A support structure for a server used for data protection in a virtual environment

CN224453511UActive Publication Date: 2026-07-03CHINA YANGTZE POWER

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHINA YANGTZE POWER
Filing Date
2025-07-02
Publication Date
2026-07-03

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    Figure CN224453511U_ABST
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Abstract

A support structure for a server used for virtual environment data protection includes a base with a mounting slot inside. Multiple dampers are mounted at the bottom of the mounting slot, and the upper ends of the dampers are connected to a placement plate for mounting the server. Adjustment plates are located at relative positions (front-back, left-right, or front-back-left-right) on the upper part of the mounting slot. Each adjustment plate has a contact wheel mounted on one side, which clamps the server. The other side of each adjustment plate is connected to an adjustment component on the base. The adjustment component moves the adjustment plate, thereby adjusting the clamping force of the contact wheels on the server. This support structure for a server used for virtual environment data protection provides effective vibration damping.
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Description

Technical Field

[0001] This utility model relates to support structures, and in particular to a support structure for a server used for data protection in a virtual environment. Background Technology

[0002] A virtual environment data protection server is a server device specifically designed to protect data in virtual environments. A virtual environment uses software technology to abstract and virtualize physical computer resources (such as CPU, memory, storage, and network), creating multiple isolated logical computing environments. Different operating systems, applications, and services can run independently in these virtual environments, enabling efficient resource utilization and flexible allocation. Data security is paramount in virtual environments. This data may include confidential corporate information, customer data, and business operation data. Virtual environment data protection servers are designed to meet data protection needs such as data encryption, access control, data backup and recovery, and data integrity verification. Currently, servers often have support bases at the bottom. However, traditional server support bases have holes in fixed positions on the surface and use bolts to fix server racks of a fixed size. This makes it impossible to fix racks of different sizes, resulting in a narrow range of applicability.

[0003] Existing technology CN218450869U discloses a server support base, including a support frame, support feet fixedly connected to the four corners of the bottom of the support frame, a connecting folding block fixedly connected to the middle of the left side of the support frame by fixing bolts, a horizontal sliding rod slidably connected to the side of the connecting folding block, the other end of the horizontal sliding rod fixedly connected to a horizontal sliding plate, and a mounting block fixedly connected to the middle of the side of the horizontal sliding plate by bolts. This device has fixing components at each of the four corners of the support frame. The fixing components are slidably mounted on the connecting folding block via the horizontal sliding rod, and the connecting folding block is fixedly mounted on the support frame. The horizontal sliding plate can be moved horizontally by the horizontal sliding rod and fixed by the first bolt. Furthermore, the position of the fixing components on the top surface of the top plate can be changed by the second bolt, thereby changing the distance between the four sets of fixing components. Ultimately, the entire support base can be quickly fixed to server racks of different sizes.

[0004] While the aforementioned server support bracket can secure server racks of different sizes, servers inevitably experience bumps, collisions, or impacts during transportation or handling. The lack of effective cushioning measures in this device can easily lead to loosening of delicate internal components, affecting the accuracy of data reading and writing, and even causing data loss. Summary of the Invention

[0005] The technical problem to be solved by this utility model is to provide a support structure for a server for data protection in a virtual environment. This solves the problem that although the existing technology can fix server racks of different sizes, it lacks effective measures, which can easily lead to loosening of precision components inside the server, affecting the accuracy of data reading and writing, and even causing data loss.

[0006] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is as follows:

[0007] A support structure for a server used for virtual environment data protection includes a base with a mounting slot inside. Multiple dampers are mounted at the bottom of the mounting slot, and the upper ends of the dampers are connected to a placement plate for mounting the server. Adjustment plates are located at relative positions (front-back, left-right, or front-back-left-right) on the upper part of the mounting slot. Each adjustment plate has a contact wheel mounted on one side, and the opposing contact wheels clamp the server. The other side of each adjustment plate is connected to an adjustment component on the base, which adjusts the movement of the adjustment plate, thereby adjusting the clamping force of the opposing contact wheels on the server.

[0008] The damper is a hydraulic damper.

[0009] Each damper is fitted with a spring, with its two ends connected to the bottom of the mounting slot and the placement plate, respectively.

[0010] The adjusting component includes a support frame, which is fixedly connected to the base and faces the through groove of the base; an adjusting screw is threaded onto the support frame, which extends horizontally into the mounting groove and is rotatably connected to the adjusting plate.

[0011] A locking nut is threaded onto the adjusting screw on the outside of the support frame.

