Tray for a cabinet drawer

The shelf system addresses sustainability and cost issues in kitchen cabinet pull-outs by using a plug-in connection for easy material separation and assembly, stabilizing drawers, and eliminating rattling noises.

EP4772072A2Pending Publication Date: 2026-07-08KESSEBOHMER HLDG KG

Patent Information

Authority / Receiving Office
EP · EP
Patent Type
Applications
Current Assignee / Owner
KESSEBOHMER HLDG KG
Filing Date
2024-03-18
Publication Date
2026-07-08

AI Technical Summary

Technical Problem

Existing kitchen shelves in cabinet pull-outs are unsustainable due to mixed materials that cannot be easily recycled, costly to produce, and cause rattling noises, and they lack ease of use.

Method used

A shelf system with a plug-in connection using fastening elements and a shelf base, allowing for reversible attachment without adhesives, enabling easy material separation and reducing manufacturing costs, while stabilizing the drawer and minimizing noise.

Benefits of technology

The plug-in system allows for 100% material separability, reduces manufacturing costs, and enhances user-friendliness by eliminating rattling noises and simplifying assembly and disassembly.

✦ Generated by Eureka AI based on patent content.

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Abstract

The invention relates to a shelf (10, 10a-10f, 10a'-10f') for a cabinet pull-out (200), comprising at least one fastening element (14a, 14b) for attachment to a pull-out frame (100, 100a, 100b) of the cabinet pull-out (200) extending from a cabinet body, and a shelf base body (12) with a receiving area (11) for storing items, wherein the at least one fastening element (14a, 14b) and the shelf base body (12) form a plug-in system, via which the fastening element (14a, 14b) is reversibly and non-destructively plug-in connected to the shelf base body (12), wherein the receiving area (11) of the shelf base body (12) is at least partially laterally bounded by a railing (18) of the shelf base body (12), wherein the at least one The fastening body (14a, 14b) comprises two fixing areas (54a, 54b), and the railing (18) of the shelf base body (12) comprises two fixing sections (38a, 38b, 40a, 40b), wherein in each of the fixing areas (54a,54b) of at least one fastening body (14a, 14b) a fixing section (38a, 38b, 40a, 40b) of the railing (18) is reversibly and non-destructively fixed by force-locking and / or form-locking, wherein the fixing sections (38a, 38b, 40a, 40b) of the railing (18) are locked in the fixing areas (54a, 54b).
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Description

[0001] The invention relates to a shelf for a cabinet pull-out.

[0002] Furthermore, the invention relates to a cabinet pull-out, in particular a tall cabinet pull-out or base cabinet pull-out, with a pull-out frame extendable from a cabinet body and a shelf attached to the pull-out frame.

[0003] Furthermore, the invention relates to a cabinet, in particular a tall cabinet or base cabinet, with a cabinet body and a cabinet pull-out which is mounted in the cabinet body.

[0004] The shelves commonly found in kitchen furniture are often a combination of different materials. The base of the shelf is usually made of wood. Various solutions exist for the railing, which can be made of wire, sheet metal, or glass. The shelf is suspended in the designated drawer either by hooks protruding directly from the wire or sheet metal, or by additional plastic parts. To connect the various components of the shelf and stabilize it, they are glued together. This makes clean material separation at the end of the product life cycle, in terms of recyclability and sustainability, impossible. Furthermore, the individual components and manufacturing steps are costly.

[0005] Besides these shelves made from various materials, there are also shelves made entirely from one material, such as wire or sheet metal. However, these offer limited ease of use. Inserting and removing the shelves can damage the frame. Furthermore, the mechanical connection between the shelf and frame causes rattling noises when opening and closing the drawer, giving the user a poor impression of product quality.

[0006] The object of the invention is therefore to develop a shelf that is as sustainable and recyclable as possible, as well as cost-effective, and that can be used for drawers in kitchen furniture while ensuring maximum ease of use. Furthermore, the shelf should be able to absorb tensile forces and thus stabilize the drawer when installed.

[0007] The problem is solved by a shelf of the type mentioned above, which comprises at least one fastening element for attachment to a pull-out frame of the cabinet pull-out that can be extended from a cabinet body and a shelf base with a receiving area for items to be stored, wherein the at least one fastening element and the shelf base form a plug-in system by which the fastening element is reversibly and non-destructively plug-in connected to the shelf base, wherein the receiving area of ​​the shelf base is at least partially bounded laterally by a railing of the shelf base, wherein the at least one fastening element comprises two fixing areas, and the railing of the shelf base comprises two fixing sections, wherein in each of the fixing areas of the at least one fastening element a fixing section of the railing is reversibly and non-destructively fixed by force-fit and / or form-fit.the fixing sections of the railing are locked into the fixing areas.

[0008] The at least one mounting element and the shelf base are preferably connected without adhesive. Due to the plug-in connection, gluing the at least one mounting element and the shelf base is no longer necessary. The plug-in system reduces manufacturing costs and allows for clean separation of the materials at any time. In the plug-in state, all translational degrees of freedom of the at least one mounting element with respect to the shelf base are preferably blocked. The shelf base can, for example, be pre-cut and / or made of sheet metal. The individual manufacturing steps and costs of a multi-part shelf are reduced to a minimum by the plug-in system. To avoid the disadvantages in terms of user-friendliness of a purely sheet metal or wire shelf, a plug-in system is used in which the mounting element and the shelf base are attached to each other via a plug-in connection.

