A splicing type storage board

The sawtooth-shaped sides and connectors of the interlocking storage panels solve the problem of inconvenient installation caused by the fixed size of pegboards, enabling flexible combination and stable installation of storage panels, suitable for various storage spaces.

CN224330768UActive Publication Date: 2026-06-09NINGBO HAISHUDONGQIAO RUIZHI PLASTIC HARDWARE FACTORY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NINGBO HAISHUDONGQIAO RUIZHI PLASTIC HARDWARE FACTORY
Filing Date
2025-07-03
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing pegboards have fixed dimensions and cannot adapt to different sizes of usable spaces, making them particularly inconvenient to install in fixed storage spaces such as storage cabinets.

Method used

Design a modular storage board that achieves precise alignment of adjacent storage boards through serrated sides and connectors. Combined with the cooperation of connecting protrusions and positioning grooves, it ensures that the mounting holes are flush, and the design of hooks and locking blocks improves stability.

Benefits of technology

It enables flexible combination of storage boards to adapt to different space sizes, ensures flush mounting holes, and improves the applicability and stability of the storage boards, making it particularly suitable for fixed storage spaces such as storage cabinets.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a spliced storage board, including two or two or more storage board bodies, be provided with a plurality of installation hole for installing the hook on the storage board body, wherein two adjacent storage board bodies are connected through the connecting piece, wherein the opposite side of adjacent storage board body is provided with the sawtooth shape side edge of mutual cooperation, wherein the sawtooth part on one sawtooth shape side edge and the tooth groove on the corresponding other sawtooth shape side edge one -to -one cooperation, through the sawtooth part and the tooth groove cooperation, can automatic accurate pair dress when the installation of two storage board bodies, the sawtooth shape side edge is outwardly convex and is provided with a plurality of pad piece at intervals, when the sawtooth shape side edge of two adjacent storage board bodies is mutually close and cooperates, the bottom surface edge of the storage board body will be placed on the pad piece of another storage board body, guarantee the flatness of the surface of spliced storage board, and the user carries out the combination to the storage board body according to the demand, improves the applicability of storage board, avoids the restriction of installation space.
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Description

Technical Field

[0001] This utility model relates to the field of storage board technology, and more specifically, to a splicing storage board. Background Technology

[0002] A pegboard, also known as a storage board, is a board-shaped device with holes for hanging items. Combined with hooks, it is a new type of storage device. Pegboards are widely used to hang items on walls and are also often installed in storage cabinets and other storage spaces for hanging items.

[0003] However, existing pegboards are generally a single piece of metal with a fixed size, and their installation and use are often limited by the size of the space. In particular, when used in fixed storage spaces such as storage cabinets, there is a problem that the pegboard size may not be suitable and cannot be installed. Utility Model Content

[0004] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a unidirectional damper that is simple in structure, reliable, and easy to assemble.

[0005] To achieve the above objectives, the present invention provides the following technical solution:

[0006] A modular storage board includes two or more storage board bodies, each storage board body having a plurality of mounting holes for mounting hooks, wherein adjacent storage board bodies are connected by connectors.

[0007] The adjacent storage plate bodies are provided with serrated sides that cooperate with each other, and the serrations on one of the serrated sides cooperate with the grooves on the corresponding other serrated side.

[0008] The serrated side protrudes outward and is provided with several pads at intervals. When the serrated side of two adjacent storage board bodies fit together tightly, the bottom edge of the storage board body will be placed on the pad of the other storage board body.

[0009] The present invention further includes: a connecting protrusion on the storage plate body, and connecting holes at both ends of the connector that mate with the connecting protrusion;

[0010] The connecting holes at both ends of the connector are respectively engaged with the connecting protrusions on the two adjacent storage board bodies, connecting the two adjacent storage board bodies into one.

[0011] The present invention further comprises: a positioning groove is provided inwardly recessed on the outer edge of the connecting protrusion, and a positioning protrusion adapted to the positioning groove is provided inwardly protruding on the inner edge of the connecting hole; the positioning protrusion and the positioning groove cooperate to position the connecting part.

[0012] The present invention further comprises: two positioning grooves, wherein the two positioning grooves are spaced apart on the connecting protrusion;

[0013] The number of positioning protrusions is two, and the two positioning protrusions are set one-to-one with the two positioning slots.

