A compatible and directional solid-state drive bracket

By designing a compatible and directional solid-state drive bracket, and utilizing structures such as guide rails, mounting boxes, and spring rods, the system enables quick installation, removal, and adjustment of hard drives, solving the problems of inconvenient replacement and high cost in existing technologies.

CN224437175UActive Publication Date: 2026-06-30SUZHOU DEGA STORAGE TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU DEGA STORAGE TECH CO LTD
Filing Date
2025-10-11
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing SSD brackets require screws for replacement, making replacement inconvenient. Furthermore, different sizes of SSDs require different brackets, increasing usage costs.

Method used

A compatible and directional solid-state drive bracket was designed, comprising a guide rail, mounting box, guide groove, spring rod, transmission plate, and locking block. The mounting box slides through the cooperation of the guide rail and guide groove, the locking block is fixed by the cooperation of the spring rod and transmission plate, and the hard drive is quickly installed, removed, and adjusted by the cooperation of the bidirectional threaded rod and toothed groove.

Benefits of technology

It enables quick installation, removal, and adjustment of hard drives, allowing for one-handed operation, reducing the need for brackets of different sizes, and lowering usage costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of solid-state drive (SSD) bracket technology, specifically a compatible and guiding SSD bracket. It includes a support plate with a guiding structure inside, comprising a guide rail, a mounting box outside the guide rail, a mounting cavity and a guide groove inside the mounting box, a spring rod inside the mounting cavity, a transmission plate on the output shaft of the spring rod, a locking block on one side of the transmission plate, and a locking groove inside the guide rail. This compatible and guiding SSD bracket, by mounting the guide rail on one side of the support plate, provides a limiting function; the cooperation between the guide rail and the guide groove facilitates the sliding of the mounting box; the mounting cavity inside the mounting box facilitates the installation of the spring rod; and the cooperation between the spring rod and the transmission plate pushes the locking block into the locking groove.
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Description

Technical Field

[0001] This utility model relates to the field of solid-state drive bracket technology, specifically a compatible and directional solid-state drive bracket. Background Technology

[0002] At the current technological level.

[0003] Currently available SSD brackets require screws to connect to the support plate, making quick replacement inconvenient. Furthermore, due to the different sizes of SSD enclosures, multiple different brackets need to be purchased, increasing usage costs. Therefore, there is an urgent need for a compatible and directional SSD bracket to improve these issues. Utility Model Content

[0004] The purpose of this invention is to at least solve one of the aforementioned technical defects.

[0005] Therefore, one objective of this utility model is to propose a compatible and directional solid-state drive bracket to solve the problems mentioned in the background art and overcome the shortcomings of the prior art.

[0006] To achieve the above objectives, one embodiment of this utility model provides a compatible and directional solid-state drive bracket, including a support plate. The support plate has a guide structure inside, the guide structure includes a guide rail, a mounting box is provided on the outer side of the guide rail, the mounting box has a mounting cavity and a guide groove inside, a spring rod is provided inside the mounting cavity, a transmission plate is provided on the output shaft of the spring rod, a locking block is provided on one side of the transmission plate, a locking groove is opened inside the guide rail, a limit plate is provided at the bottom of the guide rail, and a paddle is provided on one side of the transmission plate.

[0007] The present invention is further configured such that: the guide rail is fixedly connected to the inside of the support plate, the mounting box is slidably connected to one side of the support plate, the guide groove is adapted to the guide rail, and one end of the spring rod is fixedly connected to the inside of the mounting cavity.

[0008] By adopting the above technical solution, the guide rail is fixedly connected to the inside of the support plate, which facilitates the sliding of the installation box.

[0009] The present invention is further configured such that: the end of the spring rod away from the mounting cavity is fixedly connected to the transmission plate, the locking block is fixedly connected to the other side of the transmission plate, the locking groove is adapted to the locking block, and the paddle is integrated with the transmission plate.

[0010] By adopting the above technical solution, the card slot and the card block are adapted to each other, which serves to fix the installation box.

