Trap structure, base station and cleaning system
The trap structure with a support and holes addresses deformation issues in base stations with decorative materials by absorbing temperature-induced changes, ensuring dimensional consistency and improving aesthetics.
Patent Information
- Authority / Receiving Office
- FR · FR
- Patent Type
- Utility models
- Current Assignee / Owner
- BEIJING ROCKROBO TECH CO LTD
- Filing Date
- 2025-05-27
- Publication Date
- 2026-06-12
AI Technical Summary
Base stations using decorative materials like glass experience significant deformation due to differences in thermal expansion coefficients, leading to dimensional inconsistencies and aesthetic issues under high or low temperature conditions.
A trap structure comprising a support with holes and a connected plate, where the holes are designed to absorb deformation caused by temperature changes, ensuring dimensional consistency and reducing the likelihood of deformation.
The proposed structure mitigates deformation by absorbing dimensional changes, maintaining product integrity and enhancing aesthetic appeal by reducing the impact of temperature fluctuations.
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Abstract
Description
Title of the invention: Hatch structure, base station and cleaning system. Technical field
[0001] The embodiments of this application relate to the technical field of cleaning systems and in particular a trap structure, a base station and a cleaning system. Context of the invention
[0002] Base stations use decorative materials, such as glass, as compartment hatches. Generally, there is a relatively large difference between the coefficients of thermal expansion of the decorative material and a fastener attached to it. In a high-temperature or low-temperature environment, the compartment hatch can deform considerably. Summary of the utility model
[0003] The utility model aims to solve at least one of the technical problems in the prior art or in the related art.
[0004] For this purpose, a first aspect of the utility model proposes a trapdoor structure.
[0005] A second aspect of the utility model proposes a base station.
[0006] A third aspect of the utility model proposes a cleaning system.
[0007] Taking this into consideration, according to a first aspect of the embodiments of the present application, a trap structure is proposed comprising:
[0008] a support that is formed with holes; and
[0009] a plate which is connected to the support.
[0010] In a feasible embodiment, the holes include slotted holes.
[0011] In a feasible embodiment, the slotted holes are arranged in a support width direction.
[0012] In a feasible embodiment, a ratio of the length of the slotted hole to the width of the support is greater than or equal to 0.5.
[0013] In a feasible embodiment, the holes comprise a plurality of circular holes that are in communication with each other.
[0014] In a feasible embodiment, an external edge profile of the hole is a closed figure formed by curved lines; or
[0015] an external edge profile of the hole is a closed figure formed by curves; or
[0016] an external edge profile of the hole is a closed figure formed by straight lines and curves.
[0017] In a feasible embodiment, there is a plurality of holes, in which the plurality of holes are arranged in a direction along the length of the support.
[0018] In a feasible embodiment, a ratio of the total width of the plurality of holes to the length of the support is greater than or equal to 0.2.
[0019] In a feasible embodiment, a material for preparing the plate includes a glass material, and a material for preparing the support includes a resin material.
[0020] In a feasible embodiment, the hatch structure further comprises:
[0021] the plate is connected to the support via an adhesive distribution; or the plate is connected to the support via an adhesive layer.
[0022] According to a second aspect of the embodiments of the present application, a base station is proposed comprising:
[0023] a base station body; and
[0024] the trap structure according to any one of the preceding technical solutions.
[0025] In a feasible embodiment, the base station body further comprises:
[0026] a dust collection bin, in which the hatch structure is connected to the base station body, and is configured to close or open the dust collection bin.
[0027] In a feasible embodiment, the base station body further comprises:
[0028] a housing cavity, in which the hatch structure is connected to the base station body and is configured to close or open the housing cavity.
[0029] According to a third aspect of the embodiments of the present application, a cleaning system is proposed comprising:
[0030] the trap structure according to any one of the preceding technical solutions.
[0031] Compared to the prior art, the utility model has at least the following beneficial effects.
