A layered wiring device

By introducing a detachable fixing mechanism and rubber pads into the layered cabling device, the problem of the inflexible adjustment of the number of conduits is solved, thereby improving the versatility and stability of the device and adapting to the cabling needs of different network devices.

CN224438434UActive Publication Date: 2026-06-30SHANDONG RADIO WAVE INHERITANCE CULTURE COMMUNICATION CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG RADIO WAVE INHERITANCE CULTURE COMMUNICATION CO LTD
Filing Date
2025-08-01
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing layered cabling systems cannot flexibly adjust the number of conduits according to the number of network device ports, resulting in low versatility.

Method used

A layered wiring device including a detachable fixing mechanism was designed. Through the cooperation of components such as stainless steel screws and locking parts, the number of stainless steel conduits on the first stainless steel plate can be increased or decreased. The rubber gaskets are combined to improve connection stability and structural protection.

Benefits of technology

It enables flexible adjustment of the number of conduits, improves the versatility of the device, meets the cabling needs of different network devices, and enhances connection stability and ease of operation.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a layered cabling device, including a first stainless steel plate. Long slots are formed on both the front and rear sides of the first stainless steel plate. A stainless steel conduit is installed on the front side of the first stainless steel plate. A stainless steel movable block is slidably installed inside the first stainless steel plate. This layered cabling device is equipped with a detachable fixing mechanism and a slidable stainless steel movable block. Through the cooperation of components such as stainless steel screws and stainless steel locking parts, the number of stainless steel conduits on the first stainless steel plate can be easily increased or decreased, solving the problems of traditional devices being unable to flexibly adjust the number of conduits according to the number of network device ports and having low versatility. Simultaneously, the setting of various rubber gaskets improves connection stability and structural protection, the weight-reducing groove reduces the weight of the device, and the third through hole facilitates the fixed installation of the device. The overall structural design is reasonable and highly practical.
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Description

Technical Field

[0001] This utility model relates to the field of network cabling technology, specifically a layered cabling device. Background Technology

[0002] Network devices require connection cables during installation. As network devices become more and more powerful, the number of cables on computer network devices also gradually increases. The increase in cables can easily lead to cable management problems. Nowadays, layered cabling devices are usually used to manage cabling, so that the cables are arranged in an orderly manner.

[0003] For example, Chinese utility model patent CN222996151U discloses a layered cabling device, including a first conduit and a second conduit. The second conduit has a fixing block on its outer side for installing and fixing the cabling device. The fixing block is fixedly connected to the second conduit. A telescopic plate can extend from inside the connecting plate. The telescopic plate drives the second conduit to move, which can adjust the distance between the second conduit and the first conduit. At the same time, when the telescopic plate moves, it will drive the pointer to slide on the scale, which can precisely adjust the distance between the second conduit and the first conduit. Therefore, in use, the distance between the second conduit and the first conduit can be adjusted according to the distance between the upper and lower plugs of the network device, so that the distance between the second conduit and the first conduit matches the distance between the upper and lower plugs of the network device. When the cable is led out from the conduit, it can be inserted into the network device plug without bending, making the cable installation and cabling neat.

[0004] While the aforementioned patents can adjust the distance between conduits, they cannot increase or decrease the number of conduits based on the number of network device ports, resulting in low versatility.

[0005] To address the aforementioned issues, there is an urgent need for innovative designs based on the existing layered cabling system. Utility Model Content

[0006] The purpose of this invention is to provide a layered wiring device to solve the problems mentioned in the background art.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a layered cabling device, comprising a first stainless steel plate, with elongated through grooves on both the front and rear sides of the first stainless steel plate, a stainless steel conduit disposed on the front side of the first stainless steel plate, and a stainless steel movable block slidably disposed inside the first stainless steel plate. The first stainless steel plate, the stainless steel conduit, and the stainless steel movable block are connected by a detachable fixing mechanism, and the number of stainless steel conduits and stainless steel movable blocks can be increased or decreased on the first stainless steel plate to match the number of network device ports.

