A new computer room wiring device
The design of the rotating plate and the clamping sleeve structure solves the problem of inconvenient cable removal in existing wiring devices, realizing convenient cable storage and stable fixation, and improving heat dissipation and preventing cables from falling out.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEILONGJIANG INST OF TECH
- Filing Date
- 2025-06-21
- Publication Date
- 2026-06-19
AI Technical Summary
In existing computer room cabling systems, the connection between the clamping platform and the clamping frame is not easy to disassemble, making it inconvenient to remove and replace cables.
A rotating plate structure was designed to allow the fixed plate and the rotating plate to be rotatably connected. Through the cooperation of the open sleeve and the inclined clip, the cable can be detachably stored and positioned. Combined with the positioning mechanism of the magnetic block and the support slide rod, the cable is stably fixed.
It enables convenient removal and organization of cables, improves heat dissipation, prevents cables from falling out of the sleeve and moving around, and simplifies the operation process.
Smart Images

Figure CN224384964U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of computers, and in particular to a novel computer room cabling device. Background Technology
[0002] An existing patent (publication number: CN221614520U) discloses a comprehensive cabling device for a data center, including a clamping platform. The bottom of the inner wall of the clamping platform has several clamping grooves. A threaded rod is rotatably connected to the left end of the clamping platform and extends through the top. A clamping frame is threadedly connected to the outer wall of the threaded rod. A rotating shaft is rotatably connected to the rear end of the clamping platform. The rotating shaft has several winding grooves. A rocker arm is fixedly connected to the left end of the rotating shaft, extending through the rear left end of the clamping platform. An adjusting rod is slidably connected to the top right side of the rear end of the clamping platform. An adjusting component is fixedly connected to the right end of the rotating shaft. Installation components are fixedly connected to the four corners of the bottom end of the clamping platform. However, the connection between the clamping platform and the clamping frame in this device is inconvenient for disassembly to remove or replace cables, requiring improvement. Summary of the Invention
[0003] To address the aforementioned shortcomings of existing technologies, this utility model provides a novel computer room cabling device with a rotating plate that allows for easy removal of cables by rotating the plate and opening the device.
[0004] The objective of this utility model is achieved through the following technical solution:
[0005] A novel computer room cabling device includes a fixed plate, an open sleeve, a fixed plate connecting sleeve, a rotating plate, a rotating plate connecting sleeve, a strip pressure plate, a strip sliding hole, a rectangular connecting plate, a strip connecting plate, a magnetic block, and a strip push plate. The fixed plate has a fixed plate connecting sleeve on its side, and the rotating plate has a rotating plate connecting sleeve on its side. The fixed plate connecting sleeve and the rotating plate connecting sleeve are fitted together. The rotating plate connecting sleeve is symmetrically arranged at the upper and lower ends of the fixed plate connecting sleeve. The fixed plate connecting sleeve is connected to the symmetrical rotating plate connecting sleeve via a rotating shaft. The fixed plate has multiple open sleeves on its side, and each open sleeve has a sleeve side edge. A set of sleeve side edges are symmetrically arranged on the side of the open sleeve. The open sleeve has multiple sleeve ventilation holes. The rotating plate has multiple strip sliding holes. The side of the rectangular connecting plate is fitted with the rotating plate. The rectangular connecting plate is connected to an inclined strip. The inclined strip is adapted to the strip sliding hole and is inserted into the strip sliding hole. The inclined strip slides up and down within the strip sliding hole.
[0006] A set of inclined clips are symmetrically arranged on the side of a rectangular connecting plate. The inclined clips fit against the side edge of the sleeve. The side of the rectangular connecting plate is connected to a strip connecting plate. The side of the strip connecting plate is connected to a handle. The side of the magnetic block is connected to a rotating plate. The lower surface of the strip connecting plate fits against the magnetic block. The strip pressure plate is inserted into the open sleeve.
