RU181884U1 - Electric capacitor - Google Patents

Abstract

The utility model relates to the field of electrical engineering and electronics. The technical result consists in eliminating the emission into the atmosphere of toxic gaseous products resulting from the evaporation of the sacrificial substance. The electric capacitor comprises a housing in which electrical leads are located, electrically conductive plates with a separating substance inserted between them with an active principle introduced into it, located on a solid substrate, external and internal hollow cylinders, coaxial with a gap between them and interconnected upper and lower metal plates, while the gap between the outer and inner hollow cylinders is filled with a sacrificial substance, for example, in the form of a powder with a given vapor evaporation, in the inside The hollow cylinder has a collection board and a block of physical current sources with conductors, a lower sleeve passing through the lower metal plate and the lower non-metal plate, and the upper bushings, the dielectric washer, under which the upper non-metal plate is mounted, are coaxially mounted in the upper non-metal and metal plates of the inner cylinder located on the upper metal plate, a plug installed in the through hole in the walls of the housing and the external cylinder, non-return valve, hermetically sealed connected to the throttle by means of a nozzle and located in the through hole in the walls of the housing and the external cylinder above the plug at the level of the collection board with conductors of physical current sources, the check valve is connected in series with the coil and with the collector of vaporization products of the sacrificial substance, the coil is fixed with the condenser body and the body collection of evaporation products by means of couplers and pins, rigidly connecting the collector body to the lower non-metallic plate, the lower sleeve tightly enters the collector body evaporation products of the sacrificial substance.

Description

The utility model relates to the field of electrical engineering and electronics, in particular to devices that accumulate electric charges, and can be used to create capacitors with increased electric capacity.

Known high-voltage pulse capacitor containing metal coaxially arranged cylindrical outer and inner hollow plates with leads and a ceramic dielectric, as well as a cavity filled with phenolic polymer (RF patent No. 104768, publ. 05/25/2011 by IPC index H01G7 / 06). The disadvantage of a high-voltage pulse capacitor is the relatively rapid decrease in capacitance, which leads to a small life of the capacitor.

As a prototype of the selected electric capacitor according to the patent of the Russian Federation No. 128391, publ. 05/25/2013 by the IPC index H01G7 / 06. An electric capacitor consisting of a housing, electrical leads, electrically conductive plates with a separating substance placed between them, through which positive and negative carriers are transferred, an active principle located on a solid substrate is introduced into the separating substance, two hollow cylinders are an external and an internal, located coaxially with a gap between them and fastened with covers at the top and bottom, the said gap is a cavity, bushings for filling the cavity are installed in the upper cover sacrificial substance in powder form with a predetermined paroisparyaemostyu and heated gases exit the sacrificial substance, said conductive plates are arranged in the inner cylinder, the upper and lower lids in the internal cavity of the cylinder sleeve are installed for the passage of air through the cavity.

The electric capacitor of the prototype allows you to increase the charge and discharge time of the capacitor. The disadvantage of the prototype is the release into the atmosphere of toxic gaseous products of evaporation of the sacrificial substance, which is used as phenol-based polymers and other harmful substances.

The objective of the claimed utility model is to eliminate the emission of toxic gaseous products into the atmosphere resulting from the evaporation of the sacrificial substance.

The problem is solved in the design of the inventive electric capacitor containing a housing in which electrical leads are located, conductive plates with a separating substance inserted between them with an active principle introduced into it, located on a solid substrate, the outer and inner cylinders are hollow and coaxial with a gap between them and interconnected by upper and lower metal plates, while the gap between the outer and inner hollow cylinders is filled with sacrificial In the inner hollow cylinder, there is a collection board and a block of physical current sources with conductors, a lower sleeve passing through the lower metal plate and the lower non-metal plate, and in the upper non-metal and metal plates of the inner cylinder the upper bushings are installed, in contrast to the prototype, additionally contains a dielectric washer, under which an upper non-metallic plate is installed, which in turn is located on the upper m plate, a plug installed in the through hole in the walls of the housing and the external cylinder, a check valve, hermetically connected to the throttle by means of a pipe and located in the through hole in the walls of the housing and the external cylinder above the plug at the level of the assembly board with conductors of physical current sources, the non-return valve is connected in series with the coil and with the collection of products of evaporation of the sacrificial substance, the coil is fixed with the body of the condenser and with the body of the collection of products evaporated I via tie pins and fixedly connecting the housing to a collection of non-metallic bottom plate, wherein the lower sleeve sealingly enters the collector body evaporation products of the sacrificial material.

The design of the inventive electric capacitor is illustrated by drawings:

- in FIG. 1 is a schematic illustration of an electric capacitor, where 1 is a capacitor housing, 2 is an external metal hollow cylinder, 3 is an internal metal hollow cylinder, 4 is an elastic element, 5 is a block of conductive physical current sources (FIT), 6 is a dielectric washer, 7 is FIT conductors of positive electrical coaxial output 8, 9 - FIT conductors of negative electrical coaxial output 11, 10 - assembly board with FIT conductors, 12 - upper bushings, 13 - upper non-metal plate, 14 - upper metal allic plate, 15 - non-return valve, 16 - nozzle with throttle, 17 - plug, 18 - coil, 19 - sacrificial substance, 20 - coupler, 21 - pin, 22 - lower sleeve, 23 - lower metal plate, 24 - lower non-metal cooker, 25 - collection of products of evaporation of the sacrificial substance 19;

- in FIG. 2 is a top view of an electric capacitor.

