Glove compartment and vehicle
By setting mounting shafts and connectors on the inner wall of the storage box, the hook can switch between hidden and exposed positions, solving the problem of fixed position of existing storage box hooks and realizing flexible position adjustment and stable mounting.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GREAT WALL MOTOR CO LTD
- Filing Date
- 2025-08-08
- Publication Date
- 2026-06-12
Smart Images

Figure CN224348845U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of vehicle parts technology, and more particularly to a glove box and a vehicle. Background Technology
[0002] In existing technologies, concealed hooks for storage bins are typically located inside the bin itself to avoid interfering with the proper closure of the lid. These hooks are usually installed on the inner wall of the bin panel using a pivot connection. When not in use, the hooks are retracted inside the bin; when in use, they flip outwards to hang items. However, the fixed position of these hooks on the bin panel prevents adjustment based on user needs or usage scenarios, resulting in insufficient flexibility. Utility Model Content
[0003] In order to solve the above-mentioned technical problems, or at least partially solve the above-mentioned technical problems, this application provides a glove box and a vehicle.
[0004] The first aspect of this application provides a storage box, comprising:
[0005] The box has an internal storage cavity;
[0006] The mounting shaft is installed on the inner wall surface of the housing and extends along the width direction of the housing;
[0007] The hook structure includes a connector and a hook body. One end of the connector is movably connected to the mounting shaft, and the other end is connected to the hook body. The connector can rotate around the mounting shaft to switch the hook body between a storage position hidden inside the box and a hanging position exposed outside the box. The connector can also slide along the mounting shaft to adjust the position of the hook structure on the box.
[0008] The storage box provided in this application has an installation shaft on the inner wall of the box body. A connector is movably connected to the installation shaft, and a hook is connected to the connector. The connector can rotate around the installation shaft to allow the hook to switch between a storage position hidden inside the box body and a hanging position exposed on the outside of the box body. The connector can slide along the installation shaft to adjust the position of the hook on the box body. The hook in the hanging position can hang objects on the outside of the box body. When the user needs to adjust the hanging position, pushing the connector can flexibly change the position of the hook on the box body along the width direction of the box body, so that the hook structure can meet the user's needs to adjust the position of the hung items.
[0009] In some embodiments of this application, the connector is a flexible belt, one end of which forms a first loop, which is movably sleeved on the mounting shaft.
[0010] Based on the above embodiments, the flexible belt is low in cost, less prone to jamming, and can fit tightly against the edge of the box when the hook is in the mounting position, avoiding stress concentration and damage to the surface of the box.
[0011] In some embodiments of this application, the hook body is provided with an assembly shaft, and a second ring is formed at the end of the flexible belt away from the mounting shaft, the second ring being sleeved on the assembly shaft.
[0012] Based on the above embodiments, the hook can rotate relative to the flexible belt, so that the hook is in a natural hanging state when it is in the loading position. After an object is loaded on the hook, the hook can rotate relative to the flexible belt so that the center of gravity of the object is in the same straight line as the part of the flexible belt near the hook. The vibration of the vehicle is transmitted to the flexible belt. When the flexible belt vibrates, the rotation of the hook relative to the flexible belt can reduce the swaying of the object and optimize the stress at the connection between the flexible belt and the hook, eliminating the torsional stress of the flexible belt.
[0013] In some embodiments of this application, a plurality of limiting buckles are provided at intervals along the width direction of the box on the inner wall surface of the box, and the mounting shaft is engaged with the plurality of limiting buckles.
[0014] Based on the above embodiments, there are multiple connection points between the mounting shaft and multiple limit buckles. When the hook body hangs an object, the connection points of the multiple limit buckles share the weight of the object hung by the hook structure, thereby improving the stability of the connection between the mounting shaft and the box body.
[0015] In some embodiments of this application, the connector is positioned between two adjacent limiting buckles, and the mounting shaft is detachably connected to the limiting buckles so that the position of the connector on the mounting shaft can be adjusted by disassembling the mounting shaft.
[0016] Based on the above embodiments, the limiting buckle restricts the sliding range of the connector to prevent the object hanging on the hook from moving the hook over a large range due to the vehicle turning; the limiting buckle is detachably snapped into the mounting shaft, which facilitates the operation of moving the connector from one movable shaft segment to another.
[0017] In some embodiments of this application, the number of hook structures is multiple, and the multiple hook structures are spaced apart along the axial direction of the mounting shaft.
[0018] Based on the above embodiments, multiple hook structures can jointly hang objects and share the load of a single hook structure, while each hook structure can also hang objects independently; multiple hook structures can flexibly meet the user's needs for hanging different numbers and sizes of objects.
[0019] In some embodiments of this application, a mounting groove is recessed on the inner wall surface of the housing, and the mounting shaft is installed in the mounting groove.
