A data storage device with security protection

Through a multi-layered buffer protection structure and a flexible adjustment mechanism, the problem of insufficient physical protection and maintenance complexity of data storage devices in vibration and shock environments is solved, achieving stability and convenient maintenance of the equipment in complex environments, and ensuring data security and equipment reliability.

CN122245357APending Publication Date: 2026-06-19GONGXIN TECH ENTREPRENEURSHIP SERVICE CENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
GONGXIN TECH ENTREPRENEURSHIP SERVICE CENT CO LTD
Filing Date
2025-11-26
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing data storage devices lack sufficient physical protection against vibration and shock, have limited flexibility in buffer adjustment, and are complex to maintain, which can easily lead to data loss and equipment damage.

Method used

It adopts a multi-layered buffer protection structure, including components such as electric telescopic rods, pressure springs, buffer springs, lead screws, and limit rods. Combined with electric and manual adjustment methods, it enables flexible adjustment and convenient maintenance of the equipment. The design of sliding rotating shaft table and assembly plate provides stable support and buffer protection.

Benefits of technology

It effectively reduces the impact of vibration and shock on the data storage box, ensuring data security and long-term reliability of the equipment, and improving the applicability and efficiency of the equipment in complex environments.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention provides a data storage device with safety protection, relating to the field of anti-shaking and impact technology. It includes a mechanical storage cabinet with a baffle fixedly installed at its inner bottom. A lead screw and a set of limiting rods are movably inserted into the outer surface of the baffle. Through the coordinated design of multiple protective structures, this invention achieves excellent safety protection performance. The downward pressure spring on the outer wall of the electric telescopic rod can initially absorb vibrations during adjustment. The buffer spring on the force plate, through the cooperation of the first hook plate, the second hook plate, and the connecting hook, can further absorb external impacts. The closed structure of the mechanical storage cabinet and the reserved gap in the inner wall provide both physical protection and buffer space. These multiple layers of protection effectively reduce the impact of vibration and collisions on the data storage box, ensuring the stability and security of data storage.
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Description

Technical Field

[0001] This invention relates to the field of anti-shaking and impact technology, and more particularly to a data storage device with safety protection. Background Technology

[0002] With the rapid development of the digital economy, data has become a core strategic resource for countries, enterprises and individuals, covering key areas such as financial transactions, scientific research experiments, medical records, and personal information. According to industry reports, the total amount of global data is growing at an average annual rate of over 20%, and data storage devices serve as the core carriers of data.

[0003] Currently, mainstream data storage devices still suffer from the following technical challenges in practical applications: Inadequate physical protection capabilities. Most storage devices rely solely on their outer casing for basic protection, lacking buffer structures against vibration and impact. In industrial vibration environments or when encountering accidental collisions, internal storage chips are easily damaged by rigid impacts, leading to data loss. Limited flexibility in adjusting buffering force and the fact that storage modules are mostly fixedly connected to the internal structure of the device mean that multiple components need to be disassembled during maintenance or replacement, making the process complex and prone to secondary damage due to improper disassembly or assembly.

[0004] Therefore, in order to address the above problems, there is an urgent need for a data storage device that integrates multiple buffer protections, flexible adjustment mechanisms, and convenient maintenance structures to ensure the security of data storage and the long-term reliability of the device in complex environments. This invention was developed in response to this need. Summary of the Invention

[0005] The purpose of this invention is to solve the problems of poor physical protection, insufficient buffer adjustment flexibility and complex maintenance of existing data storage devices, and to propose a data storage device with security protection.

[0006] To achieve the above objectives, the present invention adopts the following technical solution: a data storage device with security protection, comprising: a mechanical placement cabinet, wherein a baffle is fixedly installed at the bottom of the mechanical placement cabinet, a lead screw and a set of limiting rods are movably inserted into the outer surface of the baffle, one end of the set of limiting rods is fixedly connected to the inner wall of the mechanical placement cabinet, the outer wall of the lead screw is rotatably inserted into the interior of the mechanical placement cabinet, a sliding rotating shaft platform is drively connected to the outer wall of the lead screw, a set of first rotating shaft seats is fixedly connected to the top of the sliding rotating shaft platform, a first rotating shaft column is inserted into the interior of the set of first rotating shaft seats, a first rotating shaft sleeve is rotatably connected to the outer wall of the first rotating shaft column, the output end of an electric telescopic rod is fixedly connected to the mounting part of the first rotating shaft sleeve, a second rotating shaft sleeve is fixedly connected to the mounting part of the electric telescopic rod, and a downward pressure spring is movably sleeved on the outer wall of the electric telescopic rod, the two ends of the downward pressure spring being fixedly connected to the opposite sides of the first rotating shaft sleeve and the second rotating shaft sleeve, respectively.

