SU1064332A1 - Pulse tubular capacitor - Google Patents

Abstract

PULSE CYLINDRICAL CAPACITOR, comprising a case with cylindrical sections dispersed in it, impregnated with a liquid disentrum, a lid with a high-voltage iserator, a cylindrical current outlet and. A pressure compensator located inside it, which is characterized by the fact that, in order to increase reliability with temperature, it is equipped with an elastic cylindrical, W-shaped diaphragm fixed in the outlet cavity, the height of the knees of the diaphragm and the volume of dielectric liquid being connected Following hHM ratio Vl-Vt aoe. -v; hi h, where h4. - the height of the knee of the diaphragm from the point of inflection to the place of its attachment} hjj - the height of the knee of the diaphragm from, the point of inflection to its foundation} V - - the volume of the liquid dielectric in the condenser under natural conditions; V is the volume of the liquid dielectric in the condenser when it is heated; V is the volume of the liquid dielectric in the condenser to the author when it is cooled.

Description

The invention relates to electrical engineering, in particular, to high voltage pulsed power capacitors, and can be used to create powerful pulse current generators operating, for example, in the mode of electrical discharge in a liquid. A capacitor with an internal gas compensator is known, comprising a housing with a C1-1 induction section and a central outlet, a lid with a high-voltage insulator and an air torch located inside the capacitor, bounded on one side by a lid, and on the other by a glass membrane This wire or wire mesh with 25 holes on the .IIo outer perimeter of the membrane is fastened with a wire ring, and its center is attached to the bushing with a screw l. The disadvantages of the known construction include the fact that fixing the membrane and the compensator itself is complex, the presence of the volume of the air cavity under the lid of the high-voltage capacitor, while ensuring the required insulation distances, significantly increases the size of the capacitor and reduces the energy intensity. The use of a mesh membrane does not allow the use of this minimum size condenser with high heating, as this leads to an increase in pressure inside the condenser and the passage of gas through the membrane to the impregnating liquid, without providing a compensator tightness. Saturation of the impregnation liquid significantly reduces the service life of the condenser. Closest to the proposed technical entity is a pulsed cylindrical capacitor- containing a housing with cylindrical sections housed in it, impregnated with a liquid dielectric, a lid with a high-voltage insulator, a cylindrical current outlet and inside it a pressure compensator 2j. A disadvantage of the known design is that it is difficult to manufacture a capacitor with a known pressure compensator, since drying and filling the capacitor with a liquid dielectric takes place for a long time in a vacuum, which will remove the air from the compensator and, therefore, reduce its reliability. The purpose of the invention is to increase reliability with temperature. This goal is achieved by the fact that a pulsed cylindrical capacitor, comprising a housing with cylindrical sections soaked in it, impregnated with a liquid dielectric, a lid with a high-voltage insulator, a cylindrical current outlet and a pressure compensator located inside it, is equipped with an elastic cylindrical V (/) a diaphragm fixed in the cavity of the cold end, while the height of the knees of the diaphragm and the volume of the liquid dielectric are related by the following relation „-vt - the height of the knee of the diaphragm from the inflection point to its place ; -the knee height of the diaphragm from the inflection point to its base; H 293 liquid dielectric in the condenser under normal conditions; - the volume of liquid dielectric in the condenser when it is heated; the volume of liquid dielectric in the condenser when it is cooled. The proposed capacitor, section. The pulsed cylindrical capacitor includes a housing 1 in which: cylindrical sections 2 are located, contact between them, a cover 3 with a high-voltage insulator 1 4 and a compensator 5 located inside the condenser and in the form of two cavities separated by an elastic cylindrical W-shaped diaphragm 6. The cavities of the pressure compensator are located in a cylindrical current terminal 7, made in the form of a pipe with an elastic cylindrical W-shaped diaphragm 6. The upper cavity 8 of the pressure compensator is in communication with the atmosphere, and the lower cavity 9 - with a volume of liquid dielectric. Elastic W-shaped diaphragm 10 is fixed on the tip of the outlet 7. In addition, the bend point is indicated by the position 11, and the bottom of the diaphragm is the position 12. In the operation of the high-voltage pulse capacitor in the electric discharge mode of the fluid as a result of large losses resulting in R heating the active part of the capacitor and, accordingly, the temperature volumetric expansion of the impregnating dielectric, an overpressure occurs in the condenser, deforming the capacitor case. In the case of a rectangular body, the deformation of the side walls is allowed within certain limits.

Claims (1)

PULSED CYLINDRICAL CAPACITOR, comprising a housing with cylindrical sections soaked in it, impregnated with a liquid dielectric / cover with a high-voltage insulator, a cylindrical current outlet and a pressure compensator located inside it, which is provided with the aim of increasing reliability when the temperature changes, it is equipped with elastic cylindrical. a W-shaped diaphragm fixed in the cavity of the current outlet, while the height of the knees of the diaphragm and the volume of the liquid dielectric are connected by the following relation where - the height of the diaphragm’s knee from the inflection point to the place of its attachment} hj - the height of the diaphragm’s knee from the inflection point to its awareness} the volume of the liquid dielectric _c in the capacitor under normal conditions) the volume of the liquid dielectric K in the capacitor when it is heated ; II volume of the liquid dielectric in the capacitor during its cooling.