[0011] The present invention is further configured such that: the mounting box has an adjustment structure inside, the adjustment structure includes a sliding groove and a through hole, the sliding groove has a lifting plate inside, the lifting plate has a threaded hole inside, the threaded hole has a bidirectional threaded rod inside, a limit block and a mounting plate are provided on one side of the lifting plate, a trapezoidal plate is provided on one side of the mounting plate, the trapezoidal plate has a limit groove inside, the bidirectional threaded rod has a toothed groove inside, and a transmission chain is provided inside the toothed groove.

[0012] By adopting the above technical solution, the bidirectional threaded rod has toothed grooves inside, which drive the movement of the transmission chain.

[0013] The present invention is further configured such that: the sliding groove and the through hole are both opened inside the mounting box, the lifting plate and the trapezoidal plate are both slidably connected inside the sliding groove, and the limiting block is slidably connected inside the limiting groove.

[0014] By adopting the above technical solution, both the lifting plate and the trapezoidal plate are slidably connected inside the slide groove, which plays the role of driving the mounting plate to slide.

[0015] The present invention is further configured such that: the bidirectional threaded rod is rotatably connected to the inside of the through hole, the threaded hole is adapted to the bidirectional threaded rod, the transmission chain is adapted to the tooth groove, and the trapezoidal plate mounting plate is fixedly connected.

[0016] By adopting the above technical solution, the threaded hole is matched with the bidirectional threaded rod, which plays the role of driving the lifting plate to slide.

[0017] The present invention is further configured such that: an auxiliary hole is provided inside the mounting box, a support shell is provided at the bottom of the support plate, and a circuit board is provided inside the support shell.

[0018] By adopting the above technical solution, auxiliary holes are provided inside the mounting box to facilitate the installation of screws.

[0019] The present invention is further provided that: the mounting plate has a connection hole inside.

[0020] By adopting the above technical solution, the mounting plate has connection holes inside, which serve to hold screws in place.

[0021] In summary, the beneficial technical effects of this utility model are as follows:

[0022] 1. This compatible and guide-type solid-state drive bracket uses a guide rail mounted on one side of the support plate for limiting movement. The guide rail and guide groove work together to facilitate the sliding of the mounting box. An installation cavity is provided inside the mounting box to facilitate the installation of a spring rod. The spring rod and transmission plate work together to push the locking block into the slot. The locking block and slot work together to fix the mounting box. A paddle is added to move the transmission plate. A limiting plate is added to the bottom of the guide rail to restrict the movement of the mounting box. Using the above structure, the installation and removal of the hard drive can be completed quickly, thus enabling drive replacement, and the operation can be completed with one hand.

[0023] 2. This compatible and guideable solid-state drive bracket, through through holes inside the mounting box, facilitates the rotation of the bidirectional threaded rod. The toothed grooves and drive chain work together to achieve synchronous rotation of the bidirectional threaded rod. The bidirectional threaded rod and threaded hole work together to drive the lifting plate to slide up and down. The lifting plate and trapezoidal plate work together to move the mounting plate. The limiting block and limiting plate work together to prevent the mounting plate from falling off. Using this structure, the mounting plate spacing can be quickly adjusted, allowing for the installation of hard drives with different sized cases, reducing the number of brackets required and thus reducing operating costs.

[0024] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0025] The above and / or additional aspects and advantages of this utility model will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:

[0026] Figure 1 This is a schematic diagram of the structure of this utility model;

[0027] Figure 2 This is a structural schematic diagram of utility model A;

[0028] Figure 3 This is a schematic diagram of the guiding structure of this utility model;

[0029] Figure 4 This is a schematic diagram of the structure of the guide rail of this utility model;

[0030] Figure 5 This is a schematic diagram of the adjustment structure of this utility model;

[0031] Figure 6 This is a schematic diagram of the installation box of this utility model;

[0032] Figure 7 This is a schematic diagram of the internal structure of the groove of this utility model;

[0033] Figure 8 This is a structural schematic diagram of the lifting plate of this utility model.

