Storage device and all-terrain vehicle
By incorporating elastic deformation components into the storage devices of all-terrain vehicles, the problems of abnormal noise and damage caused by swaying items have been solved, achieving stable clamping of items and improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SEGWAY TECH CO LTD
- Filing Date
- 2025-08-19
- Publication Date
- 2026-06-05
Smart Images

Figure CN224323920U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of storage device technology, and in particular to a storage device and an all-terrain vehicle. Background Technology
[0002] All-terrain vehicles are widely used in a variety of different fields due to their excellent off-road performance and versatility.
[0003] When using an all-terrain vehicle, users typically place their belongings in the vehicle's storage compartment. However, the driving environment of all-terrain vehicles is complex, often involving bumps, vibrations, and tilting. As a result, items in the storage compartment may shake, collide with the compartment, and produce unusual noises. In some cases, items may even be damaged by collisions, or fall out of the compartment and be lost due to excessive shaking. All of these factors negatively impact the user experience. Utility Model Content
[0004] This application provides a storage device and an all-terrain vehicle that can solve the problem of items shaking in the storage device, avoid abnormal noise caused by collisions between items and the storage device, as well as damage to items after collisions and loss of items after they fall out of the storage device, thereby improving the user experience.
[0005] To achieve the above objectives, this application adopts the following technical solution:
[0006] In a first aspect, this application provides a storage device for an all-terrain vehicle; the storage device includes:
[0007] A storage body having a receiving cavity.
[0008] An elastic deformable element is disposed on the cavity wall of the receiving cavity; the elastic deformable element is configured to elastically deform toward a side opposite to the corresponding cavity wall to clamp an article between the elastic deformable element and the corresponding cavity wall.
[0009] As an optional implementation, the elastic deformation member has an elastic deformation body and a connecting portion, and the connecting portion is connected to the end of the elastic deformation body along the length direction of the elastic deformation body; the connecting portion is connected to the cavity wall of the receiving cavity.
[0010] The elastically deformable body undergoes elastic deformation toward the side away from the cavity wall to clamp the article between the elastically deformable body and the corresponding cavity wall.
[0011] As an optional implementation, the orthographic projection of the elastic deformation body on the corresponding cavity wall is a square structure, and the orthographic projection of the connecting part on the corresponding cavity wall is located at the corner of the square structure.
[0012] As an optional implementation, the connecting portion protrudes from the end of the elastically deformable body.
[0013] As an optional implementation, the storage device further includes a connector, through which the connecting portion and the corresponding cavity wall are connected.
[0014] As an optional implementation, the top of the storage body has an opening that communicates with the receiving cavity; the receiving cavity has a first cavity wall and a second cavity wall extending toward the opening, and the first cavity wall and the second cavity wall are disposed opposite each other along the width direction of the storage device.
[0015] The number of elastic deformation elements is at least two, and the at least two elastic deformation elements are respectively placed in the first cavity wall and the second cavity wall.
[0016] As an optional implementation, the receiving cavity has a third cavity wall extending toward the opening, the third cavity wall being connected between the first cavity wall and the second cavity wall.
[0017] The storage device further includes a charging terminal, which is disposed on the storage body, and the charging port of the charging terminal is located on the third cavity wall and communicates with the receiving cavity.
[0018] On the first cavity wall, the elastic deformation member is disposed near the side where the charging port is located, and is inclined toward the side where the charging port is located.
[0019] And / or, on the second cavity wall, the elastic deformation member is disposed near the side where the charging port is located, and is inclined toward the side where the charging port is located.
[0020] As an optional implementation, the elastic deformable member is provided with a recessed structure, which is recessed towards the center of the elastic deformable member relative to the surface of the elastic deformable member along the thickness direction of the elastic deformable member.
[0021] As an optional implementation, the elastic deformation component includes a rubber component and an elastic strap.
[0022] The storage device provided in this application utilizes an elastically deformable element that elastically deforms towards the side opposite to the cavity wall, creating a clamping space between the elastically deformable element and the corresponding cavity wall to place an item. Once the item is placed, the elastic deformation of the element returns it to its initial state, clamping the item between the element and the cavity wall. Thus, through the elastic deformation of the element, the item is secured within the cavity with simple and convenient operation, preventing the item from shaking and avoiding collisions between the item and the cavity wall that could cause noise or damage to the storage device. Furthermore, the clamping action of the elastically deformable element and the cavity wall prevents the item from detaching and being lost, thereby improving the user experience.