[0009] Thanks to the plug-in system, the mounting bracket and shelf base do not need to be pre-assembled at the factory. The installer can assemble the mounting bracket and shelf base on-site during cabinet installation. This allows the mounting bracket and shelf base to be packaged and transported separately. The shelf base can include an angled rail, which allows multiple shelf bases to be nested inside each other, resulting in significantly smaller packaging dimensions and thus cost and handling advantages compared to conventional shelves. Conventional shelves are typically not nestable, and the resulting packaging volume is therefore considerably larger.The plug-in connection reduces the number of components and eliminates the need for adhesive, resulting in 100% separability of the materials.

[0010] The shelf according to the invention is further advantageously developed in that the at least one fastening body and the shelf base are interlocked by means of a snap-fit ​​connection via the plug-in system. During the plug-in connection of the fastening body and the shelf base, an interlocking action occurs, whereby, for example, the fastening body and / or the shelf base engage. The snap-fit ​​connection between the at least one fastening body and the shelf base can be designed to be reversible and non-destructively releasable.

[0011] In another preferred embodiment of the shelf according to the invention, the at least one fastening element is formed in one piece and / or made of plastic. The fastening element can, for example, be a one-piece plastic part, in particular a one-piece injection-molded plastic part. Alternatively or additionally, the shelf base can be formed in one piece and / or made of metal. For example, the shelf base can be made of sheet metal or wire mesh. The shelf base can also be made of glass and / or wood and / or plastic and / or a composite material.

[0012] In an advantageous embodiment of the shelf according to the invention, the at least one fastening element has an L-shaped base. The at least one fastening element preferably has two legs, for example a base leg and a railing leg. The legs can form an angle with each other in the range of 90 to 130°.

[0013] The receiving area of ​​the shelf base can have a base, and the at least one fastening element can have a base leg that extends along the base of the shelf base and / or fills a gap or recess in the base of the shelf base and / or continues the base of the shelf base. The base preferably provides a surface for placing the items to be stored. The base of the shelf base can be formed from a flat material, for example, a section of sheet metal. The base of the shelf base can be formed from a wire structure, for example, a wire mesh. The base of the shelf base can also be made of glass and / or wood and / or plastic and / or a composite material.

[0014] The base leg of the at least one fastening element can include an engagement projection, and the base of the shelf body can include a recess adapted to the shape of the engagement projection. The engagement projection of the base leg preferably engages the recess in the base in a non-destructive and reversibly detachable manner. The recess can be a lateral material cutout or a hole in the base of the shelf body. The engagement projection can, for example, be an elongated engagement rib or an elongated material extension.

[0015] The base of the shelf body can include a bottom-side fastening element. The bottom leg of the at least one fastening element preferably comprises a receiving contour adapted to the shape of the bottom-side fastening element. The bottom-side fastening element of the shelf body is preferably clamped in the receiving contour of the bottom leg in a non-destructive and reversibly detachable manner. The bottom-side fastening element can be formed by a section of metal wire if the shelf is designed as a wire shelf. The receiving contour is then, for example, a wire receiving recess.

[0016] According to the invention, the receiving area of ​​the shelf base is laterally limited, at least in sections, by a railing of the shelf base. The railing of the shelf base can, for example, be a sheet metal railing. The railing can be formed from a flat material. The railing can include cutouts. Alternatively, the railing can be designed as a wire railing and / or have a wire mesh structure. The railing can also be made of glass and / or wood and / or plastic and / or a composite material.

[0017] The railing can be designed to be elastically deformable, and elastic deformation of the railing may be necessary to fix the railing to the at least one fastening body and to release the railing from the fastening body.

[0018] In a further preferred embodiment of the shelf according to the invention, the at least one fastening body has a railing leg which extends along the railing of the shelf base body and / or fills a break or recess in the railing of the shelf base body and / or continues the railing of the shelf base body.

[0019] Furthermore, a shelf according to the invention is preferred in which the railing leg of the at least one fastening body comprises the two fixing areas, which are preferably mirror-symmetrical to each other. Preferably, the railing of the shelf base body comprises two fixing sections. In each of the fixing areas of the at least one fastening body, a fixing section of the railing is preferably reversibly and non-destructively fixed by frictional and / or positive locking. In the fixing areas of the railing leg of the at least one fastening body, end sections of movable mounting tabs of the railing, pointing towards an interruption in the railing, are preferably fixed.

[0020] The railing can be designed to be elastically deformable, and elastic deformation of the railing may be necessary to fix the railing's fixing sections in the fixing areas of the railing leg and to release these fixing sections in the fixing areas of the railing leg. This elastic deformation of the railing can, for example, create and / or release a locking mechanism for the railing's fixing sections in the fixing areas of the railing leg.

[0021] Furthermore, a shelf according to the invention is preferred in which the fixing areas have lateral receiving slots, wherein the fixing sections of the railing are pressed into the lateral receiving slots to fix them in the fixing areas and pulled out of the lateral receiving slots to release them from the fixing areas. By pressing the fixing sections of the railing into the lateral receiving slots, the fixing sections of the railing can be locked in the fixing areas. By pulling the fixing sections of the railing out of the lateral receiving slots, the locking of the fixing sections of the railing in the lateral receiving slots can be released.

[0022] Furthermore, a shelf according to the invention is preferred in which the fixing sections of the railing each have a locking projection, wherein a locking pocket is located in each of the lateral receiving slots, in which a locking projection of a fixing section of the railing is reversibly and non-destructively locked. The locking projections of the railing can, for example, be designed as locking lugs which can be locked into the locking pocket within the lateral receiving slots.

