RU161741U1 - HIGH VOLTAGE TANK SWITCH WITH GAS ISOLATION AND BUILT-IN CURRENT TRANSFORMERS - Google Patents

Abstract

A gas-insulated high-voltage circuit breaker with built-in current transformers, containing poles, each of which contains a grounded metal tank with legs for installation, a casing of heat-insulating polymeric material covering it, arcing devices, high-voltage bushings with current-carrying elements placed in hollow insulators constituting a single vessel with a tank, a drive and a control cabinet with a circuit breaker monitoring unit, a densitometer, and the indicated arcing devices Each pole is placed in the insulator of the first input, inside the insulator of the second input, located at an angle of 90 ° to the first and at an angle of 45 ° to the vertical, a built-in current transformer is installed, and pole heating devices are located between the tank and the casing, characterized in that the casing is made of two halves, and in an additional module attached to the casing and equipped with a window for taking data, a densitometer is installed, which is connected by gas to the tank, as well as the housing of the drive mechanism of the pole, and the casing and additional module, you olnennye one material comprise a single heated volume.

Description

The utility model relates to a high EQUIPMENT, namely to an electrical switchgear of high voltage, quenching and insulating medium in which serves hexafluoride (SF _6).

Known high-voltage gas switch, equipped with a densitometer located in the control cabinet and connected by gas to the internal volume of the switch, and an operation algorithm to maintain a stable gas density regardless of the ambient temperature (application for the invention of the Russian Federation No. 2009130493, H01H 33/53, publ. 20.02 .2011).

The disadvantage of this solution is the placement of the density meter in the control cabinet, which leads to a decrease in the accuracy of measuring the density of SF6, because the elements connecting the tank volume and the densitometer are placed in ambient conditions and have different heating volumes, which affects the gas temperature in the densitometer itself.

Known high-voltage tank switch with gas insulation and built-in current transformers, containing poles with a grounded metal tank, arcing devices, high-voltage bushings with current-carrying elements, placed in hollow insulators that make up a single vessel with a tank, drive and control cabinet, while arcing devices of each pole controlled by a drive through an insulating rod are placed in the insulator of the first input, and inside the insulator of the second input, located at an angle of 90 ° to the first and at an angle ohm 45 ° to the vertical, current-carrying elements are installed electrically connected with the extinguishing devices in the form of, for example, a pipe that simultaneously performs the function of the primary winding of a transformer, the secondary windings of which covering the pipe are provided with an output to a terminal block hermetically mounted on the tank, in which the tank is equipped with covering it with a casing of heat-insulating polymeric material, for example, fiberglass, while the pole heating devices are located between the tank and the casing, and in the control cabinet, Controls and alarms, the terminal block transformer secondary terminals, automatic heating unit included monitoring of the circuit breaker (patent PM №129293, H01H 33/04, publ. 06/20/2013).

The disadvantage of this solution is the placement of the device for monitoring the operation of the switch, including the densitometer in the control cabinet, which leads to a decrease in the accuracy of measuring the density of SF6, because the elements connecting the tank volume and the densitometer are placed under different conditions, which affects the gas temperature in the densitometer itself.

The utility model is based on the task of creating a high-voltage tank circuit breaker, in which, by placing the densitometer and the drive housing in an additional module connected to the pole casing and making up a single heated volume together with the casing, the measurement accuracy of the densitometer and, therefore, the reliability of the circuit breaker are increased, and due to the placement of the drive housing in an additional heated module, the reliability of its operation in adverse conditions is also ensured.

The solution to this problem is ensured by the fact that in a high-voltage tank switch with gas insulation and built-in current transformers containing poles, each of which contains a grounded metal tank with legs for installation, equipped with a casing of heat-insulating polymer material covering it, arcing devices, high-voltage bushings with current-carrying elements located in hollow insulators that make up a single vessel with a tank, a drive and a control cabinet with a circuit breaker monitoring unit, lotnomer, while the indicated arc suppression devices of each pole are placed in the insulator of the first input, inside the insulator of the second input, located at an angle of 90 ° to the first and at an angle of 45 ° to the vertical, a built-in current transformer is installed, and pole heating devices are located between the tank and the casing, the casing is made of two halves, and in an additional module attached to the casing and equipped with a window for data collection, a densitometer is installed, which is connected by gas to the tank, as well as the crankcase of the pole drive mechanism, and a burner and an additional module made of one material make up a single heated volume.

Placing the densitometer and the crankcase of the pole drive mechanism in a single heated volume ensures the reliable operation of these devices, which leads to the reliable operation of the entire switch. An additional technical result is to simplify the assembly of the circuit breaker by simplifying the installation of a casing made of two halves.

A utility model is illustrated in FIG. 1, which shows a diagram of one pole of a tank switch equipped with a casing and a densitometer.

The gas-insulated high-voltage circuit breaker with built-in current transformers includes poles with a grounded metal tank 1. The tank 1 is equipped with legs 9 for installation on the frame and a cover 2 covering it from a heat-insulating polymer material, for example fiberglass. The casing is made of 2 halves 2 ₁ and 2 ₂ . Pole 3 heating devices are located between the tank 1 and the casing 2. In an additional module 4 connected to the casing 2 and provided with a window (with glass) 5 for data recording, a densitometer 6 is installed, which is connected by gas to the tank 1 through the housing 7 (also used for injection SF6 gas). The drive housing of the pole 8 is also installed in the optional module 4. The casing 2 and module 4 comprise a single heated volume.

The gas connection is ensured by the fact that the densitometer 6 installed in the additional module 4 and attached to the wall of the tank 1 is connected to the cavity of the tank 1 through the housing 7, and no part of the gas connection is exposed to the environment. The densitometer readings are taken through a window 5 installed in the wall of the additional module 4. The housing of the drive mechanism of the pole 8 is installed in the additional module 4. Using the additional module 4 makes it possible to equalize the temperature throughout the SF6 gas volume and improve the thermal insulation of the pole. Placing the crankcase of the drive mechanism of the pole 8 in an additional volume ensures its operation in more favorable conditions in the protection mode from external influences, which leads to an increase in the reliability of the entire circuit breaker.

Claims (1)

A gas-insulated high-voltage circuit breaker with built-in current transformers, containing poles, each of which contains a grounded metal tank with legs for installation, a casing of heat-insulating polymeric material covering it, arcing devices, high-voltage bushings with current-carrying elements placed in hollow insulators constituting there is a single vessel with a tank, a drive and a control cabinet with a circuit breaker monitoring unit, a densitometer, and the indicated arcing devices Each pole is placed in the insulator of the first input, inside the insulator of the second input, located at an angle of 90 ° to the first and at an angle of 45 ° to the vertical, a built-in current transformer is installed, and pole heating devices are located between the tank and the casing, characterized in that the casing is made of two halves, and in an additional module attached to the casing and equipped with a window for taking data, a densitometer is installed, which is connected by gas to the tank, as well as the housing of the drive mechanism of the pole, and the casing and additional module, you olnennye one material comprise a single heated volume.

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