[0032] The hatch structure proposed in the embodiments of this application comprises a support, a plate, and holes. During use, the hatch structure can be connected to another component (or components) via the support, thus facilitating assembly. Furthermore, the plate serves as the external surface of the hatch structure, resulting in a neater and more aesthetically pleasing appearance. Because the holes are formed in the support, even when the hatch structure is subjected to high or low temperatures or significant temperature differences, any dimensional changes caused by deformation of the support can be absorbed by the holes, thereby mitigating the negative effects of temperature fluctuations. environmental across the entire dimension of the hatch structure, in order to guarantee the dimensional consistency of the products, thereby reducing the deformation of the hatch structure, and reducing the probability of deformation of the plate. Brief description of the drawings
[0033] With reference to the detailed descriptions of the following preferred embodiments, various other advantages and benefits will become more apparent to those skilled in the art. The accompanying drawings are provided simply as illustrations of the preferred embodiments and are not considered to be limiting for the purposes of this application. Furthermore, in all the accompanying drawings, the same reference number is used to designate the same component. In the accompanying drawings:
[0034] [Fig.1] Fig.1 is a structural diagram of a trapdoor structure from a perspective according to an embodiment of the present application.
[0035] [Fig.2] The [Fig.2] is a structural diagram of a trapdoor structure from another perspective according to an embodiment of the present application.
[0036] [Fig.3] The [Fig.3] is a structural diagram of a trapdoor structure from yet another perspective according to an embodiment of the present application.
[0037] [Fig.4] The [Fig.4] is a structural diagram of a hatch structure in exploded view from a perspective according to an embodiment of the present application.
[0038] [Fig.5] The [Fig.5] is a structural diagram of a hatch structure in exploded view from another perspective according to an embodiment of the present application.
[0039] [Fig.6] The [Fig.6] is a structural diagram of a base station according to an embodiment of the present application.
[0040] [Fig.7] The [Fig.7] is a structural diagram of a base station according to another embodiment of the present application.
[0041] The correspondences between the reference numbers and the component names in Figures 1 to 7 are as follows:
[0042] 100: trapdoor structure;
[0043] 110: support; 120: plate; 130: hole; 140: adhesive layer;
[0044] 210: base station body; 220: dust collection tray; and 230: cavity of accommodation. Detailed description
[0045] For a better understanding of the preceding technical solutions, the technical solutions in the embodiments of this application are described in detail with reference to the accompanying drawings and the specific embodiments. It should be understood that the embodiments of this application and the specific features in the embodiments are detailed descriptions of the technical solutions in the embodiments of this application. request, and are not intended to limit the technical solutions of this request. In the absence of conflict, the embodiments of this request and the technical features in the embodiments may be combined.
[0046] As shown in Figures 1 to 5, according to a first aspect of the embodiments of the present application, a trapdoor structure 100 is proposed comprising: a support 110, in which holes 130 are formed in the support 110; and a plate 120, in which the plate 120 is connected to the support 110.
[0047] The hatch structure 100 proposed in the embodiments of this application comprises the support 110, the plate 120 and the holes 130. During use, the hatch structure 100 can be connected to another component(s) via the support 110, which facilitates the assembly of the hatch structure 100. In addition, the plate 120 is used as the external surface of the hatch structure 100, so that the hatch structure 100 is neater and more attractive.Since the holes 130 are formed in the support 110, even when the hatch structure 100 is in a state of high or low temperature or is subjected to a considerable temperature difference, a dimensional change caused by the deformation of the support 110 can be absorbed by the holes 130, which reduces a negative effect of an environmental temperature on the entire dimension of the hatch structure 100, in order to guarantee the dimensional consistency of the products, thus reducing the deformation of the hatch structure 100 and reducing a probability of deformation of the plate 120.
[0048] Horn shown in [Fig. 1], it should be understood that a region on the support 110 without holes can catch and protect the plate 120.
[0049] As shown in [Fig.3], in a feasible embodiment, the holes 130 include slotted holes; and the slotted holes are arranged in a width direction of the support 110.
[0050] In this technical solution, the shapes of the holes 130 are further proposed, namely that the holes 130 include slotted holes; and the slotted holes are arranged in the width direction of the support 110. Such a configuration takes into account the fact that when the support 110 deforms due to the adverse effects of temperature, the deformation of the support 110 in the width direction is more likely to cause deformation of the plate 120, so arranging the slotted holes in the width direction of the support 110 can better absorb the deformation of the support 110 in the width direction. Consequently, the probabilities of deformation of both the support 110 and the plate 120 can be reduced. Moreover, arranging the slotted holes in the width direction of the support 110 can also ensure the mechanical strength of the hatch structure 100.