[0007] Preferably, a second rotating shaft column is rotatably inserted inside the second rotating shaft sleeve, a second rotating shaft seat is rotatably connected to the outer wall of the second rotating shaft column, an assembly plate is fixedly connected to the top of the second rotating shaft seat, and support arm mounting seats are fixedly installed on the inner bottom of the machine placement cabinet and the bottom of the assembly plate. Each support arm mounting seat has a mounting hole in its rotating part, a third rotating shaft column is rotatably connected inside each mounting hole, and a rotating support arm is rotatably connected to the rotating shaft of every two third rotating shaft columns.

[0008] Preferably, a force-bearing plate is fixedly installed on the top of the assembly plate, and four sliding platforms are symmetrically fixedly installed on the top of the force-bearing plate. Each sliding platform has a groove on its top, and a sliding protrusion is slidably arranged inside each groove. A fixing plate is fixedly installed on the top of each sliding protrusion. A second hook plate is fixedly installed on one outer surface of the fixing plate by screws. A connecting assembly is fixedly installed on the top of the fixing plate. A set of first hook plates is fixedly connected to one outer surface of each sliding platform by screws. A connecting hook is hooked on the hooking part of each set of first hook plates and second hook plates. A buffer spring is fixedly installed on the opposite side of each pair of connecting hooks.

[0009] Preferably, one end of the lead screw is fixedly connected to a manual self-locking knob, and the manual self-locking knob is a manual knob with a self-locking function.

[0010] Preferably, a data storage box is fixedly installed on the top of each of the connecting components, and the data storage box is a commercially available solid-state drive storage box.

[0011] Preferably, the positional relationship of the set of rotating support arms and electric telescopic rods is that they are arranged in a cross configuration, and the bottom of the sliding pivot table and the inner bottom of the machine placement cabinet are in sliding engagement.

[0012] Preferably, there is a certain gap between the inner walls of the mechanical placement cabinet and the load-bearing plate, which facilitates the lifting and lowering of the load-bearing plate and the adjustment of the buffer distance.

[0013] Preferably, a set of maintenance cabinet doors is hinged to one side of the outer surface of the machine placement cabinet, and a set of hinge connectors is fixedly installed on the outer surface of the machine placement cabinet. A protective cover is fixedly connected to the hinge mounting part of the set of hinge connectors. By opening the protective cover and then rotating the manual self-locking knob, the data storage box can be exposed to the outside of the equipment shell.

[0014] Compared with the prior art, the advantages and positive effects of the present invention are as follows:

[0015] 1. This invention achieves excellent safety protection performance through the collaborative design of multiple protective structures. The downward pressure spring on the outer wall of the electric telescopic rod can initially absorb vibrations during the adjustment process. The buffer spring on the force plate, through the cooperation of the first hook plate, the second hook plate, and the connecting hook, can further absorb external impacts. The closed structure of the mechanical storage cabinet and the reserved gap in the inner wall provide both physical protection and buffer space. The multiple layers of protection effectively reduce the impact of vibration and collision on the data storage box, ensuring the stability and security of data storage.

[0016] 2. This invention balances adjustment flexibility with maintenance convenience, making it highly practical. Through the cooperation of the lead screw, limit rod, and sliding rotating platform, combined with the power output of the electric telescopic rod and the auxiliary adjustment of the manual self-locking knob, the assembly plate and load-bearing plate can be flexibly driven to rise and fall, adapting to different usage scenarios. Simultaneously, the inspection cabinet door facilitates maintenance of internal components, and the protective cover prevents accidental contact while quickly exposing the data storage box. This ensures the equipment is safe and secure while making operation and maintenance more convenient, improving the equipment's applicability and efficiency. Attached Figure Description

[0017] Figure 1 This invention provides a front perspective view of a data storage device with security protection.

[0018] Figure 2 A rear-view perspective view of a data storage device with security protection is provided for this invention;

[0019] Figure 3 A cross-sectional perspective view of a data storage device with security protection is provided for this invention;

[0020] Figure 4 A top-view perspective view of the mechanical structure of a data storage device with security protection is provided for this invention.

