceivable. A connecting geometry would then no longer be realized on the front, but on at least one of the sides of the handle body, whereby a possible multi-layer design of the handle body would have to be taken into account. Furthermore, it would also be conceivable for a bristle field and / or a bristle plate to be formed integrally with the base body of the application unit.

[0145] Furthermore, it is proposed that the application unit have at least one brush head. The brush head comprises, in particular, a bristle array. The bristle array is arranged, in particular, on a bristle plate, in particular manufactured using an AFT, PTt, conventional anchor stamping process, or IMT process with conventional, extruded filaments. The bristle plate can also be formed using a bristle melt. However, a bristle plate with injected bristles would also be conceivable. In this case, the injected bristles and the bristle plate would be made from the same plastic component.

[0146] The personal care product is designed in particular as a brush, in particular a toothbrush. If the personal care product is designed as a toothbrush, the application unit in particular has a bristle field. The bristle field can in particular be attached. Alternatively, it would also be conceivable for the application unit to be riveted, wherein the bristle field is designed in such a way that the arrangement of a counter-holder in the region of form-locking elements is possible. The application unit in particular has a bristle plate. The bristle field can in this case be produced, for example, using an anchor punching, IMT, PTt or AFT process. In this case, it is also particularly conceivable for the bristle plate to be made of a paper material, wherein a connection to the connecting unit can be produced, for example, by gluing.Alternatively, it would be conceivable for the bristle plate to be made of plastic, in particular at least of a hard component, wherein a connection to the connecting unit can be made, for example, by means of welding, sealing, gluing, riveting, locking, deforming, snapping or a combination thereof. The bristle plate can in particular have a direct connecting structure, such as a rivet, for example, for a connection to the connecting unit and / or directly to the handle unit. Alternatively, however, a design of the application unit without bristle plate would also be conceivable, wherein the bristle field can still be produced using an AFT process. In this case, the molten pool (which is created on the fastening side, i.e. the side of the bristles facing away from use) can be used to anchor the bristle field. The application unit can here be connected by gluing, clamping or sealing orWelding, riveting, locking, snapping or a combination thereof with the connecting unit and / or directly with the handle unit. Alternatively, the bristles can be punched into the bristle plate by means of anchors or anchored anchorlessly in the bristle plate by means of IMT or PTt. Conventional methods in which the bristle plate is provided with bristle holes and bristles are known (e.g. anchor punching method, IMT, PTt, etc.). The application unit can be connected to the connecting unit and / or directly with the handle unit by means of gluing, riveting or sealing or welding or a combination thereof. The bristle plate can in particular have a connecting structure, such as a rivet, for a connection to the connecting unit and / or directly with the handle unit. Alternatively, the bristles can be injection-molded directly onto a base body of the application unit (ieinjected bristles made of material for injected bristles). The bristles and the application unit can be formed as a single piece. One or more material components can be used. For example, a hard component and / or a soft component and / or a material or a plastic component for injected bristles can be used. The application unit can be connected to the connecting unit and / or directly to the handle unit, for example, by means of sealing or welding, riveting, snapping, locking and / or overmolding or a combination thereof. The main body of the application unit can in particular have a connecting structure, such as rivets, for connecting to the connecting unit and / or directly to the handle unit, which is injection-molded directly onto an underside of the main body of the application unit.

[0147] The application unit advantageously has at least one cleaning unit or a brush head, in particular a toothbrush head, with bristles. The cleaning unit also advantageously has at least one bristle carrier, for example a brush head base body, in particular the base body. It is further proposed that a base body of the application unit be formed entirely from a hard component and form a bristle carrier. Alternatively or additionally, it is proposed that the personal care product have a bristle plate received by the base body, which comprises a plurality of bristles, in particular a plurality of bristle bundles. For this purpose (for example for the AFT process), bristle platelets with through-holes are first manufactured by injection molding, through which bristles are then guided.Preferably, the bristles are then connected at least in bundles on a rear side, in particular fused, preferably to one another and / or to the corresponding bristle plate. Bristle platelets provided with bristles in this way can then be connected to a base body, in particular the connecting unit, e.g. welded, sealed and / or glued, or mechanically connected by riveting, caulking, preferably by ultrasonic welding, in a form-fitting and / or material-fitting manner. For this purpose, the base body preferably has a corresponding structure for receiving / connecting, which can be used to connect the bristle plate. Alternatively, the bristle plate can be connected directly to the handle body using the connecting methods mentioned in this document, i.e. without an additional base body. Alternatively, the bristle plate can also be fitted with bristles using other methods (anchor punching, PTt, IMT, etc.).In order to achieve the best possible connection with the handle body made of paper material, appropriate procedures are mentioned in this document.

[0148] It would also be conceivable for the bristle plate to be made from a paper material, wood, bamboo, or film made from a sustainable plastic component. The bristle plate can be punched from a paper material. For this purpose, one or more layers of paper material can be provided to form the body of the bristle plate. The recesses are then formed using a punching process, cutting (e.g. laser cutting), milling / drilling, or another suitable method for processing paper material. The bristles are then connected to the bristle plate using the AFT process, which can then be fixed in the corresponding recess in the handle unit or on the handle unit.

[0149] The application unit advantageously has at least one cleaning unit, in particular a toothbrush head, with bristles. The cleaning unit also advantageously has at least one bristle carrier, for example a brush head base body. At least some or all of the bristles are advantageously conventionally extruded bristles. Bristles can in particular comprise at least one hard component and / or at least one soft component. The bristles are preferably made at least partially or completely from polyamide (PA) and / or polyester (PBT, PET, PTT), whereby any other materials (such as the hard components listed) are conceivable and sustainable materials or plastic components listed in this document, in particular degradable ones (such as PLA or PTT), are also possible. Furthermore, it is conceivable that at least some of the bristles have a tapered section and / or a variable cross-section at the use-side end.The bristles are preferably made from a single, or in particular mixed, material. However, bristles made from multiple components are also conceivable, which can be produced and / or manufactured in particular by means of at least one coextrusion. The bristles can be produced and / or manufactured, for example, by extrusion, cutting to length and / or post-processing. In contrast to injected bristles or rubber-elastic massage and cleaning elements, which are manufactured by injection molding, conventional bristles are extruded, cut, processed (e.g. their ends are ground and / or rounded) and inserted into the toothbrush handle using a customized process, such as the anchor punching process or an anchorless process.

[0150] In particular, cylindrical or pointed bristles with a round cross-section are suitable, although any other cross-sections such as polygonal, triangular, rectangular, square, elliptical, star-shaped, trapezoidal, cruciform, parallelogram-shaped, rhombus-shaped or any other cross-sections are conceivable. In particular, different bristles can be used in a bristle bundle, but also different bristle bundles, in particular each with a specific type of bristle. Bristles and / or bristle bundles can be arranged regularly or irregularly. In particular, bristles and / or bristle bundles arranged in groups and / or adjacently can differ with regard to at least one feature such as a length, a diameter, a material, a color, a material hardness, a geometry, a point and the like, in particular alternatingly.The bristles preferably have a diameter, in particular perpendicular to their longitudinal axis, of at least 0.075 mm and / or of at most 0.25 mm. Advantageously, the bristles have a cross-sectional area, in particular perpendicular to their longitudinal axis, of at least 0.002 mm. 2 and / or of a maximum of 0.2 mm 2 In the case of bristles used in the cosmetics sector, for example bristles of an additional application element, thinner bristles and / or bristles with a smaller cross-section can also be used, in particular bristles with a diameter, in particular perpendicular to their longitudinal axis, of at least 0.025 mm and / or of at most 0.2 mm and / or with a cross-sectional area, in particular perpendicular to their longitudinal axis, of at least 0.001 mm 2 and / or of a maximum of 0.15 mm 2In the case of tapered bristles, polyester (e.g., PBT, PET, PTT) is a particularly suitable material, although sustainable materials are also possible, with the tapering being achieved mechanically and / or chemically. Other materials are also conceivable. The bristles are preferably straight in the longitudinal direction; however, wavy and / or twisted and / or helical and / or twisted bristles are also conceivable in the longitudinal direction, as are, in particular, combinations of different bristles. Furthermore, bristles with a smooth surface are conceivable, as are bristles with a structured and / or textured surface.

[0151] Furthermore, the bristles, in particular as bristle bundles, are preferably processed by means of at least one anchor punching process or an anchorless process, e.g. AFT, PTt, IMT or the like, in particular are fastened to the bristle carrier. The bristle carrier preferably has a plurality of bristle receptacles, in particular holes for bristle bundles, in particular drilled and / or injection-molded. In the case of anchor punching, it is conceivable, for example, that a base body, in particular from a hard component, preferably the brush head, is first manufactured by injection molding, with blind holes for bristle bundles advantageously being formed during the injection molding. Of course, subsequent drilling of blind holes is also conceivable. Bristles or bristle bundles are preferably then folded and fastened in a blind hole by means of at least one anchor, in particular by punching.Loop punching is also conceivable.

[0152] Alternatively, as mentioned, anchorless processes (such as AFT, PTt, IMT, etc.) are also conceivable, in which case bristles or bristle bundles are advantageously not folded. In this case, bristles or bristle bundles are approximately half the length of those with anchor punching. For example, it is conceivable that the bristle bundles are initially fused individually and / or that their bristle ends, particularly subsequently, can be overmolded or fixed by means of material compaction of the brush head. In this case, bristle bundles can advantageously be brought together.

[0153] It is further conceivable for the application unit to be composed of a base body and a bristle plate which is provided with bristles and / or alternative cleaning elements. For this purpose, bristle plates with through-holes are first manufactured by injection molding, through which bristles are then passed. Preferably, the bristles are then connected at least in bundles on a rear side, in particular fused, preferably to one another and / or to the corresponding bristle plate. Bristle platelets provided with bristles in this way can then be connected to a base body, in particular to a brush head, e.g. welded, sealed and / or glued, and / or connected mechanically, by riveting, caulking, preferably by ultrasonic welding or a combination thereof.For this purpose, the base body, in particular the brush head, preferably has a recess into which the bristle plate can be inserted. Alternatively, the bristle plate can also be placed on the surface of the base body. A well-known manufacturing process in this context is the anchor-free tufting process (AFT), which in particular enables bundles of bristles to be brought together. The underside of the bristle plate is in particular a side which is placed in a recess in the base body or on the base body and points towards the back of the personal care product. Accordingly, the top side of the bristle plate points towards the front of the personal care product. The base body can consist of a hard component made of a sustainable material or a paper material. The base body preferably consists of a hard component.

[0154] Alternatively, the bristle plate can be made from a paper material or a material made from fibers, cellulose, or wood. The bristle plate made from paper material is provided with an edge region outside the bristle field, which is coated with a bonding agent such as sealing wax, glue, or similar, and which enables the bristle plate to be sealed or anchored to a handle unit or a base body, e.g. made from a paper material, a hard component, a sustainable material, or a plastic component. In this case, the edge region in particular is connected to the handle unit or the base body. Furthermore, the edge region of the bristle plate can also be provided with an effective shoulder, so that a recess is formed on the back of the bristle plate. This recess ensures that the melt of the bristles does not extend beyond the edge of the bristle plate or cover the edge region.

[0155] A bristle plate made of paper, wood, bamboo, or foil made of a sustainable material or plastic component is formed from flat paper, wood sheets (e.g., veneer), or foil using a suitable process. Possible processes include punching, laser cutting, or cutting. The flat area of ​​the bristle plate has a thickness of 0.1 mm - 3.0 mm, preferably 0.3 mm - 2.0 mm, and particularly preferably 0.5 mm - 1.5 mm.

[0156] Alternatively, a bristle plate can be manufactured together with the bristles / cleaning elements, preferably as a single piece. Everything (e.g., brush head and / or holder for a bristle plate and / or bristle plate and / or bristles) can be manufactured in a single injection molding process. Preferably, material or a plastic component for injection-molded bristles is used for this purpose. A hard component and / or a soft component can also be used. This bristle plate can also be connected to the base body using the various joining techniques mentioned in this document, for example, by gluing, sealing, welding, caulking, riveting, or a combination thereof.

[0157] Alternatively, the production of a bristle-covered element without bristle plates can be provided. The production or bristle-covering of this element is similar to the production of a fitted bristle plate. Bristles are provided in the required configuration and fused at their attachment ends. In this case, the fusion must be such that a molten carpet of the bristle component forms over all bristle bundles and any other elements, forming a bristle plate. The bristle-covered element is then mounted on a brush body / base body or connected to it. In one design variant, the element is not equipped with an additional, separately manufactured bristle plate, but is inherently stable thanks to its own molten carpet, with the molten carpet forming the bristle plate.The molten carpet is formed from the fused ends of the bristles on the attachment side. The molten carpet essentially forms a surface or plate and thus serves as the basis for the connection to the base body. The molten carpet can also be shaped to include connecting elements in the form of projections, rivets, combs, or other form-fitting elements. The molten carpet with the bristle bundles can be manufactured using AFT or another anchorless bristle-forming process. This element can also be connected to the base body using the various joining techniques mentioned in this document, for example, by gluing, sealing, welding, caulking, riveting, or combinations thereof. The base body can be provided with a recess so that the molten carpet can be countersunk into it.In order to achieve the best possible connection with the handle body made of paper material, appropriate procedures are mentioned in this document.

[0158] Instead of a bristle plate, the bristles / cleaning elements can also be injected directly onto the base body.

[0159] Another possible method for anchorless bristle application is the production, in particular injection molding, of a brush head with through holes for bristles. Bristles can then be guided through the through holes and fused on a back side, in particular to each other and / or to the brush head. Preferably, the fused areas and / or the brush head are then overmolded, in particular with at least one soft component.

[0160] As an alternative to a separate bristle plate, the bristle plate is formed as part of the base body or is integrally connected to it. Similarly, the brush head in this variant is also provided with through holes as a possible design variant. In this case, the bristles can also be guided through the through holes and fused at least in bundles on the back, particularly with each other and / or with the brush head.

[0161] It is also conceivable to first produce a brush head with blind holes, for example by injection molding and / or by drilling the blind holes and / or by cutting / punching. In this case, bristles are in particular gathered into bundles and fused and / or otherwise connected at one end. The brush head is subsequently heated and / or moistened with water or steam. Bristle bundles can then advantageously be inserted into the blind holes on the connected side and anchored by pressing or compressing the brush head. In particular, the heated and / or moistened blind holes or the brush head deform or compress, so that the bristle bundles are anchored therein. At the same time, the brush head can also be deformed. This process can be used for hard components, preferably by means of additional moistening, but also for paper materials or wood.

[0162] Preferably, during an injection molding process, in particular a two-component and / or multi-component injection molding, the materials of injected bristles do not form a material bond with other soft components and / or hard components and / or paper material and / or wood and / or bamboo and / or other materials of the personal care product. Rather, injected bristles are preferably connected to soft components and / or hard components by means of a positive connection, for example by means of at least one undercut and / or at least one opening in the base body of the application unit and / or by means of at least partial overmolding, wherein a shrink connection and / or a shrink connection are particularly conceivable.Furthermore, during overmolding, the plastic can additionally or alternatively penetrate at least partially into the surface of the paper, wood or bamboo material due to the heat and injection pressure and / or at least roughen it, thus creating a strong bond.

[0163] However, a connection by means of at least one material connection, in particular with affine or compatible plastic materials or components, is also conceivable.

[0164] Another possible method for providing the brush head with bristles is twisting. Here, for example, filament is fed in from a roll, with several filament strands being wound onto a roll. Several rolls are pre-tensioned for machine feeding, because each filament in the brush corresponds to a filament strand. The filaments are spread out correctly in width so that they have the width at which they are fed into the brush. The filaments are pre-pulled so that they are free for the next step, i.e. so that a wire can be fed over them. A wire is then fed from a roll onto the machine, i.e. unwound and introduced into the process. The wire is cut to a length that is greater than the unwound length of the twisted-in brush, and the final cutting to length takes place after twisting.The wire is bent into a U shape so that the open end can be pushed over the filaments to thread the bristles. The wire is held at the bottom of the U. The open end of the wire is then clamped to hold the filaments between the wire pieces. The filaments are cut to a length greater than the final length in the brush so that the brush can be cut correctly once the filaments are twisted in. The wire is twisted so that the filaments are clamped between the wire and thus secured. Once the filaments are secured in the wire, they are cut to the correct length and profiled. Once the brush section is finished, the excess wire is trimmed off. The application unit thus produced, a twisted-in brush, can in turn be connected to the handle body / handle unit using the appropriate fasteners.

[0165] For all of the aforementioned possible injection molding processes, single-, two-, and / or multi-component injection molding is conceivable. Materials used, in particular different soft components and / or hard components and / or material for injected bristles, can, as mentioned, be bonded and / or formed. The formation of articulated, movable, or flexible connections using suitable injection molding steps is also conceivable. For example, hot runner processes, cold runner processes, and / or co-injection processes are generally possible.

[0166] Alternatively or in addition to a brush head equipped with bristles, the application unit can also comprise at least one tongue cleaner and / or at least one alternative cleaning and / or massaging element. These can each be formed from a soft component, a hard component, or a combination of soft and hard components and / or can advantageously be manufactured and / or produced by injection molding.

[0167] Material or plastic component for injected bristles: Preferably, injected bristles are made at least partially, and advantageously completely, from a thermoplastic polyurethane elastomer (TPE-U). In this case, the use of a modified polyurethane elastomer (TPE-U) is conceivable, which can be modified in particular with regard to improved flow properties and / or rapid solidification, in particular rapid crystallization, advantageously even at higher temperatures. Of course, other materials for injected bristles are also conceivable, for example thermoplastic polyester elastomers (TPE-E), thermoplastic polyamide elastomers (TPE-A), polyethylene (PE), for example in the form of low-density polyethylene (LDPE) or linear low-density polyethylene (LLDPE), or the like. Depending on the desired bristle properties, the listed hard components orSoft components serve as material for injected bristles.

[0168] Materials for injected bristles advantageously have a Shore D hardness of at least 0, and particularly advantageously of at least 30 and / or of at most 100, and advantageously of at most 80. In particular, the Shore D hardness of an injected bristle material is advantageously higher than the Shore D hardness of other soft components used, for example, for grip elements, massage elements, other cleaning elements, or the like. The materials used for the production of injected bristles can be sustainable materials or plastic components.

[0169] In principle, the use of water-soluble polymers is also conceivable, for example for hard components, soft components, injected bristles, tongue cleaners or other elements of the personal care product.

[0170] Likewise, sustainable plastic components or bioplastics can be used for the hard component, the soft component, and / or the material for injected bristles. These can, in particular, be obtained at least partially from renewable raw materials and / or can be biodegradable, in particular compostable, and / or can consist of a recycled and / or recyclable material. Preferably, the material is formed, in particular, from a plastic. Preferably, the biodegradable, in particular compostable, and / or recycled and / or recyclable material is formed from a bioplastic, in particular from a plastic based on renewable raw materials and / or from a biodegradable plastic.The material can therefore be, in particular, fossil-based and biodegradable, such as PVOH, PCL, PBAT, PET, or PBS; based on renewable raw materials and biodegradable, such as PLA, PHA, cellophane, or starch blends; or based on renewable raw materials and non-biodegradable, such as Ca, Bio-PE, Bio-PP, Bio-PA, or Bio-PET. Various bioplastics that would appear appropriate to a person skilled in the art are conceivable, such as starch-based bioplastics, cellulose-based bioplastics, polyhydroxyalkanoates, such as, in particular, polyhydroxybutyric acid (PHB), polylactic acid (PLA), aliphatic and / or aromatic copolyesters, or other bioplastics such as, for example, lignin-based bioplastics. Preferably, the application unit or handle unit can consist largely of a biodegradable, in particular compostable, and / or recycled material.Preferably, the personal care product consists of only one component. In particular, the personal care product has a hard component. The material handle of the handle unit can consist at least partially of the hard component. The hard component and / or the soft component and / or the material for injected bristles advantageously consists of a bioplastic, which can in particular be obtained from renewable raw materials. Suitable raw materials include, in particular, corn, hemp, sugar, castor oil, palm oil, potatoes, wheat, sugar cane, rubber, wood, the castor oil plant / castor bean, and the like. Possible base materials could be, for example, cellulose, starch, lactic acid (PLA), glucose, chitin, chitosan, or the like, from which corresponding bioplastics can in particular be synthesized.