[0008] Preferably, the detachable fixing mechanism includes a first through hole. The stainless steel movable block has first through holes at both the top and bottom. A groove is formed at the end of the first through hole, the diameter of which is larger than the diameter of the first through hole. Stainless steel fixing seats are fixed at the center of the top and bottom of the stainless steel conduit. A second through hole is formed inside the stainless steel fixing seat. A stainless steel limiting plate is engaged inside the groove. A stainless steel threaded rod is fixed to the center of one side of the stainless steel limiting plate. The end of the stainless steel threaded rod passes through the first through hole, the second through hole, the first rubber gasket, and the stainless steel locking component in sequence. The stainless steel threaded rod is slidably connected to the first through hole, the second through hole, and the first rubber gasket. The stainless steel threaded rod is threadedly connected to the stainless steel locking component. The two sides of the first rubber gasket abut against the end of the stainless steel fixing seat and one side of the stainless steel locking component, respectively.

[0009] Preferably, the stainless steel locking member has a ring-shaped design in the middle and plate-shaped designs on both sides.

[0010] Preferably, a second rubber pad is fixed on both sides of one side of the stainless steel movable block near the stainless steel conduit, and one side of the second rubber pad abuts against the inner side of the first stainless steel plate.

[0011] Preferably, a third rubber gasket is provided between the first stainless steel plate and the stainless steel conduit. One side of the third rubber gasket abuts against the front side of the first stainless steel plate, and the other side of the third rubber gasket is fixedly connected to the rear side of the stainless steel conduit.

[0012] Preferably, the stainless steel movable block has weight-reducing grooves on both sides inside.

[0013] Preferably, the first stainless steel plate has a third through hole at both the top and bottom.

[0014] Compared with existing technologies, the advantages of this utility model are as follows: This layered cabling device is equipped with a detachable fixing mechanism and a sliding stainless steel movable block. Through the cooperation of components such as stainless steel screws and stainless steel locking parts, the number of stainless steel conduits on the first stainless steel plate can be easily increased or decreased, solving the problems of traditional devices being unable to flexibly adjust the number of conduits according to the number of network device ports and having low versatility. At the same time, the setting of each rubber gasket improves connection stability and structural protection, the weight-reducing groove reduces the weight of the device, and the third through hole facilitates the fixed installation of the device. The overall structural design is reasonable and highly practical. Attached Figure Description

[0015] Figure 1 This is a frontal three-dimensional structural diagram of the present invention;

[0016] Figure 2 This utility model Figure 1 Enlarged structural diagram at point A in the middle;

[0017] Figure 3 This is a schematic diagram of the exploded structure of this utility model;

[0018] Figure 4 This is a cross-sectional structural diagram of the present invention;

[0019] Figure 5 This utility model Figure 4 Enlarged structural diagram at point B;

[0020] Figure 6 This is a rear-view three-dimensional structural diagram of the present invention.

[0021] In the diagram: 1. First stainless steel plate; 2. Long through groove; 3. Stainless steel conduit; 4. Stainless steel movable block; 5. First through hole; 6. Groove; 7. Stainless steel limiting plate; 8. Stainless steel lead rod; 9. Stainless steel fixing seat; 10. Second through hole; 11. First rubber gasket; 12. Stainless steel locking component; 13. Second rubber gasket; 14. Third rubber gasket; 15. Weight reduction groove; 16. Third through hole. Detailed Implementation

[0022] 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.

[0023] Please see Figure 1-6 This utility model provides a technical solution: a layered cabling device, including a first stainless steel plate 1, with elongated through grooves 2 on both the front and rear sides of the first stainless steel plate 1, a stainless steel conduit 3 on the front side of the first stainless steel plate 1, and a stainless steel movable block 4 slidably disposed inside the first stainless steel plate 1. The first stainless steel plate 1, the stainless steel conduit 3 and the stainless steel movable block 4 are connected by a detachable fixing mechanism, and the number of stainless steel conduits 3 and stainless steel movable blocks 4 can be increased or decreased on the first stainless steel plate 1 to match the number of network device ports.

