A spliced server base structure

By using a modular design with locking hooks and lock holes, along with the combination of springs and pins, the problem of a fixed number of bases in existing technologies is solved, enabling flexible splicing and height adjustment of server bases and improving the flexibility of server installation.

CN224326897UActive Publication Date: 2026-06-05SHANDONG QUSHEN NETWORK TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG QUSHEN NETWORK TECHNOLOGY CO LTD
Filing Date
2025-05-19
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The number of existing metal frame server bases is fixed and cannot be adjusted according to the number of servers.

Method used

The base adopts a modular design, which allows for quick assembly and disassembly of the base through a locking hook and locking hole structure. The height of the base can be adjusted by the cooperation of springs and pins to accommodate servers of different sizes.

Benefits of technology

It allows for flexible adjustment of the number and height of the bases, facilitating quick assembly or disassembly according to server needs, thus improving the flexibility and adaptability of server installation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to server base technical field discloses a spliced server base structure, including the placement board, the top fixedly connected with square cylinder no.
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Description

Technical Field

[0001] This utility model relates to the field of server base technology, and in particular to a splicing server base structure. Background Technology

[0002] In the digital age, servers, as core devices for data storage, processing, and transmission, are widely used in various critical fields. From large data centers supporting massive amounts of internet services to enterprise server rooms ensuring the stable operation of daily office and business systems, the stable operation of servers is crucial. The server chassis, as the fundamental component supporting the server, directly affects the overall operational status of the server.

[0003] Currently, the most common server stands on the market are of the metal frame structure type. Metal frame structures, due to their high strength, can effectively support the weight of servers and are widely used in traditional data centers. However, because metal frame server stands are one-piece structures, the number is fixed and cannot be adjusted according to the number of servers. Utility Model Content

[0004] To overcome the above shortcomings, this utility model provides a modular server base structure, which aims to improve the problem that the number of bases is fixed and difficult to adjust in the prior art.

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

[0006] A modular server base structure includes a placement plate, a square cylinder fixedly connected to the top of the placement plate, a locking component installed in the square cylinder, a fixing plate fixedly connected to the bottom of the placement plate, and a modular assembly installed inside the fixing plate.

[0007] The splicing assembly includes a lock hole, which is opened inside the fixed plate. A mounting block is fixedly connected to the bottom of the placement plate. A spring is fixedly connected to the outside of the mounting block. A long strip is fixedly connected to the other end of the spring. A locking hook is fixedly connected to the bottom of the long strip. The locking hook and the lock hole are engaged with each other.

[0008] As a further description of the above technical solution:

[0009] The locking assembly includes a second spring, which is fixedly connected to the outside of the first square tube. The other end of the second spring is fixedly connected to a pressing plate. A rotating shaft is rotatably connected to the outside of the first square tube. A pin is fixedly connected to the outside of the rotating shaft. The rotating shaft is fixedly connected to the end of the pressing plate away from the second spring. A pin hole is opened on the outside of the second square tube. The pin and the pin hole are engaged with each other.

[0010] As a further description of the above technical solution:

[0011] A sliding strip is fixedly connected to the top of the long strip;

[0012] As a further description of the above technical solution:

[0013] The splicing assembly includes two opposite parts, and the other part of the long strip is fixedly connected to a second sliding strip;

[0014] As a further description of the above technical solution:

[0015] Another part of the spring is fixedly connected to a mounting block two, which is fixedly connected to the bottom of the placement plate;

[0016] As a further description of the above technical solution:

[0017] The bottom of the placement plate is provided with a sliding groove, and both the first slide bar and the second slide bar are slidably connected inside the sliding groove;

[0018] As a further description of the above technical solution:

[0019] The bottom of the placement plate is fixedly connected to a fixing frame, and the long strip is slidably connected inside the fixing frame.