[0171] It is further proposed that the application unit comprise at least one blade head. In an embodiment of the personal care product as a razor, the application unit comprises, in particular, a blade head, wherein the blade head can be manufactured either directly connected to the connecting unit or designed to be replaceable, wherein the replaceable mounting of the blade head takes place on the connecting unit. Preferably, the application unit is formed at least partially in one piece with the connecting unit. The connection can be designed to be rotatable. Preferably, in an embodiment of the personal care product as a razor, several anchoring points are provided between the connecting element and the handle unit or the further connecting element.Three connection options are particularly conceivable, either individually or in combination: riveting, clamping, and / or lateral holding. Additionally or alternatively, gluing, welding, lamination or sealing, overmolding, or other connection techniques mentioned in this document are also conceivable. To ensure the best possible connection with the paper-based handle body, appropriate processes are described in this document.

[0172] A universal interface design allows for easy model changes, so that one connecting unit with application unit can be used for different handles. The different handles can in turn be combined with the same connecting unit. If the personal care product is designed as a razor, the handle body is preferably made of paper, wood, bamboo, or film made from sustainable materials or a plastic component. The number of layers of the handle body in the end product is preferably between 1 and 10 layers, preferably between 1 and 5 layers, which form a layer. The handle body preferably consists of exactly one layer. The number of layers depends in particular on the desired final thickness of the handle body. Many thin layers or a few thicker layers can be realized. The layers are preferably connected.Implementing the body in multiple layers results in stability advantages compared to a body made of one or fewer layers. The material thickness of the handle body is typically between 0.3 mm and 1.5 mm, preferably between 0.4 mm and 0.7 mm. A single layer has a surface weight of 300 g / m². 2 up to 500 g / m 2 , preferably 350 g / m 2 up to 450 g / m 2The material thickness of the individual layer is in particular from 0.25 mm to 0.65 mm, preferably from 0.35 mm to 0.5 mm. Furthermore, a material of the handle body can be treated. For example, the handle body can have a varnish and / or print and / or a water-repellent coating and / or a film made of plastic component laminated on one or both sides or can be made from a mixture of paper fiber and plastic component. The handle body with the further connecting element consists in particular of a blank for folding. In the assembled or connected state, the handle body forms in particular a triangular cross-section. For this purpose, at least two legs of the triangular cross-section in the end product are preferably at least partially double-layered. At least one, in particular both, of the double layers are connected, in particular glued, but in particular at least the outer double layer.The folds and grooves of the handle body are designed in particular in such a way that, on the one hand, the actual handle is formed and, on the other hand, the one connecting element is fixed. The handle body tapers towards the free, lower end. The handle body forms, at least in sections, a hollow pyramid with a triangular cross-section. The stability of the handle body is achieved in particular by the folding. The fixing of the connecting element to the handle body or the further connecting element is carried out in particular by form-fitting. Alternatively or additionally, fixing by adhesive would also be conceivable. Other connection methods mentioned in this document can also be used. If the personal care product is designed as a razor, the connecting element of the connecting unit is designed in particular to be voluminous, i.e., rather less flat. The connecting element can be either lattice-like, i.e.with empty spaces inside or from a solid material. A lattice-like design of the connecting element is particularly preferred in order to keep the material usage low. The connecting element preferably consists of a plastic component, in particular of a hard component. Alternatively, however, other sustainable materials such as wood or sustainable plastic components are also conceivable. The materialization of the connecting element is particularly such that the interface to the blade head functions disposable or reusable. The material of the connecting element is preferably such that it is disposable or reusable. Furthermore, the materialization and / or the connecting element can comprise the removal / detachment of the blade head for separation into different waste streams for disposal, recycling, composting or reuse.In the assembled state, the connecting element is preferably at least partially wrapped around by the handle body on three surfaces. The connecting element is particularly intended to support the handle body from the inside and to connect the handle body to the blade head so that the latter cannot be crushed or accidentally separated (e.g. during use). The connecting element particularly has a plurality of contact surfaces for the handle body. A first contact surface is arranged on the upper side. On this side, the connecting element particularly has an insertion groove and a locking comb for connection to the handle body. The first contact surface particularly has a circumferential size, with recesses not removed, of 500 mm. 2 up to 850 mm 2 , preferably 600 mm 2 up to 750 mm 2A second and third contact surface are particularly symmetrical to the handle's longitudinal axis. The second and third contact surfaces particularly converge or are at an angle to each other. The second and third contact surfaces can be provided with recesses and are located at an angle of 25° to 75°, preferably 35° to 55°, to the first contact surface, wherein the angles are identical but opposite each other. The second and third contact surfaces each have a circumferential size, with recesses not deducted, of 100 mm. 2 up to 180 mm 2 , preferably 110 mm 2 up to 150 mm 2The connecting element is particularly designed to be inserted into the recess of the handle body and locked into place during assembly. When assembled and fixed, the handle body holds the connecting element and thus the application unit. In one design variant, the connecting element and the handle body or the additional connecting element have no material connection; they simply rest against one another or there is a positive connection. However, it would also be conceivable for additional bonding or welding to be provided. Other joining methods mentioned in this document can be used.

[0173] The handle body may have recesses that serve as a mechanical connection by means of a form-fitting connection. These recesses can serve to create haptic elements, for example, made of a plastic component, on the razor. These are preferably formed in the front area of ​​the handle body in the area of ​​the contact surfaces at the top, bottom, and / or sides.

[0174] The blade head is mounted, in particular, via a standard interface to the connecting element or the base body of the application unit. The connecting element is, in particular, formed as a single piece with the base body of the application unit.

[0175] The manufacture and / or assembly of a corresponding personal care product, which is designed in particular as a razor, is carried out in particular by creating a blank for the handle body, in particular by punching and grooving, and then folding and connecting or fixing, in particular by gluing, sealing, or welding, the handle body. The application unit can then be mounted or snapped onto the handle body by inserting it into the handle body using the connecting element. For this purpose, the connecting element is retracted into the handle body and, if necessary, locked into place. The blade head can then be mounted or pre-mounted with the connecting element or the base body of the application unit.

[0176] An alternative assembly could also be designed such that the blank for the handle body is prepared, in particular by punching and grooving. The connecting element is then fixed to the blank of the handle body using the joining methods already mentioned in this document, and the blank of the handle body is subsequently folded and fixed to form the handle body. The blade head can then be mounted or pre-assembled with the connecting element or the base body of the application unit. Alternatively, it would also be conceivable for the connecting element to be injection-molded onto the handle body instead of being inserted into the handle body. Furthermore, disassembly can be possible using a pull-off tab.In particular, a pull tab can be provided on the handle body so that the handle body can be opened and the connecting element and / or the base body of the application unit can be removed, and the parts can be disposed of separately. Simple separation, such as breaking, tearing, cutting, or the like, along the handle's longitudinal axis without the need for tools, is also possible.

[0177] The handle unit, in particular the handle body, preferably has deformations. The aim of the deformations is, in particular, to improve grip, ergonomics, and / or stability of the handle body. The handle body preferably has four zones or regions, each of which can have deformations separately or in combination. For example, deformations of the handle body can be provided in a first zone, namely in the interface to the application unit. For example, deformations are conceivable in the interface to an interdental brush head of the application unit or at a fixing location of a bristle field of the application unit. In another example, deformations are carried out on the connecting unit or the handle unit of a personal care product designed as a razor (e.g., a blade razor, a dermaplaning razor, etc.).Other possible zones are a second zone in the neck area, a third zone in the grip area and a fourth zone in the end area. With a flat design of the handle body or a zone of the handle body, a high level of flexibility can be achieved, while stability can be increased through deformation. The paper material can generally be easily bent. In particular, flexible areas of the handle body can be specifically designed. A flexible part can be free of deformations or only have deformations that support flexibility. Reinforcements in the form of deformations can then be provided after the area that enables flexibility. For example, transverse grooves to increase flexibility are possible.

[0178] Various deformations that would appear sensible to a person skilled in the art are conceivable. For example, it is conceivable that a cylindrical handle body is subsequently deformed. In particular, the handle body is compressed at least partially or entirely. In one embodiment, the outer surface of the cylindrical handle body in particular can be deformed over a large area. This allows the handle body to be designed in a more free-form manner and moves away from the original, cylindrical shape. In particular, a compressed handle body can be created with a smaller cross-sectional area at defined points. For example, a handle body with a round cross-section can be created with a flattened cross-section, possibly combined with round cross-sections. Various orientations and positions are conceivable for compressing or crushing the handle body.In this way, the handle body can be deformed, in particular all the way around in the circumferential direction. Alternatively or additionally, only one-sided deformation would be conceivable, for example by compressing only one side of the base body while a second side remains round. For deformation, in particular the part of the handle body that remains round is inserted into a corresponding holding structure. Alternatively or additionally, two-sided compression would also be conceivable. The handle body is compressed from two sides that are aligned 180° opposite each other in the circumferential direction. Alternatively or additionally, three-sided compression would also be conceivable. The handle body is compressed from three sides, whereby regular or irregular triangular or triangular-like cross-sections can be created. Alternatively or additionally, four-sided or x-sided compression of the handle body would also be conceivable.Examples of applications for such deformations include the formation of a thumb grip, the formation of an exit geometry for a twisted-in brush of the application unit, or the general rounding of cut surfaces on the handle body. The exit geometry for a brush head of the application unit can be created, for example, by pressing the head area into a cone, particularly conically or triangularly, or by simply rounding the edges of a cylindrical handle body so that the transition to the application unit is less angular and distinctive. By pressing the cut edges, the edges can be made less sharp.

[0179] In one embodiment, holding structures and / or surface structures can be formed on the handle body, in particular by pressing them in. This is achieved in particular by partially deforming the handle body. The partial deformation can also be combined with large-area deformation, particularly since the tools for carrying out the large-area deformation can also include surface structures. The partial deformations preferably serve to create a surface structure. Possible forms for surface structures include holding points, for example in the form of protruding knobs, or raised or countersunk grooves.

[0180] The two described deformation designs (partial or large-area) can be used individually or in combination. Concrete examples of deformations for cylindrical handle bodies, which can also be combined, include the formation of a waist. For example, the handle body can be waisted in the third zone. Alternatively or additionally, a thickening can be provided in the middle, each with thin ends. For example, the first, second and fourth zones can be slim, in particular through deformation, while the third zone is less deformed. The thickening in the middle serves in particular to improve gripability. For example, the thickening can serve as a thumb grip or holding geometry for the handle body.Alternatively or additionally, it would also be conceivable for the head region of the handle body, in particular the first zone, to be designed to taper conically, in particular when the personal care product is designed as an interdental brush. Alternatively or additionally, it would also be conceivable for the first zone to be designed to be thinner. Alternatively or additionally, it would also be conceivable for the end region, in particular the fourth zone, to be designed to taper off, in particular towards its free end, which is opposite the application unit. Alternatively or additionally, it would also be conceivable for cutouts to be provided to widen the handle body. For example, the handle body could have a cutout in the third zone and be wider than the rest of the handle body. Alternatively or additionally, it would also be conceivable for both ends of the handle body to taper. For example, the first and fourth zones can be designed to taper.In particular, the free end of the fourth zone is wider than the end at the application unit.

[0181] A deformation of the handle body occurs, at least in the case of a design of the personal care product as an interdental brush, in particular after the application unit has been fixed to the handle unit.

[0182] Furthermore, flat handle bodies can also be advantageously deformed. In one embodiment, a flat handle body can advantageously be provided with partial structures on the surface by deformation. The deformations can be used in particular to improve the ergonomics of the handle, to create holding structures for an application and / or to stabilize the handle body. The structures in particular form a depression on one side and a raised area on the other. It would also be conceivable for several structural elements to have different directional orientations, in particular of the depression or raised area. The structural elements are not necessarily all oriented in the same way and do not necessarily have the raised area on the same side. However, a embodiment would also be conceivable in which all structural elements have raised areas in the same direction.Alternatively, a design would also be conceivable in which the structural elements alternately rise towards the front and back. Alternatively or additionally, a longitudinal orientation of the structural elements would also be conceivable, for example in the direction of the longitudinal axis of the personal care product, perpendicular to the longitudinal axis of the personal care product, or at variable angles. When designing the structural elements, it must be taken into account that the structural elements should promote stability. To ensure that the load on the application unit does not lead to buckling due to the structure, the structural elements must be tailored to the application unit. Alternatively or additionally, it would also be conceivable for lettering to be created by deformation. The lettering can be pressed into the handle body so that the lettering is embossed rather than printed.The handle body can only be changed by modifying the stamping tool, while the rest of the production remains unchanged.

[0183] The handle body can be pressed during the deformation process, effectively compressing it. Furthermore, structuring, such as roughening or laser engraving, can be incorporated.

[0184] Various deformations are conceivable for flat handle bodies. For example, a deformation of the first and second zones can occur, particularly in the area of ​​an inserted cleaning element carrier. The deformation occurs in particular in such a way that the cleaning element carrier is plastically deformed on and / or in the handle body. Furthermore, the handle body can be deformed in a curved manner. For example, the first zone can be flat, the second zone can be curved towards the rear, the third zone can be curved towards the front and the fourth zone can be tapered. Furthermore, the deformation can deliberately form depressions. For example, at least one depression or elevation can be provided in the first and / or second zone, which, for example, in the case of a raft, extends in the area of ​​the arms to the end of the arms in order to prevent kinking directly after the structures.Alternatively or additionally, a depression or elevation can be provided in the third zone. Alternatively or additionally, compression can also be performed in the fourth zone, with the end region being deformed, in particular pressed, to resemble a toothpick.

[0185] In the case of flat handle bodies, deformation of the handle body can occur particularly after the application unit has been fixed to the handle unit. Alternatively, the deformation can occur while the application unit is being fixed. For example, the deformation can occur during sealing, as is the case with interdental brushes. In this case, the paper material in particular is deformed all around. The deformation can also be used to fix the application unit. Furthermore, deformation in the injection molding tool is also conceivable, for example in the case of floats. The deformation takes place during injection molding and / or when inserting into the injection molding tool. Alternatively, the blanks for the handle body can be formed before the application unit is fixed.

[0186] Various means for improving the connection between the application unit and the handle unit are conceivable. For example, in the case of twisted-in brushes, the fixation can be improved by deforming the cleaning element carrier. This deformation is particularly useful for sealed or over-molded twisted-in brushes. To prevent the wire of the cleaning element carrier from being twisted out of the handle, a deformation in the cleaning element carrier is preferably provided. This makes it more difficult for the wire to be pulled longitudinally out of the handle body or the connecting element. In particular, a geometry should be created that protrudes from the direction of stress in order to improve the hold. In particular, a positive connection should be created. For optimal hold, the cleaning element carrier should deviate from the longitudinal axis by 0.5 mm to 5 mm, preferably by 1 mm to 3 mm.Various shapes of the cleaning element carrier's end are conceivable. The cleaning element carrier can have a bend of 20° to 90° at the end of the wire. The cleaning element carrier can have a dent in a central part of the fixing area. Furthermore, the cleaning element carrier can form a hook at the end of the wire, in particular with a 180° bend.

[0187] Furthermore, improved fixation of the brushes can be achieved by improved bonding of the various plies and layers. For example, a combination of sealing and adhesive can be used. Hot melt, in particular, can be used for reinforcement. Furthermore, the brush can be specifically fixed in the deformed areas using adhesive. Bonding the paper material by sealing results in a pull-out force of the interdental brush of approximately 20 N. By using adhesive in the deformed areas of the interdental brush, the pull-out force can be significantly improved, in particular to the point where the wire of the cleaning element carrier breaks. Natural adhesive or hot melt can be used as adhesives. Furthermore, the adhesive can be applied partially in addition to the sealing wax or just directly to the wire.

[0188] In particular, various manufacturing variants are conceivable for flat handle bodies. Preferably, to produce the handle body, paper is layered. The paper is provided with sealing wax. The application unit, in particular an interdental brush, is fixed between the layers. In particular, two layers of paper are provided on each side of the application unit. All layers are then sealed together. For this purpose, the sheets of paper are stacked and aligned with the application unit. This is followed by sealing and pressing. The handle unit is then punched. In addition, the paper or wood material can be pretreated. For example, lettering or structures can be applied by lasering. Alternatively or additionally, the handle unit can be colored, for example by dipping it in color or by printing.Alternatively or additionally, roughening or scoring can be used to create holding structures that improve surface grip. Alternatively or additionally, scenting can be applied. Furthermore, post-treatment, particularly of the handle body, can be carried out. For example, the handle body can be fully punched out. It would also be conceivable for the handle bodies to be simply punched out to form sheets made up of several handle bodies. The body care products can still be connected and lined up by not punching them out 100%, so that the customer can tear off individual body care products. Furthermore, the deformation described can be carried out as post-treatment. Furthermore, some of the processes listed as pre-treatment can also be carried out as post-treatment.

[0189] It would also be conceivable for the personal care product to feature molded-on elements. The molded-on element could serve to secure other components, such as an interdental brush or dental floss, or directly form a functional part, such as nubs for holding the handle body or tongue elements. The tongue cleaner element could be formed by a tongue cleaner edge in a wooden or paper handle or by nubs for tongue cleaning.

[0190] Furthermore, various variants for fixing the application unit to the handle unit by means of the connecting unit are conceivable, which would appear sensible to a person skilled in the art. In one embodiment, fixing can be effected by means of rivets and flanging, in particular a flanged edge. For fixing by means of rivets, holes are created in particular in the head region of the handle body. Punches with a roof-shaped recess and / or with a cutting edge that is corrugated in the circumferential direction are used in particular for this purpose. The punch is higher, in particular on the outside of the hole than on the inside. The punch is in particular analogous to the punch of an office hole punch. During punching, the punched-out material is pushed through, in particular, from the outside to the inside. The shape of the punch is particularly important with regard to cracking in wood-based materials.Alternatively, it would also be conceivable for fixing to take place by means of rivets and / or a flanged edge, whereby no through hole is provided in the handle body. For this purpose, the handle body has, in particular, a recess in a connection area, into which the at least one rivet of the connecting unit engages. To form a connection, the at least one rivet is heated and mounted or pressed onto the handle body. The rivet is deformed into the recess. The rivet becomes a barb. At the same time, the edge of the connecting unit, in particular of the connecting element, is flanged. The interaction of the flanged edge and the pressed-in rivet holds the parts together. The particular advantage here is that no hole is required in the handle, which means fewer cracks and less breakage, particularly with wooden handle bodies.

[0191] Flanging is also another possibility for covering the cut edges of the paper material or for protecting the user from a potentially sharp cut edge of the paper material. Furthermore, the invention relates to a personal care product, in particular an oral hygiene product, comprising at least one application unit, at least one handle unit, which has at least one material handle body that consists at least partially, in particular at least largely, of a paper material, and a connecting unit via which the application unit is connected to the handle unit.

[0192] It is proposed that the application unit is formed at least partially in one piece with the handle unit. The application unit and the handle unit are preferably formed in one piece. The application unit preferably consists at least largely of a paper material. The application unit consists, for example, entirely of a paper material. Preferably, the application unit and the handle unit are made of the same material. Alternatively, it would also be conceivable for the application unit and the handle unit to consist at least partially, in particular entirely, of a wood material. Preference is given to a flat, sustainable material, such as in particular wood, preferably wood veneer, e.g. made of birch, beech, oak or the like, or bamboo.It is further proposed that the application unit is formed integrally with the handle unit, wherein the application unit consists at least partially, in particular at least to a large extent, of a paper material.