[0021] Figure 5A bottom-view perspective view of the mechanical structure of a data storage device with security protection proposed in this invention;

[0022] Figure 6 This invention provides a three-dimensional disassembled view of the mechanical structure of a data storage device with security protection.

[0023] Figure 7 This invention presents a three-dimensional view of a data storage device with secure protection, featuring a buffer split.

[0024] Legend: 1. Machinery storage cabinet; 11. Inspection cabinet door; 12. Hinge connector; 13. Protective cover; 2. Baffle; 21. Lead screw; 22. Limiting rod; 23. Sliding pivot platform; 231. First pivot seat; 232. First pivot post; 233. First pivot sleeve; 234. Electric telescopic rod; 235. Second pivot sleeve; 236. Compression spring; 237. Second pivot post; 238. Second pivot seat; 2 4. Assembly plate; 25. Support arm mounting base; 251. Mounting hole; 252. Third rotating shaft column; 253. Rotating support arm; 3. Force plate; 31. Sliding platform; 311. Slide groove; 312. First hook plate; 3121. Connecting hook; 313. Buffer spring; 314. Sliding convex strip; 315. Fixing plate; 316. Second hook plate; 3161. Connecting assembly; 4. Manual self-locking knob; 5. Data storage box. Detailed Implementation

[0025] To better understand the above-mentioned objectives, features, and advantages of the present invention, the present invention will be further described below in conjunction with the accompanying drawings and embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.

[0026] Numerous specific details are set forth in the following description in order to provide a full understanding of the invention. However, the invention may also be practiced in other ways than those described herein, and therefore the invention is not limited to the specific embodiments disclosed in the following specification.

[0027] Example 1: Please refer to the appendix Figure 1 -Appendix Figure 6As shown: This invention provides a data storage device with security protection, comprising: a mechanical storage cabinet 1, a baffle 2 fixedly installed at the bottom of the mechanical storage cabinet 1, a lead screw 21 and a set of limiting rods 22 movably inserted into the outer surface of the baffle 2, one end of the set of limiting rods 22 being fixedly connected to the inner wall of the mechanical storage cabinet 1, the outer wall of the lead screw 21 being rotatably inserted into the interior of the mechanical storage cabinet 1, a sliding rotating shaft platform 23 being drivenly connected to the outer wall of the lead screw 21, and a set of first rotating shaft seats 231 being fixedly connected to the top of the sliding rotating shaft platform 23. A first rotating shaft column 232 is inserted inside a first rotating shaft seat 231. A first rotating shaft sleeve 233 is rotatably connected to the outer wall of the first rotating shaft column 232. The output end of an electric telescopic rod 234 is fixedly connected to the mounting part of the first rotating shaft sleeve 233. A second rotating shaft sleeve 235 is fixedly connected to the mounting part of the electric telescopic rod 234. A downward pressure spring 236 is movably sleeved on the outer wall of the electric telescopic rod 234. The two ends of the downward pressure spring 236 are fixedly connected to the opposite sides of the first rotating shaft sleeve 233 and the second rotating shaft sleeve 235, respectively.

[0028] In use, the lead screw 21 and the limiting rod 22 cooperate to provide a fixed trajectory for the sliding pivot table 23, ensuring its stable movement direction; this corresponds to the sliding cooperation between the bottom of the sliding pivot table 23 and the bottom of the machine placement cabinet 1 in Embodiment 6, preventing sliding jamming; the electric telescopic rod 234 can output telescopic power, which, together with the elastic buffer of the downward spring 236, provides a power basis for the subsequent adjustment of the assembly plate 24 in Embodiment 2, and can also initially absorb external vibrations; it provides a preliminary buffer for the impact protection of Embodiment 3; thus achieving the dual initial functions of power output and basic protection.

[0029] In more specific solutions, such as Figures 3-6 As shown: A second rotating shaft post 237 is rotatably inserted inside the second rotating shaft sleeve 235. A second rotating shaft seat 238 is rotatably connected to the outer wall of the second rotating shaft post 237. An assembly plate 24 is fixedly connected to the top of the second rotating shaft seat 238. Support arm mounting seats 25 are fixedly installed on the inner bottom of the machine placement cabinet 1 and the bottom of the assembly plate 24. Each support arm mounting seat 25 has a mounting hole 251 in its rotating part. A third rotating shaft post 252 is rotatably connected inside each mounting hole 251. A rotating support arm 253 is rotatably connected to the rotating shaft part of every two third rotating shaft posts 252.