[0020] This utility model has the following beneficial effects:

[0021] 1. In this invention, after the locking hook is inserted into the lock hole, the spring retracts, and the inclined surface of the locking hook slides in and locks in place. The splicing assembly has two completely opposite parts, which respectively engage with the two lock holes to achieve splicing. To disassemble, simply pinch slide bar one and slide bar two; spring bar one retracts again, and the locking hooks move towards each other, thus disengaging from the lock hole. This allows for quick disassembly of the base, facilitating adjustments to the number of servers.

[0022] 2. In this utility model, when the button is pressed, the second spring contracts under pressure, and the pin is also lifted due to the force, thereby adjusting the position of the second square cylinder. When the button is released, the second spring quickly returns to its original state, and the pin is inserted back into the pin hole, realizing the adaptability of the base to servers of different sizes. Attached Figure Description

[0023] Figure 1 This is a three-dimensional schematic diagram of a splicing server base structure proposed in this utility model;

[0024] Figure 2 This is a top view of a splicing server base structure proposed in this utility model;

[0025] Figure 3This is a schematic diagram of the locking component of a splicing server base structure proposed in this utility model;

[0026] Figure 4 This is an exploded view of the fixing plate of a splicing server base structure proposed in this utility model;

[0027] Figure 5 This is a schematic diagram of the assembly components of a modular server base structure proposed in this utility model.

[0028] Legend:

[0029] 1. Two square tubes; 2. Press plate; 3. One square tube; 4. Placement plate; 5. Two slide bars; 6. One slide bar; 7. Fixing plate; 8. Lock hole; 9. Two springs; 10. Rotating shaft; 11. Pin; 12. Pin hole; 13. One spring; 14. One mounting block; 15. Two mounting blocks; 16. Long strip plate; 17. Lock hook; 18. Slide groove; 19. Fixing bracket. Detailed Implementation

[0030] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0031] Reference Figures 1-5 An embodiment of this utility model is provided: a splicing server base structure, including a placement plate 4, a square tube 3 fixedly connected to the top of the placement plate 4, a square tube 1 slidably connected to the square tube 3, a locking component installed in the square tube 3, and a fixing plate 7 fixedly connected to the bottom of the placement plate 4, with a splicing component installed inside the fixing plate 7.

[0032] The splicing assembly includes a lock hole 8, which is located inside the fixing plate 7. A mounting block 14 is fixedly connected to the bottom of the placement plate 4. A spring 13 is fixedly connected to the outer side of the mounting block 14. A long strip 16 is fixedly connected to the other end of the spring 13. A locking hook 17 is fixedly connected to the bottom of the long strip 16. The locking hook 17 and the lock hole 8 engage with each other. When the locking hook 17 is inserted into the lock hole 8, the spring 13 contracts under force. Due to the inclined surface of the locking hook 17, it slides in and locks in place. A sliding strip 6 is fixedly connected to the top of the long strip 16. The splicing assembly includes two opposite parts, with two completely opposite sets that engage with the two lock holes 8 from different directions, thus enabling the splicing function. Another part of the long strip plate 16 is fixedly connected to the second slide bar 5, which is the opposite part of the long strip plate 16. Another part of the spring 13 is fixedly connected to the second mounting block 15. The second mounting block 15 is fixedly connected to the bottom of the placement plate 4. The bottom of the placement plate 4 is provided with a sliding groove 18. The first slide bar 5 and the first slide bar 6 are slidably connected inside the sliding groove 18. When the second slide bar 5 and the first slide bar 6 move towards each other, the two springs 13 retract, and the opposite locking hooks 17 move towards each other, so that they can be disengaged from the locking hole 8. Thus, the base can be quickly disassembled. The bottom of the placement plate 4 is fixedly connected to the fixing frame 19. The function of the fixing frame 19 is to fix the long strip plate 16. The long strip plate 16 is slidably connected inside the fixing frame 19.