[0023] Secondly, this application provides an all-terrain vehicle, including: the storage device described in the first aspect.
[0024] The all-terrain vehicle provided in this application, by including the storage device provided in the first aspect, can enhance the user experience. Attached Figure Description
[0025] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0026] Figure 1 A schematic diagram of the storage device provided in the embodiments of this application;
[0027] Figure 2 A schematic diagram from another perspective of the storage device provided in the embodiments of this application;
[0028] Figure 3 This is a schematic diagram of an elastically deformable element in a storage device provided in an embodiment of this application.
[0029] Explanation of reference numerals in the attached figures:
[0030] 100 - Storage device;
[0031] 110 - Storage unit;
[0032] 111 - Receiving cavity; 1111 - First cavity wall; 1112 - Second cavity wall; 1113 - Third cavity wall;
[0033] 112 - Opening;
[0034] 120 - Elastic deformation component;
[0035] 121-Elastic deformation body;
[0036] 122-Connecting part; 1221-First connecting hole;
[0037] 123 - Recessed structure; 124 - First elastic deformation element; 125 - Second elastic deformation element;
[0038] 130 - Connector;
[0039] 140 - Charging terminal; 141 - Charging port;
[0040] 200 - Items. Detailed Implementation
[0041] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application. Unless otherwise specified, the following embodiments and features can be combined with each other.
[0042] All-terrain vehicles, due to their excellent off-road performance and versatility, are widely used in various fields, such as outdoor operations, agricultural transportation, and leisure activities. This application does not limit the specific application areas of all-terrain vehicles.
[0043] In actual use, users will place their personal belongings in the storage compartments of all-terrain vehicles. However, the driving environment of all-terrain vehicles is complex, often encountering bumps, vibrations, and tilting. As a result, items in the storage compartments may shake, collide with the compartments, and produce abnormal noises. In some cases, items may even be damaged by collisions, or shake so much that they may fall out of the storage compartments and be lost. All of these factors will negatively impact the user experience.
[0044] To overcome the shortcomings of existing technologies, this application provides a storage device in which an elastic deformation element is provided. The elastic deformation of the elastic deformation element clamps an item between the element and the inner wall of the storage device. Thus, the elastic deformation restoring force generated by the elastic deformation element after deformation acts on the item, ensuring the item is stably clamped between the element and the inner wall, preventing the item from shaking and colliding with the inner wall. This prevents abnormal noises from the storage device and damage to the item due to collisions, and also prevents the item from falling out of the storage device. All of these improvements enhance the user experience.
[0045] The contents of this application will now be described in detail with reference to the accompanying drawings, so that those skilled in the art can have a clearer and more detailed understanding of the contents of this application.
[0046] This application provides an all-terrain vehicle, including a storage device 100. The storage device 100 can be disposed in the cabin of the all-terrain vehicle, and is located between the driver's cabin and the passenger cabin.
[0047] In some embodiments, the storage device 100 may also be located inside the door of the all-terrain vehicle. This application does not specify the exact location of the storage device 100 within the cabin of the all-terrain vehicle.
[0048] Among them, see Figure 1 , Figure 2 The storage device 100 includes a storage body 110 and an elastic deformable element 120. The storage body 110 has a receiving cavity 111; the elastic deformable element 120 is disposed on the cavity wall of the receiving cavity 111; the elastic deformable element 120 is configured to elastically deform toward a side away from the corresponding cavity wall to clamp the article 200 between the elastic deformable element 120 and the corresponding cavity wall.
[0049] See Figure 1 For example, the shape of the receiving cavity 111 can be square or other irregular shape, as long as it forms a receiving space and can accommodate the item 200. This application embodiment does not require the specific shape of the receiving cavity 111.
[0050] In addition, the storage body 110 in this embodiment can be a plastic part or a metal part with an outer plastic coating, etc., and there are no restrictions on this.
[0051] It should be noted that the elastic deformation element 120 is disposed on the cavity wall of the receiving cavity 111. The number of elastic deformation elements 120 can be one. The elastic deformation element 120 can be disposed on the side cavity wall of the receiving cavity 111 or on the bottom cavity wall of the receiving cavity 111.
