A wire distribution device for electrical design of construction engineering

By designing the base plate assembly and locking top plate assembly, combined with the distribution adjustment assembly and limiting groove, the problem of dispersed management of the cable distribution device in different positions is solved, achieving stable positioning and convenient operation.

CN224384945UActive Publication Date: 2026-06-19杨胜军

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
杨胜军
Filing Date
2025-05-07
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing cable distribution devices are prone to being scattered when managing different locations, and are not convenient for unified positioning and storage.

Method used

The design employs a base plate assembly and a top plate locking assembly, combined with a distribution adjustment assembly and a limit slot, to achieve distance adjustment and locking functions. Through the cooperation of the limit assembly and the clamping ring, the device is ensured to maintain stable positioning and be easy to operate in different scenarios.

Benefits of technology

It enables unified management and stable positioning of the cable distribution device in different locations, avoiding the problem of decentralized management and improving the convenience and applicability of operation.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of building engineering and discloses a wiring conduit distribution device for electrical design in building engineering, including a distribution adjustment component. The distribution adjustment component is installed on both sides of the bottom of a management base plate component, and a locking top plate component is installed on the top of one side of the management base plate component. By installing the distribution adjustment component at the bottom of the device, this utility model allows for the adjustment of the distance between different wiring management systems to meet different scenario requirements. This makes the management more comprehensive and avoids the inability of a single management device to achieve uniform positioning.
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Description

Technical Field

[0001] This utility model relates to the technical field of building engineering, specifically to a wiring conduit distribution device for electrical design in building engineering. Background Technology

[0002] Construction engineering encompasses the planning, surveying, design, construction, and completion of new buildings, renovations, or expansions of buildings and ancillary structures, as well as the installation of associated lines, pipes, and equipment. It also refers to the construction of various houses and buildings, also known as construction work. This investment requires labor and materials and can only be realized through construction activities, which necessitates the use of conduit branching. Conduit branching refers to the process of dividing a main line into multiple branch lines during cabling. This process is commonly used in home renovations, office wiring, or any situation requiring multiple line connections. The purpose of conduit branching is to rationally distribute power, signal, or other types of lines to where they are needed, ensuring that each device or area receives the required power or signal supply.

[0003] Application number CN202221905726.6 discloses a conduit branching device, solving the problem of the lack of a flexible and stable building power line conduit branching device in the prior art. The conduit branching device includes: a second clamping seat, the second clamping seat having a movable cavity, and two push blocks elastically connected within the movable cavity. This utility model achieves positioning and clamping of the first and second clamping seats by pushing the two push shafts along a sliding groove and an L-shaped groove respectively. Compared with the existing screw-locking method, no auxiliary tools are needed; it can be directly pushed manually. Moreover, the first and second clamping seats can be used to clamp conduits of various outer diameters, making it highly adaptable and achieving a stable, reliable, convenient, and efficient conduit branching device.

[0004] Although the above-mentioned utility model achieves a stable, reliable, convenient, and efficient cable management device by allowing manual pushing without the need for auxiliary tools, and the first and second card holders can clamp various outer diameter models of conduits, making it highly adaptable, it has shortcomings. When managing cables, the device performs positioning management based on different cable positions, which makes it easy for the scattered management devices to become disjointed and difficult to effectively store when not in use. Utility Model Content

[0005] The purpose of this utility model is to provide a wiring conduit distribution device for electrical design in building engineering, so as to solve the problem that dispersed management devices are easily unable to be connected on a single line.

[0006] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0007] This utility model is a wiring conduit distribution device for electrical design in building engineering, including a management base plate assembly, a distribution adjustment assembly installed at the bottom of the management base plate assembly, and a locking top plate assembly connected to the top of one side of the management base plate assembly.

[0008] The distribution adjustment component includes a positioning tube, and a limiting component is installed in the middle of the positioning tube. There are a total of several limiting components.

[0009] Furthermore, the management base plate assembly includes a fixed base plate, which has fixed screw holes on both sides, a limit groove installed in the middle of the top of the fixed base plate, and limit slots on both sides of the bottom of the fixed base plate.

[0010] Furthermore, a rotating bolt is installed on the top of one side of the limiting groove, and a locking groove is opened inside the other side of the limiting groove. A limiting groove opening is opened at the bottom end of the locking groove, and a tough support plate is installed on the outside of the limiting groove opening.

[0011] Furthermore, the locking top plate assembly includes a top plate, one side of which is mounted on a rotating bolt, and a locking plate is mounted on the bottom of the other side of the top plate, with a limit buckle installed on the outer bottom of the locking plate.

[0012] Furthermore, the limiting component includes clamping rings, with a return spring installed at the top center of the two clamping rings, and an adjusting wrench installed on the outer top of each clamping ring. The clamping rings are also installed on the positioning tube and positioned on both sides of the fixed base plate.

[0013] Furthermore, the limiting groove includes an insulating silicone layer, an isolation layer is installed on the inner side of the insulating silicone layer, and a PP material layer is installed on the outer side of the isolation layer.