[0014] The present invention further comprises three storage panels, including a middle panel, a left panel, and a right panel, wherein a connector connects the left panel and the right panel to the left and right sides of the middle panel, respectively.

[0015] The present invention is further provided with a left extension plate and a right extension plate, wherein the right side of the left extension plate is provided with a first hook and the left side is provided with a first slot;

[0016] The right extension plate is provided with a second hook on the left side and a second slot on the right side;

[0017] The left side of the left side plate is provided with a left slot that cooperates with the first hook, and the right side plate is provided with a right slot that cooperates with the second hook.

[0018] The first hook engages with the left slot to connect the left extension plate to the left side plate, and the second hook engages with the right slot to connect the right extension plate to the right side plate.

[0019] The present invention further includes the following features: the hook is rotatably mounted on the mounting hole, and a locking block adapted to the mounting hole is provided at the end of the hook;

[0020] After the locking block passes through the mounting hole, the hook is rotated so that the locking block abuts against the back of the storage plate body, locking the hook onto the mounting hole.

[0021] The present invention further includes: positioning holes on both sides of the mounting hole, and positioning protrusions on the locking block that are adapted to the positioning holes. The positioning protrusions cooperate with the positioning holes to lock the hook onto the storage plate body.

[0022] The present invention further includes: limiting protrusions on both sides of the mounting hole, the limiting protrusions preventing the locking block from rotating.

[0023] The present invention is further provided that the mounting hole is in the shape of a racetrack.

[0024] The beneficial effects of this utility model are as follows: The splicing storage board includes two or more storage board bodies, and two adjacent storage board bodies are connected by connectors; wherein the opposite sides of the adjacent storage board bodies are provided with mutually cooperating serrated sides, and the serrations on one of the serrated sides cooperate with the grooves on the corresponding other serrated side.

[0025] When assembling the storage board bodies, the serrated parts on the serrated side of one storage board body are matched one-to-one with the corresponding grooves on the serrated side of another storage board body, and the adjacent storage board bodies are connected by connectors. The serrated parts and grooves allow the two storage board bodies to automatically center and precisely align during installation, ensuring a precise fit between the two storage board bodies and preventing vertical unevenness. This ensures that the mounting holes for hooks on the assembled storage board are flush. Furthermore, several spacers are spaced outwards on the serrated side. When the serrated sides of two adjacent storage board bodies are tightly fitted together, the bottom edge of the storage board body rests on the spacers of the other storage board body, ensuring the flatness of the assembled storage board surface.

[0026] Users can combine the selected storage boards according to their actual needs, avoiding the limitation of existing storage boards on the size of the installation space and improving the applicability of the storage boards; it is especially suitable for installation and use in fixed storage spaces such as storage cabinets. Attached Figure Description

[0027] Figure 1 This is a schematic diagram of the structure of a splicing storage board according to the present invention. Figure 1 ;

[0028] Figure 2 This is a schematic diagram of the structure of a splicing storage board according to the present invention. Figure 2 ;

[0029] Figure 3 This is a schematic diagram of the structure of the middle plate of a splicing storage board according to the present invention;

[0030] Figure 4 This is a structural diagram of the left and right sides of a splicing storage panel according to the present invention.

[0031] Figure 5 This is a schematic diagram of the left and right extension plates of a splicing storage panel according to the present invention. Figure 1 ;

[0032] Figure 6 This is a schematic diagram of the left and right extension plates of a splicing storage panel according to the present invention. Figure 2 ;

[0033] Figure 7 This is a diagram showing the fit between the middle plate, left side plate, and right side plate of a splicing storage board according to this utility model.

[0034] Figure 8 This is a schematic diagram of the hook structure for a splicing storage board according to the present invention. Figure 1 ;

[0035] Figure 9 This is a schematic diagram of the hook structure for a splicing storage board according to the present invention. Figure 2 ;

[0036] Figure 10 This is a structural schematic diagram of the connector of a splicing storage board according to the present invention;

[0037] Explanation of reference numerals in the attached drawings: 1. Storage plate body; 11. Mounting hole; 111. Positioning hole; 112. Limiting protrusion; 12. Connecting protrusion; 121. Positioning groove; 13. Middle plate; 14. Left side plate; 141. Left slot; 15. Right side plate; 151. Right slot; 16. Left extension plate; 161. First hook; 162. First slot; 17. Right extension plate; 171. Second hook; 172. Second slot; 18. Serrated side; 181. Serrated part; 182. Groove; 183. Pad; 2. Connector; 21. Connecting hole; 211. Positioning protrusion; 3. Hook; 31. Locking block; 311. Positioning protrusion. Detailed Implementation

[0038] See attached document Figures 1 to 10 This invention provides a more detailed description of a modular storage board.