[0023] In another preferred embodiment of the shelf according to the invention, the fixing areas of the railing leg each comprise at least one outer receiving recess, and the fixing sections of the railing each comprise at least one railing-side fastening element. The railing-side fastening element is preferably clamped into the outer receiving recess and / or snapped into the outer receiving recess in a non-destructive and reversibly releasable manner. The railing-side fastening element can be formed by a section of metal wire if the shelf is designed as a wire shelf. The outer receiving recess can, for example, be a wire receiving recess if the shelf is designed as a wire shelf.

[0024] Furthermore, a shelf according to the invention is preferred in which a locking projection is located in each of the outer receiving recesses, over which the respective rail-side fastening element is locked. The locking projection in the respective outer receiving recesses can, for example, be a locking edge or a locking ridge.

[0025] The shelf can be mounted without tools using an assembly process, whereby the shelf is designed to be mounted using the following steps: Arranging at least one fastening body in a mounting starting position on the shelf base body such that an engagement projection of a base leg of the fastening body engages in a recess in the base of the shelf base body; moving outward mounting tabs of the railing of the shelf base body, in particular by elastic deformation of the railing, to release a mounting area for a railing leg of the fastening body; pivoting the at least one fastening body from the mounting starting position to a final mounting position in which the railing leg of the fastening body is located in the mounting area; moving inward the mounting tabs of the railing of the shelf base body, in particular by returning the railing to its elastic deformation, to pre-position fixing sections of the railing on fixing areas of the railing leg.Clamping and / or locking the fixing sections of the railing in the fixing areas of the railing leg of at least one fastening body by pressing the fixing sections of the railing into the fixing areas of the railing leg of at least one fastening body.

[0026] For example, when the fixing sections of the railing are pressed into the fixing areas of the railing leg of the at least one fastening body, they are pressed into lateral receiving slots in the fixing areas of the railing leg and clamped or locked in place. For example, when the fixing sections of the railing are pressed into the fixing areas of the railing leg of the at least one fastening body, they are pressed into external receiving recesses in the fixing areas of the railing leg and clamped or locked in place. Preferably, the shelf can be disassembled without tools by a disassembly process, wherein the shelf is designed to be disassembled via the following steps: Releasing a jam and / or locking of the fixing sections of the railing in the fixing areas of the railing leg of the at least one fastening body by pushing or pulling the fixing sections of the railing out of the fixing areas of the railing leg of the at least one fastening body, moving out the mounting tabs of the railing of the shelf base body, in particular by elastic deformation of the railing, to release the railing leg of the fastening body, pivoting the at least one fastening body from the assembly end position to the assembly starting position; separating the at least one fastening body from the shelf base body by releasing the engagement of the engagement projection of the bottom leg of the fastening body in the release of the bottom of the shelf base body.

[0027] In another preferred embodiment of the shelf according to the invention, the at least one fastening element has, on an outer surface facing away from the receiving area of ​​the shelf base, a guide receptacle for the guided receiving of an upright support strut of the drawer frame of the cabinet drawer. Because the upright support strut of the drawer frame is received in the guide receptacle, the shelf is stabilized against lateral tipping.

[0028] In another preferred embodiment of the shelf according to the invention, the at least one fastening element has a guide projection on its outer side, facing away from the receiving area of ​​the shelf base, for insertion into an elongated guide recess of an upright support strut of the drawer frame of the cabinet drawer. By inserting the guide projection into the elongated guide recess of the upright support strut, the shelf is stabilized against lateral tilting.

[0029] Furthermore, a shelf according to the invention is preferred in which the at least one fastening body has a fastening hook on its outer side facing away from the receiving area of ​​the shelf base for insertion into a hanging opening of an upright support strut of the drawer frame of the cabinet drawer. The fastening hook is preferably located on the guide projection. Alternatively, fastening hooks can also be provided laterally on the upright support strut, into which the shelf can be hung via hook receptacles on the fastening body.

[0030] The problem underlying the invention is further solved by a cabinet pull-out of the type mentioned at the outset, wherein the shelf of the cabinet pull-out according to the invention is designed according to one of the embodiments described above. With regard to the advantages and modifications of the cabinet pull-out according to the invention, reference is first made to the advantages and modifications of the shelf according to the invention.

[0031] The pull-out frame preferably has one or more upright support struts from which the shelf is suspended. The pull-out frame is preferably guided movably within a cabinet runner and can thus perform a guided cabinet pull-out movement.

[0032] The pull-out frame can have one or more upright support struts. Preferably, the support struts have one or more hanging openings on the mounting side facing the shelf, with the shelf being suspended in the hanging opening by means of a mounting hook on the outer side of the at least one mounting body facing away from the receiving area of ​​the mounting body.

[0033] The support struts can have an elongated guide recess on the mounting side facing the shelf, wherein the shelf is guided and / or stabilized in the elongated guide recess via a guide projection on the outside of the at least one mounting body facing away from the receiving area of ​​the shelf base body.

[0034] The support struts can have lateral fastening hooks, with the shelf being suspended in the fastening hooks of the support struts via hook receptacles on at least one fastening body.

