Unit-type storage mechanism and storage device with positioning structure

The unitized storage mechanism with magnetic connections and locking assemblies addresses the inflexibility of conventional storage boxes by allowing interchangeable storage blocks, enhancing versatility and stability for diverse storage needs.

JP3256135UActive Publication Date: 2026-06-08肖宇しん

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Utility models
Current Assignee / Owner
肖宇しん
Filing Date
2026-03-30
Publication Date
2026-06-08

AI Technical Summary

Technical Problem

Conventional storage boxes have fixed openings that restrict the types of tools or equipment that can be stored, lacking flexibility and adaptability.

Method used

A unitized storage mechanism with a positioning structure featuring multiple positioning blocks and magnetic connections, allowing detachable storage blocks with suspension or storage portions, and a locking and fixing assembly for versatile storage configurations.

Benefits of technology

Enables flexible storage of various items by exchanging storage blocks, supporting vertical and horizontal storage, and providing stable, adaptable, and practical storage solutions.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure 0003256135000001_ABST
    Figure 0003256135000001_ABST
Patent Text Reader

Abstract

In the field of storage devices, the present invention provides a unit-type storage mechanism and storage device equipped with a positioning structure. [Solution] The present invention provides a storage unit 200 comprising a mounting plate having a plurality of positioning blocks 110 evenly arranged on its surface and a positioning groove 120 drilled on the side opposite to the mounting plate 100 of the positioning blocks, and at least one storage block 210, the storage block having a suspension part 220 for suspending an article 300 to be stored and / or a storage part 230 for accommodating the article on its surface, and at least one positioning projection that fits into the positioning groove on the side opposite to the suspension part and / or storage part of the storage block, and the positioning projection and the positioning groove being detachably connected via a magnetic member. This invention makes it possible to store different articles by exchanging different storage blocks, and has a variety of storage methods and high practicality.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] The present invention relates to the technical field of storage devices, and particularly to a unitized storage mechanism and a storage device having a positioning structure.

Background Art

[0002] As the types of articles handled in daily life and business increase, it is necessary to store articles using a storage device in order to classify and organize the articles and make them easier to search for and use. Conventionally, there are various forms of storage devices. For example, storage boxes, storage cabinets, storage drawers, and storage racks or frames fixed to a desk or wall surface are known as storage containers.

[0003] In currently commercially available storage boxes, when storing tools or equipment, by providing an opening corresponding to the outer shape of the tool or equipment to be stored inside the storage box, the tool or equipment can be accurately stored, and a configuration that facilitates searching and use is common. However, since the opening in the storage box has a fixed shape, when it is necessary to replace individual tools or equipment, the tool or equipment cannot be stored, and there is a problem that the storage method is single and lacks flexibility.

Summary of the Invention

Problems to be Solved by the Invention

[0004] An object of the present invention is to provide a unitized storage mechanism and a storage device having a positioning structure in view of the problem that in the prior art, when a storage box stores tools or equipment, the opening provided in the storage box has a fixed shape, so that only tools or equipment that fit the opening can be stored, and the storage method is single and lacks flexibility.

Means for Solving the Problems

[0005] [[ID=�2]] As a technical means adopted by the unitized storage mechanism having a positioning structure provided by the present invention, it is a unitized storage mechanism having a positioning structure for storing articles in the vertical direction, Multiple positioning blocks are evenly arranged on the surface, and a mounting plate has positioning grooves drilled on the side opposite to the mounting plate of the positioning blocks, A storage unit comprising at least one storage block, wherein the surface of the storage block is provided with a suspension portion for suspending an article to be stored and / or a storage portion for accommodating an article, and on the side of the storage block opposite to the suspension portion and / or the storage portion is provided with at least one positioning projection that fits into the positioning groove, wherein the positioning projection and the positioning groove are detachably connected via a magnetic member, It is equipped with.

[0006] In an optional configuration, the magnetic member comprises two sets of magnets provided on the positioning block and the positioning projection, the two sets of magnets being arranged facing each other, with one set of magnets evenly distributed on the peripheral edge side of the positioning groove and the other set of magnets evenly distributed on the peripheral edge side of the positioning projection.

[0007] In an optional configuration, the magnet is formed in a cylindrical shape, and magnetic grooves for housing the magnet are drilled on the opposing sides of the positioning block and the positioning projection, respectively.

[0008] In an optional configuration, the positioning groove is located in the central part of the positioning block, and the cross-section of the positioning groove gradually narrows inward from the groove opening.