[0012] A sliding sleeve is fixed on the support frame, the sliding sleeve passes through the support frame, the tail of the guide rod slides in cooperation with the sliding sleeve, and the head of the guide rod is fixedly connected to the adjustment plate.

[0013] The adjusting screw is provided with a sliding sleeve on the left and right sides respectively, and each sliding sleeve is equipped with a guide rod.

[0014] The inner wall of the mounting slot has vertically spaced limiting grooves on the front, back, left, and right sides. The periphery of the placement plate has protrusions that are embedded in the limiting grooves and slide in cooperation with them.

[0015] A cushioning pad is fixed to the upper end of the placement plate.

[0016] The support frame is U-shaped.

[0017] This utility model provides a support structure for a server used for data protection in a virtual environment, which has the following technical effects:

[0018] 1) Due to bumps, collisions, or shaking during transportation, internal components may shift or experience sudden strong impacts, potentially damaging parts. By using dampers and springs, the energy generated by vibrations or impacts is absorbed and dissipated, reducing the impact force on the server used for virtual environment data protection, thereby protecting the server.

[0019] 2) By using contact wheels, a certain clamping force can be ensured relative to the clamping plate to realize the installation of the server; at the same time, it can also play a buffering role in the vertical direction when combined with the damper. Attached Figure Description

[0020] The present invention will be further described below with reference to the accompanying drawings and embodiments:

[0021] Figure 1 This is a schematic diagram of the structure of this utility model.

[0022] Figure 2 This is a schematic diagram of the internal structure of the base in this utility model.

[0023] Figure 3 This is a schematic diagram of the adjusting component in this utility model.

[0024] In the figure: base 101, damper 102, placement plate 103, spring 104, adjusting plate 105, contact wheel 106, limit groove 107, protrusion 108, support frame 109, sliding sleeve 110, guide rod 111, adjusting screw 112, locking nut 113, buffer pad 114. Detailed Implementation

[0025] like Figure 1-3 As shown, a support structure for a virtual environment data protection server includes a base 101 with a mounting slot for mounting the server. Multiple dampers 102 are vertically mounted at the bottom of the mounting slot. The lower ends of the dampers 102 are fixedly connected to the base 101, and the telescopic ends of the upper ends of the dampers 102 are fixedly connected to a placement plate 103. The placement plate 103 is a rectangular plate used for mounting and supporting the virtual environment data protection server.

[0026] A spring 104 is also provided between the base 101 and the placement plate 103, and the number of springs 104 matches the number of dampers 102. Each spring 104 is sleeved on the outside of the corresponding damper 102. The spring 104 mainly provides elastic force. Through the cooperation of the damper 102 and the spring 104, the vibration reduction of the placement plate 103 can be achieved.

[0027] The damper 102 is a hydraulic damper, consisting of a cylinder, piston, piston rod, and damping medium (such as hydraulic oil). The piston moves within the cylinder, and damping force is generated by controlling the flow of hydraulic oil on both sides of the piston.

[0028] Adjustable plates 105, rectangular in shape, are provided on the upper part of the mounting slot at all four sides. Each adjustable plate 105 has a contact wheel 106 mounted on its side closest to the center of the mounting slot. The contact wheel 106 makes vertical rolling contact with the outer side of the virtual environment data protection server. The side of each adjustable plate 105 furthest from the center of the mounting slot is connected to the base 101 via an adjusting component. The adjusting component can drive the adjustable plate 105 to move, thereby adjusting the position of the contact wheel 106.

[0029] Multiple sets of contact wheels 106 in the front, back, left, and right directions can limit the virtual environment data protection server and prevent it from shifting on the placement plate 103.

[0030] The adjusting component includes a support frame 109, which is fixedly connected to the base 101 and located on the outside of the base 101 (directly opposite the through slot of the base 101 at that location); a sliding sleeve 110 is fixedly connected to the support frame 109 and passes through the support frame 109. The tail of the guide rod 111 is slidably engaged with the sliding sleeve 110, and the head of the guide rod 111 passes through the through slot of the base 101 and is fixedly connected to the adjusting plate 105. In this way, the adjusting plate 105 can move as the guide rod 111 slides. In addition, the tail of the adjusting screw 112 is threadedly connected to the support frame 109, and the head of the adjusting screw 112 is rotatably connected to the adjusting plate 105 through a bearing. By turning the adjusting screw 112, the adjusting screw 112 moves relative to the support frame 109, thereby controlling the adjusting plate 105 to move into position.