[0193] Furthermore, it is proposed that the material handle body of the handle unit be folded into a polygonal or prismatic shape in a cross-section perpendicular to a main extension direction. Such shapes can also include truncated versions or a truncated cone. For the handle design, paper layers can be made multiple times, for example, in double layers. This provides, in particular, greater stability. However, not all sides need to be made multiple times; only certain sides can be made multiple times. The layers can be connected using adhesive or a plug-in connection.

[0194] It is further proposed that the material handle body of the handle unit has at least two tabs, wherein the material handle body is detachably held in the polygonal or prismatic shape by means of the tabs. Preferably, a double layer of the handle body is formed via the tabs. Preferably, the double layer is connected via a plug-in connection. Preferably, the handle body has a rear wall and an inner rear wall, wherein the tabs are arranged in the rear wall and the inner rear wall. Preferably, the tab of the rear wall is intended to engage through the tab or through a punched portion of the tab of the inner rear wall. In particular, the larger tab of the rear wall is inserted through the tab or through the punched portion of the tab of the inner rear wall, so that the parts are held together. Preferably, the tabs are each produced by arcuate punchings and / or slits.

[0195] The invention further relates to a method for producing the personal care product. It is proposed that in a provision step the handle unit is provided with the further connecting element of the connecting unit and in a connection step the application unit is connected to the handle unit via the connecting element of the connecting unit by overmolding. For overmolding, a handle body of the handle unit is preferably inserted into a cavity of an injection molding tool for producing the connecting element and / or the application unit. The cavity can be designed in particular for individual handle bodies or for inserting the handle body in an arc. A tool for individual handle bodies entails in particular a complicated shape with more geometry, which holds the handle body in position.In particular, the tool must hold the handle body in a curved area, at various positions on the side, and in the end area opposite the dental floss thread. For a tool for inserting multiple handle bodies in a curved area, the tool requires holding geometries for holding the handle body in the curved area and for holding it in the area of ​​the later end areas opposite the dental floss thread. A paper material of the handle body must be held firmly in the cavity and must not shift due to injection pressure. Therefore, the tool has a tapered geometry, particularly for sealing the cavity against the paper material in the area of ​​the handle body arms, through which the handle body material is slightly compressed during insertion and closing with preload. When "compressed" during insertion with preload, at most a required rounded edge can be achieved without any additional steps.

[0196] For products with a handle body that is not flat, overmolding can be carried out in particular by inserting a flat, non-preformed blank into the injection mold and forming it when the injection mold is closed. Alternatively, it would also be conceivable for the blank to be inserted already preformed. The injection molding process is carried out in particular using a hot runner sprue system or a cold runner sprue system. With a cold runner sprue system, a channel recess leads from the needle to the float, which is filled with the plastic component for the cold runner sprue during the injection molding process and thus serves the cavities. A resulting cold runner sprue therefore remains on the personal care product when the personal care product is removed from the mold. Various positions that a person skilled in the art would consider sensible for the injection point on the product are conceivable. A position at or near the thread is particularly preferred.The melt temperature for processing is in particular between 150°C and 290°C, preferably between 190°C and 250°C. The dental floss thread, in particular the dental floss, is preferably made of polyamide (PA) and has a melting point of approximately 220°C. The plastic material of the connecting element is preferably polypropylene (PP) with a melting point of approximately 170°C. Polyamide therefore has a higher melting point than polypropylene. During the injection molding process, pressures of 600 bar to 1500 bar, preferably 800 bar to 1300 bar, prevail.

[0197] Furthermore, it is proposed that, in the provision step, several handle units for producing several personal care products are provided in a continuous manner from at least one paper sheet. The injection molding tool is designed, in particular, to accommodate the entire paper sheet. This enables, in particular, an advantageously good seal. In particular, slipping of individual handles can be prevented. Furthermore, easy handling can be enabled.

[0198] It is further proposed that the handle units are separated from one another in a separating step following the connecting step. After overmolding, the paper sheet can in particular be removed from the injection mold and punched. Punching can take place inline or offline after overmolding, i.e. directly linked or not linked. Punching comprises in particular the following steps. In a first step, the dental floss thread, in particular the dental floss, is punched out and the ends of the dental floss thread are singed. The separation between personal care products and at the ends is carried out in particular with a punching knife. Alternatively, it would also be conceivable for separation to take place by burning or singeing rather than cutting. The singeing of the ends of the dental floss thread is carried out in particular by means of heat in a contact-free manner. The heat is generated in particular by means of hot air or by means of the waste heat from a heated rod.The singeing process creates a ball-like structure at the end of the dental floss, which helps hold the floss thread in place. The floss thread is therefore less likely to be torn out of the base body. The ball-like structure is embedded, in particular, between the connecting element and the handle body. This means that the ball-like structure does not protrude and does not interfere with use. The temperatures for singeing are generally between 200°C and 280°C, preferably 220°C and 260°C. During singeing, the personal care products are particularly still held in the arch to enable easier handling and thus more precise positioning. Subsequently, a sprue is removed in a further step. In particular, the plastic sprue system is punched out. Furthermore, sprue finishing, for example, through heat treatment, can be carried out. The sprue is removed as late as possible, as it holds the entire construct together.In a next step, the handle body is completely punched out. This can involve punching out the entire handle body or just the remaining holding points.

[0199] It is further proposed that in the provision step a coherent dental floss thread, in particular a dental floss, is provided for several application units and inserted into an injection mold. In the provision step, in particular the handle body and the dental floss thread are provided and inserted into the injection mold. The distance between the dental floss thread and the handle body is in particular from 0.2 mm to 3 mm, preferably from 0.35 mm to 0.8 mm. The number of handle bodies next to one another in the injection mold is in particular from 2 to 20, preferably from 4 to 12. The length of the drawn-in dental floss thread over the personal care products, in particular flossers, is in particular from 100 mm to 800 mm, preferably from 140 mm to 500 mm. The dental floss thread extends in particular over several flossers, including pieces between the flossers and at the end.Part of the length is required, in particular, merely to hold the dental floss thread during injection molding and prior / subsequent movement. In the injection-molding tool, the dental floss thread is held and / or guided, in particular, in a groove. The dental floss thread is generally held at the ends, in particular outside the tool, and the dental floss thread is received taut in the tool. In each of the described aspects or embodiments, the present disclosure comprises a personal care product, in particular a razor or a product, which has at least one application unit and at least one handle unit. The at least one handle unit comprises at least one handle body. The at least one handle body consists at least partially of a paper material.The connecting unit establishes the connection between the application unit and the handle unit, or in other words, the application unit is connected to the handle unit via the connecting unit.

[0200] In each of the described aspects or embodiments, the connecting unit comprises at least one connecting element. The at least one connecting element of the connecting unit is intended to engage with another connecting element connected to the at least one handle unit. The connecting element of the connecting unit consists at least partially of a polymer, such as a plastic, a bioplastic, a biomaterial, a recycled plastic, or combinations thereof. Such polymer materials can include both virgin polymers (e.g., virgin plastics that can be recycled, virgin bioplastics, virgin biomaterials, etc.) and mixed polymers (e.g., mixed virgin and recycled plastics).

[0201] In each of the described aspects or embodiments, the present disclosure comprises a personal care product, in particular a razor or a dermaplaning product, having at least one application unit and at least one handle unit. The at least one handle unit comprises at least one handle body. The at least one handle unit, including the at least one handle body, is made at least partially of a material consisting of wood or bamboo. The personal care product, such as a razor or a dermaplaning product, comprises a connecting unit for connecting the application unit to the handle unit. In other words, the application unit is connected to the handle unit via the connecting unit.

[0202] In each of the described aspects or embodiments, the connecting unit comprises at least one connecting element that can be engaged with at least one further connecting element, in particular a handle connecting element, which is connected to the at least one handle unit. The connecting element of the connecting unit can consist at least partially, in particular at least to a large extent, of a polymer, in particular of a plastic, a bioplastic, a biomaterial, a recycled plastic, or combinations thereof. Such polymer materials can include both new polymers (e.g., new plastics that can be recycled, new bioplastics, new biomaterials, etc.) and mixed polymers (e.g., mixed new and recycled plastics).

[0203] In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, comprises a connecting element of the connecting unit, which may be at least partially formed integrally with the application unit.

[0204] In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, comprises a further connecting element which may be formed at least partially in one piece with the at least one handle unit.

[0205] In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, comprises a connecting element of the connecting unit, which can be at least partially materially connected to the further connecting element, in particular the handle connecting element. The further connecting element can be at least partially made of a paper material.

[0206] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a further connecting element, which may be at least partially formed integrally with the at least one handle unit, which is overmolded with the at least one handle unit.

[0207] In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting element of the connecting unit made of a hard plastic, bioplastic, biomaterial, recycled plastic, or combinations thereof. Such polymer materials may include both virgin polymers (e.g., virgin plastics that can be recycled, virgin bioplastics, virgin biomaterials, etc.) and mixed polymers (e.g., mixed virgin and recycled plastics). In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting element of the connecting unit that is at least partially positively connected to the further connecting element, in particular the handle connecting element.The further connecting element, in particular the handle connecting element, can consist at least partially of the paper material.

[0208] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise an application unit having at least one blade head.

[0209] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a method for manufacturing the personal care product, such a method comprising providing a plurality of handle units. The plurality of handle units may each be provided with at least one handle connecting element. In a connecting step, an application unit is connected to each of the plurality of handle units. Each of the application units is attached to a connecting unit. Each application unit is connected to a connecting unit by overmolding.

[0210] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a method of manufacturing the personal care product, such a method comprising providing a plurality of handle units for manufacturing a plurality of personal care products. The plurality of handle units are provided contiguously from at least one sheet of paper.

[0211] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a method of manufacturing the personal care product, such method comprising providing a plurality of handle units that are separated from one another in a separation step.

[0212] The separation step, in which the plurality of handle units made from a sheet of paper are separated from one another, occurs in particular after the connecting step. In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, can comprise a method for producing the personal care product. Figure 10 of the first exemplary embodiment of the invention shows a schematic flow diagram of a method for producing the personal care product, in particular also including a razor or a dermaplaning product. The method comprises a provision step. In the provision step, at least one handle unit is provided with at least one further connecting element, in particular the already mentioned further connecting element of the connecting unit.In the provision step, a plurality of handle units, each containing a handle body, are provided coherently from at least one sheet (e.g., paper, wood, bamboo, etc.), wherein the sheet may comprise one or more layers in order to produce a plurality of personal care products, such as razors or dermaplaning products. During provision, a plurality of handle units (e.g., between two and twenty handle units, preferably between ten and twenty handle units, or particularly preferably fourteen or sixteen handle units), each handle unit containing a handle body, are provided coherently. In some embodiments, the sheet is divided into two identical sheets, in particular partial sheets. The sheet is inserted into an injection mold. The injection mold has a plurality of cavities.The number of cavities is at least as large as the number of handle units in a given sheet of material. The sheet is inserted into the injection mold so that each of the handle units is located in its own cavity of the injection mold.

[0213] The provision step is followed by a connecting step. In the connecting step, the application unit is connected to the handle unit, in particular by the connecting unit, preferably via the latter. The connecting unit comprises at least one connecting element which engages with a further connecting element, in particular also the connecting unit. The connecting step can comprise overmolding the connecting unit, to which the application unit is attached, with the handle unit. The overmolding is carried out using an injection molding process and therefore comprises an injection molding machine. The injection molding process is carried out using a cold runner sprue system. In the cold runner sprue system, a cold runner sprue leads from the needle to the connecting elements. The sprue system therefore remains on the personal care product when the personal care product, such as a razor or a dermaplaning product, is removed from the injection mold.For the injection point on a personal care product, such as a razor or a dermaplaning product, various positions are conceivable that would be considered appropriate by a person skilled in the art. The melt temperature for processing is typically between 150°C and 290°C, preferably between 190°C and 250°C. The plastic material of the connecting element is preferably polypropylene (PP), with a melting point of around 170°C. Polyamide therefore has a higher melting point than polypropylene. During the injection molding process, pressures of between 600 bar and 1500 bar, preferably between 800 bar and 1300 bar, prevail.

[0214] The joining step is followed by a separating step. In the separating step following the joining step, the handle units are separated from each other. After overmolding, the paper sheets are removed from the injection mold and punched, cut, or slit. After overmolding, the punching, cutting, or slitting can be performed inline or offline (e.g., directly interlinked or non-interlinked). The separation between the personal care products, such as razors or dermaplaning products, can be achieved with a punching knife or with heat. The heat is generated primarily using hot air. The heating temperatures are typically between 200°C and 280°C, preferably between 220°C and 260°C.For heating, the personal care products, such as razors or dermaplaning products, are held together in one or more sheets to facilitate handling and thus enable more precise positioning. In a subsequent step, the sprue is removed. The cold runner sprue is specifically punched out. Furthermore, the sprue can be reworked, for example, by heat treatment. In particular, the sprue is removed as late as possible, as it holds the entire structure together. In a subsequent step, the handle body is punched out.

[0215] In any of the aspects or embodiments described herein, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit for a razor or a blade head. The connecting unit may comprise a base body with a connecting element. The connecting element may have at least one entry groove. The connecting element may have a locking ridge. The connecting element may have a first contact surface. The connecting element may have a second contact surface. The connecting element may have a third contact surface. The connecting element may include a positive locking element. The connecting element may comprise at least one of the following elements: a locking ridge, at least one entry groove, a first contact surface, a second contact surface, a third contact surface, and / or a positive locking element.

[0216] In any of the aspects or embodiments described herein, the personal care product, such as a razor or a dermaplaning product, may include a connecting unit that may include between two entry grooves and four entry grooves.

[0217] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit having a first contact surface, a second contact surface and a third contact surface forming a polygonal or prismatic structure in the main body of the connecting unit.

[0218] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit with a base body. The connecting unit, including the base body, may be made of paper, wood, grass (e.g., bamboo), sustainable, biodegradable, compostable, recyclable, recycled, and / or bioplastic material. Such polymer materials may include both virgin (e.g., virgin plastics that can be recycled, virgin bioplastics, virgin biomaterials, etc.) and blended polymers (e.g., blended virgin and recycled plastics).

[0219] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit having a base body containing one or more layers.

[0220] In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a connecting unit with a base body comprising a hard component and / or a soft component. In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a connecting unit. The connecting unit may include a connecting element. The connecting element may have at least one projection. The connecting element may have at least one receiving groove. The connecting element may have at least one projection and one receiving groove. The connecting element may include a blade carrier.

[0221] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit with a connecting element. The connecting element may have at least one protrusion. The at least one connecting element may comprise between two and three protrusions.

[0222] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a connecting unit with a connecting element. The connecting element may have at least one protrusion. The at least one protrusion may comprise at least one rivet.

[0223] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit. The connecting unit may comprise a connecting element. The connecting element may have at least one protrusion. The at least one protrusion may have a circular cross-section.

[0224] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit. The connecting unit may comprise a connecting element. The connecting element may have at least one protrusion. The at least one protrusion may comprise a first protrusion. The first protrusion may have an elongated structure.

[0225] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit. The connecting unit may comprise a connecting element. The connecting element may have at least one protrusion. The at least one protrusion may comprise a first protrusion that is larger than a second protrusion of the at least one protrusion.

[0226] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a connecting unit made of paper, wood, grass (e.g., bamboo), sustainable, biodegradable, compostable, recyclable, recycled, and / or bioplastic material. Such polymer materials may include both virgin (e.g., virgin plastics that are recyclable, virgin bioplastics, virgin biomaterials, etc.) and blended polymers (e.g., blended virgin and recycled plastics).

[0227] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a connecting unit having one or more layers.

[0228] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a connecting unit having a hard component and / or a soft component. The connecting unit may have a hard component. The connecting unit may comprise a soft component attached to the hard component. The connecting unit may comprise multiple layers, wherein the first layer is a hard component and a second layer is a soft component. The first layer and the second layer may be attached to each other by gluing, molding, spraying, welding, ultrasonication, heat, and / or combinations thereof, etc.

[0229] In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, can have a handle body. The handle body comprises a head region. The head region can have an edge. The head region can be formed integrally or in one piece with the further connecting element, in particular the handle connecting element, of the connecting unit. The further connecting element can have a recess. The further connecting element, in particular the handle connecting element, can have a receiving region. The further connecting element can have a form-fitting contour. The further connecting element can have at least one form-fitting element. The further connecting element can have at least one recess, a receiving region, a form-fitting contour, at least one gripping recess, and at least one form-fitting element. The handle body has a central region.The handle body has an end area.

[0230] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a handle body. The handle body includes a groove generally extending along a longitudinal axis. The groove may have a width along the width axis. The groove may have a height (e.g., or depth) along the height axis. The groove may include a three-dimensional surface in a cross-section along the plane formed by a combination of two axes, e.g., the width axis and the longitudinal axis, the height axis and the width axis, the longitudinal axis and the height axis. The groove may include a volume.

[0231] In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a handle body. When assembled, the handle body may include a receiving area in the head region.

[0232] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may include a handle body. The handle body may include a first sidewall, a second sidewall, and an inner sidewall. The second sidewall may be attached to the inner sidewall when assembled.

[0233] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may comprise a handle body. The handle body, when assembled, may form a polygonal or prismatic structure. This polygonal or prismatic shape may comprise a truncated cone or may be truncated, and may include one or more curves, a bevel, and / or a fillet. The handle body may have a cross-sectional shape that is also polygonal, such as a quadrilateral, a trapezoid, a square, a rectangle, a triangle, truncated cones, or sections thereof, and may include one or more curves, bevels, and / or fillets. The handle body may have a gap, wherein a projection of the handle body through the gap forms such structures (e.g., polygonal and / or prismatic).

[0234] In each of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, can have a handle body. The handle body can have a head region. The head region can have a connecting region. The connecting region can be located proximal to the edge of the head region. The connecting region can be formed integrally or in one piece with the further connecting element, in particular the handle connecting element, and / or form the further connecting element, in particular the handle connecting element. The further connecting element can have at least one handle recess. The further connecting element can have a form-fitting contour. The further connecting element can have at least one of at least one grip recess and a form-fitting contour.

[0235] In any of the described aspects or embodiments, the personal care product, such as a razor or a dermaplaning product, may have a handle made of paper, wood, grass (e.g., bamboo), sustainable, biodegradable, compostable, recyclable, recycled, and / or bioplastic material. Such polymer materials may include both virgin (e.g., virgin plastics that can be recycled, virgin bioplastics, virgin biomaterials, etc.) and blended polymers (e.g., blended virgin and recycled plastics). The personal care product according to the invention is not intended to be limited to the applications and embodiments described above.In particular, the personal care product according to the invention may comprise a number of individual elements, components, and units that differs from the number stated herein and / or any reasonable combination thereof to fulfill a function described herein. Furthermore, in the value ranges specified in this disclosure, values ​​within the stated limits are also to be considered disclosed and can be used arbitrarily.

[0236] Of course, the embodiments shown in this document are exemplary. Within the scope of the invention, the individual embodiments and elements of these embodiments can be combined with other embodiments without departing from the scope of this invention. The terms "substantially," "generally," and / or "approximately" are used herein with the awareness that small deviations in dimensions are possible within the scope of the present disclosure. Such small deviations may include deviations due to manufacturing tolerances and / or expansion / contraction and / or wear of parts subject to changing conditions (e.g., pressure, force, temperature, etc.), up to and including a deviation of 10% of the nominal dimension.

[0237] While the principles of the disclosure have been described above in connection with specific devices and methods, it is to be clearly understood that this description is provided by way of example only and not as a limitation on the scope of the disclosure. Specific details are provided in the above description to provide a thorough understanding of the embodiments. However, it should be understood that the embodiments may be practiced without these specific details.