[0009] In an optional configuration, the mounting plate is provided with a support column, the support column creates a gap between the positioning block and the mounting plate, and the storage block is provided with a bent portion that engages with the gap.

[0010] In an optional configuration, the storage mechanism further includes a locking assembly that enables the connection of multiple mounting plates by locking four adjacent mounting plates together.

[0011] As an optional configuration, the lock assembly is A mounting base fixed between four adjacent mounting plates, A contact plate comprising four plates, wherein the mounting base is provided with a sliding groove that slides with the contact plate, thereby allowing the four contact plates to move toward or away from each other relative to the mounting base, and each of the four contact plates contacts the positioning block on the four mounting plates, The four contact plates are driven to move toward or away from each other, thereby pressing each of the four contact plates against the side walls of the four positioning blocks, and are screw-connected to the center of the mounting base via a screw shaft, and a helical plate is fixed below the rotating block, and the contact plates are provided with at least one slider that slides into a slit in the helical plate, Equipped with, By rotating the aforementioned rotating block, the helical plate rotates, and the slider slides within the slit of the helical plate, causing the four contact plates to move toward each other and press against the four positioning blocks, thereby achieving the joining of multiple mounting plates.

[0012] As an optional configuration, the storage mechanism further comprises a fixing assembly for securing the storage block so that the storage block can stably store the items to be stored.

[0013] As an optional configuration, the fixed assembly is A rotating column is provided vertically and rotatably on the aforementioned mounting plate, A rotating groove is drilled into the side wall of the aforementioned rotating column, into which a positioning block can enter, thereby restricting the position of the positioning block. A fixing hole is drilled vertically in the storage block, penetrates the storage block, through which the rotating column can be inserted, and through which the top end of the rotating column protrudes from the top surface of the storage block, A rotating head is fixed to the top of the rotating column, located on the top surface of the storage block, and used to rotate the rotating column; It is equipped with.

[0014] Furthermore, this invention also provides a storage device comprising a storage container and a unit-type storage mechanism equipped with the positioning structure described above. [Effects of the Invention]

[0015] By employing the above technical means, the advantageous effect of this invention is, This invention achieves a detachable connection between the storage block and the mounting plate by fitting a positioning projection on the storage block with a positioning groove on the mounting plate, in addition to the magnetic force of a magnetic member. In this case, articles are stored via a suspension part or storage section provided on the storage block. If it becomes necessary to store other articles, the existing storage block can be removed and another storage block suitable for the article to be stored can be attached, enabling the storage of the article. In other words, different articles can be stored by exchanging different storage blocks. This diversifies the storage method, allows articles to be stored in both vertical and horizontal directions, is highly flexible, highly practical, and has high potential for market adoption.

[0016] In order to clearly explain the embodiments of the present invention or the technical means within the prior art, the accompanying drawings that are necessary for describing the embodiments or the prior art will be briefly described below. The accompanying drawings shown below illustrate some embodiments of the present invention, and those skilled in the art can obtain other drawings based on these drawings without any special inventiveness. [Brief explanation of the drawing]

[0017] [Figure 1] This diagram shows how the articles are stored vertically in this embodiment. [Figure 2] This embodiment is a schematic diagram showing the fitting relationship between the positioning projection and the positioning block. [Figure 3] This diagram shows how the articles are stored horizontally in this embodiment. [Figure 4]In the second embodiment, it is a schematic diagram showing the fitting relationship between the positioning protrusion and the positioning block. [Figure 5] In the first and second embodiments, it is a schematic diagram showing the assembling relationship between the lock assembly and the mounting plate. [Figure 6] It is a partially enlarged view of FIG. 5. [Figure 7] It is an exploded perspective view of FIG. 6. [Figure 8] In this embodiment, it is a schematic diagram showing the fitting relationship among the fixed assembly, the mounting plate and the storage block. [Figure 9] It is an exploded perspective view of FIG. 8. [Figure 10] In this embodiment, it is a schematic diagram showing the positional relationship among the storage container, the camera and the storage unit.

Mode for Carrying Out the Invention

[0018] Hereinafter, referring to FIGS. 1 to 10 according to the embodiments of the present invention, the technical means in the embodiments of the present invention will be clearly and fully described. Note that the embodiments described below are only some embodiments of the present invention and do not cover all embodiments. Other modifications that can be implemented by those skilled in the art without special creative efforts based on the embodiments of the present invention are also included in the technical scope of the present invention.