[0024] The detachable fixing mechanism includes a first through hole 5. A first through hole 5 is provided above and below the center of the stainless steel movable block 4. A groove 6 is provided at the end of the first through hole 5, the diameter of which is larger than the diameter of the first through hole 5. Stainless steel fixing seats 9 are fixed at the center of the top and bottom of the stainless steel conduit 3. A second through hole 10 is provided inside the stainless steel fixing seat 9. A stainless steel limiting plate 7 is engaged inside the groove 6. A stainless steel threaded rod 8 is fixed at the center of one side of the stainless steel limiting plate 7. The end of the stainless steel threaded rod 8 passes through the first through hole 5, the second through hole 10, the first rubber gasket 11, and the stainless steel locking member 12 in sequence. The stainless steel threaded rod 8 and the first through hole 5... The second through hole 10 and the first rubber gasket 11 are both sliding connections. The stainless steel screw rod 8 is threadedly connected to the stainless steel locking member 12. The two sides of the first rubber gasket 11 abut against the end of the stainless steel fixing seat 9 and one side of the stainless steel locking member 12, respectively. Through the threaded engagement of the stainless steel screw rod 8 and the stainless steel locking member 12, the stainless steel conduit 3 and the first stainless steel plate 1 can be quickly and detachably connected, which is convenient to increase or decrease the number of stainless steel conduits 3 as needed. The locking structure of the stainless steel limiting plate 7 and the groove 6 can prevent the stainless steel screw rod 8 from falling off. The first rubber gasket 11 can increase the locking friction, avoid loosening after long-term use, and improve the connection stability.

[0025] The stainless steel locking part 12 has a ring-shaped design in the middle and plate-shaped designs on both sides. The ring-shaped design facilitates threaded connection with the stainless steel screw 8, while the plate-shaped design increases the hand grip area, allowing manual tightening or loosening without tools. This makes operation convenient and improves the efficiency of conduit assembly and disassembly.

[0026] A second rubber pad 13 is fixed on both sides of the stainless steel movable block 4 near the stainless steel conduit 3. One side of the second rubber pad 13 abuts against the inner side of the first stainless steel plate 1. The second rubber pad 13 fills the gap between the stainless steel movable block 4 and the first stainless steel plate 1 with its own elasticity, which can not only enhance the friction between the two and prevent the stainless steel movable block 4 from sliding at will, but also avoid wear caused by direct metal contact.

[0027] A third rubber gasket 14 is provided between the first stainless steel plate 1 and the stainless steel conduit 3. One side of the third rubber gasket 14 abuts against the front side of the first stainless steel plate 1, and the other side of the third rubber gasket 14 is fixedly connected to the rear side of the stainless steel conduit 3. The third rubber gasket 14 can buffer the pressure between the stainless steel conduit 3 and the first stainless steel plate 1, avoid component deformation caused by excessive tightness during installation, and increase the friction between the two to prevent the stainless steel conduit 3 from rotating or displacing, thus ensuring the stability of the wiring position.

[0028] The stainless steel movable block 4 has weight-reducing grooves 15 on both sides inside. While ensuring the structural strength of the stainless steel movable block 4, the weight-reducing grooves 15 effectively reduce the overall weight of the device, reduce the load requirements on the support structure during installation, and save material costs.

[0029] The first stainless steel plate 1 has a third through hole 16 at both the top and bottom. The third through hole 16 is used to fix the first stainless steel plate 1 to the wall or equipment rack.

[0030] Working principle: When using this layered cabling device, first determine the required number of stainless steel conduits 3 based on the number of network device ports. During installation, fix the first stainless steel plate 1 in a suitable position through the third through hole 16. Then, insert the stainless steel movable block 4 into the interior of the first stainless steel plate 1, allowing it to slide along the first stainless steel plate 1.

[0031] Take a stainless steel conduit 3 and align its rear third rubber pad 14 with the front of the first stainless steel plate 1. Simultaneously, align the second through hole 10 on the stainless steel fixing seat 9 with the first through hole 5 on the stainless steel movable block 4. Next, insert the stainless steel limiting plate 7 into the groove 6, allowing the stainless steel lead rod 8 to pass through the first through hole 5 and the second through hole 10 in sequence. Slide the first rubber pad 11 onto the end of the stainless steel lead rod 8, and then screw on the stainless steel locking piece 12. Manually tighten the plate-shaped part, using the elastic resistance of the first rubber pad 11 to achieve a stable connection.

