KR20020046084A - Power switch for gas insulated fused potential transformer - Google Patents

Abstract

PURPOSE: A power switching device of fused potential transformer for gas insulation load switch is provided to supply a continuous power regardless of a repair of a fused potential transformer by setting up a vacuum bulb unit for a power switching between a switch and the fused potential transformer. CONSTITUTION: An elbow cable connects a fused potential transformer with a transformer-side bushing(6). A gas insulation load switch supplies a primary side of the fused potential transformer with a high voltage power. A vacuum bulb unit(14) is set up between the fused potential transformer and the transformer-side bushing(6). A switching unit operates the vacuum bulb unit(14) to switch the power of the switch toward the fused potential transformer. The switching unit consists of a switch handle(10), a bellows(11) which is in interlocking with the switch handle(10), a connector(12) which drives a moving bar, and a guide rod(13) which guides the connector(12).

Description

Power switch for gas insulated fused potential transformer {Power switch for gas insulated fused potential transformer}

The present invention relates to a gas insulated load switch for wiring automation used in a 25.8 kV underground wiring line, and in particular, to cut off the primary side incoming power of a fuse-type transformer used for power control of a gas insulated load switch. The present invention relates to a power switchgear of a built-in fuse-type transformer.

Gas insulated load switch for wiring automation among switchgear used in underground wiring line is installed by using controller and FRTU (Feeder Remote Terminal Unit) to enable automatic operation at the remote location as well as the controller and FRTU Since 220V low voltage power supply is used, 220V power should be supplied to these devices.

However, since the switch is mainly installed outdoors and used, it is inconvenient to connect a long distance with an electric wire in order to supply a separate 220V power from the outside, and sometimes the switch is not able to supply 220V power. It may be installed.

Therefore, in the gas insulated load switch as described above, a fuse-embedded transformer for supplying a 220V low voltage power supply to the controller and the FRTU using a high voltage line is integrally attached.

1 is an external view of a conventional gas insulated load switch, in which a controller 2, a FRTU 3, and a storage battery 4 are installed at one side of a switch tank 1, and a fuse-embedded transformer 5 is installed at the other side. have.

A transformer side bushing 6 is installed in the switch tank 1 and an elbow cable 7 is connected between the transformer side bushing 6 and the fuse-embedded transformer 5 so that the primary side of the fuse-embedded transformer 5 is connected. Apply high voltage power.

In the gas-insulated load breaker as described above, the fuse-embedded transformer should have a function of always supplying 220V, which is the charge of the battery 4 and the control power of the controller 2, using a high-voltage primary power source. In the operation method, one of the four circuits is the inlet part and the other three circuits are connected to the customer or another switch, so the busbar inside the switch connected to the fuse-embedded transformer 5 is connected to the switch power supply. Regardless of the circuit, the common busbar will always be live.

2 is an internal configuration diagram of a conventional gas insulated load switch, and in the conventional switchgear, a B-phase common busbar close to the transformer side bushing 6 is connected to the transformer-side busbar 8, and the power input to the switch is common to the B phase. A bus bar, a transformer side bus bar 8, a transformer side bushing 6, and an elbow cable 7 are sequentially supplied to the fuse-embedded transformer 5.

However, the conventional apparatus as described above has a problem in that the replacement work in the power failure state when replacing the fuse-embedded transformer.

In other words, the fuse-type transformer often needs to be replaced due to a short circuit of the fuse due to a short circuit or a defect of the transformer itself.However, in order to repair or replace the fuse-type transformer in a conventional switchgear, the power supply of the switch is turned on. After opening the circuit and maintaining it in the inactive state, there is a problem that the transformer must be repaired or replaced. Accordingly, the customers connected to the switch have the inconvenience of waiting for the work to be completed in a power failure state.

In addition, there is a case in which repair or replacement work is performed while power is supplied to a fuse-embedded transformer in order to minimize the power failure to the consumer side as described above. In this case, an operator may be electrically shocked.

It is an object of the present invention to provide a power switch of a fuse-embedded transformer for a gas insulated load switch that can be operated in a state in which only the power on the transformer side is shut off while continuously supplying power to a consumer during repair or replacement of a fuse-embedded transformer. It is to provide.

According to an embodiment of the present invention for achieving the above object, the transformer side bushing is installed in the switchgear tank and the elbow cable is connected between the transformer side bushing and the fuse-embedded transformer to supply high voltage power to the primary side of the fuse-embedded transformer. In the gas insulated switchgear, a vacuum bulb mechanism is installed between the transformer side bushing and a fuse-embedded transformer, and a switching mechanism for operating the vacuum bulb mechanism is installed to fuse the power of the switch according to the operation of the vacuum bulb mechanism. Provided is a power switchgear of a fuse-embedded transformer for a gas-insulated load breaker configured to supply and disconnect the built-in transformer.

1 is an external view of a conventional gas insulated load switch

2 is a block diagram of a conventional gas insulated load switch

3 is an external view of a gas insulated load switch according to the present invention.

Figure 4 is an internal configuration of the gas insulated load switch according to the present invention

5 is a configuration diagram of a vacuum bulb mechanism applied to the apparatus of the present invention;

Explanation of symbols for main parts of the drawings

5: Built-in fuse 10: Switch handle

11: Bellows 12: Connector

13: guide rod 14: vacuum bulb mechanism

15: moving bar 16: insulation stand

18: first link 19: second link

21: spring house 23: movable contact

24: fixed contact

3 is an external view of a gas insulated load switch according to the present invention, FIG. 4 is an internal configuration diagram, and FIG. 5 is a configuration diagram of a vacuum bulb mechanism applied to the apparatus of the present invention.