[0052] In some embodiments, the number of elastic deformation elements 120 can be two or more, and the elastic deformation elements 120 can be disposed on the same cavity wall or different cavity walls of the receiving cavity 111. This application embodiment does not require this.
[0053] Understandably, the elastic deformable element 120 undergoes elastic deformation towards the side opposite to the cavity wall to form a clamping space between the elastic deformable element 120 and the corresponding cavity wall, which is used to place the item 200. After the item 200 is placed, the elastic deformation of the elastic deformable element 120 causes it to return to its initial state, clamping the item 200 between the elastic deformable element 120 and the corresponding cavity wall. In this way, through the elastic deformation of the elastic deformable element 120, the item 200 can be fixed in the receiving cavity 111 with simple and convenient operation, thereby preventing the item 200 from shaking in the receiving cavity 111, and thus preventing abnormal noises from the storage device 100 and damage to the item 200 caused by collision between the item 200 and the cavity wall of the receiving cavity 111. At the same time, the clamping action of the elastic deformable element 120 and the cavity wall prevents the item 200 from falling out of the receiving cavity 111 and being lost, thereby improving the user experience. Furthermore, the elastic deformation element 120 is disposed on the cavity wall of the receiving cavity 111, so the elastic deformation element 120 will not occupy too much of the receiving space of the receiving cavity 111, thereby improving the space utilization rate of the receiving cavity 111.
[0054] It should be noted that the article 200 in this application embodiment can be any article 200 that can be clamped between the elastic deformable member 120 and the cavity wall of the receiving cavity 111, such as a mobile phone, earphones, or tablet.
[0055] See Figure 1 and Figure 3 Optionally, the elastic deformation member 120 has an elastic deformation body 121 and a connecting portion 122. Along the length direction (P) of the elastic deformation body 121, the connecting portion 122 is connected to the end of the elastic deformation body 121; the connecting portion 122 is connected to the cavity wall of the receiving cavity 111; the elastic deformation body 121 undergoes elastic deformation toward the side away from the cavity wall to clamp the article 200 between the elastic deformation body 121 and the corresponding cavity wall.
[0056] In some embodiments, the body of the elastic deformable member 120 may be a strip-shaped structure or a sheet-shaped structure, etc., which is not required. The connecting part 122 is connected to both ends of the elastic deformable body 121 along the length direction (P) of the elastic deformable member 120, and at the corresponding ends, along the width direction (L) of the elastic deformable member 120, the connecting part 122 may be located in the middle or at the end of the elastic deformable body 121, which is not required.
[0057] The number of connecting portions 122 connected to the end of the elastic deformation body 121 along the length direction (P) of the elastic deformation member 120 can be one, two or more, and there is no limitation thereto.
[0058] It is easy to understand that the connecting part 122 and the cavity wall of the receiving cavity 111 can be bonded, connected by embedding, or connected by threaded fasteners, expansion buckles, etc.
[0059] See Figure 1 and Figure 3 In this embodiment, the orthographic projection of the elastic deformation body 121 on the corresponding cavity wall is a square structure, and the orthographic projection of the connecting part 122 on the corresponding cavity wall is located at the corner of the square structure.
[0060] It is understandable that the orthographic projection of the elastic deformable body 121 on the corresponding cavity wall in this embodiment can be a square, a rectangle, etc. It is easy to understand that the connecting parts 122 are connected to the corners of the elastic deformable body 121. In this embodiment, there are four connecting parts 122, each corresponding to one of the four corners of the elastic deformable body 121. Thus, by connecting the four connecting parts 122 located at the four corners of the elastic deformable body 121 to the cavity wall of the receiving cavity 111, the connection between the elastic deformable member 120 and the cavity wall of the receiving cavity 111 is ensured to be stable.
[0061] The orthographic projection of the connecting portion 122 on the corresponding cavity wall in the embodiments of this application can be square, circular or other irregular shape, and there are no requirements in this regard.
[0062] In some embodiments, the connecting portion 122 protrudes from the end of the elastically deformable body 121. Those skilled in the art will understand that the connecting portion 122 connects to the elastically deformable body 121 and to the corresponding cavity wall, with only the elastically deformable body 121 undergoing elastic deformation. During the elastic deformation of the elastically deformable body 121, the connecting portion 122 may not undergo elastic deformation. Thus, by protruding the connecting portion 122 from the end of the elastically deformable member 120, the clamping contact between the elastically deformable body 121 and the article 200 can be improved, allowing the article 200 to be stably clamped between the elastically deformable body 121 and the corresponding cavity wall.
