RU57521U1 - LOW VOLTAGE COMPLETE DISTRIBUTION DEVICE - Google Patents

Abstract

The utility model relates to the field of electric power. The switchgear comprises first, second and third cabinets, lead-in buses, lead-out buses and bipolar protective devices intended for connecting consumers to the lead-out buses. The device includes the first and second pairs of output buses. The first lead-in bus is located in the first cabinet. The second lead-in bus is located in the second cabinet. Bipolar protective devices by the magnitude of the response current are distributed on the first and second group. The first group of bipolar protective devices is connected to the first pair of output buses, which, together with the first input bus, are located in the first cabinet. The second group of bipolar protective devices is connected to the second pair of output buses, which, together with the second input bus, are located in the second cabinet. The technical result is increased reliability.

Description

The utility model relates to the field of electric power.

Known complete switchgear low voltage containing a cabinet, lead-in busbars, lead-out busbars and bipolar protective devices for connecting consumers to lead-out buses / European Patent Application No. 872929, 1998 /.

High-current protective devices are mounted in conjunction with the input busbars, and therefore, when arcing short circuits in the circuit of high-current consumers, all consumers may cease to function.

Known complete switchgear low voltage containing the first, second and third cabinets, input busbars, output busbars and bipolar protective devices designed to connect consumers to the output busbars / Application for European patent No. 872929, 1998 /.

The bipolar protective devices of high-current and low-current consumers in each cabinet are mounted side by side, and therefore, with arc short circuits in the circuit of high-current consumers, the functioning of low-current consumers is possible.

The utility model is aimed at solving the problem of improving the reliability of functioning - the distribution of electrical energy.

The utility model is also aimed at solving the problem of providing convenient maintenance when performing preventive maintenance.

To solve these problems, in the complete switchgear of the low voltage of the operational direct current system, a separate input of the poles from the battery-current source into the different (opposite) cabinets of the complete switchgear (direct current board) is used.

In this case, the output buses can be either directly connected to the input buses (without protective devices), or through groups of low-current and high-current single-pole protective devices placed in different volumes of the cabinet.

A complete low-voltage switchgear is proposed, comprising first, second and third cabinets, lead-in rails, lead-out rails, and bipolar protective devices designed to connect consumers to the lead-out rails.

The complete distribution device includes at least the first and second pairs of output buses, the first input bus is located in the first cabinet, the second input bus is located in the second cabinet, bipolar protective devices are distributed according to the value of the tripping current to at least the first and second group, the first group of bipolar protective devices connected to the first pair of output buses, which together with the first input bus are located in the first cabinet, the second group of bipolar protective devices is connected to the second a pair of delivery of tires, which together with the second lead-bus arranged in the second enclosure.

The device may include a monitoring and measurement system that is installed in a third cabinet located between the first and second cabinets.

The input busbars can be connected by single-pole protective devices to the output buses.

By the magnitude of the tripping current, unipolar protective devices can be distributed at least into the first and second groups, a pair of input buses is connected via the first group of unipolar protective devices to the first pair of output buses, and by means of the second group of unipolar protective devices to the second pair of output buses.

The first and second cabinets can be equipped with partitions of non-combustible material, on which the input and output buses are mounted.

The input busbars can be mounted on the lower part, and the output busbars can be mounted on the upper part of the partition wall of the corresponding cabinet.

Each two-pole device can be selected from the group: circuit breaker, fuse and disconnector.

Each single-pole device can be selected from the group: circuit breaker, fuse and disconnector.

The first and second input busbars may be designed to be connected to the corresponding terminals of the battery as a low voltage current source.

The utility model is illustrated by drawings.

Figure 1 The location of the tires on one side of the partitions.

Figure 2 The location of the tires on the opposite side of the partitions.

Figure 3 Top view.

Figure 4 The location of the input and output tires along the height of the cabinet.

Figure 5 Schematic diagram.

The complete switchgear of operational direct current low voltage (Fig. 1, 2), contains the first, second and third metal cabinets 1-3, input busbars 4a, 4b, additional input busbars 4c, 4g, two pairs of output busbars 5, 6 and, respectively two groups of bipolar protective devices 11, 12, designed to connect high-current consumers (shutdown drives

circuit breakers), as well as four pairs of output buses 7-10 and, accordingly, four groups of bipolar protective devices 13-16, designed to connect low-current consumers (relay protection devices and automation devices).

In the basement of cabinets 1-3 there are cable channels.

In the first cabinet 1 there is a first lead-in bus 4a and an additional bus 4b.