[0238] It should be noted that the embodiments may be described as a process represented in the form of a flowchart, a sequence diagram, a block diagram, etc. Although each of these structures may describe the operations as a sequential process, many of the operations may be performed in parallel or concurrently. Furthermore, the order of operations may be rearranged. A process may correspond to a method, a function, a procedure, a subroutine, a subprogram, etc.

[0239] The singular forms "a, an" and "the" refer to one or more, unless the context clearly dictates otherwise. For example, the phrase "with a specimen" includes one or more specimens and is considered equivalent to the phrase "with at least one specimen." The phrase "or" refers to a single one of the alternative elements mentioned or to a combination of two or more elements, unless the context clearly dictates otherwise. As used herein, "comprises" means "includes." Thus, "comprises A or B" means "including A or B, or A and B," without excluding additional elements.

[0240] It is noted that various connections between elements are set forth in the present description and drawings (the contents of which are incorporated by reference into this disclosure). It is understood that these connections are general and, unless otherwise stated, may be direct or indirect, and that this specification is not intended to be limiting in this regard. Any reference to attached, fixed, connected, or the like may include permanent, removable, temporary, partial, complete, and / or any other possible attachment option.

[0241] No element, component, or method step in the present disclosure is intended to be made available to the public, regardless of whether the element, component, or method step is expressly recited in the claims. No claim element in this disclosure is to be construed under the provisions of 35 ll.SC 112(f) unless the element is expressly recited using the phrase "means for." As used herein, the terms "comprise," "including," or any further variation thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus comprising a list of elements not only includes those elements, but may also include additional elements not expressly listed or included with such process, method, article, or apparatus.

[0242] While various inventive aspects, concepts, and features of the disclosures may be described and illustrated herein as being embodied in combination in the exemplary embodiments, these various aspects, concepts, and features may be utilized in many alternative embodiments, either individually or in various combinations and subcombinations thereof. Unless expressly excluded herein, all such combinations and subcombinations are within the scope of the present application. Although various alternative embodiments to the various aspects, concepts, and features of the disclosures are described herein—such as alternative materials, structures, configurations, methods, devices, and components, etc.-, these descriptions are not intended to be a complete or exhaustive list of available alternative embodiments, whether now known or later developed. Those skilled in the art may readily incorporate one or more of the inventive aspects, concepts, or features into additional embodiments and uses within the scope of the present application, even if such embodiments are not expressly disclosed herein. For example, in the exemplary embodiments described above in the "Advantages of the Invention" section of the present specification, elements may be described as individual units and illustrated as independent of one another for ease of description. In alternative embodiments, such elements may be configured as combined elements.It should further be noted that various method or process steps are described herein for embodiments of the present disclosure. The description may present method and / or process steps in a particular sequence. However, unless the method or process relies on the specific order of steps set forth herein, the method or process should not be limited to the specific order of steps described. As one skilled in the art will appreciate, other sequences of steps are also conceivable. Therefore, the order of steps set forth in the description should not be construed as limiting.

[0243] Drawings

[0244] Further advantages will become apparent from the following description of the drawings. The drawings illustrate nine exemplary embodiments of the invention. The drawings, the description, and the claims contain numerous features in combination. Those skilled in the art will also expediently consider the features individually and combine them into useful further combinations.

[0245] They show:

[0246] Fig. 1A shows a body care product according to the invention with a handle unit, with an application unit and with a connection unit in a schematic 3D view from the front,

[0247] Fig. 1 B the personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic front view,

[0248] Fig. 1C shows the personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic side view, Fig. 1D shows the personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic side view,

[0249] Fig. 1 E the handle unit of the personal care product according to the invention in a schematic 3D view from the front,

[0250] Fig. 1 F the handle unit of the personal care product according to the invention in a schematic front view,

[0251] Fig. 1G shows the handle unit of the personal care product according to the invention in a schematic side view,

[0252] Fig. 1 H the handle unit of the personal care product according to the invention in a schematic side view,

[0253] Fig. 11 shows a partial section of the connecting unit of the personal care product according to the invention in a schematic 3D view from the front,

[0254] Fig. 1 J an injection molding tool for producing the personal care product according to the invention in a schematic 3D view from the front,

[0255] Fig. 1 K the injection molding tool for producing the personal care product according to the invention, with two inserted paper sheets and two inserted dental floss threads before an injection molding process in a schematic 3D view from the front,

[0256] Fig. 1 L shows the injection molding tool for producing the personal care product according to the invention, with the two inserted paper sheets and the two inserted dental floss threads after an injection molding process in a schematic 3D view from the front,

[0257] Fig. 1 M shows a partial section of the connecting unit of the personal care product according to the invention in the injection molding tool, with a part of a cold runner gate in a schematic 3D view from the front,

[0258] Fig. 1 N the two sheets of paper, the two dental floss threads, several connecting elements of several connecting units and a cold runner gate of the injection molding tool after an injection molding process in a schematic 3D view from the front,

[0259] Fig. 10 is a schematic flow diagram of a method for producing the personal care product according to the invention,

[0260] Fig. 2 shows an injection molding tool for producing the personal care product according to the invention, with several handle bodies inserted in the injection molding tool, with two dental floss threads inserted in the injection molding tool after an injection molding process in a schematic 3D view from the front,

[0261] Fig. 3 shows a handle unit of an alternative personal care product according to the invention in a schematic front view,

[0262] Fig. 4 shows a handle unit of another alternative personal care product according to the invention in a schematic front view,

[0263] Fig. 5 shows a further alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic front view,

[0264] Fig. 6 shows a further alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic front view,

[0265] Fig. 7 shows a further alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic front view,

[0266] Fig. 8A shows a handle unit of another alternative personal care product according to the invention in an unfolded state in a schematic front view,

[0267] Fig. 8B shows the handle unit of the further alternative personal care product according to the invention in a folded state in a schematic 3D view from behind,

[0268] Fig. 8C shows a main body of an application unit and a connecting element of a connecting unit of the further alternative personal care product according to the invention in a schematic 3D view from the front,

[0269] Fig. 8D shows the main body of the application unit and the connecting element of the connecting unit of the further alternative personal care product according to the invention in a schematic bottom view,

[0270] Fig. 8E shows a partial section of the further alternative personal care product according to the invention with the handle unit, with the application unit, without a bristle plate, and with the connecting unit in a schematic 3D view from the front, Fig. 8F shows a partial section of the further alternative personal care product according to the invention with the handle unit, with the application unit, without a bristle plate, and with the connecting unit in a schematic 3D view from the rear,

[0271] Fig. 8G shows the further alternative personal care product according to the invention with the handle unit, with the application unit, and with the connecting unit in a schematic 3D view from the front,

[0272] Fig. 9A shows a handle unit of another alternative personal care product according to the invention in an unfolded state in a schematic front view,

[0273] Fig. 9B shows a main body of an application unit and a connecting element of a connecting unit of the further alternative personal care product according to the invention in a schematic 3D view from the front,

[0274] Fig. 9C shows the main body of the application unit and the connecting element of the connecting unit of the further alternative personal care product according to the invention in a schematic 3D view from behind,

[0275] Fig. 9D the further alternative personal care product according to the invention with the handle unit, with the application unit, and with the connection unit in a schematic 3D view from the front,

[0276] Fig. 9E the further alternative personal care product according to the invention with the handle unit, with the application unit, and with the connecting unit in a schematic 3D view from behind,

[0277] Fig. 10A shows a further alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic rear view,

[0278] Fig. 10B shows the further alternative personal care product according to the invention with a handle unit, with an application unit and with a connection unit in a schematic 3D view,

[0279] Fig. 10C shows the further alternative personal care product according to the invention with a handle unit, with an application unit and with a connection unit in a schematic side view, Fig. 11 shows a further alternative personal care product according to the invention with a handle unit, with an application unit and with a connection unit in a schematic 3D view,

[0280] Fig. 12A shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connection unit in a schematic 3D view from the front,

[0281] Fig. 12B shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic front view,

[0282] Fig. 12C shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic cross-sectional view, according to line CC in Fig. 12B,

[0283] Fig. 13 shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic 3D view from the front,

[0284] Fig. 14 shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic 3D view from the front,

[0285] Fig. 15A shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connection unit in a schematic 3D view from the front,

[0286] Fig. 15B shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic cross-sectional view, according to line BB of Fig. 15A,

[0287] Fig. 16A shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connection unit in a schematic 3D view from the front,

[0288] Fig. 16B shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic cross-sectional view, according to line BB of Fig. 16A,

[0289] Fig. 16C shows the application unit of the further alternative personal care product according to the invention with a first embodiment of a cleaning element carrier in a schematic plan view, Fig. 16D shows the application unit of the further alternative personal care product according to the invention with a second embodiment of a cleaning element carrier in a schematic plan view,

[0290] Fig. 16E shows the application unit of the further alternative personal care product according to the invention with a third embodiment of a cleaning element carrier in a schematic plan view,

[0291] Fig. 17A shows a handle unit of another alternative personal care product according to the invention in a schematic 3D view from the front,

[0292] Fig. 17B shows an application unit and the handle unit of the further alternative personal care product according to the invention in a schematic 3D view from the front,

[0293] Fig. 17C shows the application unit and the handle unit of the further alternative personal care product according to the invention in a schematic front view,

[0294] Fig. 17D shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic front view,

[0295] Fig. 17E the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic 3D view from the front,

[0296] Fig. 18A shows a handle unit and an application unit of another alternative personal care product according to the invention in a non-assembled state in a front view,

[0297] Fig. 18B shows the handle unit and the application unit of the further alternative personal care product according to the invention in a non-assembled state in a 3D view from the front,

[0298] Fig. 18C shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic front view during assembly,

[0299] Fig. 18D shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic 3D view from the front during assembly,

[0300] Fig. 18E shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic cross-sectional view during assembly, according to line EE of Fig. 18C,

[0301] Fig. 18F shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic front view in a state of use,

[0302] Fig. 18G shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic 3D view from the front in a state of use,

[0303] Fig. 18H shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic cross-sectional view in a use state, according to line HH of Fig. 18F,

[0304] Fig. 19A shows another alternative personal care product according to the invention with a handle unit and with an application unit in a schematic 3D view from the front,

[0305] Fig. 19B shows the further alternative personal care product according to the invention with the handle unit and the application unit in a schematic 3D view from behind,

[0306] Fig. 19C shows the further alternative personal care product according to the invention with the handle unit and the application unit in a front view,

[0307] Fig. 19D shows the further alternative personal care product according to the invention with the handle unit and the application unit in a rear view,

[0308] Fig. 19E the further alternative personal care product according to the invention with the handle unit and the application unit in a longitudinal section,

[0309] Fig. 20A shows another alternative personal care product according to the invention with a handle unit and with an application unit in a schematic 3D view from the front,

[0310] Fig. 20B shows the further alternative personal care product according to the invention with the handle unit and the application unit in a schematic 3D view from behind,

[0311] Fig. 20C shows the further alternative personal care product according to the invention with the handle unit and the application unit in a front view,

[0312] Fig. 20D shows the further alternative personal care product according to the invention with the handle unit and the application unit in a rear view, Fig. 20E shows the further alternative personal care product according to the invention with the handle unit and the application unit in a longitudinal section,

[0313] Fig. 21 A shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic 3D view from the front,

[0314] Fig. 21 B shows the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connection unit in a schematic 3D view from behind,

[0315] Fig. 21 C shows the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connecting unit in a front view,

[0316] Fig. 21 D shows the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connecting unit in a rear view,

[0317] Fig. 21 E the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connecting unit in a longitudinal section,

[0318] Fig. 22A shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic 3D view from behind,

[0319] Fig. 22B shows the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connection unit in a schematic 3D view from behind,

[0320] Fig. 22C shows the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connecting unit in a longitudinal section,

[0321] Fig. 23A shows a further alternative personal care product according to the invention with a handle unit and with an application unit in an unfolded state in a schematic front view,

[0322] Fig. 23B shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic rear view, Fig. 23C shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic 3D view from the front,

[0323] Fig. 24A shows a further alternative personal care product according to the invention with a handle unit and with an application unit in an unfolded state in a schematic front view,

[0324] Fig. 24B shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic rear view,

[0325] Fig. 24C shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic longitudinal section,

[0326] Fig. 25A shows a further alternative personal care product according to the invention with a handle unit and with an application unit in an unfolded state in a schematic front view,

[0327] Fig. 25B shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic rear view,

[0328] Fig. 25C shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic 3D view from the front,

[0329] Fig. 25D shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic longitudinal section,

[0330] Fig. 26A shows a further alternative personal care product according to the invention with a handle unit and with an application unit in an unfolded state in a schematic front view,

[0331] Fig. 26B shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic rear view,

[0332] Fig. 26C shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a folded state in a schematic 3D view from the front, Fig. 26D shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a first partially folded transport state in a schematic front view,

[0333] Fig. 26E shows the further alternative personal care product according to the invention with the handle unit and with the application unit in a second completely folded transport state in a schematic front view,

[0334] Fig. 27A shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic exploded view in a schematic 3D view,

[0335] Fig. 27B the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic 3D view from the front,

[0336] Fig. 27C shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic rear view,

[0337] Fig. 27D shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic plan view,

[0338] Fig. 27E shows the further alternative personal care product according to the invention with the handle unit, the application unit, the connecting unit and with a blade guard in a schematic front view,

[0339] Fig. 27F the blade guard of the further alternative personal care product according to the invention in a schematic 3D view,

[0340] Fig. 28A shows another alternative personal care product according to the invention with a handle unit, with an application unit and with a connecting unit in a schematic exploded view in a schematic 3D view,

[0341] Fig. 28B shows the further alternative personal care product according to the invention with the handle unit, the application unit, the connecting unit and with a blade guard in a schematic front view, Fig. 28C shows the blade guard of the further alternative personal care product according to the invention in a schematic 3D view,

[0342] Fig. 29A shows another alternative personal care product according to the invention with a handle unit, an application unit, a connection unit and with a blade guard in a schematic 3D view,

[0343] Fig. 29B the blade guard of the further alternative personal care product according to the invention in a schematic 3D view,

[0344] Fig. 30A shows a handle unit of another alternative personal care product according to the invention in a schematic 3D view from the front,

[0345] Fig. 30B shows the handle unit of the further alternative personal care product according to the invention in a schematic front view,

[0346] Fig. 30C shows an application unit of the further alternative personal care product according to the invention in a schematic 3D view from the front,

[0347] Fig. 30D shows the application unit of the further alternative personal care product according to the invention in a schematic front view,

[0348] Fig. 30E shows the application unit of the further alternative personal care product according to the invention in a schematic cross-sectional view, according to line EE of Fig. 30D,

[0349] Fig. 30F shows the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connection unit in a schematic 3D view from the front,

[0350] Fig. 30G shows the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connecting unit in a schematic front view,

[0351] Fig. 30H shows the further alternative personal care product according to the invention with the handle unit, with the application unit and with the connecting unit in a schematic longitudinal section, according to line BB of Fig. 30G,

[0352] Fig. 31 A shows another alternative personal care product according to the invention with a handle unit, an application unit and a connection unit in a schematic 3D view from the front,

[0353] Fig. 31 B shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic 3D view from behind, Fig. 31 C shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connection unit in a schematic side view,

[0354] Fig. 31 D the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic front view,

[0355] Fig. 31 E the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic rear view,

[0356] Fig. 31 F shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic first cross-sectional view, according to line 11 of Fig. 31 E,

[0357] Fig. 31 G shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic second cross-sectional view, according to line HH of Fig. 31 E,

[0358] Fig. 31 H shows the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic third cross-sectional view, according to line JJ of Fig. 31 E and

[0359] Fig. 311 the further alternative personal care product according to the invention with the handle unit, the application unit and the connecting unit in a schematic first longitudinal sectional view, according to line AA of Fig. 31 E.

[0360] Description of the embodiments

[0361] Reference is made below to Figures 1A to 10, which show different views and manufacturing stages of a personal care product 10a. Due to the different views, some elements are not shown in all figures and are therefore not provided with reference numerals in all figures. Figure 1A shows a personal care product 10a in a schematic perspective view. The personal care product 10a is formed by an oral hygiene product. In the present case, the personal care product 10a is designed as a float.

[0362] The personal care product 10a has an application unit 12a. Furthermore, the personal care product 10a has a handle unit 14a, which has a material handle body 16a. Furthermore, the personal care product 10a has a connecting unit 18a, which connects the application unit 12a to the handle unit 14a.

[0363] The personal care product 10a has a longitudinal axis 60a, a height axis 62a, and a width axis 64a. The longitudinal axis 60a is arranged parallel to a main extension direction 42a of the personal care product 10a. If the personal care product 10a is placed on a flat surface so that the longitudinal axis 60a is arranged parallel to the surface, the height axis 62a is arranged perpendicular to the longitudinal axis 60a and perpendicular to the surface and the width axis 64a. The width axis 64a is arranged perpendicular to the longitudinal axis 60a and perpendicular to the height axis 62a. In the present case, the personal care product 10a has a length, in particular parallel to the longitudinal axis 60a, of 40 mm to 100 mm, preferably of 60 mm to 90 mm.

[0364] The application unit 12a forms a flosser head of the personal care product 10a. The application unit 12a has at least one dental floss thread 24a. The dental floss thread 24a is formed by a dental floss. In the present case, the application unit 12a is designed as a dental floss thread. The dental floss thread 24a forms a connection with the connection unit 18a.

[0365] The handle unit 14a is designed to be gripped by the operator. The handle unit 14a has the material handle body 16a. The material handle body 16a of the handle unit 14a has a head region 66a. Furthermore, the material handle body 16a of the handle unit 14a has a handle region 68a. The head region 66a is designed to connect the application unit 12a. The handle unit 14a has at least one gripping surface 70a, which forms a surface of the material handle body 16a. The gripping surface 70a extends over the gripping region 68a of the material handle body 16a. The gripping surface 70a is formed by a surface of the gripping region 68a of the handle body 16a. In a central or rear region of the gripping surface 70a, in particular, lettering and / or a logo could be arranged. The material handle body 16a has at least two arms 26a, 26a' towards the application unit 12a.The head region 66a is designed as a U-shaped geometry with two arms 26a, 26a'. The grip region 68a of the grip body 16a extends obliquely to the head region 66a. The grip region 68a of the grip body 16a extends obliquely to a main extension direction of the dental floss thread 24a. In a final state, the material grip body 16a has a flat basic shape, which divides into the two arms 26a, 26a' toward the application unit 12a. The arms 26a, 26a' each form limbs.

[0366] A width of the arms 26a, 26a' is at least 4 mm, in particular at least 5 mm, preferably at least 6 mm, particularly preferably at least 8 mm. A thinnest point of the arms 26a, 26a' is in the region towards the free end of the arms 26a, 26a'. A ratio of the thickness of the paper material of the handle body 16a to the width of the arms 26a, 26a' is from 1:3 to 1:7, preferably from 1:3.5 to 1:5. The distance between the arms 26a, 26a' is from 10 mm to 25 mm, preferably from 12 mm to 20 mm. This distance is equivalent to the free length of the dental floss thread 24a or the dental floss.