[0035] The problem underlying the invention is further solved by a cabinet of the type mentioned above, wherein the cabinet drawer of the cabinet according to the invention comprises a shelf according to one of the embodiments described above and / or the cabinet drawer is designed according to one of the embodiments described above. With regard to the advantages and modifications of the cabinet according to the invention, reference is therefore made to the advantages and modifications of the shelf according to the invention and to the advantages and modifications of the cabinet drawer according to the invention.

[0036] Preferred embodiments of the invention are explained and described in more detail below with reference to the accompanying drawings. These show: Fig. 1 shows a cabinet pull-out according to the invention in a perspective view; Fig. 2 shows a support strut of the pull-out frame of the cabinet shown in the Fig. 1 The illustrated cabinet pull-out in a perspective view; Fig. 3 the cross-section of the in the Fig. 2 The supporting strut shown in Fig. 4; a section of the support strut shown in the Fig 1 Fig. 5 shows a further cabinet pull-out according to the invention in a perspective view during the insertion of a shelf; Fig. 6 shows a further cabinet pull-out according to the invention in a perspective view; Fig. 7 shows a cabinet pull-out with a shelf according to the invention in a perspective view; Fig. 8 shows the one in the Fig. 7 The illustrated shelf is shown in a perspective view; Fig. 9 shows the shelf base body of the one shown in the Fig. 8 The illustrated shelf in a perspective view; Fig. 10 a fastening body of the in the Fig. 8 illustrated shelf in a perspective view; Fig. 11 in the Fig. 10 The illustrated fastening body in a further perspective view; Fig. 12 shows another fastening body of the one shown in the Fig. 8 illustrated shelf in a perspective view; Fig. 13 in the Fig. 12 The illustrated fastening element in a further perspective view; Fig. 14, which is shown in the Fig. 8 The illustrated shelf during assembly is shown in a perspective view, with the mounting body in its initial assembly position; Fig. 15, which is shown in the Fig. 8 The illustrated tray is shown in a sectional view during assembly, with the fastening element in the initial assembly position; Fig. 16, which is shown in the Fig. 8 The illustrated shelf during assembly is shown in a perspective view, with the mounting body in the final assembly position and the mounting tabs of the shelf base rail pivoted outwards; Fig. 17, which is shown in the Fig. 8 Fig. 18 shows a sectional view of the illustrated shelf after completion of assembly, wherein the fixing sections of the railing are locked into the fixing areas of the fastening body; Fig. 19 shows several nested, stacked shelf bases in a perspective view; Fig. 10 shows a further cabinet pull-out with a shelf according to the invention in a perspective view; Fig. 21 shows the shelf in the Fig. 20 The illustrated shelf in a perspective view; Fig. 22 the shelf base body of the one shown in the Fig. 21 The illustrated shelf in a perspective view; Fig. 23 a fastening body of the in the Fig. 21 illustrated shelf in a perspective view; Fig. 24 in the Fig. 23 The illustrated fastening body in a further perspective view; Fig. 25 shows another fastening body of the one shown in the Fig. 21 illustrated shelf in a perspective view; Fig. 26 in the Fig. 25 The illustrated fastening element in a further perspective view; Fig. 27, which is shown in the Fig. 21 The illustrated shelf during assembly is shown in a perspective view, with the fastening element in the initial assembly position; Fig. 28, which is shown in the Fig. 21 The illustrated shelf during assembly is shown in a perspective view, with the fastening element shortly before its final assembly position; and Fig. 29, which is shown in the Fig. 21 The illustrated shelf is shown in a sectional view after completion of the assembly, with the fastening body in the final assembly position and the fixing sections of the railing locked into the fixing areas of the fastening body.

[0037] The Fig. 1 This shows a 200 mm pull-out cabinet, which can be used, for example, in a tall cabinet or a base cabinet. Thus, the 200 mm pull-out cabinet can be, for example, a tall cabinet pull-out or a base cabinet pull-out.

[0038] The cabinet pull-out 200 has a pull-out frame 100 that can be extended from a cabinet body. Furthermore, the cabinet pull-out 200 includes several shelves 10a-10e attached to the pull-out frame 100. Each shelf 10a-10e comprises a storage area 11 for items to be stored.

[0039] The extension frame 100 comprises a first upright support strut 102a and a second upright support strut 102b. The support struts 102a and 102b are connected to each other at their lower ends via the connecting strut 104a and at their upper ends via the connecting strut 104b. The support struts 102a and 102b and the connecting struts 104a and 104b together form a support frame for the shelves 10a-10e.

[0040] The first support strut 102a has a mounting side 106a facing the shelves 10a-10e. The second support strut 102b also has a mounting side 106b facing the shelves 10a-10e. The shelves 10a-10e are attached to the mounting sides 106a, 106b of the support struts 102a, 102b.

[0041] The support struts 102a and 102b run parallel to each other, with the mounting side 106a of the first support strut 102a and the mounting side 106b of the second support strut 102b facing each other. The receiving area 11 of the shelves 10a-10e is located between the first support strut 102a and the second support strut 102b.

[0042] The Fig. 2 Figure 1 shows an upright support strut 102 of a pull-out rack. Several shelves, each with a receiving area for stored items, can be attached to the support strut 102 on a mounting side 106. The support strut 102 has an elongated guide recess 110 on the mounting side 106 for receiving and guiding guide projections of the shelves. The support strut 102 also has a back side 108, which, when the support strut 102 is used in a pull-out rack, lies on the side facing away from the shelves.