[0019] Furthermore, the terms "center," "vertical direction," "horizontal direction," "up," "down," "front," "back," "left," "right," "top," "bottom," "inside," "outside," "back," "lateral," and "circumferential direction" used in this invention refer to directions or positional relationships based on the directions or positional relationships shown in the attached drawings. These terms are used merely to explain the invention clearly and to simplify the description. These terms do not indicate or suggest that the device or component in question takes a specific direction, or is configured and operated in a specific direction, and should not be interpreted as limiting the invention. In addition, terms such as "first," "second," etc., are used to distinguish multiple components or structures having the same or similar structure, and do not imply any special limitation on the arrangement order or connection relationship.

[0020] This embodiment relates to a unit-type storage mechanism equipped with a positioning structure, which can be applied to storage containers 600 such as storage boxes, storage cabinets, and storage drawers, as well as to storage racks and storage frames, thereby enabling the storage and organization of articles 300.

[0021] Specifically, referring to Figures 1 to 9, the unit-type storage mechanism equipped with the positioning structure according to this embodiment is used to store articles 300 in the vertical and horizontal directions, and comprises a mounting plate 100 and a storage unit 200. A plurality of positioning blocks 110 are evenly arranged on the surface of the mounting plate 100, and positioning grooves 120 are drilled on the side of each of the positioning blocks 110 opposite to the mounting plate 100. The storage unit 200 comprises at least one storage block 210, the surface of which is provided a suspension portion 220 for suspending the article 300 to be stored and / or a storage portion 230 for accommodating the article 300, and at least one positioning projection 240 that fits into the positioning groove 120 is provided on the side of the storage block 210 opposite to the suspension portion 220 and / or storage portion 230, the positioning projection 240 and the positioning groove 120 are detachably connected via a magnetic member.

[0022] In this embodiment, there are two storage blocks 210, but in other embodiments, the number of storage blocks 210 may be set to a different number. The storage blocks 210 may be configured as individual components, or they may be connected to each other to form a single unit, thereby enabling a variety of storage solutions.

[0023] When it is necessary to store the article 300, the positioning projection 240 provided on the storage block 210 is engaged with the positioning groove 120 provided on the mounting plate 100, and the storage block 210 is positioned and fixed by the action of the magnetic member. In this case, the article 300 can be stored via the suspension portion 220 and / or storage portion 230 provided on the storage block 210.

[0024] The number of positioning protrusions 240 may be set to one or more depending on the size of the storage block 210. For example, if the dimensions of the storage block 210 are large, two or four positioning protrusions 240 can be provided, and this is not particularly limited.

[0025] Referring to Figures 1, 2, 3, and 4, the magnetic member comprises two sets of magnets 130 provided on the positioning block 110 and the positioning projection 240, respectively, with the two sets of magnets 130 positioned opposite each other. One set of magnets 130 is evenly distributed on the peripheral edge side of the positioning groove 120, and the other set of magnets 130 is evenly distributed on the peripheral edge side of the positioning projection 240.

[0026] In this embodiment, the magnets 130 are formed in a cylindrical shape, and magnet grooves for housing the magnets 130 are drilled in the positioning block 110 and the positioning projection 240, respectively. Each set consists of four magnets 130, which are evenly distributed on the periphery side of the positioning groove 120. In other embodiments, the shape, number, and arrangement of the magnets 130 may be appropriately changed depending on the actual usage conditions. For example, the magnets 130 may be square, circular, rectangular, or annular in shape, and their number may also be set to other numbers. Furthermore, they may be unevenly distributed on the periphery side of the positioning groove 120, and can be adjusted according to the specific situation. This aspect is not particularly limited.

[0027] Furthermore, the positioning groove 120 is located in the center of the positioning block 110, and its cross-section gradually narrows from the groove opening inward. This makes the connection between the positioning projection 240 and the positioning groove 120 more stable, and the fit between the positioning projection 240 and the positioning groove 120 tighter.

[0028] In this embodiment, the optimal effect is obtained by configuring the positioning groove 120 as described above. However, in other embodiments, the shape and arrangement of the positioning groove 120 are not particularly limited, and it is sufficient as long as magnetic fixing can be achieved between the positioning groove 120 and the positioning block 110. In this respect, there are no particular limitations.

[0029] Furthermore, the mounting plate 100 is provided with a support column 101, which creates a gap between the positioning block 110 and the mounting plate 100, and the storage block 210 is provided with a bent portion 250 that engages with the gap. In this embodiment, a gap is formed between the mounting plate 100 and the positioning block 110 via the support column 101, but in other embodiments, other structures may be adopted as long as a similar gap can be formed, and this is not particularly limited.

