EA033903B1 - Outdoor integrated switchgear - Google Patents

Abstract

The invention relates to the electrical energy production, transformation and distribution, and can find application in integrated switchgears (ISG). The technical result is creation of an outdoor ISG characterized by easy access to any equipment (without the other equipment dismantling), increased operational reliability due to the feedthrough insulators and other equipment placement in a detachable housing and their inaccessibility to precipitation, minimization of accidents due to the presence of a partition that separates the current transformers from other equipment. This is achieved by that an outdoor ISG contains a container in which the cells with main electrotechnical equipment, auxiliary equipment, lighting, heating, ventilation systems, a busbar connecting the feedthrough insulators to the device elements, the busbars compartment, the connection compartment, the busbars located at the top of the device and lead outward are located. Cells with main electrotechnical equipment contain current transformers, ground terminals and switches located in the compartments. The feedthrough insulators to be connected to the overhead line are located at the top of the device, the busbars are arranged in a detachable housing mounted on the container side surface and having a maintenance hatch, and the busbars connecting the feedthrough insulators to the current transformers are placed in the container opening with the feedthrough insulators placed therein. At that, the current transformers are fixed in the cells upper part, a separating partition is installed between the busbars compartment and the connection compartment, on which the ground terminal is mounted. On the connection and busbars compartments inner vertical walls, maintenance hatches are made. In the detachable housing lower part a hatch is made, intended for connection to the cable line.

Description

The invention relates to electrical engineering, in particular to the production, conversion and distribution of electrical energy, and may find application in complete switchgears.

Known is a complete outdoor switchgear comprising a container in which cells with basic electrical equipment are located, service corridors, lighting, heating, ventilation systems, a busbar connecting bushing insulators with device elements, a busbar compartment, a connection compartment, busbar bushings located in the top of the device and brought out; cells with basic electrical equipment contain current transformers, grounding conductors and circuit breakers located in the compartments, with busbar bushings located at the top of the container, a current transformer and grounding conductor mounted on a vertical wall, and bushing insulators mounted on the roof of the container [L.1].

The outdoor switchgear described in [L.1] is characterized by significant operational inconveniences, since in order to get to any equipment, it is necessary to disassemble other types of equipment;

relatively low operational reliability due to the availability of rainfall bushings located on the roof, and busbar insulators located in the upper part of the container;

increased accident rate due to the presence of fire hazardous devices in one cell without separation of the current transformer using the compartment.

The invention solves the problem of creating a complete switchgear outdoor installation, devoid of the above disadvantages, characterized by significant operational amenities, due to the ease of access to any equipment (without disassembling other equipment); increased operational reliability due to the placement of bushing insulators and other equipment in a removable housing and inaccessibility to their precipitation; minimizing the accident rate due to the presence of a partition separating current transformers from other equipment.

To solve this problem, in a complete outdoor switchgear containing a container in which cells with basic electrical equipment are located, auxiliary equipment, lighting, heating, ventilation systems, busbar, connecting bushing insulators with device elements, busbar compartment, connection compartment, busbar the inputs located at the top of the device and brought out, while the cells with the main electrical equipment contain current transformers, dimmers and circuit breakers located in the compartments, and bushing insulators are located in the upper part of the device, it is proposed according to the present invention to insert bus bushings in a removable housing mounted on the side surface of the container and having a service hatch located opposite this side surface, and a busbar connecting the bushing insulators with current transformers, place in the opening of the container with bushings placed in it, mounted perpendicular to the vertical wall of the container; at the same time, fix the current transformers in the upper part of the cells, install a dividing wall between the busbar compartment and the connection compartment, on which to install the ground electrode, perform a maintenance hatch on the internal vertical wall of the connection compartment, and also make a removable maintenance hatch on the internal vertical wall of the busbar compartment ; in addition, bushing insulators designed to connect to the overhead line can be placed in the upper part of the removable housing; in addition, in the lower part of the removable housing can be made hatch designed to connect to a cable line.

The invention is illustrated by the example of the drawings, which schematically depict the claimed complete switchgear outdoor installation:

FIG. 1 is a front view of the device, FIG. 2 is a top view of the device, FIG. 3 - an embodiment of the device with the location of bushing in the upper part of the removable housing;

FIG. 4 - an embodiment of a device in a removable housing of which there is a hatch.

The outdoor switchgear contains a container 1, in which cells 2 are located, containing the main electrical equipment - current transformers 3, grounding rods 4 and switches 5.

In addition, a service corridor 6 with auxiliary equipment, a lighting system 7, heating 8, ventilation 9, and busbar 10 connecting the bushing insulators 11c with elements of the device are located in container 1.

The complete switchgear also has a busbar compartment 12 and an attachment compartment 13.