[0043] The elongated guide recess 110 of the support strut 102 has two guide cheeks 112a, 112b and a rearwardly offset recess base 114 connecting the two guide cheeks 112a, 112b. The recess base 114 contains several mounting openings 116. These mounting openings 116 are used for attaching shelf mounting hooks. Due to the design of the mounting openings 116 in the guide base 114, they are located within the elongated guide recess 110. The mounting openings 116 are equidistant from one another. Furthermore, the mounting openings 116 are arranged along a longitudinal axis of the support strut 102.

[0044] The Fig. 3 shows the cross-section of the support strut 102. The guide cheeks 112a, 112b of the guide recess 110 run parallel to each other.

[0045] On the mounting side 106 of the support strut 102, front surfaces 118a, 118b are located next to the guide recess 110. The front surfaces 118a, 118b are arranged laterally to the guide recess 110 and run parallel to the bottom of the recess 114. The support strut 102 also has side surfaces 120a, 120b, which extend between the mounting side 106 and the rear side 108.

[0046] The support strut 102 further comprises two profiled corner recesses 122a, 122b, in which the corners of the support strut 102 have a concave corner profile. The corner recesses 122a, 122b each create a shadow gap, which makes the support strut 102 appear visually more delicate compared to a support strut without corner recesses, while maintaining almost the same stability.

[0047] The support strut 102 is designed as a profile tube and has a closed cross-section beyond the suspension openings, surrounding a cavity 124.

[0048] The support strut 102, designed as a profile tube, is a one-piece metal strut with a constant material thickness. The material thickness of the support strut 102 is less than 2 mm.

[0049] The Fig. 4 The example of shelf 10c shows that shelves 10a-10e can be reversibly and non-destructively removed from the support struts 102a and 102b by tilting them longitudinally. To hang shelves 10a-10e in the pull-out frame 100, the respective shelves 10a-10e are also positioned at an angle between the support struts 102a and 102b, so that a first fastening hook of the shelf 10a-10e is engaged in a hanging opening 116 of a support strut 102a. The upwardly inclined side of the shelf 10a-10e is then lowered, so that a second fastening hook of the respective shelf 10a-10e is engaged in a hanging opening 116 of the other support strut 102b.This is possible because the respective shelves 10a-10e are suspended in the mounting openings 116 of the first support strut 102a and the second support strut 102b, which are offset from each other in height, and because the mounting hooks located on the opposite narrow sides of the shelves 10a-10e also have a corresponding offset from each other in height, so that the shelves 10a-10e are horizontally aligned after suspension. The first support strut 102a and the second support strut 102b are structurally identical and therefore have mounting openings 116 at the same height. However, the two mounting openings 116 into which the respective shelves 10a-10e are suspended are located at different heights. Thus, the shelves 10a-10e have an upper mounting hook on one narrow side and a lower mounting hook on the other narrow side.

[0050] The Fig. 5 shows another cabinet pull-out 200 with a pull-out frame 100 and several shelves 10a-10e suspended in the pull-out frame 100.

[0051] The pull-out frame 100 has two support struts 102a and 102b. The mounting side 106a of the first support strut 102a and the mounting side 106b of the second support strut 102b face in the same direction. The receiving areas 11 of the shelves 10a-10e are therefore located in front of the first support strut 102a and in front of the second support strut 102b. The mounting openings 116 of the first support strut 102a and the mounting openings 116 of the second support strut 102b are at the same height. Therefore, the rear mounting hooks of the shelves 10a-10e can also be at the same height.

[0052] The Fig. 6 Figure 200 shows a cabinet pull-out unit with two pull-out frames 100a and 100b. Pull-out frame 100a is essentially identical in construction to the one shown in the figure. Fig. 5 The illustrated pull-out frame 100a has a total of six shelves 10a-10f attached to it. The pull-out frame 100b can, for example, be attached to a pivoting cabinet front and swung out of the cabinet carcass by pivoting the cabinet front. The pull-out frame 100b includes a central support strut 102 to which six shelves 10a'-10f' are attached. The shelves 10a'-10f' are each reversibly and non-destructively suspended in mounting openings of the support strut 102 by means of a fastening hook.

[0053] The Fig. 7 Figure 1 shows a suspended shelf 10. The shelf 10 has a shelf base 12 with a receiving area for stored items. Furthermore, the shelf 10 comprises two fastening bodies 14a, 14b, by means of which the shelf 10 is attached to the support struts 102a, 102b of the pull-out frame 100. The fastening bodies 14a, 14b each have a fastening hook, wherein the fastening hook of fastening body 14a is engaged in a hook-in opening 116 of the support strut 102a and the fastening hook of fastening body 14b is engaged in a hook-in opening of the support strut 102b.

[0054] The Fig. 8 The illustration shows the shelf 10 without the pull-out frame 100. The mounting brackets 14a, 14b and the shelf base 12 form a plug-in system, allowing the mounting brackets 14a, 14b to be reversibly and non-destructively connected to the shelf base 12. The mounting brackets 14a, 14b and the shelf base 12 are each locked together by a snap-fit ​​connection within the plug-in system. The mounting brackets 14a, 14b are one-piece plastic components. The shelf base 12 is a one-piece metal component made of sheet metal. In this case, the shelf 10 is therefore a sheet metal shelf. Alternatively, the shelf base 12 can also be made of glass and / or wood and / or plastic and / or a composite material.