[0007] The rotating plate has multiple rotating plate vent holes. A support slide rod is connected to the side of the strip pressure plate. A set of support slide rods are distributed on the side of the strip pressure plate. The support slide rods are adapted to the rotating plate vent holes. The support slide rods pass through the rotating plate vent holes and slide within the rotating plate vent holes. A circular baffle is connected to the side of the support slide rod. Beneficial effects
[0008] 1. This utility model relates a fixed plate connecting sleeve to a symmetrical rotating plate connecting sleeve via a rotating shaft, connecting the fixed plate and the rotating plate. The rotating plate is rotatable relative to the fixed plate. The rotating plate is designed to be rotatable for easy rotation. The rotating plate opening device allows the cable to be removed. Multiple open sleeves distributed on the side of the fixed plate store the cable. One cable is placed in each open sleeve, which facilitates cable management and heat dissipation. Multiple ventilation holes on the side of the open sleeves allow for cable cooling. An inclined clip passes through a strip-shaped sliding hole and connects to a rectangular connecting plate. A connecting plate and symmetrical inclined clips form a movable card holder. The inclined clips are inserted into the strip-shaped sliding holes, allowing the card holder to be mounted on the rotating plate. The card holder can move up and down. When the rotating plate is rotated to close the device, the card holder slides down to allow the inclined clips to engage with the side edge of the card sleeve. The inclined engagement structure between the inclined clips and the side edge of the card sleeve positions the rotating plate, preventing the rotating plate from opening in computer room wiring and ensuring the closure of the side of the open card sleeve. This also prevents cables from falling out of the open card sleeve in computer room wiring. Multiple card holders are connected in series through the strip-shaped connecting plate, allowing simultaneous control of the movement of multiple card holders and facilitating the operation of the device.
[0009] 2. In this utility model, the magnetic block is installed and fixed on the rotating plate. The lower surface of the strip connecting plate is magnetically connected to the magnetic block. The magnetic block positions multiple card seats, ensuring the engagement state of the inclined card strip and the side edge of the card sleeve. The support slide rod passes through the ventilation hole of the rotating plate and connects to the strip pressure plate. A set of support slide rods positions the strip pressure plate. The movement of the support slide rods controls the movement of the strip pressure plate. The support slide rod passes through the strip push plate. A set of circular baffles connects and fixes the strip push plate to the support slide rod. The movement of the strip push plate can drive multiple support slide rods to move simultaneously, thereby allowing multiple strip pressure plates to be inserted into the open card sleeve at the same time and pressing the cable into the open card sleeve. In computer room cabling, this prevents the cable from moving and positions the cable at a fixed point. The threaded top rod passes through the strip push plate and connects to the inner threaded sleeve. Rotating the threaded top rod controls the movement of the strip pressure plate and performs pressing operations on cables of different diameters. Attached Figure Description
[0010] Figure 1 This is a front view of a novel computer room cabling device according to the present invention.
[0011] Figure 2 This is a rear view of a novel computer room cabling device according to the present invention.
[0012] Figure 3 This is a cross-sectional view of a novel computer room cabling device according to the present invention.
[0013] Figure 4 This is a schematic diagram of the fixing plate structure described in this utility model.
[0014] Figure 5 This is a schematic diagram of the rotating plate structure described in this utility model. Detailed Implementation
[0015] The present invention will be further described in detail below with reference to the accompanying drawings and embodiments:
[0016] Example 1:
[0017] A novel computer room cabling device includes a fixed plate 01, an open sleeve 02, a fixed plate connecting sleeve 05, a rotating plate 06, a rotating plate connecting sleeve 08, a strip pressure plate 09, a strip sliding hole 10, a rectangular connecting plate 11, a strip connecting plate 13, a magnetic block 15, and a strip push plate 16. The fixed plate 01 has a fixed plate connecting sleeve 05 on its side, and the rotating plate 06 has a rotating plate connecting sleeve 08 on its side. The fixed plate connecting sleeve 05 and the rotating plate connecting sleeve 08 are fitted together. The rotating plate connecting sleeve 08 is symmetrically arranged at the upper and lower ends of the fixed plate connecting sleeve 05. The fixed plate connecting sleeve 05... A symmetrical rotating plate connecting sleeve 08 is connected via a rotating shaft 20, connecting the fixed plate 01 and the rotating plate 06. The rotating