CN215870427U - Novel switch cabinet cable chamber structure - Google Patents

Abstract

The utility model provides a novel switch cabinet cable chamber structure which comprises a feeder cabinet, wherein a first accommodating space for placing a drawer is arranged in the middle of the front end in the feeder cabinet, a second accommodating space is arranged on the other side of the first accommodating space, and the second accommodating space is a vertical bus chamber; the other side of the first accommodating space is a third accommodating space; the third accommodating space is a secondary cable small chamber or a terminal strip mounting chamber; a fourth accommodating space is arranged at the rear end in the feeder cabinet, and the fourth accommodating space is a cable chamber; changing the outlet of the cable at the bottom of the cabinet from a dispersed outlet to a concentrated outlet; changing the positions and wiring directions of the zero line row and the ground line row; the bending times during the cable wiring is reduced, the cable material consumption is reduced, the cost is saved, the cable wiring construction is facilitated, and the heat dissipation space of the connector and the connecting point is increased.

Description

Novel switch cabinet cable chamber structure

Technical Field

The utility model relates to the technical field of power distribution construction, in particular to a novel switch cabinet cable chamber structure.

Background

In recent years, with the rapid development of urban residential communities, the low-voltage complete draw-out switch cabinet is generally applied to community power distribution construction due to the advantages of strong universality and compact structure. The project department of our company integrates the demands of numerous power customers in the operation and maintenance process of distribution equipment in 30 residential districts in an urban area, and finds that the wiring of outgoing cables of the GCS low-voltage switch cabinet has the following defects: the cable chamber of the switch cabinet has narrow space, increases the difficulty of cable wiring construction, leads to crowded and redundant cables in the cable chamber due to the requirement of the bending radius of the cables, and is extremely not beneficial to heat dissipation and operation maintenance in the operation of a connector; and secondly, the original leading connection mode of the zero line and the ground wire of the cable prolongs the wiring length of the cable, increases the bending times of the cable, increases the consumption of cable materials, and is not beneficial to improving the cable wiring process of the cable chamber because the cable chamber of the switch cabinet has compact space.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel switch cabinet cable chamber structure aiming at the defects of the prior art, the layout of the switch cabinet cable chamber is improved, the heat dissipation of a low-voltage switch cabinet is improved, the cable wiring construction process is improved, the cable material consumption is saved, and the cost is reduced.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a novel switch cabinet cable chamber structure which comprises a feeder cabinet, wherein a first accommodating space for placing a drawer is arranged in the middle of the front end in the feeder cabinet, a second accommodating space is arranged on one side of the first accommodating space, and the second accommodating space is a vertical bus chamber; the other side of the first accommodating space is a third accommodating space; the third accommodating space is a secondary cable small chamber or a terminal strip mounting chamber; the rear end in the feeder cabinet is a fourth accommodating space, and the fourth accommodating space is a cable chamber.

Furthermore, a cable outlet is arranged at the bottom of one side of the rear end in the feeder cabinet.

Furthermore, the cable outlet is 220mm 180 mm.

Furthermore, a first mounting beam and a second mounting beam are sequentially arranged at the rear end of the feeder cabinet from the top of the cabinet to the bottom of the cabinet, and the first mounting beam and the second mounting beam are arranged along the width direction of the feeder cabinet;

furthermore, one side of the rear end of the feeder cabinet is provided with a ground row, and the ground row is arranged along the height direction of the feeder cabinet.

Further, an insulator is mounted on the second mounting beam.

Further, the ground row is vertically and crosswise connected with the first mounting beam and the second mounting beam.

Furthermore, a zero row is installed on one side of the ground row, and the zero row is connected with the first installation beam and the second installation beam in an insulating mode through the insulators. .

The utility model has the beneficial effects that: changing the outlet of the cable at the bottom of the cabinet from a dispersed outlet to a concentrated outlet; changing the positions and wiring directions of the zero line row and the ground line row; the bending times when reducing the cable wiring makes things convenient for the cable wiring construction, reduces cable material consumption, practices thrift the cost, has increased the heat dissipation space of connector, tie point, has greatly improved cable wiring construction process, makes things convenient for the operation maintenance in cubical switchboard later stage.

Drawings

FIG. 1 is a schematic top view of a novel cable chamber structure of a switch cabinet according to the present invention;

fig. 2 is a schematic front view of a cable chamber structure of a novel switch cabinet according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1 and 2, a novel cable chamber structure of a switch cabinet includes a feeder cabinet 1, a first accommodating space 101 for accommodating a drawer is disposed in the middle of the front end of the feeder cabinet 1, a second accommodating space 102 is disposed on the other side of the first accommodating space, and the second accommodating space is a vertical bus chamber; the other side of the first accommodating space is a third accommodating space 103; the third accommodating space is a secondary cable small chamber or a terminal strip mounting chamber; the rear end in the feeder cabinet is a fourth accommodating space 105, and the fourth accommodating space is a cable chamber.

Specifically, the first accommodating space 101 is used for installing a drawer of the switch cabinet, and the first accommodating space 101 is installed along the height direction of the feeder cabinet 1;

the second accommodating space 102 is installed along the height direction of the feeder cabinet 1, that is, the height of the second accommodating space 102 is consistent with the height of the feeder cabinet 1.