[0034] In the diagram: 1. Support plate; 2. Guide structure; 3. Guide rail; 4. Mounting box; 5. Mounting cavity; 6. Guide groove; 7. Spring rod; 8. Transmission plate; 9. Locking block; 10. Locking groove; 11. Limiting plate; 12. Paddle; 13. Adjustment structure; 14. Slide groove; 15. Through hole; 16. Lifting plate; 17. Threaded hole; 18. Two-way threaded rod; 19. Limiting block; 20. Mounting plate; 21. Trapezoidal plate; 22. Limiting groove; 23. Gear groove; 24. Transmission chain; 25. Auxiliary hole; 26. Support shell; 27. Circuit board; 28. Connecting hole. Detailed Implementation

[0035] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.

[0036] Example 1

[0037] Reference Figures 1 to 4 This utility model discloses a compatible and directional solid-state drive bracket, including a support plate 1. The support plate 1 has a guide structure 2 inside, the guide structure 2 includes a guide rail 3, and a mounting box 4 is provided on the outside of the guide rail 3. The mounting box 4 has a mounting cavity 5 and a guide groove 6 inside, a spring rod 7 is provided inside the mounting cavity 5, a transmission plate 8 is provided on the output shaft of the spring rod 7, a locking block 9 is provided on one side of the transmission plate 8, a locking groove 10 is opened inside the guide rail 3, a limit plate 11 is provided at the bottom of the guide rail 3, and a lever 12 is provided on one side of the transmission plate 8. In this embodiment, the support plate 1 plays a limiting role, the guide rail 3 plays a role in facilitating the sliding of the mounting box 4, and the guide groove 6 plays a role in wrapping the guide rail 3.

[0038] Reference Figure 2 and Figure 3 The guide rail 3 is fixedly connected to the inside of the support plate 1, the mounting box 4 is slidably connected to one side of the support plate 1, the guide groove 6 is adapted to the guide rail 3, and one end of the spring rod 7 is fixedly connected to the inside of the mounting cavity 5. In this embodiment, the spring rod 7 plays the role of pushing the locking block 9 to reset, and the mounting cavity 5 plays the role of mounting the spring rod 7.

[0039] Reference Figure 3 and Figure 4 The end of the spring rod 7 away from the mounting cavity 5 is fixedly connected to the transmission plate 8. The locking block 9 is fixedly connected to the other side of the transmission plate 8. The locking groove 10 is adapted to the locking block 9. The paddle 12 is integrated with the transmission plate 8. In this embodiment, the transmission plate 8 serves to connect the locking block 9 and the spring rod 7. The locking groove 10 serves to engage the locking block 9. The paddle 12 serves to drive the transmission plate 8 to move.

[0040] Reference Figures 5 to 8 The mounting box 4 has an adjustment structure 13 inside, which includes a sliding groove 14 and a through hole 15. The sliding groove 14 has a lifting plate 16 inside, and the lifting plate 16 has a threaded hole 17 inside. The threaded hole 17 has a bidirectional threaded rod 18 inside. A limit block 19 and a mounting plate 20 are provided on one side of the lifting plate 16. A trapezoidal plate 21 is provided on one side of the mounting plate 20. A limit groove 22 is provided inside the trapezoidal plate 21. The bidirectional threaded rod 18 has a toothed groove 23 inside. A transmission chain 24 is provided inside the toothed groove 23. In this embodiment, the sliding groove 14 facilitates the sliding of the lifting plate 16, and the through hole 15 facilitates the rotation of the bidirectional threaded rod 18.

