A wiring device for equipment installation

By adjusting the design of the partition and limiting mechanism, the problems of cable congestion and poor heat dissipation in the wiring trough are solved, achieving stable cable installation and efficient heat dissipation, and extending the service life of the cables.

CN224329161UActive Publication Date: 2026-06-05NINGXIA CRYSTAL NEW ENERGY MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NINGXIA CRYSTAL NEW ENERGY MATERIALS CO LTD
Filing Date
2025-07-16
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing wiring ducts do not allow for proper distribution of internal space during wiring, leading to cable congestion, affecting heat dissipation, and shortening service life.

Method used

An adjustable partition mechanism and a limiting mechanism are used. The spacing between the partitions is adjusted by a knob. The partitions separate the cables, and the limiting mechanism fixes the cables to ensure stable installation.

Benefits of technology

It improves space utilization, promotes heat dissipation, prevents cable swaying and tangling, and enhances cable installation stability and service life.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224329161U_ABST
    Figure CN224329161U_ABST
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Abstract

The utility model discloses a kind of wiring devices for equipment installation, it is related to wiring technical field for equipment installation, including line box, the top of line box is connected with box cover, the top of box cover is evenly penetrated and is equipped with radiating groove, the inside of line box is connected with adjusting partition mechanism, the outside of adjusting partition mechanism is connected with limiting mechanism, adjusting partition mechanism includes the mounting plate fixed in the inner chamber bottom of line box, the top of mounting plate is symmetrically penetrated and is equipped with mounting groove;The wiring device for equipment installation, by rotating knob, the distance between baffle is adjusted, it is convenient to adjust internal space according to the model of cable, improve the utilization of space, it is convenient for the installation of different model cable, simultaneously using the setting of baffle, avoid cable too close, convenient heat dissipation, and divide into independent wiring chamber in interior, it is convenient to reasonably divide according to the type and specification of cable.
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Description

Technical Field

[0001] This utility model relates to the field of wiring technology for equipment installation, specifically a wiring device for equipment installation. Background Technology

[0002] With the rapid development of building intelligence, more and more intelligent devices are being applied in buildings, such as smart home systems, smart security systems, and smart office systems. These intelligent devices need to be connected and communicate with each other through a large number of cables. Therefore, cable management has become crucial. When laying cables, it is necessary to use cable trays for wiring.

[0003] Current wiring troughs do not allow for proper distribution of internal space during wiring, making it easy for cables to become crowded inside the trough, which is detrimental to heat dissipation and affects the service life of the cables. To address this, we propose a wiring device for equipment installation. Utility Model Content

[0004] The purpose of this utility model is to provide a wiring device for equipment installation, so as to solve the problem that the existing wiring troughs are not convenient for reasonable distribution of internal space when wiring, which makes the internal cables easy to crowd in the trough, which is not conducive to heat dissipation of the cables and affects the service life of the cables.

[0005] To achieve the above objectives, the present invention provides the following technical solution: a wiring device for equipment installation, including a junction box, a cover connected to the top of the junction box, heat dissipation grooves evenly distributed through the top of the cover, an adjustment partition mechanism connected inside the junction box, and a limit mechanism connected to the outside of the adjustment partition mechanism.

[0006] The adjusting and separating mechanism includes a mounting plate fixed to the bottom of the inner cavity of the wire box. The top of the mounting plate is symmetrically provided with mounting grooves. A limiting rod is fixed between the two sides of the inner cavity of one mounting groove, and a first screw is fixed between the two sides of the inner cavity of the other mounting groove. A slider is evenly slidable on the outer side of the limiting rod and the first screw. A partition is fixed on the top of the slider, and a knob is evenly screwed on the outer side of the first screw.

[0007] Preferably, the adjusting separation mechanism further includes a limiting groove formed on one side of the slider, and limiting blocks are symmetrically connected inside the limiting groove.

[0008] Preferably, the limiting block is symmetrically fixed to one side of the knob, so that the limiting block and the knob are integrated. The outer wall of the knob is provided with anti-slip texture to prevent slipping.

[0009] Preferably, the limiting mechanism includes a U-shaped buckle evenly fixed to the equal sides of two adjacent partitions. A connecting block is connected to the top of the U-shaped buckle. A contraction cavity is formed in the middle of both sides of the connecting block. An L-shaped rod slides inside the contraction cavity. An installation cavity is formed on the inner side of the L-shaped rod. A return spring is evenly fixed in the middle of one side of the installation cavity. A connecting plate is fixed to one end of the return spring. A locking block is fixed in the middle of one side of the connecting plate. A second screw is threaded through the middle of the top of the connecting block. A rotating knob is fixed to the top of the second screw. A pressure plate is fixed to the bottom of the second screw.

[0010] Preferably, the connecting plate slides inside the mounting cavity, and the outer wall of the connecting plate is in contact with the inner wall of the mounting cavity, so that the connecting plate moves stably.