[0055] The receiving area 11 of the shelf base 12 comprises a shelf 16. The shelf 16 provides a surface for placing the items to be stored. The receiving area 11 of the shelf base 12 is laterally bounded by a railing 18 of the shelf base 12. The railing 18 prevents the items placed on the shelf 16 from unintentionally falling out of the shelf 10.

[0056] The shelf 10 has an elongated shape and two long sides 20a, 20b and two short sides 22a, 22b. The fastening element 14a is located on the short side 22a. The fastening element 14b is located on the short side 22b. The railing 18 has railing recesses 24 along the long sides 20a, 20b.

[0057] On the narrow sides 22a, 22b, the railing has 18 mounting tabs 26a, 26b, 28a, 28b. Mounting tabs 26a, 26b are connected to the fastening body 14a. Mounting tabs 28a, 28b are connected to the fastening body 14b. There are gaps 30 between mounting tabs 26a, 26b and the base 16. There are also gaps 30 between mounting tabs 28a, 28b and the base 16. These gaps 30 are slot-shaped and allow the mounting tabs 26a, 26b, 28a, 28b to be moved for mounting and dismounting the shelf 10.

[0058] The Fig. 9 Figure 1 shows the shelf base 12 without the mounting elements 14a, 14b. The illustration shows that there is a break 32a in the railing 18 between the end sections 34a, 34b of the mounting tabs 26a, 26b. There is also a break 32b in the railing 18 between the end sections 36a, 36b of the mounting tabs 28a, 28b. One leg of each mounting element 14a, 14b can be positioned in the area of ​​the breaks 32a, 32b in the railing 18.

[0059] The railing 18 of the shelf base body 12 has two fixing sections 38a, 38b on the narrow side 22a and two fixing sections 40a, 40b on the narrow side 22b. The fixing sections 38a, 38b can be locked into the fastening body 14a. The fixing sections 40a, 40b can be locked into the fastening body 14b.

[0060] The Fig. 10 and 11 show the fastening body 14b. Fig. 12 and 13Figure 1 shows the fastening body 14a. The fastening bodies 14a and 14b each have an L-shaped base. Furthermore, the fastening bodies 14a and 14b each comprise a base leg 42a and 42b, which, when the shelf 10 is mounted, extends along the base 16 of the shelf body 12. The base legs 42a and 42b of the fastening bodies 14a and 14b each have an engagement projection 46a and 46b. The base 16 of the shelf body 12 has recesses 58a and 58b adapted to the shape of the engagement projections 46a and 46b. The engagement projections 46a and 46b are designed to engage reversibly and without damage in the recesses 58a and 58b of the base 16.

[0061] The fastening bodies 14a, 14b each have a railing leg 44a, 44b which fills the respective interruption 32a, 32b in the railing 18 of the shelf base body 12.

[0062] The railing legs 44a, 44b of the fastening bodies 14a, 14b each have two fixing areas 54a, 54b that are mirror-symmetrical to each other, wherein in each of the fixing areas 54a, 54b of the fastening bodies 14a, 14b a fixing section 38a, 38b, 40a, 40b of the railing 18 can be reversibly and non-destructively fixed by force-locking and / or form-locking means. The fixing areas 54a, 54b of the railing legs 44a, 44b have lateral receiving slots 56a, 56b, wherein the fixing sections 38a, 38b, 40a, 40b of the railing 18 are to be pressed into the lateral receiving slots 56a, 56b to fix them in the fixing areas 54a, 54b of the railing legs 44a, 44b and are to be pulled out of the lateral receiving slots 56a, 56b to release them from the fixing areas 54a, 54b of the railing legs 44a, 44b.

[0063] The fastening bodies 14a, 14b have, on their outer sides facing away from the receiving area 11 of the shelf base body 12, a guide receptacle 48a, 48b for the guided mounting of an upright support strut 102a, 102b of the extension frame 100. Each of the guide receptacles 48a, 48b has an elongated guide projection 50a, 50b for insertion into an elongated guide recess 110 of an upright support strut 102a, 102b. The guide projections 50a, 50b are elongated webs. A fastening hook 52a, 52b for insertion into a suspension opening 116 of an upright support strut 102a, 102b is arranged on each of the guide projections 50a, 50b.

[0064] The Fig. 14 bis 16 Figure 1 shows the mounting of the fastening body 14a on the shelf base body 12. The mounting of the fastening body 14b on the shelf base body 12 is carried out in an analogous manner.

[0065] The Fig. 14 shows that the shelf base body 14a is initially to be arranged in an assembly starting position on the shelf base body 12, so that the engagement projection 46a of the bottom leg 42a of the fastening body 14a engages in the clearance 58a of the bottom 16 of the shelf base body 12.

[0066] The sectional view of the Fig. 15 shows that the size and shape of the clearance 58a is adapted to the size and shape of the intervention projection 46a.

[0067] In the next step, the mounting tabs 26a, 26b of the railing 18 of the shelf base body 12 are moved from their initial position by elastically deforming the railing 18 to release a mounting area for the railing leg 44a of the fastening body 14a. This is done by pivoting the mounting tabs 26a, 26b upwards.

[0068] As in the Fig. 16 As shown, the mounting body 14 can then be pivoted from the initial mounting position to a final mounting position, in which the railing leg 44a of the mounting body 14a is located in the mounting area. Subsequently, the mounting tabs 26a, 26b of the railing 18 of the shelf base body 12 can be pivoted back inwards by re-deforming the railing 18 after the elastic deformation to pre-position the fixing sections 38a, 38b of the railing 18 on the fixing areas 54a of the railing leg 44a. Finally, the fixing sections 38a, 38b of the railing 18 are locked into the fixing areas 54a of the railing leg 44a by pressing the fixing sections 38a, 38b of the railing 18 into the fixing areas 54a of the railing leg 44a of the fastening body 14a.