The complete switchgear comprises a removable housing 14 mounted in the upper part of the container 1, on its side surface 15, and rigidly connected to it.

Bus entries 16 are housed in a removable housing 14 and brought out.

On the side surface of the removable housing 14 there is a service hatch 17 located

- 1,033,903 opposite the side surface 15 of the container 1.

The busbar 10 connecting the bushing insulators 11 mounted perpendicular to the vertical side surface 15 of the container 1, with current transformers 3, is placed in the opening 18 of the container.

Current transformers 3 are fixed in the upper part of the cells 2.

Between the busbar compartment 12 and the connection compartment 13, a dividing metal partition 19 is installed on which an earthing switch 4 is mounted.

On the inner vertical surface 20 of the compartment 12 prefabricated there is a removable hatch 21 for maintenance.

On the inner vertical surface 20 of the compartment 13 connections there is a removable hatch 22 for maintenance.

According to one embodiment of the invention, bushing insulators 23 are arranged in the upper part of the removable housing 14 for connecting to an overhead power line.

According to another embodiment of the invention, a hatch 24 is provided in the lower part of the removable housing 14 for connecting to a cable line.

Complete switchgear operates as follows.

The supply voltage to the complete switchgear, made according to option 1 (to busbar 10), is carried out through bushing 23 located in a removable housing 14 (see Fig. 3).

The supply voltage to the complete switchgear, made according to option 2 (to bus 10), is carried out through the hatch 24, made in a removable housing 14.

When moving the switch 5 from the control position to the operating position and its inclusion, the supply voltage is supplied to the busbars of all cells 2 of the complete switchgear.

Each cell 2 is connected to the busbars of the complete switchgear by moving the corresponding switch 5 in each cell 2 and turning it on, i.e. setting the switch 5 to the on position.

After that, the supply voltage is supplied to the consumer from the corresponding cell 2 through bus inputs 16 and bushing 23 through busbar 10 located in the removable housing 14 (in the device according to embodiment 1), or to busbar 10 through the hatch 24, through which the cable supplying consumers is introduced, made in a removable housing 14 (in the device according to option 2).

The device is operational.

Power cut, i.e. bringing the device into an off state is carried out in the reverse order.

Each cell 2 is disconnected from bus 10 in the reverse order, i.e. by moving the corresponding switch 5 in each cell 2 to the off position.

After that, the supply voltage from the corresponding cell 2 to busbar 10 in both option 1 and option 2 is stopped.

The device is disconnected from the supply voltage.

When revising the complete switchgear, it is enough to disconnect the removable housing 14, open the hatches 21 and 22 and, thus, get a very simple method to access almost all types of equipment in the container.

The placement of bushing insulators and other equipment in a removable case, and not on the roof of the container (as is the case in known similar devices) will increase the operational reliability and service life of the complete switchgear due to the inaccessibility of direct rainfall on its equipment due to wet roofs.

The presence of a metal partition separating current transformers from other equipment will increase the fire safety level of the device and minimize its accident rate.

In accordance with the claimed decision, LLC SVEL-Power Transformers developed the technical documentation of the outdoor switchgear, in accordance with which the device was manufactured and tested, as well as the process of its transportation to the installation site. Positive test results of the device confirmed its efficiency and wide practical possibilities of application in serial production of the product.

Literature:

Complete distribution device for a rated voltage of 35 kV and rated currents of 1000 A, 1600 A SESH-65, manufactured by Elektroshchit-TM Samara Group of Companies in accordance with TI-077-2002 technical information since 2002

Claims (3)

CLAIM 1. An outdoor switchgear containing a container in which cells with basic electrical equipment are located, service corridors, lighting, heating, ventilation systems, a busbar connecting bushing insulators to - 2 033903 devices, busbar compartment, connection compartment, busbar bushings located in the upper part of the device and brought out, while the cells with the main electrical equipment contain current transformers, earthing switches and circuit breakers located in the compartments, and bushing insulators are located in the upper part device, characterized in that the busbar bushings are housed in a removable housing mounted on the side surface of the container and having a service door located opposite this side surface, and the busbar connecting the bushing insulators with current transformers is placed in the opening of the container containing bushing insulators perpendicular to the vertical surface of the container, current transformers are fixed in the upper part of the cells, a dividing wall is installed between the busbar compartment and the connection compartment, on which the ground electrode is mounted, on the internal vertical the access compartment wall has a service hatch; on the internal vertical wall of the busbar compartment there is also a removable hatch for service. 2. The complete switchgear according to claim 1, characterized in that in the upper part of the removable housing are bushings designed to be connected to the overhead line. 3. The complete switchgear according to claim 1, characterized in that a hatch is made in the lower part of the removable housing for connecting to the cable line.