[0367] The material handle body 16a consists at least largely of a paper material. The material handle body 16a consists, for example, entirely of a paper material. The material handle body 16a of the handle unit 14a can have at least one layer made of a paper material. The layer can be three-dimensionally shaped. The material handle body 16a has from 1 to 10 layers, preferably from 1 to 5 layers. The layers form a layer. The number of layers depends in particular on the desired final strength or stability of the material handle body 16a. In particular, many thin layers or a few thick layers can be realized. The layers are preferably connected. By realizing the material handle body 16a in multiple layers, stability advantages arise compared to a body made of one or fewer layers. The material handle body 16a has, for example, exactly three layers that form a layer.The paper material has a material thickness of 0.8 mm to 2.5 mm, preferably 1 mm to 1.8 mm. A single layer has a basis weight of 300 g / m². 2 up to 500 g / m 2 , preferably 350 g / m 2 up to 450 g / m 2The material thickness of the individual layer is in particular from 0.25 mm to 0.65 mm, preferably from 0.35 mm to 0.5 mm. The handle body 16a also has a substantially constant material thickness. Furthermore, the handle body 16a forms a toothpick tip 72a on a side facing away from the application unit 12a. The toothpick tip 72a is produced by partially pressing the handle body 16a. The handle region 68a tapers to a point on a side facing away from the head region 66a. The tip is pressed towards the tip, creating a tapered geometry with a tip that forms the toothpick tip 72a. Alternatively, it would also be conceivable for the toothpick tip 72a to be produced by cutting, milling, or overmolding with a hard component. However, improved stability can be achieved through pressing.

[0368] The personal care product 10a further comprises the connecting unit 18a. The connecting unit 18a comprises a connecting element 20a connected to the application unit 12a and a further connecting element 22a connected to the handle unit 14a. The connecting element 20a and the further connecting element 22a are designed to correspond. Furthermore, the connecting element 20a of the connecting unit 18a is formed integrally with the application unit 12a. The connecting element 20a forms, in particular, a part of the application unit 12a. The further connecting element 22a of the connecting unit 18a is at least partially formed integrally with the handle unit 14a. The further connecting element 22a of the connecting unit 18a is formed integrally with the handle body 16a. The further connecting element 22a of the connecting unit 18a is formed integrally with the handle body 16a.The further connecting element 22a of the connecting unit 18a therefore forms part of the handle body 16a. The further connecting element 22a of the connecting unit 18a therefore also consists largely, in particular entirely, of a paper material.

[0369] The connecting element 20a of the connecting unit 18a consists largely of a polymer, in particular a plastic. The connecting element 20a of the connecting unit 18a consists of a hard plastic. The connecting element 20a is preferably made of polypropylene (PP) and / or a sustainable and / or degradable material. Another variant would be the use of polyethylene (PE).

[0370] The further connecting element 22a is formed in an end region of the handle body 16a. The arms 26a, 26a' of the handle body 16a form the further connecting element 22a in their end regions, to which the application unit 12a is fixed. The further connecting element 22a forms two connecting regions 28a, 28a' at the ends of the arms 26a, 26a'. A connecting region 28a, 28a' is formed on each of the arms 26a, 26a'.

[0371] The connecting element 20a of the connecting unit 18a is at least partially materially connected to the further connecting element 22a of the connecting unit 18a. The connecting element 20a of the connecting unit 18a is at least partially form-fittingly connected to the further connecting element 22a of the connecting unit 18a. The further connecting element 22a of the connecting unit 18a is overmolded with the connecting element 20a of the connecting unit 18a. Furthermore, the dental floss thread 24a of the application unit 12a is overmolded with the connecting element 20a of the connecting unit 18a. The connecting element 20a of the connecting unit 18a has at least one cap 30a, 30a', which engages over the further connecting element 22a of the connecting unit 18a. The connecting element 20a of the connecting unit 18a has two caps 30a, 30a', each of which overlaps one of the arms 26a, 26a' in a region of the further connecting element 22a.The caps 30a, 30a' each extend like a clamp around the arms 26a, 26a'. The caps 30a, 30a' of the connecting element 20a each extend like a clamp from the dental floss thread side over the arms 26a, 26a'. The caps 30a, 30a' of the connecting element 20a each have a U-shaped cross-section in a plane perpendicular to a direction of the dental floss thread 24a. The dental floss thread 24a is overmolded by the caps 30a, 30a' of the connecting element 20a. The connecting element 20a connects the dental floss thread 24a to the arms 26a, 26a' of the handle body 16a. The dental floss thread 24a does not rest against the handle body 16a. There is a clearance of 0.2 mm to 3 mm, preferably 0.35 mm to 0.8 mm, between the dental floss thread 24a and the handle body 16a. A plastic of the connecting element 20a must flow around the dental floss thread 24a of the application unit 12a to withstand the required pull-out forces.

[0372] The connecting element 20a is manufactured using an injection molding process. The connecting element 20a has at least one injection point 34a, which is arranged on the caps 30a, 30a'. The connecting element 20a has two injection points 34a, each of which is arranged on one of the caps 30a, 30a'. The injection molding injection points 34a are arranged in a vicinity of the dental floss thread 24a, in particular in a vicinity of a connection point between the dental floss thread 24a and the respective cap 30a, 30a'.

[0373] The further connecting element 22a of the connecting unit 18a has at least one positive-locking contour 36a, which is intended to form a positive connection with the connecting element 20a. The further connecting element 22a has a positive-locking contour 36a on each of its two arms 26a, 26a. The positive-locking contour 36a is designed such that rotation of the connecting element 20a is not possible. The positive-locking contour 36a is arranged in the connecting regions 28a, 28a'. The positive-locking contour 36a of the further connecting element 22a is provided to prevent the connecting element 20a from rotating. The positive-locking contour 36a of the further connecting element 22a has at least one through-hole 38a, 38a'. The form-fitting contour 36a of the further connecting element 22a has two through-holes 38a, 38a', wherein one through-hole 38a, 38a' is arranged in each of the arms 26a, 26a'.The form-fitting contour 36a is formed by the through-holes 38a, 38a' and the outer contour of the arms 26a, 26a'. The connecting element 20a extends through each of the through-holes 38a, 38a'. The caps 30a, 30a' each extend through the through-holes 38a, 38a'. The at least one through-hole 38a, 38a' is formed, for example, by a round hole. However, another configuration that would be deemed appropriate by a person skilled in the art would also be conceivable, such as an elongated slot, a square or rectangular hole, or the like. The diameter of the through-holes 38a, 38a' is each from 1 mm to 5 mm, preferably from 2 mm to 4 mm. The distance to an edge of the handle body 16a, ie a residual wall thickness per side, is in particular from 1 mm to 4 mm.

[0374] In principle, the additional connecting element 22a can also be realized without the through-holes 38a, 38a'. The plastic of the connecting element 20a adheres sufficiently to the material of the additional connecting element 22a, especially without the through-holes 38a, 38a'. If wood is used for the handle unit 14a, the handle body 16a can also break in the area of ​​the through-holes 38a, 38a'.

[0375] Figure 1J shows an injection molding tool 58a for producing the personal care product 10a according to the invention. In Figure 1J, in particular, only one mold half of the injection molding tool 58a is shown. The injection molding tool 58a has cavities 74a on each mold half, each of which is intended to receive a paper sheet 54a. The arms 26a, 26a' of the handle body 16a are designed in the injection molding tool 58a to partially rest against the cavity wall of the cavities 74a of the paper sheet 54a, so that there is no exposure in these sealing areas. The arms 26a, 26a' must, in particular, seal so that the plastic material does not leak out during injection and form an over-injection. Due to the shape and the contact with the corresponding cavity walls, the handle body 16a or the entire paper sheet 54a does not slip.The handle bodies 16a are pressed with the arms 26a, 26a' into the corresponding recess of the injection molding tool 58a, particularly in the direction of the dental floss thread 24a. For this purpose, the paper sheet 54a is already punched in the head region 66a of the handle bodies 16a (see Figures 1K and 1L). Furthermore, the injection molding tool 58a has two cavities 78a, each of which is provided for receiving a dental floss thread 24a for forming the application unit 12a. Furthermore, the injection molding tool 58a has a plurality of cavities 76a of the connecting elements 20a adjacent to the cavities 74a, 78a for forming the connecting elements 20a of the connecting unit 18a. In addition, the injection molding tool 58a has a channel recess 80a which delimits a cold runner gate 82a which connects the cavities 76a of the connecting elements 20a to one another.

[0376] Figure 10 shows a schematic flow diagram of a method for producing the personal care product 10a. The method comprises a provision step 50a. In the provision step 50a, at least one handle unit 14a with at least one further connecting element 22a of the connecting unit 18a is provided. In the provision step 50a, a plurality of handle units 14a, in particular a plurality of handle bodies 16a of the handle unit 14a, are provided in a continuous manner from at least one paper sheet 54a for producing a plurality of personal care products 10a. In the provision step 50a, fourteen handle units 14a, in particular fourteen handle bodies 16a of the handle unit 14a, are provided in a continuous manner divided between two identical paper sheets 54a for producing a plurality of personal care products 10a. The paper sheets 54a are inserted into the injection mold 58a. The paper sheets 54a are inserted into the cavities 74a.Furthermore, in the provision step 50a, at least one continuous dental floss thread 24a is provided for a plurality of application units 12a and inserted into the injection molding tool 58a. In the provision step 50a, two long dental floss threads 24a are provided for a total of two times seven application units 12a and each inserted into the injection molding tool 58a. The dental floss threads 24a are inserted into the cavities 78a (see Figure 1K).

[0377] The provision step 50a is followed by a connecting step 52a. In the connecting step 52a, the application unit 12a is connected to the handle unit 14a via the connecting element 20a of the connecting unit 18a by overmolding. The overmolding is carried out using an injection molding process. The injection molding process is carried out using a cold runner gate system. With the cold runner gate system, a cold runner gate 82a leads from the needle to the connecting elements 20a. The gate system therefore remains on the personal care product 10a when the personal care product 10a is removed from the injection molding tool 58a. Various positions that would appear reasonable to a person skilled in the art are conceivable for the injection point 34a on the personal care product 10a. The injection points 34a are located, for example, on an upper side near the dental floss thread 24a. The temperature of the melt for processing is in particular from 150°C to 290°C, preferably 190°C to 250°C.The dental floss thread 24a, in particular the dental floss, is preferably made of polyamide (PA) and has a melting point of approximately 220°C. The plastic material of the connecting element 20a is preferably polypropylene (PP) with a melting point of approximately 170°C. Polyamide therefore has a higher melting point than polypropylene. During the injection molding process, pressures of 600 bar to 1500 bar, preferably 800 bar to 1300 bar, prevail.

[0378] The connecting step 52a is followed by a separating step 56a. In the separating step 56a following the connecting step 52a, the handle units 14a are separated from one another. After overmolding, the paper sheets 54a are removed from the injection mold 58a and punched. Punching can take place inline or offline after overmolding, i.e. directly linked or not linked. Punching comprises in particular the following steps: In a first step, the dental floss threads 24a are punched out and the dental floss thread ends are singed. The separation between the personal care products 10a and at the ends is carried out in particular with a punching knife. The singeing of the dental floss thread ends takes place in particular by means of heat in a contactless manner. The heat is generated in particular by means of hot air. The singeing creates a spherical structure 118a at the end of the dental floss thread 24a.The dental floss thread 24a is therefore less likely to be torn out of the connecting element 20a of the connecting unit 18a. The spherical structure 118a is embedded, in particular, between the connecting element 20a and the handle body 16a. This minimizes the size of the spherical structure 118a and does not interfere with use. The temperatures for singeing are, in particular, from 200°C to 280°C, preferably 220°C to 260°C. For singeing, the body care products 10a are, in particular, still held in the paper sheets 54a to enable easier handling and thus more precise positioning.

[0379] Subsequently, a sprue is removed in a further step. The cold runner sprue 82a is punched out. Furthermore, the sprue can be reworked, for example, by heat treatment. The sprue is removed as late as possible, as it holds the entire structure together. In a subsequent step, the handle body 16a is completely punched out.

[0380] Thirty further exemplary embodiments of the invention are shown in Figures 2 to 31. The following descriptions are essentially limited to the differences between the exemplary embodiments, whereby with regard to identical components, features and functions, reference can be made to the description of the other exemplary embodiments, in particular to Figures 1A to 10. To distinguish the exemplary embodiments, the letter a in the reference numerals of the exemplary embodiment in Figures 1A to 10 has been replaced by the letters b to ee in the reference numerals of the exemplary embodiments in Figures 2 to 31. With regard to components with the same designation, in particular with regard to components with the same reference numerals, reference can in principle also be made to the drawings and / or the description of the other exemplary embodiments, in particular to Figures 1A to 10.

[0381] In the following, a series of embodiments of personal care products are referred to with the designations "a" to "ee," so that each embodiment can be referred to without this letter designation and only by the reference number (e.g., personal care product 10 comprises personal care products 10a to 10ee). Each of these embodiments can have the features described in the summary. Personal care product 10 has an application unit 12.

[0382] Furthermore, the personal care product 10 has a handle unit 14 having a material handle body 16. Furthermore, the personal care product 10 has a connecting unit 18 that connects the application unit 12 to the handle unit 14.

[0383] The personal care product 10 has a longitudinal axis 60, a height axis 62, and a width axis 64. The longitudinal axis 60 is arranged parallel to a main extension direction 42 of the personal care product 10. When the personal care product 10 is placed on a flat surface so that the longitudinal axis 60 is arranged parallel to the surface, the height axis 62 is arranged perpendicular to the longitudinal axis 60 and perpendicular to the surface and the width axis 64. The width axis 64 is arranged perpendicular to the longitudinal axis 60 and perpendicular to the height axis 62. In the present case, the personal care product 10 has a length, in particular parallel to the longitudinal axis 60.

[0384] Similarly, methods of manufacture generally applicable to each of the embodiments labeled "a" through "ee" are described.

[0385] Figure 2 shows an injection molding tool 58b for producing personal care products 10b. In particular, only one mold half of the injection molding tool 58b is shown in Figure 2. The injection molding tool 58b has cavities 74b on each mold half, each of which is intended to accommodate a plurality of individual handle bodies 16b. The injection molding tool 58b for individual handle bodies 16b particularly entails a complex shape with more geometry, which holds the handle bodies 16b in position. For this purpose, extensions 83b are arranged in the cavities 74b, which hold the handle bodies 16b in position. The extensions 83b are formed, for example, by triangular extensions, which support the handle bodies 16b in a respective gripping region 68b. Instead of the extensions 83b, it would also be possible to design a full contour / cavity corresponding to the handle body 16b, into which the handle body 16b can be inserted and which completely encloses the handle body 16b.Furthermore, additional holding elements for supporting the handle bodies 16b would be particularly useful. It would be particularly useful for the injection molding tool 58b to hold the handle bodies 16b in a curved region, at various positions on the side, and in the end region opposite a dental floss thread 24b. Furthermore, the injection molding tool 58b has two cavities 78b, each of which is provided for receiving a dental floss thread 24b for forming the application unit 12b. Furthermore, the injection molding tool 58b has a plurality of cavities 76b of the connecting elements 20b adjacent to the cavities 74b, 78b for forming connecting elements 20b of a connecting unit 18b. In addition, the injection molding tool 58b has a channel recess 80b that delimits a cold runner gate 82b that connects the cavities 76b of the connecting elements 20b to one another.

[0386] Figure 3 shows a handle unit 14c and another connecting element 22c of a connecting unit 18c of a personal care product 10c in a schematic front view. The personal care product 10c is formed by an oral hygiene product. In this case, the personal care product 10c is designed as a float.

[0387] The personal care product 10c has an application unit 12c. Furthermore, the personal care product 10c has a handle unit 14c, which has a material handle body 16c. Furthermore, the personal care product 10c has a connecting unit 18c, which connects the application unit 12c to the handle unit 14c.

[0388] The handle unit 14c is designed to be gripped by the operator. The handle unit 14c has the material handle body 16c. The material handle body 16c of the handle unit 14c has a head region 66c. Furthermore, the material handle body 16c of the handle unit 14c has a handle region 68c. The head region 66c is designed to connect to the application unit 12c. The material handle body 16c has at least two arms 26c, 26c' toward the application unit 12c. The head region 66c is designed as a U-shaped geometry with two arms 26c, 26c'.

[0389] The material handle body 16c consists at least largely of a paper material. The material handle body 16c consists, for example, entirely of a paper material.

[0390] The personal care product 10c further comprises the connecting unit 18c. The connecting unit 18c comprises a connecting element 20c connected to the application unit 12c and a further connecting element 22c connected to the handle unit 14c. The further connecting element 22c of the connecting unit 18c is formed integrally with the handle body 16c. The further connecting element 22c of the connecting unit 18c therefore forms part of the handle body 16c. The further connecting element 22c of the connecting unit 18c therefore also consists largely, in particular entirely, of a paper material.

[0391] The further connecting element 22c is formed in an end region of the handle body 16c. The arms 26c, 26c' of the handle body 16c form the further connecting element 22c in their end regions, to which the application unit 12c is fixed. The further connecting element 22c forms two connecting regions 28c, 28c' at the ends of the arms 26c, 26c'. A connecting region 28c, 28c' is formed on each of the arms 26c, 26c'.

[0392] The further connecting element 22c of the connecting unit 18c has at least one positive-locking contour 36c, which is intended to form a positive connection with the connecting element 20c. The further connecting element 22c has a positive-locking contour 36c on each of its two arms 26c, 26c'. The positive-locking contour 36c is designed such that rotation of the connecting element 20c is not possible. The positive-locking contour 36c is arranged in the connecting regions 28c, 28c'. The positive-locking contour 36c of the further connecting element 22c is intended to prevent rotation of the connecting element 20c. The positive-locking contour 36c of the further connecting element 22c has at least one through-hole 38c, 38c'. The form-fitting contour 36c of the further connecting element 22c has two through-holes 38c, 38c', wherein one through-hole 38c, 38c' is arranged in each of the arms 26c, 26c'.

[0393] The form-fitting contour 36c is formed by the through-hole 38c, 38c' and the outer contour of the arms 26c, 26c'. The connecting element 20c extends through the through-holes 38c, 38c'. Caps 30c, 30c' of the connecting element 20c extend through the through-holes 38c, 38c'. The at least one through-hole 38c, 38c' is formed, for example, by a round hole.

[0394] Furthermore, the form-fitting contour 36c of the further connecting element 22c has at least one notch 40c, 40c', which is backfilled by the connecting element 20c. The form-fitting contour 36c of the further connecting element 22c has two notches 40c, 40c', wherein one notch 40c, 40c' is arranged on each of the arms 26c, 26c'. The notches 40c, 40c' are each arranged above the through-holes 38c, 38c'. The notches 40c, 40c' are arranged at an upper end of the arms 26c, 26c'. The connecting element 20c extends into the notches 40c, 40c'. The caps of the connecting element 20c each extend into the notches 40c, 40c'. The notches 40c, 40c' are formed, for example, by a semicircular hole. The notches 40c, 40c' preferably have a width of 1 mm to 5 mm, preferably 2 mm to 4 mm.The depth of the notches 40c, 40c' preferably corresponds to a maximum of 1 mm to 3 mm, preferably 1.2 mm to 2 mm. The notches 40c, 40c' of the form-locking contour 36c are provided to prevent rotation.

[0395] Figure 4 shows a handle unit 14d and a further connecting element 22d of a connecting unit 18d of a personal care product 10d in a schematic front view. The personal care product 10d is formed by an oral hygiene product. In this case, the personal care product 10d is designed as a float.

[0396] The personal care product 10d has an application unit 12d. Furthermore, the personal care product 10d has the handle unit 14d, which has a material handle body 16d. Furthermore, the personal care product 10d has a connecting unit 18d, which connects the application unit 12d to the handle unit 14d.

[0397] The handle unit 14d is designed to be gripped by the operator. The handle unit 14d has the material handle body 16d. The material handle body 16d of the handle unit 14d has a head region 66d. Furthermore, the material handle body 16d of the handle unit 14d has a handle region 68d. The head region 66d is designed to connect to the application unit 12d. The material handle body 16d has at least two arms 26d, 26d' toward the application unit 12d. The head region 66d is designed as a U-shaped geometry with two arms 26d, 26d'.

[0398] The material handle body 16d consists at least largely of a paper material. The material handle body 16d consists, for example, entirely of a paper material.