[0030] By engaging the bent portion 250 into the gap formed between the positioning block 110 and the mounting plate 100, the connection between the storage block 210 and the positioning block 110 becomes stronger, improving the overall stability of the storage mechanism. As a result, it becomes possible to store the items 300 stably. The number of support columns 101 may be multiple, and there are no particular limitations on this point.

[0031] Furthermore, referring to Figures 5, 6, and 7, the storage mechanism according to this embodiment further includes a locking assembly 400 that enables the connection of multiple mounting plates 100 by locking four adjacent mounting plates 100 together. In this embodiment, the lock assembly 400 is used to lock four adjacent mounting plates 100, thereby enabling the connection of multiple mounting plates 100 and satisfying the user's requirements. In other embodiments, the lock assembly 400 may be configured to connect two adjacent mounting plates 100, or any other number of mounting plates 100, and is not particularly limited in this respect.

[0032] The lock assembly 400 is, A mounting base 410 fixed between four adjacent mounting plates 100, The abutment plates 420 consist of four plates, and the mounting base 410 is provided with a sliding groove 411 that slides with the abutment plates 420, thereby allowing the four abutment plates 420 to move toward or away from each other relative to the mounting base 410, and each of the four abutment plates 420 abuts against a positioning block 110 on one of the four mounting plates 100. The four contact plates 420 are driven to move toward or away from each other, thereby pressing each of the four contact plates 420 against the side walls of four positioning blocks 110, and are screw-connected to the center of a mounting seat 410 via a screw shaft, and a helical plate 440 is fixed below the rotating block 430, and the contact plates 420 are provided with at least one slider 421 that slides into a slit in the helical plate 440, Equipped with, By rotating the rotating block 430, the helical plate 440 rotates, and the slider 421 slides within the slit of the helical plate 440, causing the four contact plates 420 to move toward each other and press against the four positioning blocks 110, thereby achieving the joining of multiple mounting plates 100.

[0033] By rotating the rotating block 430, the spiral plate 440 rotates, and the slider 421 slides within the slit of the spiral plate 440, causing the four contact plates 420 to move toward each other and press against the four positioning blocks 110, thereby enabling the joining of multiple mounting plates 100. As a result, in actual use, it is possible to form mounting plates 100 of different sizes by joining the mounting plates 100 as required, resulting in a high degree of freedom in configuration, a wide range of applicable usage scenarios, and excellent practicality.

[0034] Furthermore, in order to enable the storage block 210 to stably store the article 300, the storage mechanism according to this embodiment further includes a fixed assembly 500. The storage block 210 is fixed by the fixed assembly 500, which enables the storage block 210 to stably store the article 300.

[0035] Specifically, referring to Figures 8 and 9, the fixed assembly 500 is, A rotating column 510 is provided vertically and rotatably on the mounting plate 100, A rotating groove 520 is drilled into the side wall of the rotating column 510, into which the positioning block 110 can enter, thereby restricting the position of the positioning block 110. A fixing hole 530 is drilled vertically in the storage block 210, penetrates the storage block 210, through which the rotating column 510 can be inserted, and through which the top end of the rotating column 510 protrudes from the top surface of the storage block 210, A rotating head 540 is fixed to the top of the rotating column 510, located on the top surface of the storage block 210, and used to rotate the rotating column 510, It is equipped with.

[0036] By rotating the rotating head 540, the rotating column 510 rotates, causing the rotating groove 520 formed in the rotating column 510 to rotate and house the positioning block 110 within the rotating groove 520. This restricts and fixes the position of the positioning block 110, thus fixing the storage block 210. As a result, the storage block 210 can stably store the article 300, and it is possible to prevent situations where it becomes difficult to stably store the article 300 when the storage block 210 is in an inclined or vertical position.

[0037] This embodiment provides a storage device, and referring to Figure 10, in this embodiment the article 300 to be stored by the storage device is a camera (in other embodiments, the article 300 may be a different article). The storage device comprises a storage container 600 and a unit-type storage mechanism equipped with the positioning structure described above.