[0051] It must be understood that even when the slotted holes are arranged in the width direction of the support 110, the slotted holes can also absorb the deformation of the support 110 in a length direction.
[0052] As shown in [Fig.3], in a feasible embodiment, a ratio of the length of the slotted hole to the width of the support 110 is greater than or equal to 0.5.
[0053] In this technical solution, a slotted hole shape is further proposed, such that the ratio of the slotted hole length to the width of the support 110 is greater than or equal to 0.5. This configuration ensures that the slotted hole length in the width direction is sufficiently large to absorb the deformation of the support 110 in that direction. Consequently, the probabilities of deformation of both the support 110 and the plate 120 can be reduced.
[0054] It must be understood that if the ratio of the length of the slotted hole to the width of the support 110 is less than 0.5, the absorption of the deformation of the holes 130 in the width direction may be negatively affected.
[0055] It must be understood that in a case where there is a plurality of slotted holes, the ratios of the lengths of at least some of the slotted holes to the width of the support 110 are greater than or equal to 0.5. If the ratios of the lengths of all the slotted holes to the width of the support 110 are less than 0.5, the absorption of the deformation of the holes 130 in the width direction may be negatively affected.
[0056] In a feasible embodiment, the holes 130 comprise a plurality of interconnected circular holes. Such a configuration not only facilitates the formation of the holes 130 using stamping equipment, but also improves the deformation absorption performance of the holes 130.
[0057] In a feasible embodiment, the external edge profile of the hole 130 is a closed figure formed by curved lines. Due to this configuration, the hole 130 can be a graphic hole, which makes it easier to form. Furthermore, the hole 130 can be a specially shaped hole, which facilitates the absorption of deformation at a plurality of angles.
[0058] In a feasible embodiment, the outer edge profile of the hole 130 is a closed figure formed by curves. Due to this configuration, the hole 130 can have a smoothly transitioning outer edge profile, making it easier to form. Furthermore, the hole 130 can be a specially shaped hole, which facilitates the absorption of deformation at a plurality of angles.
[0059] In a feasible embodiment, the external edge profile of the hole 130 is a closed figure formed by curves and straight lines. Such a configuration makes the hole 130 easier to form. Furthermore, the hole 130 can be a specially shaped hole, which facilitates the absorption of deformation at a plurality of angles.
[0060] As shown in [Fig.3], in a feasible embodiment there is a plurality of holes 130, in which the plurality of holes 130 are arranged in the length direction of the support 110.
[0061] In this technical solution, a quantity of holes 130 is further proposed, that is to say, there is a plurality of holes 130. Arranging the plurality of holes 130 in the length direction of the support 110 can better absorb deformation in the length direction when the support 110 is negatively affected by temperature. Consequently, the consistency between the support 110 and the plate 120 is guaranteed.
[0062] As shown in [Fig.3], in a feasible embodiment, a ratio of a total width of the plurality of holes 130 to a length of the support 110 is greater than or equal to 0.2.
[0063] In this technical solution, a relationship is further proposed between the holes 130 and the length direction of the support 110, i.e., the ratio of the total width of the plurality of holes 130 to the length of the support 110 is greater than or equal to 0.2. Such a configuration ensures that the width of the holes 130 in the length direction of the support 110 is large enough to absorb the deformation in the length direction when the support 110 is negatively affected by temperature, thus reducing the deformation of the hatch structure 100 caused by a negative effect of environmental temperature.
[0064] In a feasible embodiment, a material for preparing the plate 120 comprises a glass material; and a material for preparing the support 110 comprises a resin material.
[0065] In this technical solution, materials for the plate 120 and the support 110 are further proposed, that is to say that the plate 120 is made from a glass material, so that the panel 120 can be flatter and more attractive; and the support 110 is made with a resin material, which facilitates the connection of the support 110 to the other components, and can reduce the dead weight of the hatch structure 100, so that the hatch structure 100 can be opened and closed appropriately.
[0066] In some examples, the plate 120 is made of a glass material; and the support 110 is made of a resin material.