[0069] The Fig. 17 The locking mechanism is shown using the mounting body 14b as an example. The fixing sections 40a, 40b of the railing 18 each have a locking projection 62a, 62b, wherein a locking pocket 60a, 60b is located in each of the lateral receiving slots of the mounting body 14b, in which a locking projection 62a, 62b of the railing 18 is reversibly and non-destructively locked. The locking projections 62a, 62b are designed as locking lugs.

[0070] The Fig. 18 shows that the shelf base bodies 12 can be stacked nested inside each other before the mounting of the fastening bodies 14a, 14b, so that the packaging dimensions are significantly reduced.

[0071] The Fig. 19 Figure 1 shows a section of a cabinet pull-out where the support struts 102a, 102b have lateral mounting hooks 126a, 126b. The shelf 10 is suspended from the mounting bodies 14a, 14b by means of hook receptacles in the mounting bodies 14a, 14b in the mounting hooks 126a, 126b of the support struts 102a, 102b.

[0072] The Fig. 20 Figure 1 shows a tray 10 designed as a wire tray, which is reversibly and non-destructively attached to support struts 102a, 102b via fastening bodies 14a, 14b.

[0073] The Fig. 21 Figure 1 shows that the shelf base 12 has a wire structure, with a base 16 and a railing 18 formed over the wire structure. The base 16 and / or the railing 18 can alternatively be made of glass and / or wood and / or plastic and / or a composite material. The fastening elements 14a, 14b are attached to the shelf base 12 at the narrow sides 22a, 22b.

[0074] The Fig. 22 Figure 1 shows that the shelf base body has 12 bottom-side fastening elements 70a, 70b, which are formed by a wire section. Furthermore, the shelf base body has 12 rail-side fastening elements 72a, 72b, which are also formed by wire sections, namely end sections.

[0075] The Fig. 23 bis 26 The figures show that the base legs 42a, 42b of the fastening bodies 14a, 14b comprise a receiving structure 64a, 64b adapted to the shape of the bottom-side fastening elements 70a, 70b. The bottom-side fastening elements 70a, 70b of the shelf base body 12 can be clamped into the receiving contours 64a, 64b of the base legs 42a, 42b in a non-destructive and reversible manner. The receiving contours 64a, 64b are wire receiving recesses.

[0076] The fixing areas 54a, 54b of the railing legs 44a, 44b have external receiving recesses 66a, 66b. The railing-side fastening elements 72a, 72b can be clamped into the external receiving recesses 66a, 66b and / or locked into the external receiving recesses 66a, 66b in a non-destructive and reversible manner. Each of the external receiving recesses 66a, 66b has a locking projection 68a, 68b, over which the respective railing-side fastening element 72a, 72b is locked.

[0077] The Fig. 27 bis 29 Figure 1 shows the assembly of the fastening body 14a on the shelf base 12. The fastening body 14a is first positioned on the shelf base 12 in a tilted initial assembly position and then pivoted upwards until the bottom-side fastening element 70a is clamped and / or locked in the receiving contour 64a. As the pivoting movement continues, the rail-side fastening elements 72a are moved into the receiving recesses 60a and pressed over the locking projections 68a, so that the rail-side fastening elements 72a are locked in the receiving recesses 66a. Bezugszeichen

[0078] 10. 28bMounting tabs 30Free spaces 32a, 32bInterruptions 34a, 34bEnd sections 36a, 36bEnd sections 38a, 38bFixing sections 40a, 40bFixing sections 42a, 42bFloor legs 44a, 44bRail legs 46a, 46bEngagement projections 48a, 48bGuide receptacles 50a, 50b Guide projections 52a, 52b Mounting hooks 54a, 54b Fixing areas 56a, 56b Mounting slots 58a, 58b Clearances 60a, 60b Locking pockets 62a, 62b Locking projections 64a, 64b Mounting contours 66a, 66b Mounting recesses 68a, 68b Locking projections 70a, 70b Bottom-side mounting links 72a, 72 Rail-side mounting links 100, 100a, 100b Extension frame 102, 102a, 102b Support struts 104a, 104b Connecting struts 106, 106a, 106b Mounting sides 108 Rear 110 Guide recess 112a,112b Guide rails 114 Recess base 116 Mounting openings 118a, 118b Front surfaces 120a, 120b Side surfaces 122a, 122b Corner recesses 124 Cavity 126a, 126b Mounting hooks 200 Cabinet pull-out,

Claims

1. Shelf (10, 10a-10f, 10a'-10f') for a cabinet pull-out (200), with - at least one fastening body (14a, 14b) for attaching to a pull-out frame (100, 100a, 100b) of the cabinet pull-out (200) which can be extended from a cabinet body, and - a shelf base body (12) with a receiving area (11) for items to be stored; wherein the at least one fastening body (14a, 14b) and the shelf base body (12) form a plug-in system, via which the fastening body (14a, 14b) is reversibly and non-destructively plug-in connected to the shelf base body (12), wherein the receiving area (11) of the shelf base body (12) is at least partially laterally limited by a railing (18) of the shelf base body (12), wherein - the at least one fastening body (14a, 14b) comprises two fixing areas (54a, 54b), and - the railing (18) of the shelf base body (12) comprises two fixing sections (38a, 38b, 40a, 40b);wherein in each of the fixing areas (54a, 54b) of the at least one fastening body (14a, 14b) a fixing section (38a, 38b, 40a, 40b) of the railing (18) is reversibly and non-destructively fixed by force-locking and / or form-locking, wherein the fixing sections (38a, 38b, 40a, 40b) of the railing (18) are locked in the fixing areas (54a, 54b).