[0011] Preferably, the bottom of the card block is provided with a slope, which facilitates pressing the slope of the card block to make the card block retract. The outer side wall of the rotary knob is provided with anti-slip texture to prevent slippage. One end of the L-shaped rod is provided with a limit plate to prevent the L-shaped plate from falling off.

[0012] Preferably, the bottom length and width of the L-shaped rod are equal to the inner length and width of the snap fastener.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. In this application, by adjusting the partition mechanism, the knob is rotated to move the knob to the outside of the first screw, which in turn moves the limit block, which in turn moves the slider, causing the partition to move and the distance between the partitions to be adjusted. This allows for adjustment of the internal space according to the cable type, improving space utilization and facilitating the installation of different cable types. At the same time, the partitions prevent cables from being too close together, facilitate heat dissipation, and divide the interior into independent wiring chambers, making it easy to rationally divide the space according to the type and specifications of the cables.

[0015] 2. In this application, a limiting mechanism is used to embed an L-shaped rod into a snap fastener, which compresses the locking block and causes it to retract into the mounting cavity. This compresses the return spring. When the locking block moves out of the snap fastener, the return spring resets the locking block, preventing the L-shaped rod from retracting. Then, the rotary knob is deflected, causing the second screw to rotate. This causes the second screw to lower the pressure plate, pressing and fixing the cable. This ensures the stability of the cable installation and firmly fixes the cable in the cavity, preventing the cable from shaking or tangling. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2This is a schematic diagram of the adjusting and separating mechanism of this utility model;

[0018] Figure 3 A schematic diagram of the structure of the limiting groove of this utility model;

[0019] Figure 4 This is a schematic diagram of the reset spring mounting structure of this utility model;

[0020] Figure 5 This is a schematic diagram of the snap fastener installation structure of this utility model.

[0021] The following numbers are labeled in the diagram: 100, junction box; 200, box cover; 300, heat dissipation groove; 400, adjusting partition mechanism; 410, mounting plate; 420, mounting groove; 430, limiting rod; 440, first screw; 450, slider; 460, partition; 470, limiting groove; 480, limiting block; 490, knob; 500, limiting mechanism; 510, snap fastener; 520, connecting block; 530, shrink chamber; 540, L-shaped rod; 550, mounting chamber; 560, return spring; 570, connecting plate; 580, locking block; 590, second screw; 591, rotating knob; 592, pressure plate. 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] Example: Figures 1-5 As shown, this utility model provides a technical solution for a wiring device for equipment installation, including a junction box 100, a cover 200 connected to the top of the junction box 100, a heat dissipation groove 300 evenly opened through the top of the cover 200, an adjustment partition mechanism 400 connected inside the junction box 100, and a limit mechanism 500 connected to the outside of the adjustment partition mechanism 400.

[0024] Please see Figure 2 and Figure 3The adjusting partition mechanism 400 includes a mounting plate 410 fixed to the bottom of the inner cavity of the junction box 100. The top of the mounting plate 410 has symmetrically through-hole mounting grooves 420. A limiting rod 430 is fixed between the two sides of the interior of one mounting groove 420, and a first screw 440 is fixed between the two sides of the interior of the other mounting groove 420. A slider 450 slides evenly on the outer sides of the limiting rod 430 and the first screw 440. A partition plate 460 is fixed to the top of the slider 450. A knob 490 is evenly screwed onto the outer side of the first screw 440. The adjusting partition mechanism 400 also includes a limiting groove 470 opened on one side of the slider 450. A limiting block 480 is symmetrically connected inside the limiting groove 470. Position blocks 480 are symmetrically fixed on one side of knob 490. The outer wall of knob 490 is provided with anti-slip texture. By using the setting of the adjustment partition mechanism 400, by rotating knob 490, knob 490 moves outside of first screw 440, which drives limit block 480 to move, and then drives slider 450 to move, so that partition 460 moves. Adjusting the distance between partitions 460 makes it easy to adjust the internal space according to the cable type, improves the space utilization, facilitates the installation of different types of cables, and at the same time, the setting of partition 460 prevents cables from being too close together, facilitates heat dissipation, and divides the interior into independent wiring chambers, which makes it easy to reasonably divide according to the type and specification of cables.

