UA67922A - Capacitor with protection against excess temperature - Google Patents

Abstract

The proposed capacitor with protection against excess temperature contains capacitor sections installed in a casing. The capacitor sections are made of polymer film. The end surfaces of the capacitor sections are metallized by evaporation. In the capacitor, temperature sensors are provided, which are connected in series. The outputs of the sensors are connected to the control circuit of the device in which the capacitor is used.

Description

Description of the invention

The invention relates to electrical engineering and can be used as a capacitor in power circuits when it is necessary to disconnect their sections in case of overloads, for example, in cosine capacitors used in reactive power compensation installations.

A known fusible link capacitor containing two insulated plates placed in a housing with leads and a fusible link consisting of two exothermically fused metal parts: one of the parts is attached to the plate, and the other part is attached to one of the leads. When the specified melting temperature 70 increases, the insert disintegrates at the point of fusion. (US Patent Mo4107758, cl. 361-275, 1979).

The disadvantage of such a capacitor is the single-phase action of the protective device.

The closest in terms of technical essence is a capacitor with thermal protection, taken as a prototype, which contains insulated covers placed in the housing, two electrodes and a layer of dielectric, which are located on the housing. (Application of the Federal Republic of Germany Mo2650468, class NO101/11, 1979). 19 When the capacitor overheats, the dielectric layer breaks down and the electrodes are shorted together, causing the control element to operate and open the part of the circuit containing the capacitor.

The disadvantages of this capacitor are the single-phase action of the protective device and the need to replace it after tripping, although the parameters of the capacitor itself may not change during overheating.

The purpose of the invention is to increase the service life of the capacitor.

This is achieved by having a thermally protected capacitor containing capacitor sections made of high dielectric strength polypropylene film, the ends of which are metallized with zinc by sputtering, placed in the housing, while the capacitor has serially connected temperature sensors that are installed inside housing opposite each condenser section, with sensors connected to the condenser control system. 29 The picture shows a capacitor with thermal protection. "

The capacitor contains a housing 1 made of insulating material, in which capacitor sections 2 are placed, made of polypropylene film with high dielectric strength, the end sides of which are metallized with zinc by spraying, while opposite each capacitor section, serially connected temperature sensors 3 are installed, electrically connected by terminals 9 and 10 to the control system 4 capacitor. high school

Each capacitor section 2 with the help of terminals 5, 6 and 7 is connected to the terminal block 8 of the switching unit c 11.

The internal volume of the capacitor case is filled with epoxy compound 12. o

In working condition, capacitors require intensive air cooling so that the temperature on the surface of the case does not exceed -70"C. Exceeding this temperature indicates an increase in losses in the 3o capacitor and an increase in the probability of breakdown. ee,

A capacitor with thermal protection works as follows. With a significant increase in the voltage in the consumer's network above the nominal one, the temperature inside the housing 1 of the capacitor rises, and when it reaches above 70"C, the contacts of the temperature sensor (not shown in the figure) open, and the control element of the control system of the capacitor 4 is activated, as a result which is done by turning off the part of the circuit that contains the capacitor. When the temperature drops to 1457°C inside the capacitor housing, the sensor contacts are closed and the part of the circuit that contains the capacitor is turned on.

Thus, the use of the proposed capacitor with thermal protection allows not only to protect the reactive power compensation installation from overloads associated with capacitor breakdown, but also to save the capacitor as a whole in the event of overheating and thereby ensure the possibility of its repeated use. - That's it

Claims (1)

The formula of the invention with 50 A capacitor with thermal protection containing capacitor sections made of polypropylene film with high dielectric strength, the end sides of which are metallized with zinc by spraying, placed in a housing, which is characterized by the fact that the capacitor is equipped with serially connected temperature sensors , installed inside the housing opposite each capacitor section, and the sensors are electrically connected 59 to the capacitor control system. R 60 b5