[0020] Based on the above embodiments, the mounting slot avoids the mounting shaft occupying the internal space of the housing; the mounting shaft is housed in the mounting slot, which can prevent the user from colliding with the mounting shaft when taking objects out of the housing, thus protecting the mounting shaft with the mounting slot.
[0021] In some embodiments of this application, the hook body is provided with a first magnetic attraction part, the box body is provided with a second magnetic attraction part, and when the hook body is in the storage position, the first magnetic attraction part and the second magnetic attraction part are magnetically connected.
[0022] Based on the above embodiments, the first magnetic attraction part and the second magnetic attraction part are magnetically connected, which can keep the hook body stable in the storage position and avoid the hook body colliding with the box body and producing abnormal noise when the vehicle is moving.
[0023] In some embodiments of this application, the box is provided with a baffle, and when the hook is in the storage position, the hook is hooked to the baffle.
[0024] Based on the above embodiments, the hook body can maintain a stable position after hooking with the baffle, avoiding the vibration of the vehicle driving that would cause the hook body to swing inside the box and cause abnormal noise.
[0025] In some embodiments of this application, the box is provided with a positioning groove, and when the hook is in the storage position, the hook is confined within the positioning groove.
[0026] Based on the above embodiments, when the hook is in the storage position, it is placed in the positioning groove, so that the positioning groove restricts the movement of the hook and avoids the vibration of the vehicle driving causing the hook to swing in the box and cause abnormal noise.
[0027] In some embodiments of this application, one end of the hook is connected to the connector, and the other end is bent to form a hook portion. A buffer layer is provided on the surface of the hook portion. When the hook is located inside the box, the buffer layer contacts the inner wall surface of the box.
[0028] Based on the above embodiments, the buffer layer can at least absorb the vibration of the box, and prevent the hook from continuously colliding with the box when the box vibrates, thus avoiding abnormal noise; the buffer layer can also prevent the hook from scratching the inner wall of the box.
[0029] A second aspect of this application provides a vehicle including a storage compartment as described in any of the preceding claims.
[0030] The vehicle provided in this application uses the storage box as described above. When it is necessary to hang an object, the hook body is rotated around the mounting shaft so that the hook body hangs the object at the hanging position. Furthermore, by pushing the connecting piece, the position of the hook body on the box body along the width direction of the box body can be adjusted so that the hook structure can flexibly adapt to the hanging needs of different positions. Attached Figure Description
[0031] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.
[0032] 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, for those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0033] Figure 1 This is a schematic diagram of the structure of the storage box described in the embodiment of this application;
[0034] Figure 2 This is a cross-sectional view of the storage box described in the embodiment of this application;
[0035] Figure 3 for Figure 2 A magnified view of a portion of the image;
[0036] Figure 4 This is one of the schematic diagrams of the hook body in the mounting position according to the embodiments of this application;
[0037] Figure 5 This is a second schematic diagram of the hook body in the mounting position according to the embodiments of this application.
[0038] Among them, 1. Box body; 11. Bucket body; 12. Panel; 121. Outer panel; 122. Inner panel; 13. Limiting buckle; 14. Mounting groove; 2. Mounting shaft; 3. Hook structure; 31. Connector; 311. First ring belt; 312. Second ring belt; 32. Hook body; 321. Assembly shaft; 33. Buffer layer; 41. First magnetic suction part; 42. Second magnetic suction part. Detailed Implementation
[0039] To better understand the above-mentioned objectives, features, and advantages of this application, the solution of this application will be further described below. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.
[0040] Many specific details are set forth in the following description in order to provide a full understanding of this application, but this application may also be implemented in other ways different from those described herein; obviously, the embodiments in the specification are only some embodiments of this application, and not all embodiments.
[0041] Reference Figures 1 to 5 As shown, the first aspect of this application provides a storage box, including a box body 1, a mounting shaft 2, and a hook structure 3.
[0042] The box 1 has a storage cavity inside; the mounting shaft 2 is installed on the inner wall of the box and extends along the width of the box 1; the hook structure 3 includes a connector 31 and a hook 32. One end of the connector 31 is movably connected to the mounting shaft 2, and the other end is connected to the hook 32. The connector 31 can rotate around the mounting shaft 2 so that the hook 32 can switch between a storage position hidden inside the box 1 and a hanging position exposed outside the box 1. The connector 31 can slide along the mounting shaft 2 to adjust the position of the hook structure 3 on the box 1.
[0043] Specifically, the housing 1 can be rotatably mounted on the vehicle's interior trim via a pivot. The width direction of the housing 1 is aligned with the extension direction of the pivot. The mounting shaft 2 extends along the width direction of the housing 1, allowing the hook structure 3 to flip to the outside of the housing 1 when it rotates around the mounting shaft 2. (Refer to...) Figure 1 As shown in the figure, the double-headed arrow X in the figure represents the width direction of box 1.