[0014] This utility model has the following beneficial effects:

[0015] (1) This utility model is a wiring device for electrical design of building engineering. By installing a distribution adjustment component at the bottom of the device, the distance between different wiring management can be adjusted according to different scenario requirements when using this device. This makes the management more complete when the device is used, and avoids the inability of a single management device to achieve a unified positioning effect.

[0016] (2) This utility model is a wiring device for electrical design of building engineering. By replacing the management device with the current management base plate component and locking top plate component, when using this device, after the corresponding wiring limit installation is completed, the locking effect can be easily achieved by the locking top plate component. This avoids the cumbersome process of merging traditional devices.

[0017] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description

[0018] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0019] Figure 1 This is a schematic diagram of the overall structure of a wiring conduit distribution device for electrical design in building engineering according to this utility model;

[0020] Figure 2 This is a schematic diagram of the management base plate assembly structure of a wiring conduit distribution device for electrical design in building engineering according to this utility model;

[0021] Figure 3 This is a schematic diagram of the bottom structure of a wiring conduit distribution device for electrical design in building engineering according to this utility model;

[0022] Figure 4 This is a schematic diagram of the limiting groove material layer structure of a wiring conduit distribution device for electrical design in building engineering according to this utility model;

[0023] The attached diagram lists the components represented by each number as follows:

[0024] In the diagram: 1. Distribution adjustment assembly; 2. Management base plate assembly; 3. Locking top plate assembly; 101. Positioning tube; 102. Limiting assembly; 201. Fixed base plate; 202. Fixed screw hole; 203. Rotating bolt; 204. Limiting groove; 205. Locking groove; 206. Limiting slot opening; 207. Flexible support plate; 208. Limiting slot; 301. Top plate; 302. Locking plate; 303. Limiting buckle; 1021. Clamping ring; 1022. Return spring; 1023. Adjusting wrench; 2041. Insulating silicone layer; 2042. Isolation layer; 2043. PP material layer. Detailed Implementation

[0025] 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.

[0026] Please see Figure 1 - Figure 4 As shown, this utility model is a wiring conduit distribution device for electrical design of building engineering, including a management base plate assembly 2, a distribution adjustment assembly 1 installed at the bottom of the management base plate assembly 2, and a locking top plate assembly 3 connected to the top of one side of the management base plate assembly 2.

[0027] The distribution adjustment component 1 includes a positioning tube 101, and a limiting component 102 is installed in the middle of the positioning tube 101. There are several limiting components 102.

[0028] By installing a distribution adjustment component 1 at the bottom of the device, the distance between different cable management systems can be adjusted according to different scenario requirements when using the device. This makes the management more comprehensive and avoids the inability of a single management device to achieve a unified positioning effect.

[0029] The management base plate assembly 2 includes a fixed base plate 201. Fixed screw holes 202 are provided on both sides of the fixed base plate 201, and a limiting groove 204 is installed in the middle of the top of the fixed base plate 201. At the same time, limiting slots 208 are provided on both sides of the bottom of the fixed base plate 201.

[0030] A rotating bolt 203 is installed on the top of one side of the limiting groove 204, and a locking groove 205 is opened inside the other side of the limiting groove 204. A limiting slot 206 is opened at the bottom end of the locking groove 205, and a flexible support plate 207 is installed on the outside of the limiting slot 206. After the distance and position are adjusted, the fixed base plate 201 is fixed to the ground through the fixing screw holes 202 opened on both sides. Then, the locking top plate assembly 3 is positioned on the top of the fixed base plate 201 by the rotating bolt 203. Then, the cable limiter is installed inside the limiting groove 204. Then, the locking top plate assembly 3 can be locked through the limiting slot 206 inside the locking groove 205. When it needs to be unfolded later, the flexible support plate 207 on one side needs to be pressed outward to remove the locking top plate assembly 3 and release the locking state. When locking, the limiting buckle 303 at the bottom of the locking plate 302 needs to be moved into the limiting slot 206 to achieve the locking work.

[0031] The locking top plate assembly 3 includes a top plate 301. One side of the top plate 301 is mounted on a rotating bolt 203, and a locking plate 302 is mounted on the bottom of the other side of the top plate 301. A limit buckle 303 is installed on the outer bottom of the locking plate 302. When locking, the limit buckle 303 at the bottom of the locking plate 302 needs to be moved into the limit slot 206 to achieve the locking operation. When unlocking, the limit buckle 303 only needs to be pressed inward and moved out of the limit slot 206 to release the lock.

[0032] The limiting component 102 includes clamping rings 1021. A return spring 1022 is installed at the top center of the two clamping rings 1021, and an adjusting wrench 1023 is installed on the outer side of the top of the clamping rings 1021. The clamping rings 1021 are limited and installed on the positioning tube 101 and are set on both sides of the fixed base plate 201. The limiting component 102 on the positioning tube 101 is installed on both sides of the management base plate component 2. When moving, the adjusting wrench 1023 needs to be pressed inward. In this way, the clamping rings 1021 on both sides can be released from clamping the positioning tube 101 by the limiting of the return spring 1022 installed in the middle. After moving to the corresponding position, the wrench can be released. At this time, the clamping rings 1021 on both sides are reset by the internally set return spring 1022, and the positioning tube 101 is clamped and fixed. In this way, the management base plate component 2 can be fixed in the corresponding required position by the limiting component 102.