[0041] Reference Figure 5 , Figure 6 and Figure 7 The sliding groove 14 and the through hole 15 are both opened inside the mounting box 4. The lifting plate 16 and the trapezoidal plate 21 are slidably connected inside the sliding groove 14. The limiting block 19 is slidably connected inside the limiting groove 22. In this embodiment, the lifting plate 16 plays a transmission role, the trapezoidal plate 21 plays a role in driving the mounting plate 20 to slide, the limiting block 19 plays a role in preventing the mounting plate 20 from falling off, and the limiting groove 22 plays a role in limiting the sliding of the limiting block 19.

[0042] Reference Figures 5 to 8 The bidirectional threaded rod 18 is rotatably connected to the inside of the through hole 15. The threaded hole 17 is adapted to the bidirectional threaded rod 18. The transmission chain 24 is adapted to the tooth groove 23. The trapezoidal plate 21 and the mounting plate 20 are fixedly connected. In this embodiment, the threaded hole 17 is adapted to the bidirectional threaded rod 18, the transmission chain 24 is used to drive the bidirectional threaded rod 18 to rotate synchronously, and the tooth groove 23 is used to drive the transmission chain 24 to move.

[0043] Reference Figure 1 , Figure 2 and Figure 3 The mounting box 4 has an auxiliary hole 25 inside, and the bottom of the support plate 1 is provided with a support shell 26. The support shell 26 is provided with a circuit board 27 inside. In this embodiment, the auxiliary hole 25 is used to facilitate the installation of screws, the support shell 26 is used to protect the internal structure, and the circuit board 27 is used to transmit signals.

[0044] Reference Figure 5 The mounting plate 20 has a connecting hole 28 inside, which serves as a limit in this embodiment.

[0045] The implementation principle of this embodiment is as follows:

[0046] During use, the solid-state drive (SSD) needs to be fixed inside the mounting box 4 first. After inserting the SSD into the mounting box 4, if the side of the SSD is not currently attached to the mounting plate 20, the operator needs to use a tool to rotate the bidirectional threaded rod 18. During the rotation of the bidirectional threaded rod 18, since it has a toothed groove 23 inside, and the toothed groove 23 is matched with the transmission chain 24, the rotation of the bidirectional threaded rod 18 will drive the transmission chain 24 to move, so that the two bidirectional threaded rods 18 rotate synchronously. And by using the threaded engagement between the threaded hole 17 and the bidirectional threaded rod 18, the lifting plates 16 can be moved towards each other. As the bidirectional threaded rod 18 rotates continuously, the distance between the lifting plates 16 is continuously reduced. At the same time, the mounting plate 20 will also move towards the SSD until the mounting plate 20 is attached to one side of the SSD, completing the current SSD adaptation.

[0047] After the SSD adaptation and adjustment are completed, the staff will pass the screw through the auxiliary hole 25 and the connecting hole 28, so that the threaded end of the screw enters the screw hole reserved on the SSD, and use a tool to turn it. After the SSD is installed, one end of the screw will be locked into the inside of the connecting hole 28. At this point, the SSD is installed into the inside of the installation box 4. The auxiliary hole 25 is opened inside the installation box 4 to facilitate the screw to pass through and to facilitate the tool to drive the screw to rotate.

[0048] After installing the solid-state drive (SSD) into the mounting box 4, align the guide groove 6 with the guide rail 3 (when the mounting box 4 and other structures are not inserted into the support plate 1, the output shaft of the spring rod 7 is in an extended state), and push the mounting box 4 and other structures downwards. It is necessary to ensure that the guide rail 3 can be engaged with the inside of the guide groove 6. As the mounting box 4 and other structures slide towards each other, the locking block 9 will contact the guide rail 3. When the two are in contact, the locking block 9 and the transmission plate 8 will slide inside the mounting cavity 5, and the output shaft of the spring rod 7 will be compressed until the locking block 9 moves to the position of the slot 10. When the locking block 9 can enter the inside of the slot 10, the output shaft of the spring rod 7 will extend outwards and push the locking block 9 into the inside of the slot 10 through the transmission plate 8. At the same time, the bottom of the mounting box 4 will fit against the limiting plate 11. At this time, the gold fingers of the SSD will be engaged with the inside of the interface. Thus, the installation of the SSD is completed.