[0025] Please see Figure 4 and Figure 5The limiting mechanism 500 includes a snap fastener 510 evenly fixed to the equal sides of two adjacent partitions 460. A connecting block 520 is connected to the top of the snap fastener 510. A contraction cavity 530 is formed in the middle of both sides of the connecting block 520. An L-shaped rod 540 slides inside the contraction cavity 530. An installation cavity 550 is formed on the inner side of the L-shaped rod 540. A return spring 560 is evenly fixed in the middle of one side of the installation cavity 550. A connecting plate 570 is fixed to one end of the return spring 560. A locking block 580 is fixed in the middle of one side of the connecting plate 570. A second screw 590 is threaded through the middle of the top of the connecting block 520. A rotating knob 591 is fixed to the top of the second screw 590, and a pressure plate 592 is fixed to the bottom of the second screw 590. The connecting plate 570 slides inside the installation cavity 550, and the outer wall of the connecting plate 570 is in contact with the inner wall of the installation cavity 550. The bottom of block 580 is provided with a slope, the outer wall of the rotating knob 591 is provided with anti-slip texture, and one end of the L-shaped rod 540 is provided with a limiting plate; the bottom length and width of the L-shaped rod 540 are equal to the inner length and width of the snap fastener 510; by using the limiting mechanism 500, the L-shaped rod 540 is embedded in the snap fastener 510, which squeezes the locking block 580, causing the locking block 580 to retract into the mounting cavity 550, and squeezing the return spring 560. When the locking block 580 moves out of the snap fastener 510, the return spring 560 resets the locking block 580, preventing the L-shaped rod 540 from retracting. Then, the rotating knob 591 is deflected, causing the second screw 590 to rotate, thereby causing the second screw 590 to drive the pressure plate 592 to descend, pressing and fixing the cable, thus ensuring the stability of the cable installation, and firmly fixing the cable in the cavity to prevent the cable from shaking and tangling.

[0026] In use, when installing the cable, first rotate the knob 490, which is screwed to the first screw 440. Rotating the knob 490 moves it outward from the first screw 440, simultaneously moving the limiting block 480, which in turn moves the slider 450, causing the partition 460 to move. This adjusts the distance between the partitions 460, allowing for adjustments to the internal space according to the cable type. Then, the cable is arranged between the two partitions 460 to prevent them from being too close together. After placing the cable, the L-shaped rod... 540 is embedded in the snap fastener 510, which squeezes the locking block 580, causing the locking block 580 to retract into the mounting cavity 550. This causes the connecting plate 570 to move, thereby squeezing the return spring 560. When the locking block 580 moves out of the snap fastener 510, the return spring 560 resets the connecting plate 570, causing the locking block 580 to reset and preventing the L-shaped rod 540 from retracting. Then, the rotary knob 591 is deflected, causing the second screw 590 to rotate. This causes the second screw 590 to drive the pressure plate 592 to descend, thus clamping and fixing the cable.

[0027] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A wiring device for equipment installation, characterized in that: Includes a junction box (100), the top of which is connected to a cover (200), the top of which is uniformly provided with heat dissipation grooves (300), the inside of which is connected to an adjustment partition mechanism (400), and the outside of which is connected to a limit mechanism (500). The adjusting and separating mechanism (400) includes a mounting plate (410) fixed to the bottom of the inner cavity of the wire box (100). The top of the mounting plate (410) is symmetrically provided with mounting grooves (420). A limiting rod (430) is fixed between the two sides inside one mounting groove (420), and a first screw (440) is fixed between the two sides inside the other mounting groove (420). A slider (450) slides evenly on the outer side of the limiting rod (430) and the first screw (440). A partition plate (460) is fixed on the top of the slider (450), and a knob (490) is evenly screwed onto the outer side of the first screw (440).

2. The wiring device for equipment installation according to claim 1, characterized in that: The adjustment and separation mechanism (400) further includes a limiting groove (470) opened on one side of the slider (450), and a limiting block (480) is symmetrically connected inside the limiting groove (470).

3. The wiring device for equipment installation according to claim 2, characterized in that: The limiting block (480) is symmetrically fixed to one side of the knob (490), and the outer wall of the knob (490) is provided with anti-slip texture.

4. The wiring device for equipment installation according to claim 1, characterized in that: The limiting mechanism (500) includes a snap fastener (510) evenly fixed to the equal sides of two adjacent partitions (460). A connecting block (520) is connected to the top of each snap fastener (510). A contraction cavity (530) is formed in the middle of both sides of the connecting block (520). An L-shaped rod (540) slides inside the contraction cavity (530). An installation cavity (550) is formed on the inner side of the L-shaped rod (540). A return spring (560) is evenly fixed in the middle of one side of the 0), and a connecting plate (570) is fixed at one end of the return spring (560). A locking block (580) is fixed in the middle of one side of the connecting plate (570). A second screw (590) is threaded through the middle of the top of the connecting block (520). A rotating knob (591) is fixed at the top of the second screw (590), and a pressure plate (592) is fixed at the bottom of the second screw (590).

5. A wiring device for equipment installation according to claim 4, characterized in that: The connecting plate (570) slides inside the mounting cavity (550), and the outer side wall of the connecting plate (570) is in contact with the inner side wall of the mounting cavity (550).

6. A wiring device for equipment installation according to claim 5, characterized in that: The bottom of the card block (580) is provided with a slope, the outer side wall of the rotating knob (591) is provided with anti-slip texture, and one end of the L-shaped rod (540) is provided with a limit plate.

7. A wiring device for equipment installation according to claim 6, characterized in that: The bottom length and width of the L-shaped rod (540) are equal to the inner length and width of the snap fastener (510).