[0399] The personal care product 10d further comprises the connecting unit 18d. The connecting unit 18d comprises a connecting element 20d connected to the application unit 12d and a further connecting element 22d connected to the handle unit 14d. The further connecting element 22d of the connecting unit 18d is formed integrally with the handle body 16d. The further connecting element 22d of the connecting unit 18d therefore forms part of the handle body 16d. The further connecting element 22d of the connecting unit 18d therefore also consists largely, in particular entirely, of a paper material.

[0400] The further connecting element 22d is formed in an end region of the handle body 16d. The arms 26d, 26d' of the handle body 16d form the further connecting element 22d in their end regions, to which the application unit 12d is fixed. The further connecting element 22d forms two connecting regions 28d, 28d' at the ends of the arms 26d, 26d'. A connecting region 28d, 28d' is formed on each of the arms 26d, 26d'.

[0401] The further connecting element 22d of the connecting unit 18d has at least one positive-locking contour 36d, which is intended to form a positive connection with the connecting element 20d. The further connecting element 22d has a positive-locking contour 36d on each of its two arms 26d, 26d'. The positive-locking contour 36d is designed such that rotation of the connecting element 20d is not possible. The positive-locking contour 36d is arranged in the connecting regions 28d, 28d'. The positive-locking contour 36d of the further connecting element 22d is intended to prevent rotation of the connecting element 20d. The positive-locking contour 36d of the further connecting element 22d has at least one notch 40d, 40d', which is backfilled by the connecting element. The form-fitting contour 36d of the further connecting element 22d has two notches 40d, 40d', wherein one notch 40d, 40d' is arranged on each of the arms 26d, 26d'.The notches 40d, 40d' are each arranged on opposite outer sides of the arms 26d, 26d'. The notches 40d, 40d' are arranged laterally at an upper end of the arms 26d, 26d'. The connecting element extends into the notches 40d, 40d'. The caps of the connecting element 20d each extend into the notches 40d, 40d'. The notches 40d, 40d' are formed, for example, by a semicircular hole. The notches 40d, 40d' preferably have a width of 1 mm to 5 mm, preferably 2 mm to 4 mm. The depth of the notches 40d, 40d' preferably corresponds to a maximum of 1 mm to 3 mm, preferably 1.2 mm to 2 mm. The notches 40d, 40d' of the form-fitting contour 36d are provided to prevent rotation.

[0402] Figure 5 shows a body care product 10e in a schematic front view. The body care product 10e is formed by an oral hygiene product. In this case, the body care product 10e is designed as a float.

[0403] The personal care product 10e has an application unit 12e. Furthermore, the personal care product 10e has a handle unit 14e, which has a material handle body 16e. Furthermore, the personal care product 10e has a connecting unit 18e, which connects the application unit 12e to the handle unit 14e. The application unit 12e forms a flosser head of the personal care product 10e. The application unit 12e has at least one dental floss thread 24e. The dental floss thread 24e is formed by a dental floss. In the present case, the application unit 12e is designed as a dental floss thread. The dental floss thread 24e forms a connection with the connecting unit 18e.

[0404] The handle unit 14e is designed to be gripped by the operator. The handle unit 14e has the material handle body 16e. The material handle body 16e of the handle unit 14e has a head region 66e. Furthermore, the material handle body 16e of the handle unit 14e has a handle region 68e. The head region 66e is designed to connect to the application unit 12e. The material handle body 16e has at least two arms 26e, 26e' toward the application unit 12e. The head region 66e is designed as a U-shaped geometry with two arms 26e, 26e'.

[0405] The material handle body 16e consists at least largely of a paper material. The material handle body 16e consists, for example, entirely of a paper material.

[0406] The personal care product 10e further comprises the connecting unit 18e. The connecting unit 18e comprises a connecting element 20e connected to the application unit 12e and a further connecting element 22e connected to the handle unit 14e. The connecting element 20e and the further connecting element 22e are designed to correspond. Furthermore, the connecting element 20e of the connecting unit 18e is formed integrally with the application unit 12e. The connecting element 20e forms, in particular, a part of the application unit 12e. The further connecting element 22e of the connecting unit 18e is at least partially formed integrally with the handle unit 14e. The further connecting element 22e of the connecting unit 18e is formed integrally with the handle body 16e. The further connecting element 22e of the connecting unit 18e is formed integrally with the handle body 16e.The further connecting element 22e of the connecting unit 18e therefore forms part of the handle body 16e. The further connecting element 22e of the connecting unit 18e therefore also consists largely, in particular entirely, of a paper material. The further connecting element 22e is formed in an end region of the handle body 16e. The arms 26e, 26e' of the handle body 16e form, in their end regions, the further connecting element 22e, to which the application unit 12e is fixed. The further connecting element 22e forms two connecting regions 28e, 28d' at the ends of the arms 26e, 26e'. A connecting region 28e, 28e' is formed on each of the arms 26e, 26e'.

[0407] The connecting element 20e of the connecting unit 18e is at least partially materially connected to the further connecting element 22e of the connecting unit 18e. The connecting element 20e of the connecting unit 18e is at least partially form-fittingly connected to the further connecting element 22e of the connecting unit 18e. The further connecting element 22e of the connecting unit 18e is overmolded with the connecting element 20e of the connecting unit 18e. Furthermore, the dental floss thread 24e of the application unit 12e is overmolded with the connecting element 20e of the connecting unit 18e. The connecting element 20e of the connecting unit 18e has two caps 30e, 30e', each of which overlaps one of the arms 26e, 26e' in a region of the further connecting element 22e. The caps 30e, 30e' each extend like a clamp around the arms 26e, 26e'.The caps 30e, 30e' of the connecting element 20e each extend in a clamp-like manner from the dental floss thread side over the arms 26e, 26e'. The caps 30e, 30e' of the connecting element 20e each have a U-shaped cross-section in a plane perpendicular to a direction of the filament 24e. The dental floss thread 24e is overmolded by the caps 30e, 30e' of the connecting element 20e. The connecting element 20e connects the dental floss thread 24e to the arms 26e, 26e' of the handle body 16e. The dental floss thread 24e does not rest against the handle body 16e.

[0408] The connecting element 20e further comprises a connecting bracket 32e, which connects the two caps 30e, 30e' to one another. The connecting bracket 32e is formed integrally with the caps 30e, 30e'. The connecting bracket 32e extends over the handle body 16e. On the front side, the connecting bracket 32e follows the U-shaped profile of the handle body 16e in an end region facing the application unit 12e. Preferably, the connecting bracket 32e is injection-molded onto the handle body 16e. The connecting bracket 32e is provided to support the stability of the handle body 16e. The material of the connecting bracket 32e is applied to the handle body 16e and via the arms 26e, 26e' to the end of the arms III.

[0409] 26e, 26e'. The connecting bracket 32e has a circular arc-shaped extension.

[0410] The connecting element 20e is manufactured using an injection molding process. The connecting element 20e has at least one injection point 34e, which is arranged on the connecting bracket 32e. The injection point 34e is arranged on the connecting bracket 32e between the first cap 30e and the second cap 30d'. The injection point 34e is arranged at a low point of the connecting bracket 32e of the U-shaped profile of the handle body 16e. The injection point 34e is preferably arranged such that it has the same distance from both caps 30e, 30e', or such that the connecting bracket 32e has the same distance between the injection point 34e and the respective cap 30e, 30e'.

[0411] The further connecting element 22e of the connecting unit 18e has at least one positive-locking contour 36e, which is intended to form a positive connection with the connecting element 20e. The further connecting element 22e has a positive-locking contour 36e on each of its two arms 26e, 26e'. The positive-locking contour 36e is designed such that rotation of the connecting element 20e is not possible. The positive-locking contour 36e is arranged in the connecting regions 28e, 28e'. The positive-locking contour 36e of the further connecting element 22e is intended to prevent the connecting element 20e from rotating. The positive-locking contour 36e of the further connecting element 22e has at least one through-hole 38e, 38e'. The form-fitting contour 36e of the further connecting element 22e has two through-holes 38e, 38e', wherein one through-hole 38e, 38e' is arranged in each of the arms 26e, 26e'.The form-fitting contour 36e is formed by the through-hole 38e, 38e' and the outer contour of the arms 26e, 26e'. The connecting element 20e extends through the through-holes 38e, 38e'. The caps 30e, 30e' each extend through the through-holes 38e, 38e'. The at least one through-hole 38e, 38e' is formed, for example, by a round hole.

[0412] Figure 6 shows a personal care product 10f in a schematic front view. The personal care product 10f is formed by an oral hygiene product. In this case, the personal care product 10f is designed as a floater. The personal care product 10f has an application unit 12f. Furthermore, the personal care product 10f has a handle unit 14f, which has a material handle body 16f. Furthermore, the personal care product 10f has a connecting unit 18f, which connects the application unit 12f to the handle unit 14f.

[0413] The application unit 12f forms a flosser head of the personal care product 10f. The application unit 12f has at least one dental floss thread 24f. The dental floss thread 24f is formed by a dental floss. In the present case, the application unit 12f is designed as a dental floss thread. The dental floss thread 24f forms a connection with the connection unit 18f.

[0414] The handle unit 14f is designed to be gripped by the operator. The handle unit 14f has the material handle body 16f. The material handle body 16f of the handle unit 14f has a head region 66f. Furthermore, the material handle body 16f of the handle unit 14f has a handle region 68f. The head region 66f is designed to connect to the application unit 12f. The material handle body 16f has at least two arms 26f, 26f' toward the application unit 12f. The head region 66f is designed as a U-shaped geometry with two arms 26f, 26f'.

[0415] The material handle body 16f consists at least largely of a paper material. The material handle body 16f consists, for example, entirely of a paper material.

[0416] The personal care product 10f further comprises the connecting unit 18f. The connecting unit 18f comprises a connecting element 20f connected to the application unit 12f and a further connecting element 22f connected to the handle unit 14f. The connecting element 20f and the further connecting element 22f are designed to correspond. Furthermore, the connecting element 20f of the connecting unit 18f is formed integrally with the application unit 12f. The connecting element 20f forms, in particular, a part of the application unit 12f. The further connecting element 22f of the connecting unit 18f is at least partially formed integrally with the handle unit 14f. The further connecting element 22f of the connecting unit 18f is formed integrally with the handle body 16f. The further connecting element 22f of the connecting unit 18f is formed integrally with the handle body 16f.The further connecting element 22f of the connecting unit 18f therefore forms part of the handle body 16f. The further connecting element 22f of the connecting unit 18f therefore also consists largely, in particular entirely, of a paper material.

[0417] The further connecting element 22f is formed in an end region of the handle body 16f. The arms 26f, 26f' of the handle body 16f form the further connecting element 22f in their end regions, to which the application unit 12f is fixed. The further connecting element 22f forms two connecting regions 28f, 28f' at the ends of the arms 26f, 26f'. A connecting region 28f, 28f' is formed on each of the arms 26f, 26f'.

[0418] The connecting element 20f of the connecting unit 18f is at least partially materially connected to the further connecting element 22f of the connecting unit 18f. The connecting element 20f of the connecting unit 18f is at least partially form-fittingly connected to the further connecting element 22f of the connecting unit 18f. The further connecting element 22f of the connecting unit 18f is overmolded with the connecting element 20f of the connecting unit 18f. Furthermore, the dental floss thread 24f of the application unit 12f is overmolded by the connecting element 20f of the connecting unit 18f. The connecting element 20f of the connecting unit 18f has two caps 30f, 30f', each of which engages over one of the arms 26f, 26f' in a region of the further connecting element 22f. The caps 30f, 30f' each extend like a clamp around the arms 26f, 26f'.The caps 30f, 30f' of the connecting element 20f each extend in a clamp-like manner from the dental floss thread side over the arms 26f, 26f'. The caps 30f, 30f' of the connecting element 20f each have a U-shaped cross-section in a plane perpendicular to a direction of the dental floss thread 24f. The dental floss thread 24f is overmolded by the caps 30f, 30f' of the connecting element 20f. The connecting element 20f connects the dental floss thread 24f to the arms 26f, 26f' of the handle body 16f. The dental floss thread 24f does not rest against the handle body 16f.

[0419] The connecting element 20f further comprises a connecting bracket 32f, which connects the two caps 30f, 30f' to one another. The connecting bracket 32f is formed integrally with the caps 30f, 30f'. The connecting bracket 32f extends over the handle body 16f. The connecting bracket 32f follows the U-shaped profile of the handle body 16f in an end region facing the application unit 12f. The connecting bracket 32f covers a punched edge of the handle body 16f on an inner side of the arms 26f, 26f' and serves as protection. For this purpose, the material of the connecting bracket 32f is guided on the narrow edge in the curve between the arms 26f, 26f' and covers a sharp edge of the handle body 16f. The connecting bracket 32f is preferably injection-molded onto the handle body 16f. The material of the connecting bracket 32f is applied to the handle body 16f and guided over the arms 26f, 26f' to the end of the arms 26f, 26f'.The connecting bracket 32f has a circular arc-shaped extension.

[0420] The connecting element 20f is manufactured using an injection molding process. The connecting element 20f has at least one injection point 34f, which is arranged on the connecting bracket 32f. The injection point 34f is arranged on the connecting bracket 32f between the first cap 30f and the second cap 30f'. The injection point 34f is arranged at a low point of the connecting bracket 32f of the U-shaped profile of the handle body 16f. The injection point 34f is preferably arranged such that it has the same distance from both caps 30f, 30f', or such that the connecting bracket 32f has the same distance between the injection point 34f and the respective cap 30f, 30f'.

[0421] The further connecting element 22f of the connecting unit 18f has at least one positive-locking contour 36f, which is intended to form a positive connection with the connecting element 20f. The further connecting element 22f has a positive-locking contour 36f on each of its two arms 26f, 26f'. The positive-locking contour 36f is designed such that rotation of the connecting element 20f is not possible. The positive-locking contour 36f is arranged in the connecting regions 28f, 28f'. The positive-locking contour 36f of the further connecting element 22f is intended to prevent the connecting element 20f from rotating. The positive-locking contour 36f of the further connecting element 22f has at least one through-hole 38f, 38d'. The form-fitting contour 36f of the further connecting element 22f has two through-holes 38f, 38f', wherein one through-hole 38f, 38f' is arranged in each of the arms 26f, 26f'.The form-fitting contour 36f is formed by the through-hole 38f, 38f' and the outer contour of the arms 26f, 26f'. The connecting element 20f extends through the through-holes 38f, 38f'. The caps 30f, 30f' extend through the through-holes 38f, 38f'. The at least one through-hole 38f, 38f' is formed, for example, by a round hole. Figure 7 shows a body care product 10g in a schematic front view. The body care product 10g is formed by an oral hygiene product. In the present case, the body care product 10g is designed as a float.

[0422] The personal care product 10g has an application unit 12g. Furthermore, the personal care product 10g has a handle unit 14g, which has a material handle body 16g. Furthermore, the personal care product 10g has a connecting unit 18g, which connects the application unit 12g to the handle unit 14g.

[0423] The application unit 12g forms a flosser head of the personal care product 10g. The application unit 12g has at least one dental floss thread 24g. The dental floss thread 24g is formed by a dental floss. In the present case, the application unit 12g is designed as a dental floss thread. The dental floss thread 24g forms a connection with the connection unit 18g.

[0424] The handle unit 14g is designed to be gripped by the operator. The handle unit 14g has the material handle body 16g. The material handle body 16g of the handle unit 14g has a head region 66g. Furthermore, the material handle body 16g of the handle unit 14g has a handle region 68g. The head region 66g is designed to connect to the application unit 12g. The material handle body 16g has at least two arms 26g, 26g' toward the application unit 12g. The head region 66g is designed as a U-shaped geometry with two arms 26g, 26g'.

[0425] The material handle body 16g consists at least largely of a paper material. The material handle body 16g consists, for example, entirely of a paper material.

[0426] The personal care product 10g further comprises the connecting unit 18g. The connecting unit 18g comprises a connecting element 20g connected to the application unit 12g and a further connecting element 22g connected to the handle unit 14g. The connecting element 20g and the further connecting element 22g are designed to correspond. Furthermore, the connecting element 20g of the connecting unit 18g is formed integrally with the application unit 12g. The connecting element 20g forms, in particular, a part of the application unit 12g. The further connecting element 22g of the connecting unit 18g is at least partially formed integrally with the handle unit 14g. The further connecting element 22g of the connecting unit 18g is formed integrally with the handle body 16g. The further connecting element 22g of the connecting unit 18g is formed integrally with the handle body 16g.The further connecting element 22g of the connecting unit 18g therefore forms part of the handle body 16g. The further connecting element 22g of the connecting unit 18g therefore also consists largely, in particular entirely, of a paper material.

[0427] The further connecting element 22g is formed in an end region of the handle body 16g. The arms 26g, 26g' of the handle body 16g form the further connecting element 22g in their end regions, to which the application unit 12g is fixed. The further connecting element 22g forms two connecting regions 28g, 28g' at the ends of the arms 26g, 26g'. A connecting region 28g, 28g' is formed on each of the arms 26g, 26g'.

[0428] The connecting element 20g of the connecting unit 18g is at least partially materially connected to the further connecting element 22g of the connecting unit 18g. The connecting element 20g of the connecting unit 18g is at least partially form-fittingly connected to the further connecting element 22g of the connecting unit 18g. The further connecting element 22g of the connecting unit 18g is overmolded with the connecting element 20g of the connecting unit 18g. Furthermore, the dental floss thread 24g of the application unit 12g is overmolded with the connecting element 20g of the connecting unit 18g. The connecting element 20g of the connecting unit 18g has two caps 30g, 30g', each of which engages over one of the arms 26g, 26g' in a region of the further connecting element 22g. The caps 30g, 30g' each extend like a clamp around the arms 26g, 26g'.The caps 30g, 30g' of the connecting element 20g each extend in a clamp-like manner from the dental floss thread side over the arms 26g, 26g'. The caps 30g, 30g' of the connecting element 20g each have a U-shaped cross-section in a plane perpendicular to a direction of the dental floss thread 24g. The dental floss thread 24g is overmolded by the caps 30g, 30g' of the connecting element 20g. The connecting element 20g connects the dental floss thread 24g to the arms 26g, 26g' of the handle body 16g. The dental floss thread 24g does not rest against the handle body 16g.

[0429] The connecting element 20g further comprises a connecting bracket 32g, which connects the two caps 30g, 30g' to each other. The connecting bracket 32g is formed integrally with the caps 30g, 30g'. The connecting bracket 32g extends over the handle body 16g. The connecting bracket 32g follows the U-shaped profile of the handle body 16g in an end region facing the application unit 12g. The connecting bracket 32g partially covers a punched edge of the handle body 16g on an inner side and an outer side of the arms 26g, 26g' and serves as protection. The connecting bracket 32g extends, in particular, in a zigzag pattern over the arms 26g, 26g'. The arms 26g, 26g' are thus wrapped around, the connecting bracket 32g spreads out from the injection point 34g on the front as well as the back and lies over the inner and outer edges of the handle body 16g.The connecting bracket 32g is designed as a bumper, which, during use, protects the user's gums from injury on the edge of the handle body 16g. Preferably, the connecting bracket 32g is injection-molded onto the handle body 16g. The material of the connecting bracket 32g is applied to the handle body 16g and guided over the arms 26g, 26g' to the end of the arms 26g, 26g'. The connecting bracket 32g has a circular arc-shaped extension.

[0430] The connecting element 20g is manufactured using an injection molding process. The connecting element 20g has at least one injection point 34g, which is arranged on the connecting bracket 32g. The injection point 34g is arranged on the connecting bracket 32g between the first cap 30g and the second cap 30g'. The injection point 34g is arranged at a low point of the connecting bracket 32g of the U-shaped profile of the handle body 16g. The injection point 34g is preferably arranged such that it has the same distance from both caps 30g, 30g', or such that the connecting bracket 32g has the same distance between the injection point 34g and the respective cap 30g, 30g'.