[0044] The storage box 1 can optionally include a bucket 11 and a panel 12. The bucket 11 has a box-like structure, and the panel 12 is connected to one side of the bucket 11. The space inside the bucket 11 is the storage cavity. The bucket 11 is rotatably connected to the vehicle interior trim, such as the dashboard or center console. When the storage box is closed, the panel 12 is attached to the vehicle interior trim, and the storage cavity is located inside the vehicle interior trim. When the storage box is open, the bucket 11 rotates outward, exposing the storage cavity on the outside of the vehicle interior trim. The mounting shaft 2 and the hook structure 3 are mounted on the panel 12. When the hook 32 is in the hanging position, the connector 31 crosses the top edge of the panel 12 so that the hook 32 rests on the outside of the panel 12.
[0045] The aforementioned mounting shaft 2 is a cylindrical shaft. It can be selected that a limiting buckle 13 is provided on the inner wall of the housing 1, and the mounting shaft 2 is engaged within the limiting buckle 13 to fix the mounting shaft 2 to the inner wall of the housing 1. Alternatively, a fixing ring can be provided on the inner wall of the housing 1, and the mounting shaft 2 can be inserted into the fixing ring to install the mounting shaft 2 onto the inner wall of the housing 1; or the mounting shaft 2 can be selected that has a through hole, and bolts or screws can be passed through the through hole to connect to the inner wall of the housing 1 to fix the mounting shaft 2 to the inner wall of the housing 1.
[0046] The aforementioned connector 31 can be a flexible belt. One end of the belt is bent and connected to the belt to form a first loop 311. The first loop 311 is sleeved on the mounting shaft 2, and there is a gap between the first loop 311 and the mounting shaft 2, allowing the first loop 311 to rotate relative to the mounting shaft 2 and slide along the mounting shaft 2. The other end of the belt is connected to the hook 32, so that when the belt bends or rotates around the mounting shaft 2, the hook 32 can rotate around the mounting shaft 2 and move between the storage position and the hanging position.
[0047] Of course, the connector 31 can also be a rigid sheet structure. One end of the connector 31 is provided with a collar, which is fitted onto the mounting shaft 2. Alternatively, one end of the connector 31 can be bent to form a hook. The arc corresponding to the hook is a superior arc. The hook is attached to the mounting shaft 2. The hook overcomes the friction between itself and the mounting shaft 2 and can rotate around the mounting shaft 2 and slide along the mounting shaft 2.
[0048] When the hook 32 is in the storage position, it can be attached to the inner wall of the box 1. When it is necessary to hang an object, the connector 31 rotates away from the inner wall of the box 1, so that the connector 31 crosses the top edge of the panel 12, so that the hook 32 rotates around the mounting shaft 2 to the outside of the box 1. At this time, the hook 32 is on the outside of the box 1, and the connector 31 overlaps the top edge of the panel 12, so that the hook 32 can be stably maintained in the hanging position to hang the object.
[0049] In practical use, the storage box provided in this embodiment is installed inside a vehicle. When no items are needed, the hook 32 is in the storage position inside the box 1. When items need to be hung, the box 1 is opened, and the user pulls the hook 32 by hand, causing the connector 31 and the hook 32 to rotate together around the mounting shaft 2 toward the outside of the box 1. When the hook 32 moves to the hanging position on the outside of the box 1, the connector 31 overlaps the top edge of the box 1. Items are hung on the hook 32, and the weight of the hook 32 is transmitted to the mounting shaft 2 through the connector 31. The connector 31 applies pressure to the top edge of the box 1 to share the force on the mounting shaft 2. When it is necessary to adjust the position of the hook 32 in the width direction of the box 1, the user pushes the connector 31 by hand, causing the connector 31 to slide along the mounting shaft 2, changing the position of the hook 32 in the width direction of the box 1 so that the hook structure 3 can meet the user's needs for adjusting the position of the hung items.
[0050] The storage box provided in this embodiment has an installation shaft 2 on the inner wall of the box body 1, and a connector 31 is movably connected to the installation shaft 2. The hook 32 is connected to the connector 31. The connector 31 can rotate around the installation shaft 2 so that the hook 32 can switch between a storage position hidden inside the box body 1 and a hanging position exposed on the outside of the box body 1. The connector 31 can slide along the installation shaft 2 to adjust the position of the hook 32 on the box body 1. The hook 32 in the hanging position can hang objects on the outside of the box body 1. When the user needs to adjust the hanging position, pushing the connector 31 can flexibly change the position of the hook 32 on the box body 1 along the width direction of the box body 1, so that the hook structure 3 can adapt to the user's adjustment requirements for the position of the hanging items.