The cable chamber 105 is installed at the rear end in the feeder cabinet along the height direction of the feeder cabinet 1, that is, the height of the fourth accommodating space 105 is the same as the height of the feeder cabinet 1.

A cable outlet 104 is arranged at the bottom of one side of the rear end in the feeder cabinet 1.

The cable outlet 104 is 220mm x 180 mm.

The cable outlet at the bottom of the cabinet is changed, and the scattered wires are planned into a uniform path, so that the appearance is attractive, and the heat dissipation space of the cable chamber can be increased.

The cables in the feeder cabinet 1 all migrate out of the feeder cabinet 1 through the cable outlet 104, so that the cables have a uniform path, and the regularity of the cables in the feeder cabinet 1 is ensured.

A first mounting beam 201 and a second mounting beam 202 are sequentially arranged at the rear end of the feeder cabinet 1 from the top to the bottom of the cabinet, and the first mounting beam 201 and the second mounting beam 202 are arranged along the width direction of the feeder cabinet 1;

specifically, both ends of the first mounting beam 201 and the second mounting beam 202 are mounted on both sidewalls of the feeder cabinet 1.

In the embodiment of the utility model, the first mounting beam 201 is installed near the top of the feeder cabinet 1, and the second mounting beam 202 is installed near the bottom of the feeder cabinet 1;

wherein, the first mounting beam 201 plays a role of supporting;

the second mounting beam 202 is used to support the zero row 204, the ground row 203 and the insulator 3.

Furthermore, the zero row 204 and the ground row 203 are arranged adjacently at one side of the feeder cabinet 1. The regularity of the whole cabinet body is ensured, and the wiring is unified.

A ground row 203 is arranged on one side of the rear end of the feeder cabinet 1, and the ground row 203 is arranged along the height direction of the feeder cabinet 1.

The second mounting beam 202 is provided with an insulator 3.

The ground row 203 is connected to the first mounting beam 201 and the second mounting beam 202 in a perpendicular crossing manner. .

A zero row 204 is installed on one side of the ground row 203, and the zero row 204 is in insulated contact with the first mounting beam 201 and the second mounting beam 202 through the insulator 3. .

After the zero row 204 and the ground row 203 are moved to the cable cabinet from the left side of the cable cabinet, the contact surface of the zero row 204 and the ground row 203 is parallel to the cabinet door, so that the heat dissipation space of a cable chamber is increased, and the wiring appearance process of the cable is improved.

Wherein, the cable is arranged in the fourth accommodating space 105.

The indoor heat dissipation space of the switch cabinet cable is reduced by bending each loop cable for four times before transformation, and the indoor heat dissipation space of each loop cable after transformation is only bent for two times, so that the wiring of the cable line is more direct and clear, and 1m of cable consumption can be saved by checking each cable in each loop line after transformation. The consumption of materials is saved, the heat dissipation space in a cable chamber is enlarged, and the cable wiring process is greatly improved. The set target is reached.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. The utility model provides a novel cubical switchboard cable chamber structure, includes feeder cabinet (1), its characterized in that: the middle part of the front end in the feeder cabinet (1) is provided with a first accommodating space (101) for accommodating a drawer, one side of the first accommodating space (101) is provided with a second accommodating space (102), and the second accommodating space is a vertical bus chamber; the other side of the first accommodating space (101) is a third accommodating space (103); the third accommodating space (103) is a secondary cable small chamber or a terminal strip mounting chamber; the rear end in the feeder cabinet (1) is a fourth accommodating space (105), and the fourth accommodating space (105) is a cable chamber.

2. The novel cable chamber structure of the switch cabinet as claimed in claim 1, wherein: and a cable outlet (104) is arranged at the bottom of one side of the rear end in the feeder cabinet (1).

3. The novel cable chamber structure of the switch cabinet as claimed in claim 2, wherein: the cable outlet (104) is 220mm multiplied by 180 mm.

4. The novel cable chamber structure of the switch cabinet as claimed in claim 3, wherein: a first mounting beam (201) and a second mounting beam (202) are sequentially arranged at the rear end of the feeder cabinet (1) from the top to the bottom of the cabinet, and the first mounting beam (201) and the second mounting beam (202) are arranged along the width direction of the feeder cabinet (1);

one side of the rear end of the feeder cabinet (1) is provided with a ground row (203), and the ground row (203) is arranged along the height direction of the feeder cabinet (1).

5. The novel cable chamber structure of the switch cabinet as claimed in claim 4, wherein: and the second mounting beam (202) is provided with an insulator (3).

6. The novel cable chamber structure of the switch cabinet as claimed in claim 5, wherein: the ground row (203) is vertically crossed and connected with the first mounting beam (201) and the second mounting beam (202).

7. The novel cable chamber structure of the switch cabinet as claimed in claim 4, wherein: and a zero row (204) is arranged on one side of the ground row (203), and the zero row (204) is in insulated connection with the first mounting beam (201) and the second mounting beam (202) through the insulator (3).

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