Computer room wiring connection device

By designing a computer room cable connection device that includes an arc groove and a sliding structure, the problem of not being able to clamp cables of different diameters at the same time in the existing technology is solved, and the stable fixing and sorting of multiple cables is achieved.

CN224418348UActive Publication Date: 2026-06-26绥化市北林区大数据中心

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
绥化市北林区大数据中心
Filing Date
2025-07-16
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing computer room wiring connections cannot effectively clamp and secure cables of different diameters simultaneously.

Method used

A connecting device was designed, comprising components such as a lower fixed clamping plate, an upper fixed clamping plate, an arc-shaped moving block, a U-shaped fixed plate, a sliding pull rod, a pull rod upper plate, a spring, a wedge block, and a T-shaped slider. The device uses an arc-shaped groove and a sliding structure to clamp and compress cables of different diameters.

Benefits of technology

It effectively clamps and fixes cables of different diameters, preventing the cables from sliding in the groove. It is easy to use and suitable for fixing multiple cables.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224418348U_ABST
    Figure CN224418348U_ABST
Patent Text Reader

Abstract

Computer room line connection device for computer, including lower fixed clamping plate, upper fixed clamping plate, arc moving block, U-shaped fixed plate, sliding pull rod, pull rod upper plate, spring, wedge block, T-shaped slider, rotating clamping plate, clamping block, the lower fixed clamping plate side has lower clamping plate side ear, the upper fixed clamping plate side has upper clamping plate side ear, the upper clamping plate side ear side is attached with the lower clamping plate side ear, the lower clamping plate side ear is symmetrically arranged on the both sides of the upper clamping plate side ear, the upper clamping plate side ear is connected with the symmetric lower clamping plate side ear through No.2 rotating shaft, the lower fixed clamping plate upper part has multiple lower arc grooves, the upper fixed clamping plate lower part has multiple upper arc grooves, the upper arc groove is same in diameter with the lower arc groove, the upper fixed clamping plate has rectangular slot, the arc moving block is adapted to the rectangular slot, the arc moving block is inserted into the rectangular slot, the arc moving block slides in the rectangular slot.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of computers, and in particular to a wiring connection device for computer rooms. Background Technology

[0002] An existing patent (publication number: CN116826611A) discloses a computer room cabling device, including a base plate. A handrail is fixedly connected to the upper surface of the base plate, and casters are symmetrically fixedly connected to the lower surface of the base plate. Two support plates are fixedly connected to the upper surface of the base plate on one side of the handrail. A cable exit plate is fixedly connected to the upper surface of the base plate on one side of the support plates. A cable reel fixing mechanism is rotatably connected to the inner surface of the support plates and fixedly connected to the base plate. A cable cutting mechanism is fixedly connected to the upper surface of the base plate on one side of the cable exit plate. A cable clamping and conveying mechanism is slidably connected to the upper surface of the base plate between the support plates and the cable exit plate. However, this device cannot simultaneously clamp cables of different diameters. Summary of the Invention

[0003] This invention addresses the aforementioned shortcomings of existing technologies by providing a user-friendly device for fixing multiple cables of different diameters in a computer room.

[0004] The objective of this utility model is achieved through the following technical solution:

[0005] A wiring connection device for a computer room includes a lower fixed clamping plate, an upper fixed clamping plate, an arc-shaped moving block, a U-shaped fixed plate, a sliding pull rod, a pull rod upper plate, a spring, a wedge block, a T-shaped slider, a rotating clamping plate, and a clamping block. The lower fixed clamping plate has a lower clamping plate side ear on its side, and the upper fixed clamping plate has an upper clamping plate side ear on its side. The side of the upper clamping plate side ear fits into the side of the lower clamping plate side ear. The lower clamping plate side ears are symmetrically arranged on both sides of the upper clamping plate side ear. The upper clamping plate side ears are connected to the symmetrical lower clamping plate side ears through a second rotating shaft. The upper part of the lower fixed clamping plate has multiple lower arc-shaped grooves, and the lower part of the upper fixed clamping plate has multiple upper arc-shaped grooves. The upper arc-shaped grooves have the same diameter as the lower arc-shaped grooves. The upper fixed clamping plate has a rectangular slot. The arc-shaped moving block is adapted to the rectangular slot and is inserted into the rectangular slot. The arc-shaped moving block slides within the rectangular slot.

[0006] The lower part of the U-shaped fixing plate is connected to the upper fixing clamp. Multiple U-shaped fixing plates are evenly distributed on the upper part of the upper fixing clamp. The lower part of the arc-shaped moving block has the same diameter as the upper arc-shaped groove. The sliding rod passes through the U-shaped fixing plate and connects to the arc-shaped moving block. The sliding rod slides inside the U-shaped fixing plate. The upper part of the sliding rod is connected to the upper plate of the rod.