[0051] Reference Figure 1 , Figure 2 and Figure 3 As shown, in some embodiments, the connector 31 is a flexible strip, one end of which forms a first ring 311, which is movably sleeved on the mounting shaft 2.
[0052] With this design, the flexible belt is low in cost, less prone to jamming, and can fit tightly against the edge of the box 1 when the hook 32 is in the mounting position, avoiding stress concentration and damage to the surface of the box 1.
[0053] Specifically, the flexible belt can be made of webbing. The webbing is formed by weaving multiple fibers into a strip structure. The weaving of multiple fibers allows the webbing to withstand greater tensile force, ensuring that the webbing can be stably connected between the mounting shaft 2 and the hook body 32 when an object is hung on the hook body 32. The webbing can be bent freely. After one end of the webbing is bent, it is sewn onto the webbing so that the end of the webbing can form a first loop 311.
[0054] Alternatively, the flexible strip can be made of rubber or soft rubber. The flexible strip can be bent and deformed to allow the hook body 32 to rotate around the mounting shaft 2. One end of the flexible strip can be bent and connected to the flexible strip by heat fusion or adhesive bonding, so that the bent part of the flexible strip forms a first annular ring 311.
[0055] After the first ring belt 311 is fitted onto the mounting shaft 2, there can be a gap between the first ring belt 311 and the outer wall surface of the mounting shaft 2, allowing the first ring belt 311 to rotate around the mounting shaft 2 and slide along the mounting shaft 2. Alternatively, the first ring belt 311 can abut against the surface of the mounting shaft 2, overcoming the friction between itself and the surface of the mounting shaft 2, thus allowing the first ring belt 311 to rotate around the mounting shaft 2 and slide along the mounting shaft 2.
[0056] The flexible strip allows the hook 32 to switch between the mounting position and the storage position by bending. Compared with the rigid connector 31, the flexible strip, which can be bent and deformed freely, is less prone to jamming. Furthermore, when the hook 32 is in the storage position, the flexible strip can fit tightly against the edge of the box 1, avoiding stress concentration.
[0057] The flexible strip can also be made of elastic material, and it can be a non-linear elastic material. That is, the flexible strip exhibits rigidity or minimal deformation under pressure up to a certain threshold. Once the pressure exceeds the threshold, the flexible strip can undergo significant but recoverable elastic deformation and fully or almost fully rebound after unloading. For example, flexible strips can be made of thermoplastic polyurethane, silicone rubber, or natural rubber, or they can be made of alternating layers of rigid materials such as thin metal sheets or hard plastic sheets with elastic material layers such as rubber or soft polymers, or designed into a specific geometry.
[0058] When the object hanging on the hook 32 is heavy, causing the pressure on the flexible belt to exceed the threshold, the flexible belt will elastically deform and elongate, causing the object to move down and contact the vehicle floor, thus preventing the hook 32 from deforming; or the user will see the flexible belt elongate and remove the object from the hook 32 in time to avoid deformation or damage to the hook 32.
[0059] Reference Figure 1 , Figure 2 and Figure 3 As shown, in some embodiments, the hook body 32 is provided with an assembly shaft 321, and a second ring belt 312 is formed at the end of the flexible belt away from the mounting shaft 2, and the second ring belt 312 is sleeved on the assembly shaft 321.
[0060] With this configuration, the hook 32 can rotate relative to the flexible belt, so that the hook 32 is in a natural hanging state when it is in the loading position. After an object is loaded on the hook 32, the hook 32 can rotate relative to the flexible belt so that the center of gravity of the object is in the same straight line as the part of the flexible belt near the hook 32. The vibration of the vehicle is transmitted to the flexible belt. When the flexible belt vibrates, the rotation of the hook 32 relative to the flexible belt can reduce the swaying of the object and optimize the stress at the connection between the flexible belt and the hook 32, eliminating the torsional stress of the flexible belt.
[0061] Specifically, a cylindrical shaft 321 is provided on the hook body 32 as an assembly shaft 321, which extends along the width direction of the housing 1. A second ring band 312 is sleeved on the assembly shaft 321. A gap may be selected between the second ring band 312 and the assembly shaft 321 to allow the second ring band 312 to rotate around the assembly shaft 321 and slide along it. Alternatively, the second ring band 312 may abut against the outer wall surface of the assembly shaft 321, allowing it to rotate and slide relative to the assembly shaft 321 despite the friction between them.
[0062] The hook body 32 has two spaced-apart upright plates on its end face. An assembly shaft 321 is connected between the two upright plates. The end of the flexible belt furthest from the mounting shaft 2 passes around the assembly shaft 321 and connects to the flexible belt, forming a second loop 312 fitted onto the assembly shaft 321. The two upright plates prevent the second loop 312 from dislodging from the end of the assembly shaft 321. For example, the flexible belt can be a webbing, and one end of the webbing can be sewn onto the assembly shaft 321 to form the second loop 312 fitted onto the assembly shaft 321.