[0067] As shown in [Fig.4] and [Fig.5], in a feasible embodiment, the hatch structure 100 further includes an adhesive layer 140, in which the plate 120 is connected to the support 110 by means of the adhesive layer 140.
[0068] In this technical solution, the hatch structure 100 may further include the adhesive layer 140; and the plate 120 is bonded to the support 110 by means of the adhesive layer 140. This not only facilitates the connection of the plate 120 to the support 100, but also ensures that the plate 120 is securely connected. to support 110, so that the possibility of movement of plate 120 relative to support 110 can be reduced.
[0069] In a feasible embodiment, the plate is connected to the support via an adhesive distribution system. Such a configuration not only facilitates the connection of the plate 120 to the support 110, but also ensures that the plate 120 is fixedly connected to the support 110, thus reducing the possibility of movement of the plate 120 relative to the support 110.
[0070] It must be understood that the adhesive distribution and the adhesive layer 140 can be used independently, or can be used in a combined manner, provided that the connection between the plate 120 and the support 110 is implemented.
[0071] As shown in Figures 6 to 8, according to a second aspect of the embodiments of the present application, a base station is proposed comprising: a base station body 210; and the trap structure 100 according to any one of the preceding technical solutions.
[0072] Since the base station proposed in the embodiments of this application includes the trap structure 100 according to any one of the preceding technical solutions, the base station has all the beneficial effects of the trap structure 100 in the preceding technical solutions.
[0073] According to the base station proposed in the embodiments of this application, the hatch structure 100 comprises the support 110, the plate 120, and the holes 130. During use, the hatch structure 100 can be connected to the base station via the support 110, which facilitates the assembly of the hatch structure 100. In addition, the plate 120 is used as the external surface of the hatch structure 100, so that the hatch structure 100 is neater and more attractive.Since the holes 130 are formed in the support 110, even when the trapdoor structure 100 is in a state of high or low temperature or is subjected to a considerable temperature difference, any dimensional change caused by the deformation of the support 110 can be absorbed by the holes 130. This reduces the negative effect of ambient temperature on the entire dimensions of the trapdoor structure 100, ensuring the dimensional consistency of the products, thus reducing deformation of the trapdoor structure 100 and decreasing the probability of deformation of the plate 120. Furthermore, when the trapdoor structure 100 is applied to a base station, its consistency can make the base station more aesthetically pleasing. The base station is particularly suitable for use as an integrated base station.
[0074] As shown in Figures 6 to 8, in a feasible embodiment, the base station body 210 includes a dust collection tray 220, in which the hatch structure 100 is connected to the base station body 210, and is configured to close or open the dust collection bin 220.
[0075] As shown in Figures 6 to 8, in a feasible embodiment, the base station body 210 includes a housing cavity 230, in which the hatch structure 100 is connected to the base station body 210 and is configured to close or open the housing cavity 230.
[0076] In this technical solution, the base station body 210 may further include the housing cavity 230; and the housing cavity 230 may be configured to house the main body of a cleaning device. The main body of the cleaning device may return to the housing cavity 230 when a cleaning operation is completed or when dust collection is required. Due to the arrangement of the hatch structure 100, the hatch structure 100 may be configured to close or open the housing cavity 230. In other words, when the main body of the cleaning device is housed in the housing cavity 230 or when the main body of the cleaning device is removed from the housing cavity 230 for operation, the hatch structure 100 may close the housing cavity 230, so that the base station can be neater and more aesthetically pleasing.
[0077] It should be understood that each base station can be provided with two hatch structures 100, that is to say, the two hatch structures 100 are respectively configured to close the housing cavity 230 and the dust collection bin 220. Certainly, the base station can alternatively be provided with one hatch structure 100; and the hatch structure 100 can cover both the housing cavity 230 and the dust collection bin 220 or can cover only the housing cavity 230 or only the dust collection bin 220. A specific quantity of use of the hatch structure 100 is not limited in this application.
[0078] According to a third aspect of the embodiments of the present application, a cleaning system is proposed comprising: the base station according to any one of the preceding technical solutions; and a main body of a cleaning device, in which the base station is configured to house the main body of the cleaning device.