[0049] When removing the solid-state drive (SSD), first place your hand on the lever 12, with your thumb on the left side of the left lever 12 and your index and middle fingers on the right side of the right lever 12. Then, squeeze the lever 12 firmly to move it towards each other, quickly reducing the distance between the two levers. The lever 12 will then drive the locking block 9 out of the slot 10 via the transmission plate 8. At this time, the output shaft of the spring rod 7 will be compressed. After the locking block 9 is pulled out of the slot 10, squeeze the lever 12 to move the mounting box 4 towards each other. During this process, the SSD's gold fingers will be pulled out of the interface. As the casing continues to move towards each other, the mounting box 4 will separate from the guide rail 3, thus completing the removal of the SSD.

Claims

1. A solid state drive bracket compatible with a guided, characterized in that: The system includes a support plate (1), a guide structure (2) is provided inside the support plate (1), the guide structure (2) includes a guide rail (3), an installation box (4) is provided on the outside of the guide rail (3), an installation cavity (5) and a guide groove (6) are provided inside the installation box (4), a spring rod (7) is provided inside the installation cavity (5), a transmission plate (8) is provided on the output shaft of the spring rod (7), a locking block (9) is provided on one side of the transmission plate (8), a locking groove (10) is provided inside the guide rail (3), a limit plate (11) is provided at the bottom of the guide rail (3), and a paddle (12) is provided on one side of the transmission plate (8).

2. The compatible and directional solid-state drive bracket according to claim 1, characterized in that: The guide rail (3) is fixedly connected to the inside of the support plate (1), the mounting box (4) is slidably connected to one side of the support plate (1), the guide groove (6) is adapted to the guide rail (3), and one end of the spring rod (7) is fixedly connected to the inside of the mounting cavity (5).

3. A compatible and directional solid-state drive bracket according to claim 1, characterized in that: The end of the spring rod (7) away from the mounting cavity (5) is fixedly connected to the transmission plate (8), the locking block (9) is fixedly connected to the other side of the transmission plate (8), the locking groove (10) is adapted to the locking block (9), and the paddle (12) is integrated with the transmission plate (8).

4. A compatible and directional solid-state drive bracket according to claim 1, characterized in that: The mounting box (4) is provided with an adjustment structure (13), which includes a slide groove (14) and a through hole (15). The slide groove (14) is provided with a lifting plate (16), the lifting plate (16) is provided with a threaded hole (17), the threaded hole (17) is provided with a bidirectional threaded rod (18), a limit block (19) and a mounting plate (20) are provided on one side of the lifting plate (16), a trapezoidal plate (21) is provided on one side of the mounting plate (20), a limit groove (22) is provided in the trapezoidal plate (21), a toothed groove (23) is provided in the bidirectional threaded rod (18), and a transmission chain (24) is provided in the toothed groove (23).

5. A compatible and directional solid-state drive bracket according to claim 4, characterized in that: The slide groove (14) and the through hole (15) are both opened inside the mounting box (4), the lifting plate (16) and the trapezoidal plate (21) are both slidably connected inside the slide groove (14), and the limiting block (19) is slidably connected inside the limiting groove (22).

6. A compatible and directional solid-state drive bracket according to claim 4, characterized in that: The bidirectional threaded rod (18) is rotatably connected to the inside of the through hole (15), the threaded hole (17) is adapted to the bidirectional threaded rod (18), the transmission chain (24) is adapted to the tooth groove (23), and the trapezoidal plate (21) is fixedly connected to the mounting plate (20).

7. A compatible and directional solid-state drive bracket according to claim 1, characterized in that: The mounting box (4) has an auxiliary hole (25) inside, and the bottom of the support plate (1) is provided with a support shell (26), and the inside of the support shell (26) is provided with a circuit board (27).

8. A compatible and directional solid-state drive bracket according to claim 4, characterized in that: The mounting plate (20) has a connection hole (28) inside.