[0431] The further connecting element 22g of the connecting unit 18g has at least one positive-locking contour 36g, which is intended to form a positive connection with the connecting element 20g. The further connecting element 22g has a positive-locking contour 36g on each of its two arms 26g, 26g'. The positive-locking contour 36g is designed such that rotation of the connecting element 20g is not possible. The positive-locking contour 36g is arranged in the connecting regions 28g, 28g'. The positive-locking contour 36g of the further connecting element 22g is intended to prevent the connecting element 20g from rotating. The positive-locking contour 36g of the further connecting element 22g has at least one through-hole 38g, 38g'. The form-fitting contour 36g of the further connecting element 22g has two through-holes 38g, 38g', wherein one through-hole 38g, 38g' is arranged in each of the arms 26g, 26g'.The positive locking contour 36g is formed by the through-hole 38g, 38g' and the outer contour of the arms 26g, 26g'. The connecting element 20g extends through each of the through-holes 38g, 38g'. The caps 30g, 30g' each extend through the through-hole 38g, 38g'. The at least one through-hole 38g, 38g' is formed, for example, by a round hole. The connecting bracket 32g, with its zigzag configuration around the arms 26g, 26g', supports the positive locking and prevents rotation, since its configuration stabilizes the caps 30g, 30g'.

[0432] Reference is made below to Figures 8A to 8G, which show different views and manufacturing stages of the personal care product 10h. Due to the different views, some elements are not shown in all figures and are therefore not provided with reference symbols in all figures.

[0433] Figure 8G shows the finished personal care product 10h. Figures 8A and 8B show a handle unit 14h of a personal care product 10h. The personal care product 10h is formed by an oral hygiene product. In this case, the personal care product 10h is designed as a toothbrush.

[0434] The personal care product 10h has an application unit 12h. Furthermore, the personal care product 10h has a handle unit 14h, which has a material handle body 16h. Furthermore, the personal care product 10h has a connecting unit 18h, which connects the application unit 12h to the handle unit 14h.

[0435] The personal care product 10h has a longitudinal axis 60h, a height axis, and a width axis. The longitudinal axis 60h is arranged parallel to a main extension direction 42h of the personal care product 10h. If the personal care product 10h is placed with a back side on a flat surface so that the longitudinal axis 60h is arranged parallel to the surface, the height axis is arranged perpendicular to the longitudinal axis 60h and perpendicular to the surface and the width axis. The width axis is arranged perpendicular to the longitudinal axis 60h and perpendicular to the height axis.

[0436] The application unit 12h has a brush head 46h. The application unit 12h is formed by a brush head 46h. In the present case, the application unit 12h is designed as a toothbrush head. The application unit 12h has a base body 84h. The base body 84h forms a connection with the connecting unit 18h. The base body 84h is formed in one piece with a connecting element 20h of the connecting unit 18h. The application unit 12h further has a bristle plate 86h with a plurality of bristles 88h. The bristles 88h are shown as a solid body for the sake of clarity. The base body 84h of the application unit 12h has a receiving area 90h for receiving the bristle plate 86h. A connection between the bristle plate 86h and the base body 84h is made by gluing, welding, snapping, and / or riveting.At most, the connection to the handle unit 14h is still provided in parallel in the area of ​​the front of the handle body 16h. This can, for example, secure the connection to the handle body 16h.

[0437] The handle unit 14h is intended to be gripped by the operator. The handle unit 14h has the material handle body 16h. The material handle body 16h of the handle unit 14h has a head region 66h. Furthermore, the material handle body 16h of the handle unit 14h has a grip region 68h and a neck region 92h arranged between the grip region 68h and the head region 66h. The head region 66h is intended to connect the application unit 12h. The handle unit 14h has at least one gripping surface 70h, which forms a surface of the material handle body 16h. The handle body 16h is folded from the unfolded state, depicted in Fig. 8A, into a three-dimensional body, depicted in Fig. 8B. In a folded state, the handle body 16h has a triangular cross-section composed of three sides of the handle body 16h. In a folded state, the handle body 16h is hollow.The blank of the handle body 16h consists in particular of a paper sheet, which consists of at least one, in particular exactly one, layer. The handle body 16h has from 1 to 10 layers, preferably from 1 to 5 layers. The material handle body 16h has, for example, exactly three layers that form the said layer. The layers form a layer. The number of layers depends in particular on the desired final thickness or stability of the material handle body 16h. In particular, many thin layers or a few thick layers can be realized. The layers are preferably connected. By realizing the material handle body 16h in multiple layers, stability advantages arise compared to a body consisting of one or fewer layers. The handle body 16h has a front wall 94h and two side walls 96h, 96h'. The handle body 16h is produced from a blank.The two side walls 96h, 96h' together with the two inner side walls 98h, 98h' form a double layer in the final product. The cut-out of the handle body 16h therefore consists in particular of five sides, namely the front wall 94h, the two side walls 96h, 96h', and two inner side walls 98h, 98h'. At least one, but in particular both, of the double layers are glued. The two layers of the side walls 96h, 96h' and the respective inner side walls 98h, 98h' are therefore glued together. The handle body 16h is conical in the longitudinal direction. In the folded state, the handle body 16h is open on the brush head side so that the connecting element 20h can be inserted later. For example, the handle body 16h is also open at a lower, free end. The front wall 94h of the handle body 16h is longer than the two side walls 96h, 96h' and the respective inner side walls 98h, 98h'.In particular, a profile is formed from a front side of the free end to the side surfaces, which in particular are recessed. The longitudinal extent of the handle body 16h decreases towards the rear folded edge. Furthermore, the handle body 16h and / or the further connecting element 22h is designed to be open towards the application unit 12h. The front side of the handle body 16h is longer than the sides, so that an insertion geometry for the connecting element 20h is formed. The body stability of the handle body 16h is achieved by the folding or by the resulting framework in the cross-section as well as the double layer. An angle between the front wall 94h and the side walls 96h, 96h' with the respective inner side walls 98h, 98h' of the handle body 16h is symmetrical on the left and right in a folded state, in particular between 45° and 85°, preferably between 55° and 75°.The angle between the side walls 96h, 96h' and the respective inner side walls 98h, 98h' of the handle body 16h is in particular between 30° and 70°, preferably between 40° and 60°. The overall length of the handle body 16h is from 130 mm to 210 mm, preferably from 180 mm to 200 mm. The width of the handle body 16h is from 10 mm to 22 mm, preferably from 12 mm to 19 mm, at the free end, and from 5 mm to 13 mm, preferably from 7 mm to 11 mm, in the region of the application unit 12h. The height of the handle body 16h is in particular from 10 mm to 20 mm, preferably from 13 mm to 17 mm, at the free end, and from 3 mm to 9 mm, preferably from 4 mm to 7 mm, in a region of the application unit 12h. In Fig. 8A, a cut of the paper material for the handle unit 14h is shown.When folded around the folding axes, the partial layers of the front wall 94h, the two side walls 96h, 96h', and the two inner side walls 98h, 98h' are folded against each other, forming a 3D body. This results in a triangular cross-section. When assembled, the material handle body 16h forms, at least in sections, a hollow pyramid with a triangular cross-section.

[0438] The material handle body 16h consists at least largely of a paper material. The material handle body 16h consists entirely of a paper material. The material handle body 16h of the handle unit 14h has at least one layer of a paper material, which is three-dimensionally shaped. The blank of the material handle body 16h consists of exactly one layer of a paper material.

[0439] The personal care product 10h further comprises the connecting unit 18h. The connecting unit 18h comprises a connecting element 20h connected to the application unit 12h and a further connecting element 22h connected to the handle unit 14h. The connecting element 20h and the further connecting element 22h are designed to correspond. Furthermore, the connecting element 20h of the connecting unit 18h is formed integrally with the base body 84h of the application unit 12h. The connecting element 20h forms, in particular, a part of the application unit 12h. The further connecting element 22h of the connecting unit 18h is at least partially formed integrally with the handle unit 14h. The further connecting element 22h of the connecting unit 18h is formed integrally with the handle body 16h. The further connecting element 22h of the connecting unit 18h is formed integrally with the handle body 16h.The additional connecting element 22h of the connecting unit 18h therefore forms part of the handle body 16h. The additional connecting element 22h of the connecting unit 18h therefore also consists largely, in particular entirely, of a paper material. The additional connecting element 22h is formed in an end region of the handle body 16h.

[0440] The further connecting element 22h is folded in a cross-section perpendicular to a main extension direction 42h into a polygonal shape, which delimits a receiving area. The further connecting element 22h has an open, triangular cross-section. The connecting element 20h of the connecting unit 18h is at least partially positively connected to the further connecting element 22h of the connecting unit 18h. The connecting element 20h has a core extension 44h, which is intended to engage in the receiving area of ​​the further connecting element 22h. The base body 84h of the application unit 12h is formed by a shoe, which is intended to be pushed onto one end of the handle body 16h. The core extension 44h serves as an internal support geometry. The core extension 44h follows the cross-section inside the handle body 16h. The core extension 44h is formed by a cylinder with a triangular base.The core extension 44h is exposed on one side so that the handle body 16h can be retracted. The core extension 44h is designed to be shorter than a sleeve 100h of the base body 84h that partially encompasses the core extension 44h. The sleeve 100h of the base body 84h rests externally on the handle body 16h in an area of ​​the further connecting element 22h. In an assembled state, the handle body 16h is clamped between the sleeve 100h and the core extension 44h. In addition, the core extension 44h can be locked and / or glued into the handle body 16h, in particular with an undercut. Furthermore, the handle body 16h can be clamped and / or glued between the core extension 44h and the bristle plate 86h.

[0441] Reference is made below to Figures 9A to 9E, which show different views and manufacturing stages of the personal care product 10i. Due to the different views, some elements are not shown in all figures and are therefore not provided with reference symbols in all figures.

[0442] Figure 9A shows a handle unit 14i of a personal care product 10i in a flat, unfolded state. In this case, the personal care product 10i is configured as a razor.

[0443] The personal care product 10i has an application unit 12i. Furthermore, the personal care product 10i has a handle unit 14i, which has a material handle body 16i. Furthermore, the personal care product 10i has a connecting unit 18i, which connects the application unit 12i to the handle unit 14i.

[0444] The application unit 12i forms a razor head of the personal care product 10i. The application unit 12i has, in particular, a base body 84i designed as a blade carrier. The base body 84i of the application unit 12i is formed entirely from a hard component. However, it would also be conceivable for the base body 84i of the application unit 12i to be formed from a hard component and a soft component. The base body 84i of the application unit 12i forms a static blade carrier, which is provided for a movable, in particular pivotable, reception of a blade head 48i. The application unit 12i has the blade head 48i. The application unit 12i has the blade head 48i arranged on the base body 84i. The base body 84i has three articulated arms 102i, 102i', 102i", which are provided for a pivotable reception of the blade head 48i.The blade head 48i can in particular be connected to the base body 84i in an interchangeable manner.

[0445] The handle unit 14i is intended to be gripped by the operator. The handle unit 14i has the material handle body 16i. The material handle body 16i of the handle unit 14i has a head region 66i. Furthermore, the material handle body 16i of the handle unit 14i has a grip region 68i. The head region 66i is intended to connect the application unit 12i. The handle unit 14i has at least one gripping surface 70i, which forms a surface of the material handle body 16i. In a top view, the entire handle body 16i is, in a folded state, particularly partially Y-shaped or T-shaped. The handle body 16i is folded three-dimensionally to form the bent shape.

[0446] The handle body 16i is folded from the unfolded state, depicted in Fig. 9A, into a three-dimensional body, depicted in Figs. 9D and 9E. In a folded state, the handle body 16i has a triangular cross-section composed of three sides of the handle body 16i. The handle body 16i is hollow in a folded state. The blank of the handle body 16i consists in particular of a paper sheet consisting of at least one, in particular exactly one, layer. The handle body 16i has from 1 to 10 layers, preferably from 1 to 5 layers, which form a layer. The layers form a layer. The number of layers depends in particular on the desired final strength or stability of the handle body 16i. In particular, many thin layers or a few thick layers can be realized. The layers are preferably connected.By constructing the handle body 16i in multiple layers, stability advantages are achieved compared to a body consisting of one or fewer layers. The handle body 16i has a front wall 94i and two side walls 96i, 96i'. The handle body 16i is manufactured from a single blank. The two side walls 96i, 96i' together with the two inner side walls 98i, 98i' form a double layer in the final product. The blank of the handle body 16i therefore consists in particular of five sides, namely the front wall 94i, the two side walls 96i, 96i', and two inner side walls 98i, 98i'. At least one, in particular both, of the double layers are glued. The two layers of the side walls 96i, 96i' and the respective inner side walls 98i, 98i' are therefore glued together. The handle body 16i is conical in the longitudinal direction, with a width of the handle body 16i increasing towards the application unit 12i.In the folded state, the handle body 16i is open on the side facing the application unit 12i so that the connecting element 20i can be retracted later. For example, the handle body 16i is also designed to be open at a lower, free end. The front wall 94i of the handle body 16i is longer than the two side walls 96i, 96i' and the respective inner side walls 98i, 98i' and bends towards the application unit 12i. Furthermore, the side walls 96i, 96i' and the inner side walls 98i, 98i' also bend towards the application unit 12i. The side walls 96i, 96i' open towards the application unit 12i and are only single-layered in an area of ​​the further connecting element 22i. Body stability of the handle body 16i is achieved by the folding or by the resulting framework in the cross-section.

[0447] The material handle body 16i consists at least largely of a paper material. The material handle body 16i consists entirely of a paper material. The material handle body 16i of the handle unit 14i has at least one layer of a paper material, which is three-dimensionally shaped. The blank of the material handle body 16i consists of exactly one layer of a paper material, but a multi-layer structure would also be conceivable. A material thickness of the handle body 16i is in particular from 0.3 mm to 1.5 mm, preferably 0.4 mm to 0.7 mm. A single layer has in particular a basis weight of 300 g / m 2 up to 500 g / m 2 , preferably 350 g / m 2 up to 450 g / m 2 The material thickness of each layer is in particular from 0.25 mm to 0.65 mm, preferably from 0.35 mm to 0.5 mm.

[0448] In other embodiments, the handle body 16i is made of other materials such as wood or grass (e.g., bamboo) or other sustainable, biodegradable, biorenewable, and / or recycled materials, including bioplastics and recycled plastics, and combinations thereof, etc. The polymers can be both virgin plastics (e.g., recyclable virgin plastics, virgin bioplastics, virgin biomaterials, etc.) and blended polymers (e.g., blended virgin and recycled plastics).

[0449] The personal care product 10i further comprises the connecting unit 18i. The connecting unit 18i comprises a connecting element 20i connected to the application unit 12i and a further connecting element 22i, in particular a handle connecting element, connected to the handle unit 14i. The connecting element 20i and the further connecting element 22i are designed to correspond. Furthermore, the connecting element 20i of the connecting unit 18i is, for example, formed integrally with the base body 84i of the application unit 12i. However, another design of the connecting unit that would appear appropriate to a person skilled in the art would also be conceivable. The connecting element 20i forms, in particular, a part of the application unit 12i. The further connecting element 22i of the connecting unit 18i is at least partially formed integrally with the handle unit 14i.The further connecting element 22i of the connecting unit 18i is formed integrally with the handle body 16i. The further connecting element 22i of the connecting unit 18i is formed integrally with the handle body 16i. The further connecting element 22i of the connecting unit 18i therefore forms part of the handle body 16i. The further connecting element 22i of the connecting unit 18i therefore also consists largely, in particular entirely, of a paper material. The further connecting element 22i is formed in an end region of the handle body 16i.

[0450] The further connecting element 22i is folded into a polygonal shape in a cross-section perpendicular to a main extension direction 42i, which defines a receiving area. The further connecting element 22i has an open, triangular cross-section.

[0451] The connecting element 20i of the connecting unit 18i is at least partially positively connected to the further connecting element 22i of the connecting unit 18i. For this purpose, in particular, several anchoring points are provided between the connecting element 20i and the handle body 16i or the further connecting element 22i. The fixing of the connecting element 20i to the handle body 16i is achieved by positive locking. Alternatively or additionally, fixing by adhesive would also be conceivable. The connecting element 20i of the connecting unit 18i has a voluminous design. The connecting element 20i is designed like a framework with empty spaces inside. In an assembled state, the handle body 16i wraps around the connecting element 20i on three surfaces. The connecting element 20i is provided to support the handle body 16i from the inside and to connect the handle body 16i to the blade head 48i so that the latter cannot be crushed.The connecting element 20i has a plurality of contact surfaces 104i, 106i, 106i' for the handle body 16i. The connecting element 20i has three contact surfaces 104i, 106i, 106i' for the handle body 16i. A first contact surface 104i is arranged on the upper side. On this side, the connecting element 20i has an insertion groove 108i and a locking comb 110i for connection to the handle body 16i. The handle body 16i is inserted into the insertion groove 108i for connection to the application unit 12i with a front edge 116i of the further connecting element 22i until a recess 114i of the further connecting element 22i engages with the locking comb 110i. The first contact surface 104i has a circumferential size, where recesses are not deducted, of 500 mm. 2 up to 850 mm 2 , preferably 600 mm 2 up to 750 mm 2,. A second and third contact surface 106i, 106i' are shaped symmetrically to the handle's longitudinal axis. The second and third contact surfaces 106i, 106i' converge, in particular, toward one another. The second and third contact surfaces 106i, 106i' can be provided with recesses and are located at an angle of 25° to 75°, preferably 35° to 55°, to the first contact surface 104i on the rear side of the connecting element 20i, wherein the angles are identical but opposite. The second and third contact surfaces 106i, 106i' each have a circumferential size, at which recesses are not subtracted, of 100 mm 2 up to 180 mm 2 , preferably 110 mm 2 up to 150 mm 2The connecting element 20i is designed to be retracted and locked into the recess of the handle body 16i during assembly. When assembled and secured, the handle body 16i holds the connecting element 20i and thus the application unit 12i. The connecting element 20i and the handle body 16i are not bonded by any material. However, it would also be conceivable for an additional adhesive bond to be provided.

[0452] The handle unit 14i is intended to be grasped by the user. The handle unit 14i has a handle body 16i that is intended to be grasped, gripped, or held by a user. The handle body 16i of the handle unit 14i has a head portion 66i. Furthermore, the handle body 16i of the handle unit 14i has a handle portion 68i and a head portion 66i. The head portion 66i is located at a first (e.g., front, top, etc.) end of the handle unit 14i, which is opposite an end portion 132i (e.g., rear, bottom, etc.). A middle portion is adjacent to the head portion 66i. A middle portion is adjacent to the end portion 132i. The head portion 66i is intended for connection to (e.g., for engagement with) the connection unit 18i. The handle unit 14i has at least one gripping surface 70i, which forms a surface of the handle body 16i.The gripping surface 70i comprises the central region 130i and can also comprise the end region 132i and the head region 66i. The gripping surface 70i comprises at least parts of the gripping region 68i. For example, the gripping surface 70i can have elevations and / or depressions in the gripping region 68i. In plan view, the entire grip body 16i is, in particular, partially Y- or T-shaped before and / or in an assembled (e.g., folded) state. The grip body 16i can be folded three-dimensionally to form the prismatic, polygonal, and / or curved shape.

[0453] The handle body 16i is in an assembled (e.g., folded) state or configuration, which is formed from an unformed (e.g., unfolded) state or configuration (e.g., when the handle body 16i is generally planar and in the form of a blank), as exemplary shown in Fig. 9A, into a three-dimensional body, as exemplary shown in Fig. 9D and 9E. In some embodiments, the manufacturer or vendor configures the handle body 16i in an assembled state. In some embodiments, the user configures the handle from an unfolded state to the assembled (e.g., folded) state. In an assembled (e.g., folded) state, the handle body 16i has a triangular cross-section (e.g., in cross-section along the longitudinal axis 60i, thus also taking into account and in the direction of the height axis 62i and the width axis 64i) consisting of three sides of the handle body 16i.In the assembled (e.g., folded) state, the handle body 16i is hollow. While a triangular cross-sectional shape is illustrated in the exemplary FIGS. 9D-9E, other cross-sectional shapes are also within the scope of the present disclosure, including polygonal, prismatic, frustoconical shapes and their fillets, chamfers and / or fillets, curved sections, combinations thereof, etc.