[0063] Alternatively, one end of the assembly shaft 321 can be connected to the hook body 32, and the other end can be provided with a baffle extending radially along the assembly shaft 321. The end of the flexible belt away from the mounting shaft 2 passes around the assembly shaft 321 and is connected to the flexible belt, so that the end of the flexible belt away from the mounting shaft 2 forms a second ring belt 312 sleeved on the assembly shaft 321. The diameter of the second ring belt 312 is smaller than the diameter of the baffle, so that the baffle can prevent the second ring belt 312 from falling out from the end of the assembly shaft 321.
[0064] Reference Figure 1 , Figure 2 and Figure 3 As shown, in some embodiments, multiple limiting buckles 13 are provided at intervals along the width direction of the inner wall surface of the housing 1, and the mounting shaft 2 is engaged with the multiple limiting buckles 13.
[0065] With this configuration, there are multiple connection points between the mounting shaft 2 and the multiple limit buckles 13. When the hook body 32 hangs an object, the connection points of the multiple limit buckles 13 share the weight of the object hung by the hook structure 3, thereby improving the stability of the connection between the mounting shaft 2 and the box body 1.
[0066] Specifically, the limiting buckle 13 can include two elastic claws, which are arranged opposite each other. The distance between the two elastic claws is less than the diameter of the mounting shaft 2. The mounting shaft 2 is inserted into the space between the two elastic claws. Under the action of their own elastic force, the two elastic claws tightly abut against the mounting shaft 2, so that the mounting shaft 2 is stably engaged between the two elastic claws. Alternatively, the limiting buckle 13 can include an arc-shaped plate. One end of the arc-shaped plate is rotatably connected to the inner wall of the housing 1, and the other end is provided with a locking protrusion. The inner wall of the housing 1 is provided with a locking groove corresponding to the locking protrusion. When the locking protrusion of the arc-shaped plate is engaged with the locking groove, the arc-shaped plate and the inner wall of the housing 1 together form a locking space. The mounting shaft 2 passes through the locking space, so that the limiting buckle 13 is engaged with the mounting shaft 2.
[0067] The aforementioned multiple limiting buckles 13 are spaced apart along the length of the housing 1, and multiple limiting buckles 13 can be arranged at equal intervals. The connection between the limiting buckle 13 and the mounting shaft 2 can be selected to prevent the connector 31 from moving, so that the connector 31 is limited to slide between two adjacent limiting buckles 13.
[0068] In practice, multiple limiting buckles 13 can be used as inserts and integrally injection molded with the inner panel 122 of the housing 1.
[0069] Reference Figure 1 , Figure 2 and Figure 3 As shown, in some embodiments, the connector 31 is limited between two adjacent limiting buckles 13, and the mounting shaft 2 is detachably connected to the limiting buckles 13 so as to adjust the position of the connector 31 on the mounting shaft 2 by disassembling the mounting shaft 2.
[0070] With this configuration, the limiting buckle 13 restricts the sliding range of the connector 31, preventing the object hanging on the hook 32 from moving the hook 32 in a large range due to the vehicle turning; the limiting buckle 13 is detachably connected to the mounting shaft 2, which facilitates the operation of moving the connector 31 from one movable shaft segment to another.
[0071] Specifically, when the connector 31 is connected to the mounting shaft 2 via the annular structure, the connection between the limiting buckle 13 and the mounting shaft 2 will hinder the movement of the connector 31, thereby positioning the connector 31 between two adjacent limiting buckles 13. The shaft segment of the mounting shaft 2 between two adjacent limiting buckles 13 is a movable shaft segment, and multiple movable shaft segments are formed on the mounting shaft 2 arranged axially along the mounting shaft 2. The connector 31 can be installed on any of these movable shaft segments.
[0072] The limiting buckle 13 can be selected as a buckle structure with two elastic arms. The mounting shaft 2 is inserted between the two elastic arms so that the mounting shaft 2 is engaged with the limiting buckle 13. When disassembling, the mounting shaft 2 is driven to move away from the limiting buckle 13 so that the two elastic arms move away from each other so that the mounting shaft 2 is disengaged from the space between the two elastic arms.
[0073] The limiting buckle 13 restricts the sliding of the connector 31 on the mounting shaft 2, so that the connector 31 is limited to one movable shaft segment. When it is necessary to move the connector 31 to another movable shaft segment, the mounting shaft 2 needs to be disengaged from the multiple limiting buckles 13 first, then the position of the connector 31 on the mounting shaft 2 is adjusted, and then the mounting shaft 2 is engaged with the multiple limiting buckles 13 so that the connector 31 can be adjusted to other movable shaft segments.