[0007] The spring is sleeved on the sliding rod, with the lower part of the spring abutting against the arc-shaped moving block and the upper part of the spring abutting against the U-shaped fixed plate. The upper part of the U-shaped fixed plate has a strip-shaped sliding hole, and the lower part of the strip plate is connected to a T-shaped slider. The T-shaped slider is adapted to the strip-shaped sliding hole, and the T-shaped slider passes through the strip-shaped sliding hole to connect to the strip plate. The T-shaped slider slides in the strip-shaped sliding hole.

[0008] The strip plate has a wedge-shaped block on its side, and the wedge-shaped block has a clearance groove. The sliding rod is adapted to the clearance groove, and the sliding rod is inserted into the clearance groove. The sliding rod slides in the clearance groove, and the lower surface of the strip plate is in contact with the upper surface of the U-shaped fixing plate. Beneficial effects

[0009] 1. The upper clamping plate side ear of this utility model is connected to the lower clamping plate side ear through the No. 2 rotating shaft, so that the side of the upper fixed clamping plate is connected to the side of the lower fixed clamping plate and the two can be rotated open. The arc structure of the upper arc groove and the lower arc groove is smaller than a semicircle. During use, it can clamp cables of different diameters, so that the cables are placed between the lower arc groove and the upper arc groove. The arc moving block is inserted into the rectangular slot. The arc moving block is set to a structure that can slide up and down. During use, according to the different diameter cables placed in the device, the arc moving block in different upper arc grooves extends and retracts to press the corresponding cables. In the computer room wiring connection, it prevents the cables from sliding in the lower arc groove and the upper arc groove. The U-shaped fixing plate is installed on the upper part of the upper fixed clamping plate. The sliding pull rod passes through the U-shaped fixing plate and is connected to the arc moving block by a spring. The sliding pull rod controls the up and down sliding of the arc moving block.

[0010] 2. This utility model uses a U-shaped fixed plate as support to apply downward pressure to an arc-shaped moving block, causing the arc-shaped moving block to move downward and press the corresponding cable. A T-shaped slider passes through a strip-shaped sliding hole and connects to a strip plate, ensuring that the lower surface of the strip plate is always in contact with the U-shaped fixed plate, while limiting the sliding distance of the strip plate. This prevents the strip plate from falling off the U-shaped fixed plate during computer room wiring connections. A sliding pull rod is inserted into a clearance slot, and a wedge block supports the upper plate of the pull rod, thereby positioning the arc-shaped moving block inside the rectangular slot. When the device needs to be used to connect and fix cables, the strip plate is moved to allow the sliding pull rod to slide out of the clearance slot, causing the arc-shaped moving block to slide downward and press the cable. The side of the wedge block is inclined, making it easy to insert the wedge block between the upper plate of the pull rod and the U-shaped fixed plate. This device is easy to use and can be used to fix multiple cables of different diameters. Attached Figure Description

[0011] Figure 1 This is a top view of the computer room wiring connection device described in this utility model.

[0012] Figure 2 This is a bottom view of the computer room wiring connection device described in this utility model.

[0013] Figure 3 This is a schematic diagram of the lower fixed clamping plate structure described in this utility model.

[0014] Figure 4 This is a schematic diagram of the upper fixing clamp and U-shaped fixing plate structure described in this utility model.

[0015] Figure 5 This is a first view of the wedge block described in this utility model.

[0016] Figure 6 This is a second view of the wedge block described in this utility model. Detailed Implementation

[0017] The present invention will be further described in detail below with reference to the accompanying drawings and embodiments:

[0018] Example 1:

[0019] A wiring connection device for a computer room includes a lower fixed clamping plate 01, an upper fixed clamping plate 04, an arc-shaped moving block 07, a U-shaped fixed plate 08, a sliding pull rod 09, a pull rod upper plate 10, a spring 11, a wedge block 14, a T-shaped slider 17, a rotating clamping plate 18, and a clamping block 22. The lower fixed clamping plate 01 has a lower clamping plate side lug 03 on its side, and the upper fixed clamping plate 04 has an upper clamping plate side lug 13 on its side. The side of the upper clamping plate side lug 13 fits against the side of the lower clamping plate side lug 03. The lower clamping plate side lugs 03 are symmetrically arranged on both sides of the upper clamping plate side lug 13. The upper clamping plate side lugs 13 are connected to the symmetrical lower clamping plate side lugs 03 through a second rotating shaft 23, so that the side of the upper fixed clamping plate 04 is connected to the side of the lower fixed clamping plate 01 while both can be rotated open. The upper part of the lower fixed clamping plate 01 has multiple lower arc-shaped grooves 02, and the upper fixed clamping plate 04... The lower part has multiple upper arc-shaped grooves 05, which have the same diameter as the lower arc-shaped grooves 02. The arc structure of the upper arc-shaped grooves 05 and the lower arc-shaped grooves 02 is smaller than a semicircle. During use, it can clamp cables of different diameters, placing the cables between the lower arc-shaped grooves 02 and the upper arc-shaped grooves 05. The upper fixed clamping plate 04 has a rectangular slot 06. The arc-shaped moving block 07 is adapted to the rectangular slot 06. The arc-shaped moving block 07 is inserted into the rectangular slot 06 and slides within the rectangular slot 06. The arc-shaped moving block 07 is designed to slide up and down. During use, according to the different diameter cables placed in the device, the arc-shaped moving blocks 07 in different upper arc-shaped grooves 05 extend and retract to press the corresponding cables, preventing the cables from sliding within the lower arc-shaped grooves 02 and the upper arc-shaped grooves 05 in computer room wiring connections.

[0020] Example 2:

[0021] The lower part of the U-shaped fixing plate 08 of this utility model is connected to the upper fixing clamp 04. The U-shaped fixing plate 08 is installed on the upper fixing clamp 04. Multiple U-shaped fixing plates 08 are evenly distributed on the upper fixing clamp 04. The lower part of the arc-shaped moving block 07 has the same diameter as the upper arc-shaped groove 05. The sliding rod 09 passes through the U-shaped fixing plate 08 and connects to the arc-shaped moving block 07. The sliding rod 09 slides in the U-shaped fixing plate 08. The upper part of the sliding rod 09 is connected to the upper rod plate 10.

[0022] Example 3:

[0023] The spring 11 described in this invention is sleeved on the sliding rod 09. The lower part of the spring 11 abuts against the arc-shaped moving block 07, and the upper part of the spring 11 abuts against the U-shaped fixing plate 08. The sliding rod 09 passes through the U-shaped fixing plate 08, and the spring 11 connects to the arc-shaped moving block 07. The sliding rod 09 controls the up-and-down sliding of the arc-shaped moving block 07. The spring 11, supported by the U-shaped fixing plate 08, applies downward pressure to the arc-shaped moving block 07, causing the arc-shaped moving block 07 to move downward and press against the corresponding cable. The U-shaped fixing plate 08 has a strip-shaped sliding hole 12 on its upper part, and a T-shaped slider 17 is connected to the lower part of the strip plate 16. The T-shaped slider 17 is adapted to the strip-shaped sliding hole 12 and passes through the strip-shaped sliding hole 12 to connect to the strip plate 16. The T-shaped slider 17 slides in the strip-shaped sliding hole 12, so that the lower surface of the strip plate 16 is always in contact with the U-shaped fixing plate 08, while limiting the sliding distance of the strip plate 16. This prevents the strip plate 16 from falling off the U-shaped fixing plate 08 during computer room wiring connections.

[0024] Example 4:

[0025] The strip plate 16 of this utility model has a wedge block 14 on its side, and the wedge block 14 has a clearance groove 15. The sliding rod 09 is adapted to the clearance groove 15. The sliding rod 09 is inserted into the clearance groove 15 and slides in the clearance groove 15. The upper plate 10 of the rod is supported by the wedge block 14, thereby positioning the arc-shaped moving block 07, so that the arc-shaped moving block 07 is placed inside the rectangular slot 06. The lower surface of the strip plate 16 is in contact with the upper surface of the U-shaped fixing plate 08.

[0026] Example 5:

[0027] The lower fixed clamping plate 01 of this utility model has a locking block 22 on its side. The side of the rotating clamping plate 18 is in contact with the upper fixed clamping plate 04. The mounting ear 20 is connected to the upper fixed clamping plate 04. The side of the rotating clamping plate 18 is in contact with the mounting ear 20. The upper part of the rotating clamping plate 18 is connected to the mounting ear 20 through a first rotating shaft 21. The lower part of the rotating clamping plate 18 has a clamping plate inner hole 19. The locking block 22 is adapted to the clamping plate inner hole 19. The locking block 22 is inserted into the clamping plate inner hole 19. The side of the rotating clamping plate 18 is in contact with the lower fixed clamping plate 01. When the device needs to be used to connect and fix the cable, the strip plate 16 is moved so that the sliding pull rod 09 slides out from the relief slot 15, so that the arc-shaped moving block 07 slides down to press the cable. The side of the wedge block 14 is inclined, which makes it easy to insert the wedge block 14 between the upper plate 10 of the pull rod and the U-shaped fixing plate 08. This device is easy to use and can be used to fix multiple cables of different diameters.