[0033] The limiting groove 204 includes an insulating silicone layer 2041, an isolation layer 2042 installed on the inner side of the insulating silicone layer 2041, and a PP material layer 2043 installed on the outer side of the isolation layer 2042. During the clamping process, the insulating silicone layer 2041 on the inner side can provide insulation and anti-friction protection, preventing damage to the outer layer of the ribbon cable caused by the harder material when the cable moves. At the same time, the isolation layer 2042 and the PP material layer 2043 can prevent the melting effect caused by high temperature in the middle.

[0034] When using this device, first install the corresponding management base plate components 2 on the distribution adjustment component 1, and adjust the distance using the distribution adjustment component 1 for different management distances. Simultaneously, install the locking top plate component 3 on top of the management base plate component 2. This allows the cable to be installed in the middle of the management base plate component 2 during use, and then locked using the locking top plate component 3 to complete the cable management. Before use, first install the limiting components 102 on the positioning tube 101 on the management base plate component 2. When moving the two sides of the plate assembly 2, the adjusting wrench 1023 needs to be pressed inward. This allows the clamping rings 1021 on both sides to release their grip on the positioning tube 101 under the limiting effect of the return spring 1022 installed in the middle. After moving to the corresponding position, the wrench can be released. At this time, the internally installed return spring 1022 resets the clamping rings 1021 on both sides and clamps and fixes the positioning tube 101. In this way, the limiting component 102 can fix the management base plate assembly 2 in the corresponding required position. After adjustment, the base plate 201 is fixed to the ground using the fixing screw holes 202 on both sides. Then, the locking top plate assembly 3 is positioned on top of the base plate 201 using the rotating bolt 203. The cable guide is then installed inside the limiting groove 204. The locking top plate assembly 3 is then locked through the limiting slot 206 inside the locking groove 205. When it needs to be unfolded, the flexible support plate 207 on one side needs to be pressed outwards to remove the locking top plate assembly 3 and release the lock. (Note: The last sentence about locking is incomplete and likely refers to a separate process.) To lock the cable, simply move the limiting buckle 303 at the bottom of the locking plate 302 into the limiting slot 206. To unlock the cable, simply press the limiting buckle 303 inward and move it out of the limiting slot 206. During clamping, the insulating silicone layer 2041 on the inner side provides insulation and anti-friction protection, preventing damage to the outer layer of the cable from the hard material when it moves. At the same time, the isolation layer 2042 and the PP material layer 2043 prevent the melting of the middle layer caused by high temperature.

[0035] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.

Claims

1. A raceway breakout device for electrical design of construction projects, comprising a management floor assembly (2), characterized in that: The bottom of the management base plate assembly (2) is equipped with a distribution adjustment assembly (1), and a locking top plate assembly (3) is connected to the top of one side of the management base plate assembly (2). The distribution adjustment component (1) includes a positioning tube (101), and a limiting component (102) is installed in the middle of the positioning tube (101). There are a total of several limiting components (102).

2. A raceway branching device for electrical design of construction work according to claim 1, characterized in that: The management base plate assembly (2) includes a fixed base plate (201), with fixed screw holes (202) on both sides of the fixed base plate (201), and a limiting groove (204) installed in the middle of the top of the fixed base plate (201), while limiting slots (208) are opened on both sides of the bottom of the fixed base plate (201).

3. A raceway breakout device for electrical design of construction work according to claim 2, characterized in that: A rotating bolt (203) is installed on the top of one side of the limiting groove (204), and a locking groove (205) is opened inside the other side of the limiting groove (204). A limiting slot (206) is opened at the bottom end of the locking groove (205), and a tough support plate (207) is installed on the outside of the limiting slot (206).

4. A raceway branching device for electrical design of construction work according to claim 1, characterized in that: The locking top plate assembly (3) includes a top plate (301), one side of which is mounted on a rotating bolt (203), and a locking plate (302) is mounted on the bottom of the other side of the top plate (301), with a limit buckle (303) mounted on the bottom outer side of the locking plate (302).

5. A raceway outlet device for electrical design of construction work according to claim 2, characterized in that: The limiting component (102) includes a clamping ring (1021), a return spring (1022) is installed at the top of the middle of the two clamping rings (1021), and an adjusting wrench (1023) is installed on the outer side of the top of the clamping ring (1021). The clamping ring (1021) is limited and installed on the positioning tube (101) and is set on both sides of the fixed base plate (201).

6. A raceway outlet device for electrical design of construction work according to claim 3, characterized in that: The limiting groove (204) includes an insulating silicone layer (2041), an isolation layer (2042) is installed on the inner side of the insulating silicone layer (2041), and a PP material layer (2043) is installed on the outer side of the isolation layer (2042).