In the second cabinet 2, there is a second lead-in bus 4b and an additional bus 4g.

Cabinet 1 is located on one side of cabinet 3, on the opposite side of which cabinet 2 is located.

Each of the six groups includes bipolar protective devices 11-16 close in nominal value of the operating current and selected from the group of devices: circuit breaker, fuse and disconnector.

The first, third and fifth groups of bipolar protective devices 11, 13, 15 are connected respectively to the first, third and fifth pair of output buses 5, 7, 9, which, together with the first input bus 4a, are located in the first cabinet 1.

The second, fourth and sixth group of bipolar protective devices 10, 12, 14 are connected respectively to the second, fourth and sixth pair of output buses 6, 8, 10, which, together with the second input bus 4b, are located in the second cabinet 2.

The device includes a monitoring and measurement system 17, consisting of a battery monitoring device 18 (SPP), a device for searching for earth faults in a direct current network (SRZ), a device 20 for monitoring the insulation resistance of a direct current network, and an emergency lighting device 21 (BAO )

The monitoring and measurement system 17 is installed in the third cabinet 3, located between the first cabinet 1 and the second cabinet 2.

The input busbars 4a, 4b are connected by two pairs of high-current unipolar protective devices 30, 31 with output buses 5, 6.

The input busbars 4a, 4b are connected by four pairs of low-current unipolar protective devices 32-35 with output buses 7-9.

The first, third and fifth groups of pairs of unipolar protective devices 31, 33, 35 are connected respectively to the first, third and fifth pair of output buses 5, 7, 9, which, together with the first input bus 4a, are located in the first cabinet 1.

The second, fourth and sixth group of unipolar protective devices 30, 32, 34 are connected respectively to the second, fourth and sixth pair of output buses 6, 8, 10, which together with the second input bus 4b are located in the second cabinet 2.

The first cabinet 1 and the second cabinet 2 are separated by a partition 36 made of non-combustible steel material and designed for the two-sided arrangement of single-pole protective devices 30-35 and two-pole protective devices 10-15.

In the partition 36, bushings 37 are installed, through which the input busbars 4a, 4b are rigidly connected to the pairs of output busbars 5-10.

In the cabinet 1, the input buses 4a, 4b are mounted on the lower part of the partition 36, on the upper part of which the output buses 5, 7, 9 are mounted.

In the cabinet 2, the input buses 4b, 4g are mounted on the lower part of the partition 36, on the upper part of which the output buses 6, 8, 10 are mounted.

The input busbars 4a, 4c are designed to connect to one terminal of the battery 38, for connecting to the other terminal of which the input buses 4b, 4d are intended.

The battery 38 is intended to be used as a low voltage current source of consumers connected to the output buses 5-10.

Each cabinet 1-3 is made with the possibility of two-way service.

Claims (9)

1. Complete switchgear low voltage containing the first, second and third cabinets, input busbars, output busbars and two-pole protective devices designed to connect consumers to the output busbars, characterized in that it includes at least the first and second pairs of output buses, the first input bus is located in the first cabinet, the second input bus is located in the second cabinet, bipolar protective devices are distributed according to the value of the tripping current to at least the first and second groups, the first group and bipole protective devices connected to the first pair of outlet tires, which together with the first lead-bus arranged in the first cabinet, the second group bipole protective devices connected to the second pair of outlet tires which together with the second lead-bus arranged in the second enclosure. 2. The device according to claim 1, characterized in that it includes a monitoring and measurement system that is installed in a third cabinet located between the first and second cabinets. 3. The device according to claim 1, characterized in that the input busbars are connected by unipolar protective devices with output buses. 4. The device according to claim 3, characterized in that the unipolar protective devices are distributed according to the operating current value to at least the first and second group, a pair of input buses is connected to the first pair of output buses by the first group of unipolar protective devices, and by the second groups of unipolar protective devices to the second pair of output buses. 5. The device according to claim 1, characterized in that the first and second cabinets are equipped with partitions of non-combustible material, on which the input and output buses are mounted. 6. The device according to claim 4, characterized in that the input busbars are mounted on the lower part, and the output busbars are mounted on the upper part of the partition wall of the corresponding cabinet. 7. The device according to claim 1, characterized in that each bipolar device is selected from the group: switch, fuse and disconnector. 8. The device according to claim 3, characterized in that each single-pole device is selected from the group: switch, fuse and disconnector. 9. The device according to claim 1, characterized in that the first and second input busbars are designed to be connected to the corresponding terminals of the battery as a low voltage current source.