[0063] In conjunction with the foregoing embodiments, it can be understood that there are many ways to connect the connecting part 122 and the corresponding cavity wall. As an optional embodiment, the storage device 100 also includes a connector 130, through which the connecting part 122 and the corresponding cavity wall are connected.
[0064] Combination Figure 1 , Figure 3 The connecting part 122 is provided with a first connecting hole 1221, which extends through the connecting part 122 along the thickness direction of the elastic deformable member 120 to form a through hole. A second connecting hole (not shown in the figure) is provided on the corresponding cavity wall. The connecting member 130 passes through the first connecting hole 1221 and connects with the second connecting hole, thereby realizing the connection between the connecting part 122 and the corresponding cavity wall.
[0065] In some embodiments, the connector 130 may be an expansion joint, a threaded connector, etc., and there are no requirements on this.
[0066] For example, in combination Figure 1 and Figure 2 The storage body 110 has an opening 112 at its top, which communicates with a receiving cavity 111. The receiving cavity 111 has a first cavity wall 1111 and a second cavity wall 1112 extending toward the opening 112, and the first cavity wall 1111 and the second cavity wall 1112 are arranged opposite each other along the width direction (Q) of the storage device 100. At least two elastic deformation elements 120 are provided, and these at least two elastic deformation elements 120 are respectively placed on the first cavity wall 1111 and the second cavity wall 1112. Thus, by providing elastic deformation elements 120 on both the first cavity wall 1111 and the second cavity wall 1112, occupants on the first cavity wall 1111 side and occupants on the second cavity wall 1112 side can place items 200 closer to themselves, further enhancing the user experience.
[0067] Along the height direction (M) of the storage device 100, the top of the storage body 110 has an opening 112. The shape of the opening 112 can be square or circular, etc., without limitation. The opening 112 communicates with the receiving cavity 111 so that the user can put the item 200 into the receiving cavity 111 through the opening 112.
[0068] In some embodiments, the length direction (R) of the storage device 100 is the longitudinal direction of the all-terrain vehicle, and the width direction (Q) of the storage device 100 is the lateral direction of the all-terrain vehicle. The first cavity wall 1111 and the second cavity wall 1112 are opposite each other along the width direction (Q) of the storage device 100. The height direction (M) of the storage device 100 is the vertical direction of the all-terrain vehicle. The storage device 100 is disposed between the driver's compartment and the passenger compartment of the all-terrain vehicle, with the first cavity wall 1111 closer to the passenger compartment and the second cavity wall 1112 closer to the driver's compartment.
[0069] The number of elastic deformation elements 120 can be two. For the convenience of those skilled in the art to understand the embodiments of this application, the two elastic deformation elements 120 are defined as a first elastic deformation element 124 and a second elastic deformation element 125. The first elastic deformation element 124 is disposed on the first cavity wall 1111, and the second elastic deformation element 125 is disposed on the second cavity wall 1112. Thus, the passenger can place the item 200 closer to themselves, that is, the passenger can clamp and fix the item 200 using the first elastic deformation element 124 and the first cavity wall 1111. Similarly, the driver can place the item 200 closer to themselves, that is, the driver can clamp and fix the item 200 using the second elastic deformation element 125 and the second cavity wall 1112. This also facilitates easy access to the item 200 for both the driver and passenger, thereby improving the user experience.
[0070] It should be noted that the number of elastic deformation members 120 in this embodiment may also be multiple. For example, the number of first elastic deformation members 124 may be multiple, and multiple first elastic deformation members 124 are spaced apart along the length direction (R) of the storage device 100 in the first cavity wall 1111, and / or, the number of second elastic deformation members 125 may be multiple, and multiple second elastic deformation members 125 are spaced apart along the length direction (R) of the storage device 100 in the second cavity wall 1112.
[0071] Optionally, the spacing between two adjacent first elastic deformation elements 124 can be the same or different. The spacing between two adjacent second elastic deformation elements 125 can also be the same or different. This embodiment does not require this.