[0033] Reference Figures 1-3 The locking assembly includes a second spring 9, which is fixedly connected to the outside of a square tube 3. The other end of the second spring 9 is fixedly connected to a button plate 2. A rotating shaft 10 is rotatably connected to the outside of the square tube 3. A pin 11 is fixedly connected to the outside of the rotating shaft 10. The pin 11 is T-shaped. When the button plate 2 is pressed, the second spring 9 is compressed, and the pin 11 is lifted. The rotating shaft 10 is fixedly connected to the end of the button plate 2 away from the second spring 9. A pin hole 12 is provided on the outside of the square tube 1. The pin 11 and the pin hole 12 are engaged with each other. After adjusting the position of the square tube 1, the button plate 2 is released, the second spring 9 is released and springs up, and the pin 11 is inserted into the pin hole 12. This allows the base to be adapted to servers of different sizes.

[0034] Working principle: First, when two server bases need to be spliced, insert the locking hook 17 into the locking hole 8. The spring 13 contracts under force. As the inclined surface of the locking hook 17 slides in and locks, and the splicing components have two completely opposite sets, which are locked into the two locking holes 8 from different directions, the splicing function can be realized. When it is necessary to disassemble, simply move the slider 5 and slider 6 in opposite directions. The two springs 13 contract, and the opposite locking hooks 17 move in opposite directions, so that they can be disassembled from the locking hole 8. This allows the base to be quickly disassembled so that the number of servers can be adjusted according to the number of servers.

[0035] In addition, when the height of the base needs to be adjusted, press the button 2. At this time, the spring 2 9 is compressed and the pin 11 is lifted. Adjust the position of the square tube 2 1, release the button 2, the spring 2 9 is released and popped open, and the pin 11 is inserted into the pin hole 12. This allows the base to be adapted to servers of different sizes.

[0036] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A modular server stand structure, comprising a placement plate (4), characterized in that: The top of the placement plate (4) is fixedly connected to a square tube one (3), the square tube one (3) is slidably connected to a square tube two (1), the square tube one (3) is equipped with a locking component, the bottom of the placement plate (4) is fixedly connected to a fixing plate (7), and the fixing plate (7) is equipped with a splicing component inside. The splicing assembly includes a lock hole (8), which is located inside the fixing plate (7). The bottom of the placement plate (4) is fixedly connected to a mounting block (14), and the outside of the mounting block (14) is fixedly connected to a spring (13). The other end of the spring (13) is fixedly connected to a long strip plate (16), and the bottom of the long strip plate (16) is fixedly connected to a locking hook (17). The locking hook (17) and the lock hole (8) are engaged with each other.

2. The modular server base structure according to claim 1, characterized in that: The locking assembly includes a second spring (9), which is fixedly connected to the outside of the first square tube (3). The other end of the second spring (9) is fixedly connected to a button plate (2). A rotating shaft (10) is rotatably connected to the outside of the first square tube (3). A pin (11) is fixedly connected to the outside of the rotating shaft (10). The rotating shaft (10) is fixedly connected to the end of the button plate (2) away from the second spring (9). A pin hole (12) is opened on the outside of the second square tube (1). The pin (11) and the pin hole (12) are engaged with each other.

3. The modular server base structure according to claim 2, characterized in that: The top of the long strip (16) is fixedly connected to a slide bar (6).

4. The modular server base structure according to claim 3, characterized in that: The splicing assembly includes two opposite parts, with the other part having a long strip (16) fixedly connected to a slide bar (5).

5. The modular server base structure according to claim 1, characterized in that: Another part of the spring one (13) is fixedly connected to the mounting block two (15), which is fixedly connected to the bottom of the placement plate (4).

6. The modular server stand structure according to claim 4, characterized in that: The bottom of the placement plate (4) is provided with a sliding groove (18), and the second slide bar (5) and the first slide bar (6) are slidably connected inside the sliding groove (18).

7. The modular server base structure according to claim 1, characterized in that: The bottom of the placement plate (4) is fixedly connected to a fixing frame (19), and the long strip plate (16) is slidably connected inside the fixing frame (19).