CN220401331U - High-voltage cable laying structure of power distribution room - Google Patents

Abstract

The utility model relates to the technical field of cable erection, and provides a high-low voltage cable laying structure of a power distribution room. Through the technical scheme, the problem that the clamping plate of the T-shaped structural design cannot be attached to the outer surface of a cable in the prior art and is easy to damage the outer surface of the cable when the cable is clamped is solved, the side protection plate can be inserted and mounted to the side face of the high-voltage cable box along the first butt joint sliding groove and the second butt joint sliding groove for protecting the side face of the high-voltage cable box, the cable can be mounted and used through wiring frames, a radiating opening is formed in the surface of the side protection plate in a penetrating mode, the cable needing to be wired can be mounted in the cable bearing groove, and the cable mounted in the cable bearing groove can be fixed through the cable fixing clamp.

Description

High-voltage cable laying structure of power distribution room

Technical Field

The utility model relates to the technical field of cable erection, in particular to a high-low voltage cable laying structure of a power distribution room.

Background

The power distribution room is an indoor power distribution place with low-voltage load and mainly used for distributing electric energy to low-voltage users, and is provided with a medium-voltage incoming line, a power distribution transformer and a low-voltage power distribution device, namely a room for distributing electric energy, and plays roles in protecting, metering and distributing electric energy;

the patent is granted to China of application number (CN 202220376624.3), it discloses a power distribution room high-low voltage cable laying structure, including the insulation board, the spout has been seted up to insulation board upper end surface, the inside sliding connection of spout has the slider, slider upper end fixedly connected with grip block, the quantity of slider is a plurality of groups, multiunit fixedly connected with spring one between the slider, the spout has all been seted up to spout upper end and lower extreme, spout lower extreme fixedly connected with telescopic link, the telescopic link lower extreme is equipped with the base, the telescopic slot has been seted up to the base inside, the telescopic link lower extreme is located telescopic slot inside;

according to the scheme, the cable is clamped at the upper end and the lower end of the insulating plate through the mutual matching between the clamping plates and the first springs, but the clamping plates of the T-shaped structure cannot be attached to the outer surfaces of the cables, the clamping plates of the T-shaped structure are difficult to effectively clamp the cables when the cables are clamped by means of the elastic force of the springs, and the clamping plates of the T-shaped structure are easy to damage the outer surfaces of the cables when the cables are clamped, so that the high-low voltage cable laying structure of the power distribution room is provided.

Disclosure of Invention

The utility model provides a high-low voltage cable laying structure of a power distribution room, which solves the problems in the related background technology.

The technical scheme of the utility model is as follows:

in order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a high-low voltage cable laying structure of electricity distribution room, includes winding displacement case and installation bed frame, the installation bed frame includes a pair of vertical link, and interface one has all been seted up to the front surface of vertical link, and lateral connection hole has all been seted up to the left and right sides of vertical link, and the top configuration of vertical link is installed the top seat, disposes between two vertical link and is connected with transverse connection wall one and transverse connection wall two, and the winding displacement case setting is between transverse connection wall one and transverse connection wall two, and the winding displacement case comprises high-voltage cable case and low-voltage cable case, and the structural constitution between high-voltage cable case and the low-voltage cable case is the same.

Preferably: the horizontal cross-section of vertical link is C font structure, and interface second has been seted up to the front surface of top seat, and the equal fixed mounting in left and right sides of top seat has the curb plate, and the side direction pilot hole has all been seted up on the surface of curb plate, top seat and vertical link structure size and position looks adaptation, top seat pass to be connected to interface second with the last interface first on the vertical link with the help of the bolt, and the curb plate passes the side direction pilot hole with the last side direction pilot hole of vertical link with the help of the bolt and is connected, the top of top seat is formed with the portion of bending, and the upper surface of the portion of bending is equipped with the screw.

Preferably: the high-voltage cable box comprises a first butt joint chute formed at the top of the high-voltage cable box, a second butt joint chute fixedly formed at the bottom end of the high-voltage cable box, a wiring frame fixedly mounted on the inner wall of the high-voltage cable box and a side protection plate connected between the first butt joint chute and the second butt joint chute.