[0030] In use, the rotational engagement of the second pivot seat 238 and the second pivot sleeve 235 allows the assembly plate 24 to be flexibly connected to the electric telescopic rod 234 in Embodiment 1, meeting the multi-angle adjustment requirements; adapting to the space requirements for lifting and adjusting the force plate 3 in Embodiment 7; at the same time, the rotating support arm 253 is rotatably connected to the support arm mounting seat 25 through the third pivot column 252; forming a stable support for the assembly plate 24, which complements the cross arrangement of the rotating support arm 253 and the electric telescopic rod 234 in Embodiment 6, preventing the assembly plate 24 from tilting due to bearing the data storage box 5 in Embodiment 5; and enhancing the connection stability between components.

[0031] In a more optimized solution, such as Figures 3-5 as well as Figure 7 As shown: A force-bearing plate 3 is fixedly installed on the top of the assembly plate 24. Four sliding platforms 31 are symmetrically fixedly installed on the top of the force-bearing plate 3. Each sliding platform 31 has a groove 311 on its top. A sliding protrusion 314 is slidably arranged inside each groove 311. A fixing plate 315 is fixedly installed on the top of each sliding protrusion 314. A second hook plate 316 is fixedly installed on one side of the outer surface of the fixing plate 315 by screws. A connecting assembly 3161 is fixedly installed on the top of the fixing plate 315. A set of first hook plates 312 is fixedly connected to one side of the outer surface of each sliding platform 31 by screws. A connecting hook 3121 is hooked on the hooking part of each set of first hook plates 312 and second hook plates 316. A buffer spring 313 is fixedly installed on the opposite side of each pair of connecting hooks 3121.

[0032] In use, the sliding protrusion 314 can flexibly adjust the position of the fixing plate 315 by sliding within the groove 311, adapting to connecting components 3161 of different sizes; providing a compatible basis for the installation of the data storage box 5 in Embodiment 5 through the connecting component 3161; at the same time, the buffer spring 313 that cooperates with the first hook plate 312, the second hook plate 316 and the connecting hook 3121 can further absorb external impacts and bear the front buffer of Embodiment 1, and cooperate with the gap between the force plate 3 and the inner wall of the mechanical placement cabinet 1 in Embodiment 7 to ensure that the force plate 3 has sufficient space to move during buffering, reducing the impact of impact on the data storage box 5.

[0033] In some embodiments, such as Figures 1-6 As shown: One end of the lead screw 21 is fixedly connected to a manual self-locking knob 4, which is a manual knob with a self-locking function.

[0034] In use, the manual self-locking knob 4 can manually drive the lead screw 21 in Embodiment 1 to rotate, supplementing the deficiencies of electric adjustment. When the electric telescopic rod 234 fails, it can still adjust the position of the sliding pivot table 23. Its self-locking function can fix the position of the lead screw 21 to prevent the sliding pivot table 23 from moving accidentally in Embodiment 6, thereby preventing the assembly plate 24 and the force plate 3 from shifting. At the same time, it cooperates with the operation process of adjusting the knob after opening the protective cover 13 in Embodiment 8 to ensure the stability of the structure after adjustment.

[0035] It is important to note that, such as Figure 3 As shown: A data storage box 5 is fixedly installed on the top of each connecting component 3161. The data storage box 5 is a commercially available solid-state drive storage box.

[0036] Specifically, the data storage box 5 is installed on the load-bearing plate 3 through the connecting component 3161 in embodiment 3, directly realizing the core function of data storage, so that the adjustment and protection structures of embodiments 1-4 have a clear target; the use of commercial solid-state hard disk storage boxes not only ensures storage performance, but also facilitates subsequent replacement, maintenance and repair through the operation of the exposed data storage box 5 in embodiment 8, forming a closed loop of maintenance process.

[0037] In some embodiments, such as Figures 3-5 As shown: A set of rotating support arms 253 and electric telescopic rods 234 are arranged in a cross configuration, and the bottom of the sliding pivot table 23 and the inner bottom of the machine placement cabinet 1 are in sliding fit.

[0038] In use, a set of rotating support arms 253 and electric telescopic rods 234 are arranged in a cross configuration to enhance the support strength of the rotating support arms 253 in embodiment 2, and to prevent the assembly plate 24 from deforming due to the support of the data storage box 5; the bottom of the sliding pivot table 23 slides in cooperation with the bottom of the machine placement cabinet 1 to receive the driving action of the lead screw 21 in embodiment 1, eliminates sliding jamming, and ensures that the sliding pivot table 23 moves smoothly during manual adjustment in embodiment 4, thereby improving the overall smoothness of adjustment.