[0028] Installation steps: First, connect the mounting ear 20 to the upper fixing plate 04. Connect the upper part of the rotating clamping plate 18 to the mounting ear 20 through the first rotating shaft 21. Connect the upper clamping plate side ear 13 to the lower clamping plate side ear 03 through the second rotating shaft 23. Insert the arc-shaped moving block 07 into the rectangular slot 06. Pass the sliding rod 09 through the U-shaped fixing plate 08. Put the spring 11 on the sliding rod 09. Connect the lower part of the sliding rod 09 to the arc-shaped moving block 07. Connect the U-shaped fixing plate 08 to the upper fixing plate 04. Connect the clamping block 22 to the lower fixing plate 01. Fit the lower surface of the strip plate 16 with the U-shaped fixing plate 08. Pass the T-shaped slider 17 through the strip sliding hole 12 to connect the strip plate 16.

[0029] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A wiring connection device for computer room, characterized in that: The system includes a lower fixed clamping plate (01), an upper fixed clamping plate (04), an arc-shaped moving block (07), a U-shaped fixed plate (08), a sliding pull rod (09), a pull rod upper plate (10), a spring (11), a wedge block (14), a T-shaped slider (17), a rotating clamping plate (18), and a clamping block (22). The lower fixed clamping plate (01) has a lower clamping plate side ear (03) on its side, and the upper fixed clamping plate (04) has an upper clamping plate side ear (13) on its side. The side of the upper clamping plate side ear (13) is in contact with the side of the lower clamping plate side ear (03). The lower clamping plate side ear (03) is located on both sides of the upper clamping plate side ear (13). The upper clamping plate side ear (13) is connected to the symmetrical lower clamping plate side ear (03) through the second rotating shaft (23). The upper part of the lower fixed clamping plate (01) has multiple lower arc grooves (02), and the lower part of the upper fixed clamping plate (04) has multiple upper arc grooves (05). The upper arc grooves (05) and the lower arc grooves (02) have the same diameter. The upper fixed clamping plate (04) has a rectangular slot (06). The arc moving block (07) is adapted to the rectangular slot (06). The arc moving block (07) is inserted into the rectangular slot (06) and slides in the rectangular slot (06).

2. The computer room wiring connection device according to claim 1, characterized in that: The lower part of the U-shaped fixing plate (08) is connected to the upper fixing clamp (04). Multiple U-shaped fixing plates (08) are evenly distributed on the upper part of the upper fixing clamp (04). The lower part of the arc-shaped moving block (07) has the same diameter as the upper arc-shaped groove (05). The sliding rod (09) passes through the U-shaped fixing plate (08) and connects to the arc-shaped moving block (07). The sliding rod (09) slides in the U-shaped fixing plate (08). The upper part of the sliding rod (09) is connected to the upper rod plate (10).

3. The computer room wiring connection device according to claim 2, characterized in that: The spring (11) is sleeved on the sliding rod (09). The lower part of the spring (11) abuts against the arc-shaped moving block (07), and the upper part of the spring (11) abuts against the U-shaped fixing plate (08). The upper part of the U-shaped fixing plate (08) has a strip-shaped sliding hole (12). The lower part of the strip plate (16) is connected to the T-shaped slider (17). The T-shaped slider (17) is adapted to the strip-shaped sliding hole (12). The T-shaped slider (17) passes through the strip-shaped sliding hole (12) and connects to the strip plate (16). The T-shaped slider (17) slides in the strip-shaped sliding hole (12).

4. The computer room wiring connection device according to claim 3, characterized in that: The strip plate (16) has a wedge block (14) on its side, and the wedge block (14) has a clearance groove (15). The sliding rod (09) is adapted to the clearance groove (15). The sliding rod (09) is inserted into the clearance groove (15) and slides in the clearance groove (15). The lower surface of the strip plate (16) is in contact with the upper surface of the U-shaped fixing plate (08).

5. The computer room wiring connection device according to claim 1, characterized in that: The lower fixed clamp (01) has a locking block (22) on its side. The side of the rotating clamp (18) is in contact with the upper fixed clamp (04). The mounting ear (20) is connected to the upper fixed clamp (04). The side of the rotating clamp (18) is in contact with the mounting ear (20). The upper part of the rotating clamp (18) is connected to the mounting ear (20) through a first rotating shaft (21). The lower part of the rotating clamp (18) has a clamp inner hole (19). The locking block (22) is adapted to the clamp inner hole (19). The locking block (22) is inserted into the clamp inner hole (19). The side of the rotating clamp (18) is in contact with the lower fixed clamp (01).