[0454] The blank of the handle unit 14i, including the handle body 16i, consists in particular of a layer (e.g., a material web such as paper, or also a layer of wood, grass (e.g., bamboo), etc.) consisting of at least one, in particular precisely one, ply. The handle body 16i has 1 to 10 plies, preferably 1 to 5 plies, forming a layer. The plies form a layer. The number of plies depends in particular on the desired final thickness or stability of the handle body 16i. In particular, many thin plies or a few thick plies can be realized. In some embodiments, a thin ply and a thick ply alternate with adjacent plies. The plies are preferably joined together by gluing, heat, welding, molding, combinations thereof, etc. The realization of the handle body 16i in multiple plies results in stability advantages compared to a body consisting of one or a few plies.

[0455] The handle body 16i can comprise a single blank and, as such, be manufactured from a single blank. The two side walls 96i, 96i', together with at least one of the two inner side walls 98i, 98i', form a double layer in the assembled configuration (Note: The front wall 94i is not intended to be doubled by assembly). In some embodiments, only one of two side walls 96i or 96i' and / or inner side walls 98i, 98i' is provided, so that the handle unit 14i, in an assembled configuration, has only one side that is a double layer. The blank (e.g., sheet) of the handle body 16i in the unformed (e.g., unfolded) state can therefore, in particular, have and even consist of five sides, namely the front wall 94i, the two side walls 96i, 96i', and the two inner side walls 98i, 98i'. However, this configuration is not limiting.At least one, and in particular both, of the bilayers are glued or contain a removable adhesive. Thus, at least one of the two layers of the side walls 96i, 96i' and the respective side inner walls 98i, 98i' are glued together (e.g., permanently or temporarily). In some embodiments, the side inner wall 98i is glued to the side wall 96i and the side inner wall 98i' is glued to the side wall 96i' when transitioning from a generally flat (e.g., unfolded) configuration to a assembled (e.g., folded) configuration. In such a assembled (e.g., folded) configuration, the side inner wall 98i and the side wall 96i are generally parallel such that an outer surface of the side inner wall 98i faces and is at least partially attached to an inner surface of the side wall 96i. In such a assembled (e.g.,folded) configuration, the side inner wall 98i' and the side wall 96i' are generally parallel such that an outer surface of the side inner wall 98i' faces and is at least partially secured to an inner surface of the side wall 96i'.

[0456] The handle body 16i has a prismatic (e.g., pyramidal, trapezoidal, conical, and / or frustoconical, or a combination thereof) or polygonal shape in the longitudinal direction along the longitudinal axis 60i, wherein the width (along the width axis 64i) of the handle body 16i increases toward the end configured for connection to the connecting unit 18i. In the assembled (e.g., folded) state, the handle unit 14i, including the handle body 16i, is open on the side facing the application unit 12i, so that the connecting unit 18i can be mounted to the handle body 16i (and thus the application unit 12i to the handle unit 14i). The handle body 16i is also open, for example, at a lower, free end. I...

Claims

Claims 1 . Personal care product, in particular an oral hygiene product, with at least one application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) with at least one handle unit (14a; 14c-14r; 14u; 14v; 14aa-14ee), which has at least one material handle body (16a-16r; 16u; 16v; 16aa-16ee) which consists at least partially, in particular at least to a large extent, of a paper material, and with a connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee), via which the application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) is connected to the handle unit (14a; 14c-14r; 14u; 14v; 14aa-14ee), characterized in that the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) has at least one connecting element (20a; 20e-20r; 20u; 20v; 20aa-ee) connected to the application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) and at least one further connecting element (22a; 22c-22r; 22u; 22v;22aa-ee ), wherein the connecting element (20a; 20e-20r; 20u; 20v; 20aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) consists at least partially, in particular at least to a large extent, of a polymer, in particular of a plastic.; 2. Personal care product, in particular oral hygiene product, in particular according to claim 1, with at least one application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) with at least one handle unit (14a; 14c-14r; 14u; 14v; 14aa-14ee), which has at least one material handle body (16a-16r; 16u; 16v; 16aa-16ee) which consists at least partially, in particular at least to a large extent, of a wood or bamboo material, and with a connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee), via which the application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) with the Handle unit (14a; 14c-14r; 14u; 14v; 14aa-14ee), characterized in that the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) has at least one connecting element (20a; 20e-20r; 20u; 20v; 20aa-ee) connected to the application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee) and at least one further connecting element (22a;22c-22r; 22u; 22v; 22aa-ee), wherein the connecting element (20a; 20e-20r; 20u; 20v; 20aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) consists at least partially, in particular at least to a large extent, of a polymer, in particular of a plastic.; 3. Personal care product according to claim 1 or 2, characterized in that the connecting element (20a; 20e-20r; 20u; 20v; 20aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) is at least partially formed in one piece with the application unit (12a; 12e-12r; 12u; 12v; 12aa-12ee).

4. Personal care product according to one of the preceding claims, characterized in that the further connecting element (22a; 22c-22r; 22u; 22v; 22aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) is formed at least partially in one piece with the handle unit (14a; 14c-14r; 14u; 14v; 14aa-14ee).

5. Personal care product according to one of the preceding claims, characterized in that the connecting element (20a; 20e; 20f; 20i; 20j; 20l-20r) of the connecting unit (18a; 18c; 18d; 18e; 18f; 18g; 18j; 18l) is at least partially materially connected to the further connecting element (22a; 22c; 22d; 22e; 22f; 22g; 22j; 22l-22r) of the connecting unit (18a; 18c; 18d; 18e; 18f; 18g; 18j; 18l-18r), wherein the further connecting element (22a; 22c; 22d; 22e; 22f; 22g; 22j ; 22I- 22r) of the connecting unit (18a; 18c; 18d; 18e; 18f; 18g; 18j; 18l-18r) consists at least partially, in particular at least to a large extent, of a paper material.

6. Personal care product according to claim 5, characterized in that the further connecting element (22a; 22c; 22d; 22e; 22f; 22g; 22q) of the connecting unit (18a; 18c; 18d; 18e; 18f; 18g; 18q) is overmolded with the connecting element (20a; 20e; 20f; 20g; 20q) of the connecting unit (18a; 18c; 18d; 18e; 18f; 18g; 18q).

7. Personal care product according to one of the preceding claims, characterized in that the application unit (12a; 12e; 12f; 12g; 121) has at least one dental floss thread (24a; 24e; 24f; 24g; 241), in particular a dental floss, wherein the dental floss thread (24a; 24e; 24f; 24g; 241) is overmolded by the connecting element (20a; 20e; 20f; 20g; 201) of the connecting unit (18a; 18c; 18d; 18e; 18f; 18g; 181).

8. Personal care product according to one of the preceding claims, characterized in that the connecting element (20a; 20e-20r; 20u; 20v; 20aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) consists of a hard plastic.

9. Personal care product according to one of the preceding claims, characterized in that the material handle body (16a; 16b; 16c; 16d; 16e; 16f; 16g; 161) has at least two arms (26a, 26a'; 26c, 26c'; 26d, 26d'; 26e, 26e'; 26f, 26f'; 26g, 26g'; 261, 26'1) towards the application unit (12a; 12c; 12d; 12e; 12f; 12g; 121), wherein the further connecting element (22a; 22c; 22d; 22e; 22f; 22g; 221) is provided at one end of the arms (26a, 26a'; 26c, 26c'; 26d, 26d'; 26e, 26e'; 26f, 26f'; 26g, 26g'; 26', 26'1) forms at least two connecting regions (28a, 28a'; 28c, 28c'; 28d, 28d'; 28e, 28e'; 28f, 28f'; 28g, 28g'; 281, 28'1).

10. Personal care product according to one of the preceding claims, characterized in that the connecting element (20a; 20e; 20f; 20g) of the connecting unit (18a; 18c; 18d; 18e; 18f; 18g) has at least one cap (30a, 30a'; 30d, 30d'; 30e, 30e'; 30f, 30f'; 30g, 30g') which at least partially overlaps the further connecting element (22a; 22c; 22d; 22e; 22f; 22g) of the connecting unit (18a; 18c; 18d; 18e; 18f; 18g). 1 1 . Personal care product at least according to claim 9, characterized in that the connecting element (20e; 20f; 20g) of the connecting unit (18e; 18f; 18g) has at least two caps (30d, 30d'; 30e, 30e'; 30f, 30f') which at least partially overlap the two connecting regions (28e, 28e'; 28f, 28f'; 28g, 28g') of the further connecting element (22e; 22f; 22g) of the connecting unit (18e; 18f; 18g), wherein the connecting element (20e; 20f; 20g) has at least one connecting bracket (32e; 32f; 32g) which connects the at least two caps (30e, 30e'; 30f, 30f'; 30g, 30g').

12. Personal care product according to claim 10 or 11, characterized in that the connecting element (20a) has at least one injection point (34a) which is arranged on the cap (30a, 30a').

13. Personal care product at least according to claim 11, characterized in that the connecting element (20e; 20f; 20g) has at least one injection point (34e; 34f; 34g) which is arranged on the connecting bracket (34e; 34f; 34g).

14. Personal care product according to one of the preceding claims, characterized in that the connecting element (20a; 20e-20r; 20u; 20v; 20aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) is at least partially positively connected to the further connecting element (22a; 22c-22r; 22u; 22v; 22aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee), wherein the further connecting element (22a; 22c-22r; 22u; 22v; 22aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee consists at least partly, in particular at least to a large extent, of a paper material.

15. Personal care product according to one of the preceding claims, characterized in that the further connecting element (22a; 22c-22r; 22u; 22v; 22aa-ee) of the connecting unit (18a; 18c-18r; 18u; 18v; 18aa-ee) has at least one positive locking contour (36a; 36c; 36d; 36e; 36f; 36g; 36r; 36u; 36v; 36aa-ee) which is intended to form a positive locking with the connecting element (20a; 20d-20r; 20u; 20v; 20aa-ee).

16. Personal care product according to claim 15, characterized in that the form-fitting contour (36a; 36c; 36e; 36f; 36g; 36i; 36l; 36r; 36u; 36v; 36aa; 36ee) of the further connecting element (22a; 22c; 22e; 22f; 22g; 22i; 22I; 22r; 22u; 22v; 22aa; 22ee) has at least one through-hole (38a, 38a'; 38c, 38c'; 38e, 38e'; 38f, 38f'; 38g, 38g'; 38I, 38'I; 38r), wherein the connecting element (20a; 20e; 20f; 20h; 20i; 20I; 20r; 20u; 20v; 20aa; 20ee) extends through the through-hole (38a, 38a'; 38c, 38c'; 38e, 38e'; 38f, 38f'; 38g, 38g'; 381, 38'1; 38r).

17. Personal care product at least according to claim 15, characterized in that the form-fitting contour (36c; 36d; 36q) of the further connecting element (22c; 22d; 22q) has at least one notch (40c, 40c'; 40d, 40d') which is backfilled by the connecting element (20q).

18. Personal care product at least according to claim 15, characterized in that the form-fitting contour (36a; 36c; 36d; 36e; 36f; 36g; 36i) of the further connecting element (22a; 22c; 22d; 22e; 22f; 22g; 22i) is provided to prevent the connecting element (20a; 20e; 20f; 20g; 20i) from twisting.

19. Personal care product according to one of the preceding claims, characterized in that the further connecting element (22h; 22i) of the connecting unit (18h; 18i) is formed in one piece with the handle body (16h; 16i) and consists of a paper material, wherein the further connecting element (22h; 22i) is folded in a cross section perpendicular to a main extension direction (42h; 42i) into a polygonal shape which delimits a receiving area.

20. Personal care product according to claim 19, characterized in that the connecting element (20h) has a core extension (44h) which is intended to engage in the receiving area of the further connecting element (22h). 21 . Personal care product according to one of the preceding claims, characterized in that the application unit (12h) has at least one brush head (46h).

22. Personal care product according to one of the preceding claims, characterized in that the application unit (12i) has at least one blade head (48i).

23. Personal care product according to the preamble of claim 1, in particular according to one of the preceding claims, characterized in that the application unit (12s; 12t; 12w-12z) is at least partially formed in one piece with the handle unit (14s; 14t; 14w-14z).

24. Personal care product according to claim 22, characterized in that the application unit (12s; 12t; 12w-12z) is formed integrally with the handle unit (14s; 14t; 14w-14z), wherein the application unit (12s; 12t; 12w-12z) consists at least partially, in particular at least to a large extent, of a paper material.

25. Personal care product according to claim 22 or 23, characterized in that the material handle body (16s; 16t; 16w-16z) of the handle unit (14s; 14t; 14w-14z) in a cross section perpendicular to a main extension direction (42s; 42t; 42w-42z) is folded into a polygonal shape.

26. Personal care product according to claim 24, characterized in that the material handle body (16y; 16z) of the handle unit (14y; 14z) has at least two tabs (164y, 166y; 164z, 166z), wherein the material handle body (16y; 16z) is detachably held in the polygonal shape via the tabs.

27. A method for producing a personal care product (10a) according to one of the preceding claims, characterized in that in a provision step (50a) the handle unit (14a) is provided with the further connecting element (22a) of the connecting unit (18a) and in a connection step (52a) the application unit (12a) is connected to the handle unit (14a) via the connecting element (20a) of the connecting unit (18a) by means of overmolding.

28. Method according to claim 27, characterized in that in the provision step (50a) a plurality of handle units (14a) for producing a plurality of personal care products (10a) are provided coherently from at least one paper sheet (54a).

29. Method according to claim 28, characterized in that in a separating step (56a) following the connecting step (52a), the handle units (14a) are separated from one another.

30. Method according to one of claims 27 to 29, characterized in that in the provision step (50a) a continuous dental floss thread (24a), in particular a dental floss, is provided for a plurality of application units (12a) and inserted into an injection molding tool (58a).

31. Connecting unit (18i; 18cc) for a personal care product (10i; 10cc), in particular a razor, according to one of claims 1 to 26, comprising: a base body (84i; 84cc) with a connecting element (20i; 20cc), wherein the connecting element (20i; 20cc) has at least one insertion groove (108i; 108cc) and at least one locking comb (110i), a first contact surface (104i), a second contact surface (106i), a third contact surface (106i') and a form-fitting element (186i; 186cc; 188cc).

32. Connecting unit (18i; 18cc) according to claim 31, characterized in that the connecting element (20i; 20cc) comprises between two insertion grooves (108i; 108cc) and four insertion grooves (108i; 108cc).

33. Connecting unit (18i; 18cc) according to claim 31 or 32, characterized in that the first contact surface (104i), the second contact surface (106i) and the third contact surface (106i') form a polygonal or prismatic structure in the base body (84i).

34. Connecting unit (18i; 18cc) according to one of claims 31 to 33, characterized in that the base body (84i; 84cc) consists of paper, wood, grass (e.g. bamboo), sustainable, biodegradable, compostable, recyclable, recycled and / or bioplastic material.

35. Connecting unit (18i; 18cc) according to one of claims 31 to 34, characterized in that the base body (84i; 84cc) comprises one or more layers.

36. Connecting unit (18i; 18cc) according to one of claims 31 to 35, characterized in that the base body (84i; 84cc) has a hard component and / or a soft component.

37. A connecting unit (18i; 18cc) for a personal care product (10i; 10cc), in particular a razor or dermaplaning product, according to one of claims 1 to 26, comprising: a connecting element (18aa; 18bb) with at least one extension, in particular a rivet (140aa; 140aa'; 178aa), and a receiving groove (152aa); and a blade carrier (172aa).

38. Connecting unit (18aa; 18bb) according to claim 37, characterized in that the at least one extension comprises between two extensions, in particular rivets (140aa; 140aa'; 178aa), and three extensions, in particular rivets (140aa; 140aa'; 178aa).

39. Connecting unit (18aa; 18bb) according to claim 37 or 38, characterized in that the at least one extension comprises at least one rivet (140aa; 140aa'; 178aa).

40. Connecting unit (18aa; 18bb) according to one of claims 37 to 39, characterized in that the at least one extension, in particular rivet (140aa; 140aa'), has a cross-section with a circular structure.

41. Connecting unit (18aa; 18bb) according to one of claims 37 to 40, characterized in that a first extension, in particular rivet (178aa), of the at least one extension, in particular rivet (140aa; 140aa'; 178aa), is elongated.

42. Connecting unit (18aa; 18bb) according to one of claims 37 to 41, characterized in that the first extension, in particular rivet (178aa), of the at least one extension, in particular rivet (140aa; 140aa'; 178aa), is larger than a second extension, in particular rivet (140aa; 140aa'), of the at least one extension, in particular rivet (140aa; 140aa'; 178aa).

43. Connecting unit (18aa; 18bb) according to one of claims 37 to 42, characterized in that the connecting unit (18aa; 18bb) comprises paper, wood, grass (e.g. bamboo), sustainable, biodegradable, compostable, recyclable, recycled and / or bioplastic material.

44. Connecting unit (18aa; 18bb) according to one of claims 37 to 43, characterized in that the connecting unit (18aa; 18bb) comprises one or more layers.

45. Connecting unit (18aa; 18bb) according to one of claims 37 to 44, characterized in that the connecting unit (18aa; 18bb) comprises a hard component and / or a soft component.

46. Handle unit (14i; 14aa; 14bb; 14cc) for a personal care product (10i; 10cc), in particular a razor or dermaplaning product, according to one of claims 1 to 26, comprising: a handle body (16i; 16aa; 16bb; 16cc), comprising: a head region (66i; 66aa; 66bb; 66cc), wherein the head region (66i; 66aa; 66bb; 66cc) has an edge (116i; 116aa; 116bb; 116cc), wherein the head region (66i; 66aa; 66bb; 66cc) has a further connecting element (22i; 22aa; 22bb; 22cc), in particular a handle connecting element, wherein the further connecting element (22i; 22aa; 22bb; 22cc) has at least one recess (114i), a receiving region (152i; 152aa), a form-fitting contour (36aa), at least one through-recess (200aa; 200aa'; 202aa) and at least one form-fitting element (188i, 188aa, 188cc); a central region (130i; 130aa; 130bb; 130cc); and an end region (132i; 132aa; 132bb; 132cc).

47. Handle unit (14i; 14aa; 14bb; 14cc) according to claim 46, characterized in that the handle body (16cc) has a groove (184cc) which runs generally along a longitudinal axis (60cc).

48. Handle unit (14i) according to claim 46 or 47, characterized in that the handle body (16i) in the assembled state has the receiving area (152i) in the head area (66i).

49. Handle unit (14i) according to one of claims 46 to 48, characterized in that the handle body (16cc) has a first side wall (96i), a second side wall (96i') and side inner walls (98i; 98i'), wherein the second side wall (96i') is fastened to the side inner walls (98i; 98i') in the assembled state.

50. Handle unit (14i) according to one of claims 46 to 49, characterized in that the handle body (16cc) forms a polygonal or prismatic structure in the assembled state.

51. Handle unit (14i) according to one of claims 46 to 50, characterized in that the head region (66aa) has a connecting region (28aa) proximal to the edge (116aa) of the head region (66aa), wherein the connecting region (28aa) of the further connecting element (22aa), at least one of the at least one through-recess (200aa; 200aa'; 202aa) and the form-fitting contour (36aa).

52. Handle unit (14i) according to one of claims 46 to 51, characterized in that the handle body (16i; 16aa; 16bb; 16cc) consists of paper, wood, grass (e.g. bamboo), sustainable, biodegradable, compostable, recyclable, recycled and / or bioplastic material.