RU211362U1 - GENERATOR BREAKER POLE - Google Patents

Abstract

The utility model relates to electrical engineering, namely to the pole of a generator circuit breaker designed to perform switching operations (switching on and off) as part of a circuit breaker under normal and emergency conditions in the circuits of power plant generators.

The essence of the utility model lies in the fact that in the well-known pole of the generator circuit breaker, containing a reservoir mounted on a support insulator, filled with an SF6 arc-extinguishing medium, consisting of two parts hermetically connected by an electrical intermediate insulator, with the main and arc-extinguishing fixed contacts located in one part, and the other - the corresponding moving contacts with a guide tube and a piston, controlled by an electrically insulating shaft, rods and levers, said pipe is connected to the rods and levers by means of a nut, while one end of the pipe is coaxially connected to the arcing contact, and the other is free and oriented towards the direction opening movements of moving contacts.

When making the pole of the generator circuit breaker, in accordance with the formula of the utility model, the full use of the entire volume of the arc quenching medium is ensured, which maximizes the switching capacity of the pole, and hence the circuit breaker in relation to the levels of both current and voltage being switched off.

The claimed utility model has already been implemented in CJSC ZETO (Velikie Luki) in relation to the pole of the generator switch VEG-20-100/12500 UZ, which has successfully passed the necessary tests.

Description

The utility model relates to electrical engineering, namely to the pole of the generator circuit breaker (hereinafter referred to as the Pole), designed to perform switching operations (switching on and off) as part of the circuit breaker under normal and emergency conditions in the circuits of power plant generators.

The Pole is known (see Fig. 1.9 of the appendix), containing a tank with an SF6 arc-quenching medium installed on a support insulator (I1), consisting of two parts (P1 and P2), hermetically connected by an electrical intermediate insulator (I2), and in part (P2) the main and arcing fixed contacts are located, and in part P1 - the corresponding moving contacts with a guide tube (T) and piston P, controlled by an electrically insulating shaft (B), rods and levers (www.forca.ru - ABB: "SF6 generator circuit breaker 10 kV - Analysis of the designs of generator circuit breakers”, Fig. 1.9). In such a Pole, the break of contacts occurs only in one part of the tank (P2), and the other part (P1) is closed by a movable piston (P). Therefore, the volume of the arcing medium is used irrationally, which reduces the switching capacity of the Pole.

The objective of this utility model is to create a Pole with increased switching capacity, achieved through the use of the entire volume of the arc quenching medium.

The solution of the problem is achieved by the fact that in the Pole, which contains a reservoir mounted on a support insulator, filled with an SF6 arc-quenching medium, consisting of two parts hermetically connected by an electrical intermediate insulator, with the main and arc-extinguishing fixed contacts located in one part, and the corresponding movable contacts in the other contacts with a guide tube and a piston, controlled by an electrically insulating shaft, rods and levers, said pipe is connected to the rods and levers with a nut, while one end of the pipe is coaxially connected to the arcing contact, and the other is free and oriented towards the direction of movement of opening the moving contacts .

In FIG. 1 shows the device of the Pole, corresponding to the formula of the utility model.

The pole contains a support insulator 1, an intermediate insulator 2, a fixed contact 3, a movable contact 4, a guide tube 5, an electrically insulating shaft 6, rods 7, levers 8, a transition nut 9, main contacts 10 and 11, arcing contacts 12 and 13, tank parts 14 and 15, nozzle 16, piston 17.

The pole works as follows. In the on position, the main 10, 11 and arcing contacts 12, 13 of both parts of the tank 14 and 15 are closed to each other. The rated operating current passes through it. At the moment of a short circuit, the relay protection is activated and a signal is given to the drive to turn off the Pole. The drive acts through the insulating shaft 6 on the movable contact 4, which begins to move, first opening the main contacts 10 and 11, and then the arcing 12 and 13. An arc occurs in the gap between the contacts. The SF6 from the cavity bounded by the piston 17 is injected through the nozzle 16, which directs the SF6 gas through the arc. At the moment when the arcing contact closes the outlet of the nozzle 16, the main gas flow passes through the guide tube 5 into one part of the tank 14. After the arcing contact 12 exits the nozzle 16, the gas flow is divided, and part of the flow enters the other part of the tank 15 evenly distributed throughout the volume. The SF6 molecules are instantly restored, breaking the ionized arc bridge, and the current is interrupted. At this point, the moving contact 4 reaches its end position.

Thus, when performing the Pole in accordance with the formula of the utility model, the full use of the entire volume of the arc-quenching medium of both parts of the tank (SF6) is ensured, which maximizes the switching capacity of the Pole, and hence the circuit breaker in relation to the levels of both current and voltage being switched off. This indicates the solution of the problem.

The claimed utility model has already been implemented at CJSC "ZETO" (Velikie Luki) in relation to the pole of the VEG-20-100/12500 UZ generator circuit breaker, which has successfully passed the necessary tests.

Claims (1)

The pole of the generator circuit breaker, containing a tank mounted on a support insulator, filled with an SF6 arc-quenching medium, consisting of two parts, hermetically connected by an electrical intermediate insulator, with the main and arc-extinguishing fixed contacts located in one part, and the corresponding moving contacts with a guide tube and a piston in the other , controlled by an electrically insulating shaft, rods and levers, characterized in that said pipe is connected to the rods and levers by means of a nut, while one end of the pipe is coaxially connected to the arcing contact, and the other is free and oriented towards the direction of movement of opening the moving contacts.

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