[0039] In some embodiments, such as Figure 3 As shown: There is a certain gap between the inner walls of the mechanical placement cabinet 1 and the load-bearing plate 3, which facilitates the lifting and lowering of the load-bearing plate 3 and the adjustment of the buffer distance.

[0040] When in use, the gap between the inner wall of the mechanical placement cabinet 1 and the force plate 3 provides space for the assembly plate 24 to drive the force plate 3 to rise and fall in Embodiment 2, avoiding collision with the cabinet wall; at the same time, the reserved buffer distance, together with the extension and retraction of the buffer spring 313 in Embodiment 3, ensures that the force plate 3 can be fully buffered when it is impacted, preventing the protection from failing; taking into account both the adjustment space and the protection space requirements.

[0041] In some embodiments: such as Figures 1-3As shown: A set of maintenance cabinet doors 11 are hinged to one side of the outer surface of the machine placement cabinet 1. A set of hinge connectors 12 are fixedly installed on the outer surface of the machine placement cabinet 1. A protective cover 13 is fixedly connected to the hinge mounting part of the set of hinge connectors 12. After opening the protective cover 13 and rotating the manual self-locking knob 4, the data storage box 5 can be exposed to the outside of the equipment shell.

[0042] In use, the inspection cabinet door 11 is easy to open and maintain internal components such as the lead screw 21 in Embodiment 1 and the rotating support arm 253 in Embodiment 2, reducing maintenance difficulty; the protective cover 13 is fixed by the hinge connector 12, which can protect the manual self-locking knob 4 in Embodiment 4 and prevent accidental contact that could cause component displacement; and the operation flow of opening the protective cover 13, rotating the manual self-locking knob 4, and exposing the data storage box 5 is seamless; the adjustment function of Embodiment 4 and the storage box maintenance requirements of Embodiment 5 achieve a closed-loop operation from protection to adjustment to maintenance.

[0043] Working principle: This equipment operates based on the core logic of adjustment, support, protection, storage, and maintenance.

[0044] The adjustment drive can be adjusted electrically or manually. When adjusting electrically, the electric telescopic rod 234 in Example 1 extends and retracts, which, together with the lead screw 21 and the limit rod 22, drives the sliding rotating platform 23 to move, ensuring smooth sliding. When adjusting manually, the protective chamber cover 13 is opened, and the manual self-locking knob 4 is turned to drive the lead screw 21 and drive the sliding rotating platform 23 to move.

[0045] Stable support and lifting: When the sliding pivot table 23 moves, the second pivot sleeve 235 and the second pivot seat 238 drive the assembly plate 24. At the same time, the rotating support arm 253 and the electric telescopic rod 234 are arranged in a cross configuration. Through the rotation of the third pivot column 252 and the support arm mounting seat 25, a stable support is formed for the assembly plate 24, which drives the force plate 3 to rise and fall. The purpose is to avoid collisions due to the reserved gap.

[0046] During the adjustment process, the compression spring 236 initially absorbs vibration. If an external impact occurs, the buffer spring 313 further buffers the impact through the cooperation of the first hook plate 312, the second hook plate 316 and the connecting hook 3121, protecting the data storage box 5 installed on the force plate 3 through the connecting component 3161.

[0047] Maintenance and storage: Data storage box 5 implements the core storage function. When maintenance is required, the inspection cabinet door 11 is opened to maintain the internal components, or the data storage box 5 is exposed according to the procedure for replacement and data operation, completing the entire cycle of work from function operation to maintenance and support.

[0048] The hinge connector 12, sliding pivot platform 23, electric telescopic rod 234, sliding base 31, slide groove 311, sliding convex strip 314, manual self-locking knob 4, data storage box 5, and the wiring diagram of the electrical control system during use of the device are common knowledge in the field. Their working principle is a well-known technology. The appropriate model is selected according to actual use. Therefore, the control method and wiring layout of the hinge connector 12, sliding pivot platform 23, electric telescopic rod 234, sliding base 31, slide groove 311, sliding convex strip 314, manual self-locking knob 4, data storage box 5, and the electrical control system during use of the device will not be explained in detail.

[0049] The main innovation of this invention is that the integrated safety protection structure, which achieves the prevention of impact caused by shaking and facilitates maintenance through the synergistic action of components such as the compression spring, buffer spring, lead screw, and rotating support arm, is not simply a collection of technologies.