plate 06 is rotatable relative to the fixed plate 01. The rotating plate 06 is designed to be rotatable for easy rotation. The device can be opened by rotating the rotating plate 06 to remove the cable. The fixed plate 01 has multiple open sleeves 02 on its side. These open sleeves 02 are distributed on the side of the fixed plate 01 to store the cable. One cable is placed in each open sleeve 02. This arrangement facilitates cable management and also helps with cable heat dissipation. The sleeve 02 has a sleeve side edge 03 on its side. A set of sleeve side edges 03 are symmetrically arranged on the side of the open sleeve 02. The open sleeve 02 has multiple sleeve ventilation holes 04. The multiple sleeve ventilation holes 04 on the side of the open sleeve 02 dissipate heat from the cable. The rotating plate 06 has multiple strip-shaped sliding holes 10. The side of the rectangular connecting plate 11 is in contact with the rotating plate 06. The rectangular connecting plate 11 is connected to the inclined locking strip 12. The inclined locking strip 12 is adapted to the strip-shaped sliding hole 10. The inclined locking strip 12 is inserted into the strip-shaped sliding hole 10 and slides up and down in the strip-shaped sliding hole 10. The inclined locking strip 12 passes through the strip The rectangular connecting plate 11 is connected to the sliding hole 10. The rectangular connecting plate 11 and the symmetrical inclined locking strip 12 form a movable locking seat, so that the locking seat is installed on the rotating plate 06 and the locking seat can move up and down. When the rotating plate 06 is rotated to close the device, the locking seat slides down to make the inclined locking strip 12 insert into the side edge 03 of the sleeve. The inclined insertion structure of the inclined locking strip 12 and the side edge 03 of the sleeve positions the rotating plate 06, preventing the rotating plate 06 from opening in the computer room wiring, ensuring the closure of the side of the open sleeve 02, and preventing the cable from falling out of the open sleeve 02 in the computer room wiring.
[0018] Example 2:
[0019] In this invention, a set of inclined card strips 12 are symmetrically arranged on the side of a rectangular connecting plate 11. The inclined card strips 12 are in contact with the side edge 03 of the card sleeve. The side of the rectangular connecting plate 11 is connected to a strip connecting plate 13, which connects multiple card seats in series, allowing simultaneous control of the movement of multiple card seats and facilitating the operation of the device. The side of the strip connecting plate 13 is connected to a handle 14, and the side of the magnetic block 15 is connected to a rotating plate 06. The lower surface of the strip connecting plate 13 is in contact with the magnetic block 15, and the magnetic block 15 is installed and fixed on the rotating plate 06. The lower surface of the strip connecting plate 13 is magnetically connected to the magnetic block 15, and the magnetic block 15 positions multiple card seats, ensuring the engagement state of the inclined card strips 12 and the side edge 03 of the card sleeve. The strip pressure plate 09 is inserted into the open card sleeve 02.
[0020] Example 3:
[0021] The rotating plate 06 of this utility model has multiple rotating plate ventilation holes 07. The side of the strip pressure plate 09 is connected to the support slide rod 21. A set of support slide rods 21 are distributed on the side of the strip pressure plate 09. The support slide rods 21 are adapted to the rotating plate ventilation holes 07. The support slide rods 21 pass through the rotating plate ventilation holes 07 and slide within the rotating plate ventilation holes 07. A set of support slide rods 21 positions the strip pressure plate 09. The movement of the support slide rods 21 controls the movement of the strip pressure plate 09. The side of the support slide rods 21 is connected to a circular baffle 17.
[0022] Example 4:
[0023] The supporting slide rod 21 of this utility model passes through the strip push plate 16, and the circular baffle 17 is attached to the strip push plate 16. A set of circular baffles 17 are distributed on both sides of the strip push plate 16, and the set of circular baffles 17 connects and fixes the strip push plate 16 and the supporting slide rod 21. The rotating plate 06 has an internal threaded sleeve 19 on its side, and the threaded top rod 18 passes through the strip push plate 16. The threaded top rod 18 is connected to the internal threaded sleeve 19 by threads. The cable is placed in the open clamp 02. The movement of the strip push plate 16 can drive multiple supporting slide rods 21 to move at the same time, thereby causing multiple strip pressure plates 09 to be inserted into the open clamp 02 at the same time and pressing the cable in the open clamp 02. In the wiring of computer room, this prevents the cable from moving and fixes the cable. The threaded top rod 18 passes through the strip push plate 16 and connects to the internal threaded sleeve 19. Rotating the threaded top rod 18 controls the movement of the strip pressure plate 09 and performs the pressing operation on cables of different diameters.