2. Tray (10, 10a-10f, 10a'-10f') according to claim 1, characterized by the fact that which at least one fastening body (14a, 14b) and the shelf base body (12) are locked together by the plug-in system via a snap connection.

3. Tray (10, 10a-10f, 10a'-10f') according to claim 1 or 2, characterized by the fact that - at least one fastening element (14a, 14b) is made in one piece and / or of plastic; and / or - the shelf base body (12) is made in one piece and / or of metal.

4. Tray (10, 10a-10f, 10a'-10f') according to any one of the preceding claims, characterized by the fact thatwhich at least one fastening element (14a, 14b) has an L-shaped basic form.

5. Tray (10, 10a-10f, 10a'-10f') according to any one of the preceding claims, characterized by the fact that which at least one fastening body (14a, 14b) has a railing leg (44a, 44b) which extends along the railing (18) of the shelf base body (12) and / or fills a break (32a, 32b) or recess of the railing (18) of the shelf base body (12) and / or continues the railing (18) of the shelf base body (12).

6. Tray (10, 10a-10f, 10a'-10f') according to claim 5, characterized by the fact that the two fixing areas (54a, 54b) are located on the railing leg (44a, 44b) of the at least one fastening body (14a, 14b).

7. Tray (10, 10a-10f, 10a'-10f') according to any one of the preceding claims, characterized by the fact thatthe fixing areas (54a, 54b) have lateral receiving slots (56a, 56b), wherein the fixing sections (38a, 38b, 40a, 40b) of the railing (18) are to be pressed into the lateral receiving slots (56a, 56b) to fix them in the fixing areas (54a, 54b) and are to be pulled out of the lateral receiving slots (56a, 56b) to release them from the fixing areas (54a, 54b).

8. Tray (10, 10a-10f, 10a'-10f') according to claim 7, characterized by the fact that the fixing sections (38a, 38b, 40a, 40b) of the railing (18) each have a locking projection (62a, 62b), wherein in the lateral receiving slots (56a, 56b) there is a locking pocket (60a, 60b) in which a locking projection (62a, 62b) of a fixing section (38a, 38b, 40a, 40b) of the railing (18) is reversibly and non-destructively locked.

9. Tray (10, 10a-10f, 10a'-10f') according to one of claims 5 or 6, characterized by the fact that- the fixing areas (54a, 54b) of the railing leg (44a, 44b) each comprise at least one external receiving recess (66a, 66b), and - the fixing sections (38a, 38b, 40a, 40b) of the railing (18) each comprise at least one railing-side fastening element (72a, 72b); wherein the railing-side fastening element (72a, 72b) is clamped into the external receiving recess (66a, 66b) and / or locked into the external receiving recess (66a, 66b) in a non-destructive and reversibly detachable manner.

10. Tray (10, 10a-10f, 10a'-10f') according to claim 9, characterized by the fact that in each of the outer receiving recesses (66a, 66b) there is a locking projection (68a, 68b) over which the respective rail-side fastening element (72a, 72b) is locked.

11. Tray (10, 10a-10f, 10a'-10f') according to any one of the preceding claims, characterized by the fact thatwhich has at least one fastening body (14a, 14b) on an outer side facing away from the receiving area (11) of the shelf base body (12) a guide receptacle (48a, 48b) for the guided receiving of an upright support strut (102, 102a, 102b) of the extension frame (100, 100a, 100b) of the cabinet extension (200).

12. Tray (10, 10a-10f, 10a'-10f') according to any one of the preceding claims, characterized by the fact that which has at least one fastening body (14a, 14b) on the outer side facing away from the receiving area (11) of the shelf base body (12) a guide projection (50a, 50b) for insertion into an elongated guide recess (110) of an upright support strut (102, 102a, 102b) of the extension frame (100, 100a, 100b) of the cabinet extension (200).

13. Tray (10, 10a-10f, 10a'-10f') according to any one of the preceding claims, characterized by the fact thatwhich has at least one fastening body (14a, 14b) on the outer side facing away from the receiving area (11) of the shelf base body (12) a fastening hook (52a, 52b) for insertion into a hanging opening (116) of an upright support strut (102, 102a, 102b) of the extension frame (100, 100a, 100b) of the cabinet extension (200).

14. Cabinet pull-out (200), in particular tall cabinet pull-out or base cabinet pull-out, with - a pull-out frame (100, 100a, 100b) extendable from a cabinet body; and - a shelf (10, 10a-10f, 10a'-10f') attached to the pull-out frame (100, 100a, 100b); characterized by the fact that the tray (10, 10a-10f, 10a'-10f') is designed according to one of the preceding claims.

15. Cabinet, in particular tall cabinet or base cabinet, comprising - a cabinet body; and - a cabinet pull-out (200) which is mounted in the cabinet body; characterized by the fact thatthe cabinet pull-out (200) has a shelf (10, 10a-10f, 10a'-10f') according to one of claims 1 to 13 and / or is designed according to claim 14.