[0079] Since the cleaning system proposed in the embodiments of this application includes the base station according to any one of the preceding technical solutions, the cleaning system has all the beneficial effects of the base station in the preceding technical solutions.
[0080] The cleaning system proposed in the embodiments of this application comprises the base station and the main body of the cleaning device; the base station comprises the hatch structure 100; and the hatch structure 100 comprises the support 110, the plate 120, and the holes 130. During use, the The hatch structure 100 can be connected to other components via the support 110, simplifying assembly. Furthermore, the plate 120 serves as the external surface of the hatch structure 100, resulting in a neater and more aesthetically pleasing appearance. Because the holes 130 are formed in the support 110, even when the hatch structure 100 is exposed to high or low temperatures, or subjected to significant temperature variations, any dimensional changes caused by deformation of the support 110 can be absorbed by the holes 130. This mitigates the negative impact of ambient temperature on all dimensions of the hatch structure 100, ensuring dimensional consistency and minimizing deformation of both the hatch structure 100 and the plate 120.Therefore, the cleaning system can be more aesthetically pleasing.
[0081] In the utility model, the terms "first," "second," and "third" are used solely for descriptive purposes and cannot be understood as indicating or implying relative importance. Unless otherwise specified, the term "a plurality of" refers to two or more. The terms "mount," "assemble," "connect," "fix," and the like should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or a bonded connection, and can be a direct connection or an indirect connection through an intermediate medium. A person skilled in the art can understand the specific meanings of these terms in the utility model based on specific situations.
[0082] In the description of the utility model, it should be understood that the orientations or positional relationships indicated by the terms "upper," "lower," "left," "right," "front," "rear," and the like are based on the orientations or positional relationships shown in the accompanying drawings. Such terms are provided solely for the sake of simplicity and brevity in this disclosure and do not indicate or imply that the devices or units mentioned must have specified orientations or must be constructed and operated in the specified directions, and therefore should not be interpreted as limitations on the utility model.
[0083] In the Description, descriptions referring to terms such as "an embodiment," "certain embodiments," or "a specific embodiment" mean that the specific elements, structures, materials, or features described in combination with the embodiments or examples are included in at least one embodiment or example of the utility model. In the Description, the schematic representation of the above terms does not necessarily refer to the same embodiment or example. Furthermore, The specific elements, structures, materials or characteristics described can be correctly combined in any one or more embodiments or examples.
[0084] The preceding descriptions are purely preferred embodiments of the utility model and are not intended to limit the utility model. For a person skilled in the art, the utility model can be modified and changed. Any modification, equivalent replacement, improvement, or similar provision made to the spirit and principles of the utility model must be included within the scope of protection of the utility model.
Claims
Demands
1. Hatch structure comprising: a support which is formed with holes; and a plate which is connected to the support.
2. Hatch structure according to claim 1, wherein: the holes comprise slotted holes.
3. Hatch structure according to claim 1, wherein the holes are arranged in a support width direction.
4. Hatch structure according to claim 2, wherein: a ratio of a hole length to a support width is greater than or equal to 0.
5.
5. Hatch structure according to claim 1, wherein: the holes comprise a plurality of circular holes which are in communication with each other.
6. Hatch structure according to claim 1, wherein: an outer edge profile of the hole is a closed figure formed by curved lines; or an outer edge profile of the hole is a closed figure formed by curves; or an outer edge profile of the hole is a closed figure formed by straight lines and curves.
7. Hatch structure according to claim 1, wherein: there is a plurality of holes and wherein the plurality of holes are arranged in a direction along the length of the support.
8. Hatch structure according to claim 7, wherein: a ratio of a total width of the plurality of holes to a length of the support is greater than or equal to 0.
2.
9. A trapdoor structure according to any one of claims 1 to 8, wherein: a material for preparing the plate comprises a glass material; and a material for preparing the support comprises a resin material.
10. Hatch structure according to any one of claims 1 to 8, wherein: the plate is connected to the support via adhesive distribution; or the plate is connected to the support via an adhesive layer.
11. Base station comprising: a base station body; and the hatch structure according to any one of claims 1 to 10.
12. Cleaning system comprising: the base station according to claim 11; and a main body of a cleaning device, wherein the base station is configured to house the main body of the cleaning device.