Preferably: the wiring frame comprises a plurality of wire supporting plates fixedly mounted on the inner wall of the high-voltage cable box, a wire supporting groove formed on the wire supporting plates, a heat dissipation groove formed on the inner surface of the wire supporting groove and a wire fixing clamp arranged above the wire supporting groove in a configuration mode, a first plug connector matched with the first butt joint sliding groove is formed at the top of the side protection plate, a second plug connector matched with the second butt joint sliding groove is formed at the bottom of the side protection plate, and a heat dissipation opening is formed in the surface of the side protection plate in a penetrating mode.

The working principle and the beneficial effects of the utility model are as follows:

the vertical connecting frame can be used through further fixed connection on the surface of a building through the jacking seat, the first transverse connecting wall and the second transverse connecting wall can be used according to the installation height position of the wire arrangement box, the cable can be arranged in the wire arrangement box, the wire arrangement box is used for arranging the cable, the high-voltage cable box and the low-voltage cable box are not communicated, the high-voltage cable arrangement and the low-voltage cable arrangement can be stored respectively, the side protection plate can be installed on the side face of the high-voltage cable box in an inserting mode along the first butt joint sliding groove and the second butt joint sliding groove in an inserting mode, the side portion of the high-voltage cable box is used for protecting the side portion of the high-voltage cable box, the cable can be installed and used through the wire arrangement frame in a wiring mode, a radiating opening is formed in a penetrating mode in the surface of the side protection plate, the cable needing to be arranged in the wire bearing groove, and the cable arranged in the wire bearing groove can be fixed through the wire fixing clamp.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the structure of the top base of the present utility model;

FIG. 3 is a schematic view of a flat cable box structure according to the present utility model;

FIG. 4 is a schematic view of a side shield structure according to the present utility model;

fig. 5 is a schematic view of a partial structure at a in fig. 3 according to the present utility model.

In the figure: 1. a vertical connecting frame; 2. an interface I; 3. a lateral connecting hole; 4. a top connection seat; 5. a second interface; 6. a side plate; 7. a lateral assembly hole; 8. a screw; 9. a transverse connecting wall I; 10. a transverse connecting wall II; 11. a high voltage cable box; 12. a low voltage cable box; 13. a butt joint chute I; 14. a butt joint sliding groove II; 15. a wire supporting plate; 16. a wire bearing groove; 17. a heat sink; 18. fixing wire clamp; 19. a side shield; 20. a second plug connector; 21. a first plug connector; 22. and a heat radiation port.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, the embodiment of the utility model provides a high-low voltage cable laying structure of a power distribution room, which comprises a cable box and an installation base frame, wherein the installation base frame comprises a pair of vertical connecting frames 1, the front surfaces of the vertical connecting frames 1 are respectively provided with a butt joint first 2, the left and right sides of the vertical connecting frames 1 are respectively provided with a lateral connecting hole 3, the top of each vertical connecting frame 1 is provided with a top seat 4, a transverse connecting wall first 9 and a transverse connecting wall second 10 are arranged between the two vertical connecting frames 1, the cable box is arranged between the transverse connecting wall first 9 and the transverse connecting wall second 10, the cable box consists of a high-voltage cable box 11 and a low-voltage cable box 12, the structure constitution between high-voltage cable box 11 and the low-voltage cable box 12 is the same, the winding displacement case can dock the installation with the installation bed frame, and carry out fixed connection with the power distribution room fixed object with the help of the installation bed frame and use, vertical link 1 top can assemble top seat 4, and carry out fixed connection with the help of top seat 4 and building surface, transverse connection wall one 9 and transverse connection wall two 10 can be according to winding displacement case installation height position adjustment in the upper position of vertical link 1, the inside of winding displacement case can be arranged to the cable, thereby realize arranging the use to the cable, do not communicate between high-voltage cable box 11 and the low-voltage cable box 12, and can store high-voltage cable and arrange the use with the low-voltage cable respectively.