[0031] Preferably, a locking nut 113 is threaded onto the adjusting screw 112 on the outer side of the support frame 109. Tightening the locking nut 113 so that it abuts against the outer end face of the support frame 109 can further lock the adjusting screw 112.

[0032] Preferably, the support frame 109 is U-shaped, and two sliding sleeves 110 are arranged at corresponding intervals on the support frame 109. Each sliding sleeve 110 is slidably connected to a guide rod 111, and the sliding sleeve 110 is used to guide the movement of the guide rod 111. The two guide rods 111 make the connection and movement of the adjusting plate 105 more stable.

[0033] Preferably, the inner wall of the mounting groove has vertically spaced limiting grooves 107 on the front, back, left, and right sides, and the periphery of the placement plate 103 has protrusions 108, which are embedded in the limiting grooves 107 and slide in cooperation with them. Through the cooperation between the protrusions 108 and the limiting grooves 107, the placement plate 103 can be guided, thereby improving its stability.

[0034] Preferably, a buffer pad 114 is fixed to the upper end of the placement plate 103. The buffer pad 114 is a rubber pad made of highly elastic and highly damping rubber material, which has good shock absorption and buffering performance. The buffer pad 114 is installed on the top of the placement plate 103 by adhesive bonding, and the buffer pad 114 can further play a buffering role.

[0035] Working principle and process:

[0036] In use, place the virtual environment data protection server on the buffer pad 114 of the placement plate 103. Then, adjust the four sets of contact wheels 106 so that all four sets of contact wheels 106 are in contact with the outer wall of the virtual environment data protection server. To adjust the contact wheels 106, simply turn the adjusting screw 112. After adjustment, tighten the locking nut 113 to secure it against the support frame 109.

Claims

1. A support structure for a server for virtual environment data protection, characterized by: The system includes a base (101) with an installation slot inside. Multiple dampers (102) are installed at the bottom of the installation slot. The upper ends of the multiple dampers (102) are connected to a placement plate (103), which is used to install a server for virtual environment data protection. Adjustment plates (105) are provided at the front-to-back, left-to-right, or front-to-back and left-to-right positions on the upper part of the installation slot. Each adjustment plate (105) has a contact wheel (106) installed on one side. The opposite contact wheel (106) clamps the server for virtual environment data protection. The other side of the adjustment plate (105) is connected to an adjustment component on the base (101). The adjustment component adjusts the movement of the adjustment plate (105), thereby adjusting the clamping force of the opposite contact wheel (106) on the server for virtual environment data protection.

2. The support structure of a server for virtual environment data protection according to claim 1, characterized in that: The damper (102) is a hydraulic damper.

3. The support structure of a server for virtual environment data protection according to claim 2, characterized in that: Each damper (102) is fitted with a spring (104), and the two ends of the spring (104) are connected to the bottom of the mounting groove and the placement plate (103) respectively.

4. The support structure of a server for virtual environment data protection according to claim 3, characterized in that: The adjustment component includes a support frame (109), which is fixedly connected to the base (101) and faces the through groove of the base (101); an adjustment screw (112) is threadedly connected to the support frame (109), which extends horizontally into the mounting groove and is rotatably connected to the adjustment plate (105).

5. The support structure of a server for virtual environment data protection according to claim 4, characterized in that: A locking nut (113) is threaded onto the adjusting screw (112) located on the outside of the support frame (109).

6. The support structure of a server for virtual environment data protection according to claim 5, characterized in that: A sliding sleeve (110) is fixed on the support frame (109). The sliding sleeve (110) passes through the support frame (109). The tail of the guide rod (111) slides in cooperation with the sliding sleeve (110). The head of the guide rod (111) is fixedly connected to the adjusting plate (105).

7. The support structure of a server for virtual environment data protection according to claim 6, characterized in that: The adjusting screw (112) is provided with a sliding sleeve (110) on the left and right sides respectively, and each sliding sleeve (110) is equipped with a guide rod (111).

8. The support structure of a server for virtual environment data protection according to claim 7, characterized in that: The inner wall of the mounting groove has vertically oriented grooves (107) on the front, back, left and right sides. The periphery of the placement plate (103) has protrusions (108), which are embedded in the oriented grooves (107) and slide in cooperation with the oriented grooves (107).

9. The support structure of a server for virtual environment data protection according to claim 8, characterized in that: A buffer pad (114) is fixed to the upper end of the placement plate (103).

10. The support structure of a server for virtual environment data protection according to claim 9, characterized in that: The support frame (109) is U-shaped.