[0032] To increase the number of stainless steel conduits 3, simply install more stainless steel movable blocks 4 and stainless steel conduits 3 at appropriate positions on the first stainless steel plate 1 following the steps described above; to reduce the number, reverse the operation to loosen the stainless steel locking parts 12 and remove the corresponding stainless steel conduits 3 and stainless steel movable blocks 4.

[0033] During wiring, different wires are threaded into each stainless steel conduit 3 separately to achieve layered organization. The second rubber gasket 13 prevents the stainless steel movable block 4 from sliding, ensuring the stability of the stainless steel conduit 3. The weight-reducing groove 15 reduces the weight of the device, making the overall installation easier.

[0034] This device allows for flexible adjustment of the number of stainless steel conduits through a detachable fixing mechanism, effectively solving the problem of low versatility of traditional devices and meeting the cabling needs of different network devices.

[0035] Although the present invention 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 invention should be included within the protection scope of the present invention.

Claims

1. A layered wiring device, comprising a first stainless steel plate (1), characterized in that: The first stainless steel plate (1) has long through grooves (2) on both the front and back sides. A stainless steel conduit (3) is provided on the front side of the first stainless steel plate (1). A stainless steel movable block (4) is slidably provided inside the first stainless steel plate (1). The first stainless steel plate (1), the stainless steel conduit (3) and the stainless steel movable block (4) are connected by a detachable fixing mechanism. The number of stainless steel conduits (3) and stainless steel movable blocks (4) can be increased or decreased on the first stainless steel plate (1) to match the number of network device ports.

2. The layered wiring device according to claim 1, characterized in that: The detachable fixing mechanism includes a first through hole (5). The stainless steel movable block (4) has a first through hole (5) at both the top and bottom. The end of the first through hole (5) has a groove (6). The diameter of the groove (6) is larger than the diameter of the first through hole (5). The stainless steel conduit (3) has a stainless steel fixing seat (9) fixed at the center of its top and bottom. The stainless steel fixing seat (9) has a second through hole (10) inside. The groove (6) has a stainless steel limiting plate (7) engaged inside. The middle part of one side of the stainless steel limiting plate (7) A stainless steel screw rod (8) is fixed thereon. The end of the stainless steel screw rod (8) passes through the interior of the first through hole (5), the second through hole (10), the first rubber gasket (11) and the stainless steel locking member (12) in sequence. The stainless steel screw rod (8) is slidably connected to the first through hole (5), the second through hole (10) and the first rubber gasket (11). The stainless steel screw rod (8) is threadedly connected to the stainless steel locking member (12). The two sides of the first rubber gasket (11) abut against the end of the stainless steel fixing seat (9) and one side of the stainless steel locking member (12) respectively.

3. A layered wiring device according to claim 2, characterized in that: The stainless steel locking member (12) has a ring-shaped design in the middle and plate-shaped designs on both sides.

4. A layered wiring device according to claim 3, characterized in that: The stainless steel movable block (4) has a second rubber pad (13) fixed on both sides near the stainless steel conduit (3), and one side of the second rubber pad (13) abuts against the inner side of the first stainless steel plate (1).

5. A layered wiring device according to claim 4, characterized in that: A third rubber gasket (14) is provided between the first stainless steel plate (1) and the stainless steel conduit (3). One side of the third rubber gasket (14) abuts against the front side of the first stainless steel plate (1), and the other side of the third rubber gasket (14) is fixedly connected to the rear side of the stainless steel conduit (3).

6. A layered wiring device according to claim 5, characterized in that: The stainless steel movable block (4) has weight-reducing grooves (15) on both sides inside.

7. A layered wiring device according to claim 6, characterized in that: The first stainless steel plate (1) has a third through hole (16) at both the top and bottom.