[0074] Reference Figures 1 to 4As shown, in some embodiments, there are multiple hook structures 3, and the multiple hook structures 3 are spaced apart along the axial direction of the mounting shaft 2.
[0075] With this configuration, multiple hook structures 3 can jointly hang objects and share the load of a single hook structure 3, while each hook structure 3 can also hang objects independently; multiple hook structures 3 can flexibly meet the user's needs for hanging different numbers and sizes of objects.
[0076] Specifically, two hook structures 3 can be selected, and the connecting parts 31 of both hook structures 3 are movably connected to the mounting shaft 2. The two hook structures 3 can move closer to or further away from each other on the mounting shaft 2. Alternatively, other numbers of hook structures 3 can be set on the mounting shaft 2, and multiple hook structures 3 can slide and rotate on the mounting shaft 2, allowing multiple hook structures 3 to move closer to or further away from each other on the mounting shaft 2.
[0077] When the aforementioned mounting shaft 2 is connected to multiple limit buckles 13, multiple hook structures 3 can be distributed on multiple movable shaft segments. One hook structure can be provided on one movable shaft segment, or multiple hook structures 3 can be provided on one movable shaft end. When the number of movable shaft segments is greater than the number of hook structures 3, hook structures 3 can be provided on some of the movable shaft segments.
[0078] Reference Figure 2 and Figure 3 As shown, in some embodiments, a mounting groove 14 is recessed on the inner wall surface of the housing 1, and the mounting shaft 2 is installed in the mounting groove 14.
[0079] With this configuration, the mounting slot 14 avoids the mounting shaft 2 occupying the internal space of the housing 1; the mounting shaft 2 is housed in the mounting slot 14, which can prevent the user from colliding with the mounting shaft 2 when taking objects out of the housing 1, thus protecting the mounting shaft 2 with the mounting slot 14.
[0080] Specifically, the mounting groove 14 extends along the width of the housing 1, and the opening of the mounting groove 14 is exposed on the inner wall of the housing 1. The mounting shaft 2 is placed inside the mounting groove 14 so that the mounting groove 14 has a protective effect on the mounting shaft 2. The connector 31 is first movably connected to the mounting shaft 2, and then the mounting shaft 2 is placed inside the mounting groove 14. The connector 31 is connected to the hook 32 on the outside of the mounting groove 14 through the opening of the mounting groove 14.
[0081] When multiple limiting buckles 13 are provided on the inner wall surface of the aforementioned housing 1, multiple limiting buckles 13 can be selected and fixed in the mounting groove 14, so that the connector 31 can be engaged with multiple limiting buckles 13 at the same time it is placed in the mounting groove 14. Alternatively, the mounting shaft 2 can be placed in the mounting groove 14 and then connected to the inner wall of the mounting groove 14 by bolts.
[0082] The mounting shaft 2 is set inside the mounting groove 14. When the hook body 32 is in the hanging position and an item is hung, the hook body 32 applies an upward pulling force to the mounting shaft 2 through the connector 31. Under the action of the pulling force of the connector 31, the mounting shaft 2 moves upward and abuts against the inner wall of the top side of the mounting groove 14, so that the inner wall of the top side of the mounting groove 14 shares the force on the mounting shaft 2, so that the mounting shaft 2 can withstand a greater force and increase the weight of the object hung by the hook structure 3.
[0083] Reference Figure 2 and Figure 3 As shown, in some embodiments, the hook body 32 is provided with a first magnetic attraction part 41, and the box body 1 is provided with a second magnetic attraction part 42. When the hook body 32 is in the storage position, the first magnetic attraction part 41 and the second magnetic attraction part 42 are magnetically connected.
[0084] With this configuration, the first magnetic part 41 and the second magnetic part 42 are magnetically connected, which can keep the hook 32 stable in the storage position and prevent the hook 32 from colliding with the box 1 and producing abnormal noise when the vehicle is moving.
[0085] Specifically, the first magnetic attraction part 41 can be a magnet, and the second magnetic attraction part 42 can be a magnet disposed on the inner wall surface of the housing 1, that is, the second magnetic attraction part 42 is disposed on the panel 12; when the hook 32 is in the storage position, it is attached to the inner wall surface of the housing 1, that is, attached to the inner wall surface of the panel 12, at which time the magnet on the hook 32 is magnetically connected to the magnet on the housing 1. Alternatively, the first magnetic attraction part 41 can be a magnet, and the second magnetic attraction part 42 can be a metal plate disposed on the inner wall surface of the housing 1, when the hook 32 is in the storage position, the hook 32 is attached to the metal plate, so that the magnet on the hook 32 is magnetically connected to the metal plate.