[0072] As an alternative implementation, the receiving cavity 111 has a third cavity wall 1113 extending toward the opening 112, the third cavity wall 1113 being connected between the first cavity wall 1111 and the second cavity wall 1112.
[0073] For example, the third cavity wall 1113 extends toward the opening 112 along the height direction (M) of the storage device 100. When the storage device 100 is applied to an all-terrain vehicle, the third cavity wall 1113 can be the cavity wall of the receiving cavity 111 along the length direction (R) of the storage device 100 near the front side of the all-terrain vehicle, or the third cavity wall 1113 can be the cavity wall of the receiving cavity 111 along the length direction (R) of the storage device 100 near the rear side of the all-terrain vehicle. In this embodiment, the example is described with the third wall being the cavity wall of the receiving cavity 111 along the length direction (R) of the storage device 100 near the front side of the all-terrain vehicle.
[0074] Combination Figure 1 and Figure 2Optionally, the storage device 100 further includes a charging terminal 140, which is disposed on the storage body 110, and the charging port 141 of the charging terminal 140 is located in the third cavity wall 1113 and communicates with the receiving cavity 111; on the first cavity wall 1111, an elastic deformation member 120 is disposed near the side where the charging port 141 is located and is inclined toward the side where the charging port 141 is located; and / or, on the second cavity wall 1112, the elastic deformation member 120 is disposed near the side where the charging port 141 is located and is inclined toward the side where the charging port 141 is located.
[0075] It is easy to understand that the first cavity wall 1111 has an end near the third cavity wall 1113, and the first elastic deformation member 124 can be disposed near this end, thereby realizing that the first elastic deformation member 124 is disposed on the side of the first cavity wall 1111 near the charging port 141. When the item 200 (such as a mobile phone) is sandwiched between the first elastic deformation member 124 and the first cavity wall 1111, the mobile phone is close to the charging port 141, so that the user can charge the mobile phone and keep the mobile phone stable during the charging process. In addition, the first elastic deformation member 124 is tilted towards the charging port 141, so that the user can insert the item 200 (such as a mobile phone) at an angle between the first elastic deformation member 124 and the first cavity wall 1111. It can be understood that the second elastic deformation member 125 is disposed in the second cavity wall 1112 in the same way as the first elastic deformation member 124 is disposed in the first cavity wall 1111, and will not be described again.
[0076] See Figure 3 In some embodiments, the elastic deformable member 120 is provided with a recessed structure 123, which is recessed relative to the surface of the elastic deformable member 120 and towards the center of the elastic deformable member 120 along the thickness direction of the elastic deformable member 120. In this way, while ensuring that the elastic deformable member 120 stably holds the article 200 between the elastic deformable member 120 and the corresponding cavity wall through elastic deformation, the material usage of the elastic deformable member 120 is reduced, thus lowering the material cost of the storage device 100.
[0077] For example, the shape of the outline of the recessed structure 123 can be a triangle, a quadrilateral, or an irregular shape, or it can be a combination of multiple shapes. This application embodiment does not require this.
[0078] In some embodiments, the recessed structure 123 is recessed relative to the surface of the elastic deformable member 120 toward the center of the elastic deformable member 120 to form a blind groove or blind hole; or, the recessed structure 123 is recessed relative to the surface of the elastic deformable member 120 toward the center of the elastic deformable member 120 to form a through groove or through hole along the thickness direction of the elastic deformable member 120.
[0079] Optionally, the elastic deformation member 120 in this embodiment includes a rubber member and an elastic strap.
[0080] For example, the elastic deformable element 120 can be a rubber part or an elastic strap. Such an elastic deformable element 120 is made of a common material, which can reduce the manufacturing cost of the storage device 100.
[0081] It should be noted that the terms "one embodiment," "embodiment," "exemplary embodiment," "some embodiments," etc., mentioned in the specification indicate that the described embodiment may include a specific feature, structure, or characteristic, but not every embodiment necessarily includes that specific feature, structure, or characteristic. Furthermore, such phrases do not necessarily refer to the same embodiment. Moreover, when a specific feature, structure, or characteristic is described in connection with an embodiment, implementing such a feature, structure, or characteristic in conjunction with other embodiments, whether explicitly described or not, is within the knowledge scope of those skilled in the art.