[0039] A modular storage board includes two or more storage board bodies 1. Each storage board body 1 has a plurality of mounting holes 11 for mounting hooks 3, and the mounting holes 11 are racetrack-shaped. Adjacent storage board bodies 1 are connected by connectors 2. The opposite sides of adjacent storage board bodies 1 are provided with mutually cooperating serrated sides 18. The serrations 181 on one of the serrated sides 18 are matched with the grooves 182 on the corresponding other serrated side 18, and the grooves 182 are adapted to the corresponding serrations 181.

[0040] When assembling the storage board bodies 1, the serrated portions 181 on the serrated side 18 of one storage board body 1 are matched one-to-one with the corresponding grooves 182 on the serrated side 18 of another storage board body 1, and the adjacent storage board bodies 1 are connected by the connector 2. Through the matching of the serrated portions 181 and the grooves 182, the two storage board bodies 1 can be automatically centered and precisely aligned during installation. This ensures that the two storage board bodies 1 can achieve precise matching and avoid vertical unevenness, so that the mounting holes 11 for mounting hooks 3 on the spliced ​​storage board can be set flush with each other. In addition, the serrated side 18 is provided with several spacers 183 at intervals. When the serrated side 18 of two adjacent storage board bodies 1 are tightly fitted together, the bottom edge of the storage board body 1 will be placed on the spacers 183 of the other storage board body 1, ensuring the flatness of the surface of the spliced ​​storage board.

[0041] Users can combine the selected storage board body 1 according to their actual needs, avoiding the problem of existing storage boards being limited by the size of the installation space, and improving the applicability of the storage board; it is especially suitable for installation and use in fixed storage spaces such as storage cabinets.

[0042] The storage board body 1 is provided with a connecting protrusion 12, and the two ends of the connector 2 are provided with connecting holes 21 that cooperate with the connecting protrusion 12. After two adjacent storage board bodies 1 are assembled, the connecting holes 21 at both ends of the connector 2 are respectively snapped onto the corresponding connecting protrusions 12 of the two adjacent storage board bodies 1, so that the two adjacent storage board bodies 1 can be firmly connected into one. Among them, three connecting protrusions 12 are provided on one side of the storage board body 1, so that there are three connectors 2 on each side of the storage board body 1 to connect the storage board body 1, so that the connection can be more secure.

[0043] The outer edge of the connecting protrusion 12 is recessed inward and provided with a positioning groove 121. The inner edge of the connecting hole 21 is protruded inward and provided with a positioning protrusion 211 that matches the positioning groove 121. The positioning protrusion 211 and the positioning groove 121 cooperate to position the connector 2, thereby preventing the connector 2 from rotating relative to the connecting protrusion 12 and improving the structural stability of the product connection. There are two positioning grooves 121, which are spaced apart on the connecting protrusion 12. There are also two positioning protrusions 211, which correspond one-to-one with the two positioning grooves 121.

[0044] The storage board body 1 consists of three parts: a middle board 13, a left side board 14, and a right side board 15. Connectors 2 connect the left side board 14 and the right side board 15 to the left and right sides of the middle board 13, respectively. To extend the storage board when needed, it also includes a left extension board 16 and a right extension board 17. The left extension board 16 has a first hook 161 on its right side and a first slot 162 on its left side. The right extension board 17 has a second hook 171 on its left side and a second slot 172 on its right side. The left side board 14 has a left slot 141 that engages with the first hook 161, and the right side board 15 has a right slot 151 that engages with the second hook 171. The first hook 161 engages with the left slot 141 to connect the left extension board 16 to the left side board 14, and the second hook 171 engages with the right slot 151 to connect the right extension board 17 to the right side board 15.

[0045] Furthermore, the left extension plate 16 and the right extension plate 17 can be continuously installed on the left extension plate 16 and the right extension plate 17, allowing the storage plate to be extended indefinitely.