In this embodiment, specific: the transverse cross section of vertical link 1 is C font structure, the interface second 5 has been seted up to the front surface of top seat 4, the equal fixed mounting in left and right sides of top seat 4 has curb plate 6, lateral mounting hole 7 has all been seted up on the surface of curb plate 6, top seat 4 and vertical link 1 structural dimension and position looks adaptation, top seat 4 passes interface second 5 and the interface first 2 on the vertical link 1 with the help of the bolt and is connected, curb plate 6 passes lateral mounting hole 7 with the side direction connecting hole 3 on the vertical link 1 with the help of the bolt and is connected, the top of top seat 4 is formed with the bending portion, and the upper surface of bending portion is equipped with screw 8, top seat 4 can dock with vertical link 1 top, and pass interface second 5 and interface first 2 on the vertical link 1 through the bolt and dock, vertical link 1 can carry out further fixed connection use with the building surface.

In this embodiment, specific: the transverse connecting wall II 10 is located right above the transverse connecting wall I9, the transverse connecting wall II 10 and the transverse connecting wall I9 are connected with the lateral connecting holes 3 on the vertical connecting frame 1 by means of bolts, the high-voltage cable box 11 comprises a first butt-joint sliding groove 13 formed at the top of the high-voltage cable box 11, a second butt-joint sliding groove 14 fixedly formed at the bottom end of the high-voltage cable box 11, a wiring frame fixedly mounted on the inner wall of the high-voltage cable box 11 and a lateral protection plate 19 connected between the first butt-joint sliding groove 13 and the second butt-joint sliding groove 14, and the lateral protection plate 19 can be inserted and mounted to the lateral surface of the high-voltage cable box 11 along the first butt-joint sliding groove 13 and the second butt-joint sliding groove 14 for protecting the lateral surface of the high-voltage cable box 11.

In this embodiment, specific: the wiring frame is composed of a plurality of wire supporting plates 15 fixedly installed on the inner wall of the high-voltage cable box 11, a wire supporting groove 16 formed on the wire supporting plates 15, a heat dissipation groove 17 formed on the inner surface of the wire supporting groove 16 and a wire fixing clamp 18 arranged above the wire supporting groove 16, a first plug connector 21 matched with a first butt joint sliding groove 13 is formed at the top of a side protection plate 19, a second plug connector 20 matched with a second butt joint sliding groove 14 is formed at the bottom of the side protection plate 19, a heat dissipation opening 22 is formed on the surface of the side protection plate 19 in a penetrating mode, cables needing to be wired can be installed inside the wire supporting groove 16, the heat dissipation effect of the surfaces of the cables can be improved through the heat dissipation groove 17 formed on the inner surface of the wire supporting groove 16, and heat accumulated on the surfaces of the cables can be reduced.