[0050] The above description is merely a preferred embodiment of the present invention and is not intended to limit the present invention in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present invention without departing from the scope of the present invention shall still fall within the protection scope of the present invention.

Claims

1. A data storage device with security protection, characterized in that, include: A machine placement cabinet (1) has a baffle (2) fixedly installed at its inner bottom. A lead screw (21) and a set of limiting rods (22) are movably inserted into the outer surface of the baffle (2). One end of the set of limiting rods (22) is fixedly connected to the inner wall of the machine placement cabinet (1). The outer wall of the lead screw (21) is rotatably inserted into the inside of the machine placement cabinet (1). A sliding rotating shaft platform (23) is connected to the outer wall of the lead screw (21). A set of first rotating shaft seats (231) is fixedly connected to the top of the sliding rotating shaft platform (23). 1) A first rotating shaft column (232) is inserted inside. A first rotating shaft sleeve (233) is rotatably connected to the outer wall of the first rotating shaft column (232). The output end of an electric telescopic rod (234) is fixedly connected to the mounting part of the first rotating shaft sleeve (233). A second rotating shaft sleeve (235) is fixedly connected to the mounting part of the electric telescopic rod (234). A downward pressure spring (236) is movably sleeved on the outer wall of the electric telescopic rod (234). The two ends of the downward pressure spring (236) are fixedly connected to the opposite sides of the first rotating shaft sleeve (233) and the second rotating shaft sleeve (235), respectively.

2. The data storage device with security protection according to claim 1, characterized in that: The second rotating sleeve (235) is rotatably inserted with a second rotating shaft post (237). The outer wall of the second rotating shaft post (237) is rotatably connected with a second rotating shaft seat (238). The top of the second rotating shaft seat (238) is fixedly connected with an assembly plate (24). The bottom of the inner bottom of the machine placement cabinet (1) and the bottom of the assembly plate (24) are both fixedly installed with arm mounting seats (25). Each of the rotating parts of the arm mounting seats (25) is provided with a mounting hole (251). The interior of each mounting hole (251) is rotatably connected with a third rotating shaft post (252). The rotating shaft parts of every two third rotating shaft posts (252) are rotatably connected with a rotating support arm (253).

3. A data storage device with security protection according to claim 2, characterized in that: A force-bearing plate (3) is fixedly installed on the top of the assembly plate (24). Four sliding seats (31) are symmetrically fixedly installed on the top of the force-bearing plate (3). Each sliding seat (31) has a groove (311) on its top. Each groove (311) has a sliding protrusion (314) slidably arranged inside. Each sliding protrusion (314) has a fixed plate (315) fixedly installed on its top. A second hook plate (316) is fixedly installed on one side of the outer surface of the fixed plate (315) by screws. A connecting component (3161) is fixedly installed on the top of the fixed plate (315). A set of first hook plates (312) is fixedly connected to one side of the outer surface of each sliding seat (31) by screws. Each set of first hook plates (312) and second hook plates (316) has a connecting hook (3121) hooked on its hooking part. A buffer spring (313) is fixedly installed on the opposite side of each pair of connecting hooks (3121).

4. A data storage device with security protection according to claim 1, characterized in that: One end of the lead screw (21) is fixedly connected to a manual self-locking knob (4), which is a manual knob with a self-locking function.

5. A data storage device with security protection according to claim 3, characterized in that: Each of the connecting components (3161) has a data storage box (5) fixedly mounted on its top, and the data storage box (5) is a commercially available solid-state drive storage box.

6. A data storage device with security protection according to claim 2, characterized in that: The positional relationship of the set of rotating support arms (253) and electric telescopic rods (234) is that they are arranged in a cross configuration, and the bottom of the sliding pivot table (23) and the inner bottom of the mechanical placement cabinet (1) are in sliding cooperation.

7. A data storage device with security protection according to claim 2, characterized in that: There is a certain gap between the inner walls of the mechanical placement cabinet (1) and the force plate (3) to facilitate the lifting and lowering of the force plate (3) and the adjustment of the buffer distance.

8. A data storage device with security protection according to claim 5, characterized in that: A set of maintenance cabinet doors (11) is hinged to one side of the outer surface of the machine placement cabinet (1). A set of hinge connectors (12) is fixedly installed on the outer surface of the machine placement cabinet (1). A protective cover (13) is fixedly connected to the hinge mounting part of the set of hinge connectors (12). After opening the protective cover (13) and rotating the manual self-locking knob (4), the data storage box (5) can be exposed to the outside of the equipment shell.