[0024] Example 5:
[0025] The installation steps of this utility model are as follows: First, connect the fixed plate connecting sleeve 05 to the symmetrical rotating plate connecting sleeve 08 through the rotating shaft 20. Then, pass the inclined clip 12 through the strip-shaped sliding hole 10 and connect it to the rectangular connecting plate 11. Connect the strip-shaped connecting plate 13 to the rectangular connecting plate 11. Connect the magnetic block 15 to the rotating plate 06. Connect the side of the strip-shaped pressure plate 09 to the support slide rod 21. Pass the support slide rod 21 through the vent hole 07 of the rotating plate. Pass the support slide rod 21 through the strip-shaped push plate 16. Connect the support slide rod 21 to the circular baffle 17. Place the cable in the open clip 02. Rotate the rotating plate 06 so that the side edge 03 of the clip abuts against the rotating plate 06. Pull down the rectangular connecting plate 11 so that the inclined clip 12 is inserted into the side edge 03 of the clip. Rotate the threaded top rod 18 so that the strip-shaped pressure plate 09 presses the cable tightly.
[0026] 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 new computer room wiring device characterized in that The system includes a fixed plate (01), an open sleeve (02), a fixed plate connecting sleeve (05), a rotating plate (06), a rotating plate connecting sleeve (08), a strip pressure plate (09), a strip sliding hole (10), a rectangular connecting plate (11), a strip connecting plate (13), a magnetic block (15), and a strip push plate (16). The fixed plate (01) has a fixed plate connecting sleeve (05) on its side, and the rotating plate (06) has a rotating plate connecting sleeve (08) on its side. The fixed plate connecting sleeve (05) and the rotating plate connecting sleeve (08) are fitted together. The rotating plate connecting sleeve (08) is symmetrically arranged at the upper and lower ends of the fixed plate connecting sleeve (05). The fixed plate connecting sleeve (05) is connected to the symmetrical fixed plate connecting sleeve (06) through a rotating shaft (20). The rotating plate connecting sleeve (08) has multiple open sleeves (02) on the side of the fixed plate (01). The open sleeves (02) have sleeve side edges (03) on the side. A set of sleeve side edges (03) are symmetrically arranged on the side of the open sleeves (02). The open sleeves (02) have multiple sleeve ventilation holes (04). The rotating plate (06) has multiple strip-shaped sliding holes (10). The side of the rectangular connecting plate (11) is in contact with the rotating plate (06). The rectangular connecting plate (11) is connected to the inclined strip (12). The inclined strip (12) is adapted to the strip-shaped sliding hole (10). The inclined strip (12) is inserted into the strip-shaped sliding hole (10). The inclined strip (12) slides up and down in the strip-shaped sliding hole (10).
2. A novel computer room wiring device as claimed in claim 1, wherein A set of inclined card strips (12) are symmetrically arranged on the side of the rectangular connecting plate (11). The inclined card strips (12) are in contact with the side edge (03) of the card sleeve. The side of the rectangular connecting plate (11) is connected to the strip connecting plate (13). The side of the strip connecting plate (13) is connected to the handle (14). The side of the magnetic block (15) is connected to the rotating plate (06). The lower surface of the strip connecting plate (13) is in contact with the magnetic block (15). The strip pressure plate (09) is inserted into the open card sleeve (02).
3. A novel computer room cabling device according to claim 2, characterized in that: The rotating plate (06) has multiple rotating plate ventilation holes (07). The side of the strip pressure plate (09) is connected to the support slide rod (21). A set of support slide rods (21) are distributed on the side of the strip pressure plate (09). The support slide rods (21) are adapted to the rotating plate ventilation holes (07). The support slide rods (21) pass through the rotating plate ventilation holes (07) and slide in the rotating plate ventilation holes (07). The side of the support slide rods (21) is connected to a circular baffle (17).
4. A novel computer room cabling device according to claim 3, characterized in that: The supporting slide bar (21) passes through the strip push plate (16), and the circular baffle (17) is in contact with the strip push plate (16). A set of circular baffles (17) are distributed on both sides of the strip push plate (16).
5. A novel computer room cabling device according to claim 2, characterized in that: The rotating plate (06) has an internal threaded sleeve (19) on its side. The threaded push rod (18) passes through the strip push plate (16). The threaded push rod (18) is connected to the internal threaded sleeve (19) by a thread. The cable is placed in the open ferrule (02).