[0086] Alternatively, the hook body 32 can be equipped with a metal sheet as the first magnetic attraction part 41, or the hook body 32 can be a metal hook, making the entire hook body 32 the first magnetic attraction part 41; the second magnetic attraction part 42 is a magnet set on the inner wall surface of the box body 1. When the hook body 32 is in the storage position, the hook body 32 is attached to the inner wall surface of the box body 1, so that the magnet on the inner wall surface of the box body 1 is magnetically connected to the hook body 32.
[0087] When the aforementioned box 1 includes a hopper 11 and a panel 12, the panel 12 can be selected to include an outer panel 121 and an inner panel 122. The second magnetic suction part 42 and the inner panel 122 are integrally manufactured by injection molding, so that the second magnetic suction part 42 is embedded in the inner panel 122.
[0088] When the hook 32 is close to the inner wall of the box 1, the first magnetic part 41 and the second magnetic part 42 can be magnetically connected. Applying a force to the hook 32 can separate the first magnetic part 41 and the second magnetic part 42 from each other.
[0089] The second magnetic attraction part 42 described above can extend along the width direction of the housing 1, so that the hooks 32 of the hook structures 3 at different positions on the mounting shaft 2 can be connected to the second magnetic attraction part 42 in the storage position. Alternatively, the second magnetic attraction part 42 can include multiple sub-magnets, which are spaced apart along the width direction of the housing 1, so that the hooks 32 of the hook structures 3 at different positions on the mounting shaft 2 can be magnetically connected to the corresponding sub-magnets.
[0090] In some embodiments, the housing 1 is provided with a baffle, and when the hook 32 is in the storage position, the hook 32 is hooked and connected to the baffle.
[0091] With this configuration, the hook 32 can maintain a stable position after hooking with the baffle, preventing the hook 32 from swinging inside the box 1 and causing abnormal noise due to vibrations from vehicle movement.
[0092] Specifically, a baffle can be installed on the inner wall of the box 1, extending along the width of the box 1. When the hook 32 is in the storage position, the opening of the hook 32 faces the inner wall of the box 1 so that the hook 32 can hook onto the edge of the baffle. Alternatively, the baffle can be arranged in a stepped structure on the inner wall of the box 1, and the hook 32 hooks onto the step of the stepped structure.
[0093] In some embodiments, the housing 1 is provided with a positioning groove, and when the hook 32 is in the storage position, the hook 32 is confined within the positioning groove.
[0094] With this configuration, the hook 32 is placed in the positioning groove when in the storage position, which restricts the movement of the hook 32 and prevents the hook 32 from swinging inside the housing 1 and causing abnormal noise due to the vibration of the vehicle.
[0095] Specifically, the positioning groove can be adapted to the shape of the hook 32. When the hook 32 is in the storage position, it is inserted into the positioning groove, and the inner wall of the positioning groove abuts against the hook 32, so that the positioning groove restricts the hook 32 from moving in a direction parallel to the inner wall surface of the box 1. When it is necessary to move the hook 32, the user pulls the hook 32 by hand to move it, so that the hook 32 is disengaged from the positioning groove.
[0096] Reference Figure 2 and Figure 3 As shown, in some embodiments, one end of the hook 32 is connected to the connector 31, and the other end is bent to form a hook portion. A buffer layer 33 is provided on the surface of the hook portion. When the hook 32 is located inside the box 1, the buffer layer 33 contacts the inner wall surface of the box 1.
[0097] With this configuration, the buffer layer 33 can at least absorb the vibration of the housing 1, preventing the hook 32 from continuously colliding with the housing 1 and causing abnormal noise when the housing 1 vibrates; the buffer layer 33 can also prevent the hook 32 from scratching the inner wall of the housing 1.
[0098] Specifically, the hook 32 is bent to form a hook section, which may include a base, a connecting plate, and a hook plate. One end of the base is connected to the connector 31, the connecting plate is connected to the other end of the base, and the hook plate is connected to the end of the connecting plate away from the base. The hook plate extends toward the connector 31 so that the hook plate, the connecting plate, and the base plate form a hook structure. The connecting plate and the hook plate together with the base form a hook space. The buffer layer 33 may be selected to cover the side of the connecting plate and the hook plate facing away from the structural space. When the hook 32 is in the storage position, the buffer layer 33 is between the inner wall of the box 1 and the hook 32. The buffer layer 33 can absorb the vibration of the box 1 so that the buffer layer 33 plays a buffering role.
[0099] Alternatively, the entire outer surface of the hook 32 can be covered with a buffer layer 33, so that when the hook 32 is carrying an object, the object is connected to the buffer layer 33, and the buffer layer 33 can also absorb the vibration of the hook 32, reducing the vibration experienced by the object.
[0100] The buffer layer 33 can be made of felt or rubber. The buffer layer 33 can be attached to the surface of the hook part by adhesive bonding.