[0082] Generally speaking, terms should be understood at least in part by their use in context. For example, at least in part by context, the term "one or more" as used in the text can be used to describe any feature, structure, or characteristic of the singular meaning, or a combination of features, structures, or characteristics of the plural meaning. Similarly, at least in part by context, terms such as "a" or "the" can also be understood to convey either singular or plural usage.
[0083] It should be readily understood that the terms “on,” “above,” and “on top of” in this application should be interpreted in the broadest possible sense, such that “on” means not only “directly on something” but also “on something” with an intermediate feature or layer therebetween, and that “above” or “on top of” means not only “on something” but also “on something” without an intermediate feature or layer therebetween (i.e., directly on something).
[0084] Furthermore, for ease of explanation, spatially relative terms such as "below," "below," "under," "above," and "above" may be used to describe the relationship of one element or feature relative to other elements or features as shown in the figures. Spatially relative terms are intended to encompass different orientations of the device in use or operation other than those shown in the figures. The device may have other orientations (rotated 90° or in other orientations), and the spatially relative descriptive terms used herein may be interpreted accordingly.
[0085] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.
Claims
1. A storage device, characterized in that, For use in all-terrain vehicles; the storage device (100) includes: Storage body (110), the storage body (110) having a receiving cavity (111); An elastic deformable element (120) is disposed on the cavity wall of the receiving cavity (111); the elastic deformable element (120) is configured to elastically deform toward a side opposite to the corresponding cavity wall to clamp the article (200) between the elastic deformable element (120) and the corresponding cavity wall.
2. The storage device according to claim 1, characterized in that, The elastic deformation member (120) has an elastic deformation body (121) and a connecting part (122). Along the length direction of the elastic deformation body (121), the connecting part (122) is connected to the end of the elastic deformation body (121); the connecting part (122) is connected to the cavity wall of the receiving cavity (111). The elastically deformable body (121) undergoes elastic deformation toward the side away from the cavity wall to clamp the article (200) between the elastically deformable body (121) and the corresponding cavity wall.
3. The storage device according to claim 2, characterized in that, The orthographic projection of the elastic deformable body (121) onto the corresponding cavity wall is a square structure, and the orthographic projection of the connecting part (122) onto the corresponding cavity wall is located at the corner of the square structure.
4. The storage device according to claim 3, characterized in that, The connecting part (122) protrudes from the end of the elastically deformable body (121).
5. The storage device according to claim 2, characterized in that, The storage device (100) further includes a connector (130), through which the connecting part (122) and the corresponding cavity wall are connected.
6. The storage device according to any one of claims 1-5, characterized in that, The top of the storage body (110) has an opening (112) that communicates with the receiving cavity (111); the receiving cavity (111) has a first cavity wall (1111) and a second cavity wall (1112) extending toward the opening (112), and the first cavity wall (1111) and the second cavity wall (1112) are arranged opposite to each other along the width direction of the storage device (100); The number of the elastic deformation element (120) is at least two, and the at least two elastic deformation elements (120) are respectively placed in the first cavity wall (1111) and the second cavity wall (1112).
7. The storage device according to claim 6, characterized in that, The receiving cavity (111) has a third cavity wall (1113) extending toward the opening (112), the third cavity wall (1113) being connected between the first cavity wall (1111) and the second cavity wall (1112); The storage device (100) further includes a charging terminal (140), which is disposed on the storage body (110), and the charging port (141) of the charging terminal (140) is located on the third cavity wall (1113) and communicates with the receiving cavity (111). On the first cavity wall (1111), the elastic deformation member (120) is disposed near the side where the charging port (141) is located, and is inclined toward the side where the charging port (141) is located; and / or, On the second cavity wall (1112), the elastic deformation member (120) is disposed near the side where the charging port (141) is located, and is inclined toward the side where the charging port (141) is located.
8. The storage device according to any one of claims 1-5, characterized in that, The elastic deformable member (120) is provided with a recessed structure (123), which is recessed in the middle of the elastic deformable member (120) relative to the surface of the elastic deformable member (120) along the thickness direction of the elastic deformable member (120).
9. The storage device according to any one of claims 1-5, characterized in that, The elastic deformation component (120) includes a rubber component and an elastic strap.
10. An all-terrain vehicle, characterized in that, include: The storage device (100) as described in any one of claims 1-9.