[0046] The hook 3 is rotatably mounted on the mounting hole 11, and a locking block 31 adapted to the mounting hole 11 is provided on the end of the hook 3. After the locking block 31 passes through the mounting hole 11, the hook 3 is rotated so that the locking block 31 abuts against the back of the storage plate body 1, thereby locking the hook 3 onto the mounting hole 11. This makes the installation operation of the hook 3 on the mounting hole 11 simple and convenient.

[0047] The mounting hole 11 is provided with positioning holes 111 on both sides, and the locking block 31 is provided with positioning protrusions 311 that are adapted to the positioning holes 111. The positioning protrusions 311 cooperate with the positioning holes 111 to lock the hook 3 on the storage plate body 1; to prevent the hook 3 from rotating on its own and detaching from the mounting hole 11, thereby improving the structural stability of the product.

[0048] The mounting hole 11 has limit protrusions 112 on both sides, which prevent the locking block 31 from rotating.

[0049] The above description is merely a preferred embodiment of this utility model. The protection scope of this utility model is not limited to the above embodiments. All technical solutions falling within the scope of this utility model's concept are protected. It should be noted that for those skilled in the art, any improvements and modifications made without departing from the principle of this utility model should also be considered within the protection scope of this utility model.

Claims

1. A modular storage board, characterized in that: It includes two or more storage board bodies, each storage board body having a plurality of mounting holes for mounting hooks, wherein adjacent storage board bodies are connected by connectors. The adjacent storage plate bodies are provided with serrated sides that cooperate with each other, and the serrations on one of the serrated sides cooperate with the grooves on the corresponding other serrated side. The serrated side protrudes outward and is provided with several pads at intervals. When the serrated side of two adjacent storage board bodies fit together tightly, the bottom edge of the storage board body will be placed on the pad of the other storage board body.

2. The modular storage board according to claim 1, characterized in that: The storage board body is provided with a connecting protrusion, and the two ends of the connector are provided with connecting holes that cooperate with the connecting protrusion. The connecting holes at both ends of the connector are respectively engaged with the connecting protrusions on the two adjacent storage board bodies, connecting the two adjacent storage board bodies into one.

3. The modular storage board according to claim 2, characterized in that: The outer edge of the connecting protrusion is recessed inward and a positioning groove is provided. The inner edge of the connecting hole is protruded inward and a positioning protrusion is provided that matches the positioning groove. The positioning protrusion and the positioning groove cooperate to position the connector.

4. The modular storage board according to claim 3, characterized in that: The number of positioning grooves is two, and the two positioning grooves are spaced apart on the connecting protrusion; The number of positioning protrusions is two, and the two positioning protrusions are set one-to-one with the two positioning slots.

5. A modular storage panel according to claim 1, 2, 3, or 4, characterized in that: The storage panel consists of three parts: a middle panel, a left panel, and a right panel. Connectors connect the left and right panels to the left and right sides of the middle panel, respectively.

6. A modular storage panel according to claim 5, characterized in that: It also includes a left extension plate and a right extension plate, wherein the right side of the left extension plate is provided with a first hook and the left side is provided with a first slot; The right extension plate is provided with a second hook on the left side and a second slot on the right side; The left side of the left side plate is provided with a left slot that cooperates with the first hook, and the right side plate is provided with a right slot that cooperates with the second hook. The first hook engages with the left slot to connect the left extension plate to the left side plate, and the second hook engages with the right slot to connect the right extension plate to the right side plate.

7. A modular storage panel according to claim 1, 2, or 3, characterized in that: The hook is rotatably mounted on the mounting hole, and a locking block adapted to the mounting hole is provided at the end of the hook; After the locking block passes through the mounting hole, the hook is rotated so that the locking block abuts against the back of the storage plate body, locking the hook onto the mounting hole.

8. The interlocking storage board according to claim 7, characterized in that: Positioning holes are provided on both sides of the mounting hole, and positioning protrusions adapted to the positioning holes are provided on the locking block. The positioning protrusions cooperate with the positioning holes to lock the hook onto the storage plate body.

9. A modular storage board according to claim 8, characterized in that: Limiting protrusions are provided on both sides of the mounting hole, and the limiting protrusions prevent the locking block from rotating.

10. A modular storage panel according to claim 7, characterized in that: The mounting holes are racetrack-shaped.