[0101] A second aspect of this application provides a vehicle including a storage compartment as described above.
[0102] The vehicle interior can be equipped with either an instrument panel or a center console, with the housing 1 rotatably connected to either the instrument panel or the center console.
[0103] By using the storage box as described above in the vehicle, when it is necessary to hang an object, the hook 32 is rotated around the mounting shaft 2 so that the hook 32 hangs the object at the hanging position. Furthermore, by pushing the connector 31, the position of the hook 32 on the box 1 along the width direction of the box 1 can be adjusted, so that the hook structure 3 can flexibly adapt to the hanging needs of different positions.
[0104] In the specific use of the glove box and vehicle provided in this application embodiment, the box body 1 is installed inside the vehicle; when no items need to be hung, the hook body 32 is in the storage position and located inside the box body 1, with the first magnetic suction part 41 and the second magnetic suction part 42 magnetically connected; when items need to be hung, the box body 1 is opened, and the user pulls the hook body 32 by hand, the first magnetic suction part 41 and the second magnetic suction part 42 disengage from the magnetic connection, the hook body 32 rotates around the mounting shaft 2 toward the outside of the box body 1, and the flexible belt rotates around the mounting shaft 2. When the hook body 32 moves to the hanging position on the outside of the box body 1, the flexible belt overlaps the top edge of the box body 1; when the items are hung on the hook body 32 on the outside of the box body 1, the weight of the hook body 32 is transmitted to the mounting shaft 2 through the flexible belt. When it is necessary to adjust the position of the hook 32 in the width direction of the box 1, push the connector 31 by hand. The flexible belt and the hook 32 slide together along the mounting shaft 2 to change the position of the hook 32 in the width direction of the box 1, so that the hook structure 3 can adapt to different user mounting needs.
[0105] It should be noted that, in this document, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.
[0106] The above description is merely a specific embodiment of this application, enabling those skilled in the art to understand or implement this application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of this application. Therefore, this application is not to be limited to the embodiments described herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims
1. A storage box, characterized in that, include: The box (1) has a storage cavity inside; The mounting shaft (2) is mounted on the inner wall of the housing (1) and extends along the width direction of the housing (1); The hook structure (3) includes a connector (31) and a hook body (32). One end of the connector (31) is movably connected to the mounting shaft (2), and the other end is connected to the hook body (32). The connector (31) can rotate around the mounting shaft (2) so that the hook body (32) can switch between a storage position hidden inside the box (1) and a hanging position exposed outside the box (1). The connector (31) can slide along the mounting shaft (2) to adjust the position of the hook structure (3) on the box (1).
2. The storage box according to claim 1, characterized in that, The connector (31) is a flexible belt, and a first ring (311) is formed at one end of the flexible belt. The first ring (311) is movably sleeved on the mounting shaft (2).
3. The storage box according to claim 2, characterized in that, The hook body (32) is provided with an assembly shaft (321), and a second ring belt (312) is formed at the end of the flexible belt away from the mounting shaft (2), and the second ring belt (312) is sleeved on the assembly shaft (321).
4. The storage box according to claim 1, characterized in that, The inner wall of the box (1) is provided with a plurality of limiting buckles (13) spaced apart along the width direction of the box (1), and the mounting shaft (2) is engaged with the plurality of limiting buckles (13).
5. The storage box according to claim 4, characterized in that, The connector (31) is positioned between two adjacent limiting buckles (13), and the mounting shaft (2) is detachably connected to the limiting buckles (13) so that the position of the connector (31) on the mounting shaft (2) can be adjusted by removing the mounting shaft (2).
6. The storage box according to claim 1, characterized in that, The number of hook structures (3) is multiple, and the multiple hook structures (3) are spaced apart along the axial direction of the mounting shaft (2).
7. The storage box according to claim 1, characterized in that, The inner wall of the housing (1) has a recessed mounting groove (14), and the mounting shaft (2) is installed in the mounting groove (14).
8. The storage box according to claim 1, characterized in that, The hook (32) is provided with a first magnetic part (41), and the box (1) is provided with a second magnetic part (42). When the hook (32) is in the storage position, the first magnetic part (41) and the second magnetic part (42) are magnetically connected. And / or, the box (1) is provided with a baffle, and when the hook (32) is in the storage position, the hook (32) is hooked and connected to the baffle; And / or, the housing (1) is provided with a positioning groove, and when the hook (32) is in the storage position, the hook (32) is confined within the positioning groove.
9. The storage box according to claim 1, characterized in that, One end of the hook (32) is connected to the connector (31), and the other end is bent to form a hook. A buffer layer (33) is provided on the surface of the hook. When the hook (32) is located inside the box (1), the buffer layer (33) contacts the inner wall of the box (1).
10. A vehicle, characterized in that, Includes the storage box as described in any one of claims 1 to 9.