The controller 2, the FRTU 3, and the storage battery 4 are provided on one side of the switch tank 1, and the fuse-embedded transformer 5 is provided on the other side.

A transformer side bushing 6 is installed in the switch tank 1 and an elbow cable 7 is connected between the transformer side bushing 6 and the fuse-embedded transformer 5 so that the primary side of the fuse-embedded transformer 5 is connected. Apply high voltage power.

The transformer side busbar 8 of the transformer side bushing 6 is connected to the A phase common busbar.

In addition, the switch tank is provided with a vacuum bulb mechanism 14 and a switching mechanism for operating the vacuum bulb mechanism.

The switching mechanism includes a switch handle 10 installed at the front of the switchgear, a bellows 11 fixed to the switch handle and interlocked by pushing and pulling the switch handle, a connector 12 fixed and interlocked to the bellows, It is composed of a guide rod 11 for guiding the movement of the connector.

The vacuum bulb mechanism is connected to the connector 12 as shown in Figure 5 and the moving bar 15 moving in conjunction with the connector, and the insulator 16 to rotate around the pin 17 in accordance with the movement of the moving bar and A first link 18 interlocked with the rotation of the insulator, a second link 19 connected to the first link by a pin 20, and a spring house 21 connected to the second link by a pin. ) And a movable contact 23 connected to the fixed contact 24 or spaced apart from the fixed contact while interlocking with the spring house.

The apparatus of the present invention as described above is used in a state in which the switch handle 10 is not pulled in a normal use state, when the user wants to repair or replace the fuse-embedded transformer, the user pulls the switch handle 10 to operate the vacuum bulb mechanism 14. In the state where the movable contact 23 and the fixed contact 24 of the) is to be spaced apart, the operation of the vacuum bulb mechanism is as follows.

When the user pulls the switch handle 10 in a normal use state (each contact is connected), the connector 12 connected to the switch handle 10 and the bellows 11 is pulled while being guided to the guide rod 13. The moving bar 15 connected to the connector 12 moves in the right direction of FIG. 5, and as the moving bar 15 moves, the insulator 16 moves in rotation about the pin 17. do.

As described above, when the insulator 16 rotates, the first link 18 and the second link 19 coupled to the first link by the pins 20 are interlocked and the second link 19 and the pins move together. Since the spring house 21 connected by 20 moves in the right direction of FIG. 5, the movable contact 23 is separated from the fixed contact 24, so that the high voltage power of the switch is not supplied to the fuse-embedded transformer 5.

Therefore, even when the power is supplied to the consumer side, the fuse-embedded transformer can be repaired or replaced.

On the other hand, after the repair or replacement of the fuse-embedded transformer is completed, the pulled switch handle 10 is pushed in, and the movable contact 23 is fixed as the vacuum bulb mechanism 14 operates in the reverse direction when the switch handle 10 is pulled out. Connected to (24), power of the open circuit is supplied to the fuse-embedded transformer side.

The present invention is to install a vacuum bulb mechanism for opening and closing the power supply between the switch and the fuse-embedded transformer to cut off only the power on the fuse-embedded transformer side by the vacuum bulb mechanism during the repair or replacement of the fuse-embedded transformer and continue to supply power to the consumer side Since it can supply, it is possible to solve the inconvenience of the customers due to the power failure, and to prevent the electric shock of the replacement worker caused by working while the power is supplied to prevent the power failure.

Claims (3)

A transformer side bushing 6 is installed in the switchgear tank 1, and an elbow cable 7 is connected between the transformer side bushing 6 and the fuse-embedded transformer 5 so that the primary side of the fuse-embedded transformer 5 is high. In the gas insulated load switchgear to supply power, A vacuum bulb mechanism 14 is installed between the transformer side bushing and the fuse-embedded transformer, and a switching mechanism for operating the vacuum bulb mechanism is provided to supply and cut off power to the fuse-embedded transformer according to the operation of the vacuum bulb mechanism. Power switchgear of the fuse-embedded transformer for gas-insulated load breaker, characterized in that configured to be. The method of claim 1, The switching mechanism is a switch handle 10 installed on the front of the switchgear, a bellows (11) fixed to the switch handle and interlocked with the switch handle, and fixed to the bellows, one side is connected to the moving bar of the vacuum bulb mechanism switch handle A power supply opening and closing device for a fuse-embedded transformer for a gas insulated load switch, characterized in that it comprises a connector (12) for driving the moving bar while interlocking with the movement of the guide rod, and a guide rod (11) for guiding the movement of the connector. The method of claim 1, The vacuum bulb mechanism is connected to the connector 12 of the switching mechanism is moved bar 15 and move in conjunction with the connector, the insulator 16 to rotate around the pin 17 in accordance with the movement of the moving bar, The first link 18 interlocked with the rotation of the insulator and the second link 19 connected to the first link by a pin 20, and the spring house 21 connected to the second link by a pin. And a movable contact (23) connected to the fixed contact point (24) or spaced from the fixed contact point while interlocking with the spring house.