[0038] The above is for the purpose of explaining the technical means of the present invention and does not limit the present invention to these embodiments. Those skilled in the art will know that any modifications or substitutions of the technical means of the present invention, as long as they do not deviate from the spirit and scope of the technical means of the present invention, are all included in the scope of the utility model claims of the present invention. [Explanation of symbols]

[0039] 100............ Mounting plate 101..... Prop 110............ Positioning block 120............ Positioning groove 130............ Magnet 200............ Storage Unit 210............ Storage Block 220........ Hanging part 230............ Storage section 240............ Positioning protrusion 250........ bending part 300........ Goods 400............ Lock Assembly 410............ Mounting base 411............ Sliding groove 420........ Contact plate 421............ Slider 430............ Rotating Block 440.......... Spiral plate 500.... Fixed assembly 510............ Rotating Column 520............ Rotary groove 530.... Fixed hole 540............ Rotating head 600............ Storage container

Claims

1. A mounting plate (100) has a plurality of positioning blocks (110) evenly arranged on its surface, and a positioning groove (120) is drilled on the side opposite to the mounting plate (100) of the positioning blocks (110). A storage unit (200) comprising at least one storage block (210), the surface of which the storage block (210) is provided with a suspension portion (220) for suspending an article (300) to be stored and / or a storage portion (230) for accommodating the article (300), and on the side of the storage block (210) opposite to the suspension portion (220) and / or the storage portion (230), at least one positioning projection (240) that fits into the positioning groove (120), and the positioning projection (240) and the positioning groove (120) are provided with a magnetic member that enables a detachable connection, A unit-type storage mechanism equipped with a positioning structure characterized by having the following features.

2. The magnetic member comprises two sets of magnets (130) provided on the positioning block (110) and the positioning projection (240), respectively, wherein the two sets of magnets (130) are arranged facing each other, one set of magnets (130) is evenly distributed on the peripheral edge side of the positioning groove (120), and the other set of magnets (130) is evenly distributed on the peripheral edge side of the positioning projection (240), characterized in that the unit-type storage mechanism has a positioning structure as described in claim 1.

3. The unit-type storage mechanism having a positioning structure according to claim 2, characterized in that the magnet (130) is formed in a cylindrical shape, and magnet grooves for housing the magnet are drilled on the mutually opposing sides of the positioning block (110) and the positioning projection (240).

4. The positioning groove (120) is located in the central part of the positioning block (110), and the cross-section of the positioning groove (120) gradually narrows inward from the groove opening, characterized in that the unit-type storage mechanism has a positioning structure as described in claim 1.

5. A unit-type storage mechanism having a positioning structure according to claim 1, characterized in that a support column (101) is provided on the mounting plate (100), a gap is formed between the positioning block (110) and the mounting plate (100) by the support column (101), and the storage block (210) is provided with a bent portion (250) that engages with the gap.

6. A unit-type storage mechanism with a positioning structure according to claim 1, further comprising a locking assembly (400) that enables the connection of multiple mounting plates (100) by locking adjacent mounting plates (100).

7. The aforementioned lock assembly (400) A mounting base (410) is fixed between four adjacent mounting plates (100), The abutment plates (420) consist of four plates, and the mounting base (410) is provided with a sliding groove (411) that slides with the abutment plates (420), thereby allowing the four abutment plates (420) to move toward or away from each other relative to the mounting base (410), and each of the four abutment plates (420) abuts against the positioning blocks (110) on the four mounting plates (100), The four contact plates (420) are driven to move toward or away from each other, thereby pressing each of the four contact plates (420) against the side walls of the four positioning blocks (110), and are screw-connected to the center of the mounting seat (410) via a screw shaft, and a spiral plate (440) is fixed below the rotating block (430), and the contact plates (420) are provided with at least one slider (421) that slides into a slit in the spiral plate (440), Equipped with, By rotating the rotating block (430), the helical plate (440) rotates, and the slider (421) slides within the slit of the helical plate (440), causing the four contact plates (420) to move toward each other and press against the four positioning blocks (110), thereby achieving the joining of the multiple mounting plates (100). A unit-type storage mechanism having the positioning structure described in feature 6.

8. The unit-type storage mechanism having a positioning structure according to claim 1, further comprising a fixing assembly (500) for fixing the storage block (210) so that the storage block (210) can stably store the article (300) to be stored.

9. The aforementioned fixed assembly (500) A rotating column (510) is provided vertically and rotatably on the mounting plate (100), A rotating groove (520) is drilled into the side wall of the rotating column (510), into which the positioning block (110) can enter, thereby restricting the position of the positioning block (110), A fixing hole (530) is drilled vertically in the storage block (210), penetrates the storage block (210), through which the rotating column (510) can be inserted, and through which the top end of the rotating column (510) protrudes from the top surface of the storage block (210), A unit-type storage mechanism having a positioning structure according to claim 8, further comprising: a rotating head (540) fixed to the top end of the rotating column (510), located on the top surface of the storage block (210), and used to rotate the rotating column (510).

10. A storage device comprising a storage container (600) and a unit-type storage mechanism having a positioning structure according to any one of claims 1 to 9.