The utility model works when in work: firstly, the flat cable box can be in butt joint installation with the installation base frame, and is fixedly connected with a fixed object of a power distribution room by the installation base frame, the top of the vertical connecting frame 1 can be assembled with the top seat 4, and is fixedly connected with the surface of a building by the top seat 4, the side plate 6 passes through the lateral assembling hole 7 by means of bolts to be connected with the lateral connecting hole 3 on the vertical connecting frame 1, the top of the top seat 4 is provided with a bending part, the upper surface of the bending part is provided with a screw 8, the top seat 4 can be in butt joint with the top of the vertical connecting frame 1, and passes through the butt joint interface II 5 to be in butt joint with the butt joint I2 on the vertical connecting frame 1 by means of bolts, the vertical connecting frame 1 can be further fixedly connected with the surface of the building by the top seat 4, the transverse connecting wall I9 and the transverse connecting wall II 10 can be adjusted at the upper position of the vertical connecting frame 1 according to the installation height position of the flat cable box, the cables can be arranged in the cable box, so that the cables are arranged and used, the high-voltage cable box 11 and the low-voltage cable box 12 are not communicated, the high-voltage cable arrangement and the low-voltage cable arrangement and the use can be stored respectively, the side protection plate 19 can be inserted and installed to the side face of the high-voltage cable box 11 along the first butt-joint sliding groove 13 and the second butt-joint sliding groove 14 for protecting the side face of the high-voltage cable box 11, the cables can be arranged and used through the wiring frame, the surface of the side protection plate 19 is penetrated and formed with the heat dissipation opening 22, the cables needing to be arranged can be arranged in the wiring groove 16, the heat dissipation effect of the inner surface of the wiring groove 16 can be improved through the heat dissipation groove 17 of the inner surface of the wiring groove 16, reducing the heat accumulated on the surface of the cable.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The utility model provides a high-low voltage cable laying structure of electricity distribution room, includes winding displacement case and installation bed frame, its characterized in that, the installation bed frame includes a pair of vertical link (1), interface one (2) have all been seted up to the front surface of vertical link (1), lateral connection hole (3) have all been seted up to the left and right sides of vertical link (1), top seat (4) are installed in the top configuration of vertical link (1), dispose and be connected with transverse connection wall one (9) and transverse connection wall two (10) between two vertical link (1), the winding displacement case sets up between transverse connection wall one (9) and transverse connection wall two (10), the winding displacement case comprises high-voltage cable case (11) and low-voltage cable case (12), the structure constitution between high-voltage cable case (11) and the low-voltage cable case (12) is the same.

2. The high-low voltage cable laying structure of the power distribution room according to claim 1, wherein the transverse section of the vertical connecting frame (1) is of a C-shaped structure, the front surface of the jacking seat (4) is provided with a second opposite interface (5), the left side and the right side of the jacking seat (4) are fixedly provided with side plates (6), and the surfaces of the side plates (6) are provided with lateral assembly holes (7).

3. The high-low voltage cable laying structure of the power distribution room according to claim 2, wherein the structure size and the position of the top seat (4) are matched with those of the vertical connecting frame (1), the top seat (4) penetrates through the second butt joint (5) to be connected with the first butt joint (2) on the vertical connecting frame (1) by means of bolts, and the side plate (6) penetrates through the lateral assembly holes (7) to be connected with the lateral connection holes (3) on the vertical connecting frame (1) by means of bolts.

4. The high-low voltage cable laying structure of the power distribution room according to claim 2, wherein a bending part is formed at the top of the top seat (4), and a screw (8) is arranged on the upper surface of the bending part.

5. The high-low voltage cable laying structure of the power distribution room according to claim 1, wherein the second transverse connecting wall (10) is located right above the first transverse connecting wall (9), and the second transverse connecting wall (10) and the first transverse connecting wall (9) are connected with the lateral connecting holes (3) on the vertical connecting frame (1) through bolts.

6. The high-low voltage cable laying structure of the power distribution room according to claim 1, wherein the high-voltage cable box (11) comprises a first butt-joint chute (13) formed at the top of the high-voltage cable box (11), a second butt-joint chute (14) fixedly formed at the bottom end of the high-voltage cable box (11), a wire distribution frame fixedly installed on the inner wall of the high-voltage cable box (11) and a side protection plate (19) connected between the first butt-joint chute (13) and the second butt-joint chute (14).

7. The high-low voltage cable laying structure of the power distribution room according to claim 6, wherein the wiring frame is composed of a plurality of wire supporting plates (15) fixedly installed on the inner wall of the high-voltage cable box (11), a wire supporting groove (16) formed on the wire supporting plates (15), a heat dissipation groove (17) formed on the inner surface of the wire supporting groove (16) and a wire fixing clamp (18) configured and installed above the wire supporting groove (16).

8. The high-low voltage cable laying structure of the power distribution room according to claim 6, wherein a first plug connector (21) matched with the first butt-joint sliding groove (13) is formed at the top of the side protection plate (19), a second plug connector (20) matched with the second butt-joint sliding groove (14) is formed at the bottom of the side protection plate (19), and a heat dissipation opening (22) is formed on the surface of the side protection plate (19) in a penetrating mode.