The electric capacitor comprises a housing 1, in which the outer 2 and inner 3 cylinders are coaxially located, made hollow and inserted into each other with a gap between them, interconnected by upper 14 and lower 23 metal plates. The inner walls of the cylinder 3 are lined with an elastic element 4, made, for example, in the form of concave plates of springy material (for example, steel 65G). In the inner cylinder 3 is a block 5 of electrically conductive FIT containing electrically conductive plates with a separating substance placed between them with an active principle introduced into it, located on a solid substrate. The elastic element 4 allows you to maintain a constant shape of the body of the block 5 when the temperature of the condenser (heating - cooling) during operation. Block 5 of electrically conductive FIT can be made with holes in the housing through which air can flow that will cool the walls of unit 5. Block 5 of electrically conductive FIT is connected to the assembly board with conductors of FIT 10 through conductors of FIT 9 of negative electrical coaxial output 11 and conductors of FIT 7 positive electrical coaxial output 8. Electrical positive 8 and negative 11 coaxial outputs are located in the housing 1. The upper non-metallic plate 13 is installed under the dielectric second washer 6 and above the upper metallic plate 14. In the upper nonmetal 13 and metal plates 14 of the inner cylinder 3 coaxially mounted upper bushing 12.

The gap between the outer 2 and the inner 3 hollow cylinders is filled with a sacrificial substance 19, for example, in the form of a powder with a given vaporization. Phenol-based polymers can be used as the sacrificial material.

In the through hole in the walls of the housing 1 and the outer cylinder 2, a plug 17 is installed, and below the plug 17 in the through hole in the walls of the housing 1 and the outer cylinder 2 at the level of the collection board 10 with conductors of physical current sources there is a check valve 15 sealed by means of a pipe with throttle 16, while the check valve 15 is connected in series with the coil 18 and with the collector 25 of the products of evaporation of the sacrificial substance 19. The coil 18 is fixed with the body 1 of the condenser and with the body of the collector 25 of the product of evaporation the sacrificial substance 19 by means of couplers 20 and pins 21. For more rigid fixation, it is advisable to install two or more pins. The pins 21 rigidly connect the body of the collector 25 with the lower non-metallic plate 24. The lower sleeve 22 is hermetically inserted into the body of the collector 25 of the products of evaporation of the sacrificial substance 19 and passes through the lower metal plate 23 and the lower non-metal plate 24.

Downloading the sacrificial substance 19 is carried out by removing the plug 17.

Due to the convection flow coming through the lower sleeve 22 and leaving the upper bushings 12, the case of the block 5 of the electrically conductive physical current sources, the walls of the inner cylinder 3, the assembly board 10 with the conductors of the physical current sources are cooled.

In the claimed design of the electric capacitor, the stability of the capacitive characteristic is ensured by the evaporation of the sacrificial substance 19 located in the sealed cavity formed by the external 2 and internal 3 cylinders and fastened by the upper metal plate 14 and the lower metal plate 23. Heating of the sacrificial substance 19 occurs due to dielectric losses during operation of the capacitor .

The sacrificial substance 19 is heated to its evaporation temperature, the evaporation of which increases the pressure in the sealed cavity between the outer 2 and inner 3 cylinders. Then, the gaseous products of evaporation of the sacrificial substance 19 come with a certain flow rate to the check valve 15 through a pipe with a throttle 16.

The amount of gaseous vaporization products of the sacrificial substance 19 is determined by the passage section of the inductor 16.

From the check valve 15, the gaseous products of the sacrificial substance 19 through the coil 18 enter the sealed cavity of the body of the collector 25, which, in particular, receives solid waste that did not decompose during the pyrolysis of the sacrificial substance 19.

During the process of evaporation of the sacrificial substance 19, the electric capacitance of the capacitor in time will be controlled and the voltage at the terminals 8 and 11 will be stable. The life of the capacitor depends on the initial volume of the sacrificial substance 19.

The outer 2 and inner 3 hollow cylinders, the upper metal plate 14, the lower metal plate 23 are more suitable to be made of high temperature resistant materials, because block 5 of conductive FIT can be heated to a temperature of about 800 ° C.

The electric capacity of the condenser depends on the rate of removal of gaseous products of evaporation of the sacrificial substance 19. The sacrificial substance 19 should have a vapor evaporation temperature lower than the decomposition temperature of the materials from which the condenser elements are made.

As the sacrificial substance 19, a phenolic polymer can be used, which is introduced into the gap between the outer 2 and inner 3 cylinders to the level of the plug 17. The sacrificial substance must have high ablative ability. The sacrificial substance 19 in the form of a phenolic polymer is widely used in the space industry.

Materials for electrical insulation of conductors 7, 9 and electrical leads 8 and 11 must comply with heat resistance class F (operating temperature no more than 155 ⁰ С). In addition, the electrical terminals 8 and 11 must have temperature compensators (not shown in Fig.), The temperature coefficient of linear expansion of which is close to the corresponding temperature coefficients of linear expansion of dielectric materials of electrical insulation. The capacitor housing 1 and the collection board 10 with conductors of physical current sources can be made of heat-resistant composite material, for example, fiberglass.

After the reservoir 25 is completely filled, the capacitor is disposed of in accordance with the norms and rules for the disposal of waste containing harmful substances, which makes the inventive electric capacitor environmentally friendly, unlike the prototype. Monitoring the degree of filling of the collector 25 can be carried out, for example, by installing a pressure sensor with an indicator.

The inventive capacitor can be widely used not only for pulsed devices, but also in various devices of the electrical and automotive industries, for example, in ICE devices of powerful mining vehicles operating in the harsh conditions of the Far North and other equipment, computers, etc.

Claims (1)

An electric capacitor comprising a housing in which the electrical leads are located, electrically conductive plates with a separating substance inserted between them with an active principle introduced therein, located on a solid substrate, external and internal cylinders, made hollow and arranged coaxially with a gap between them and interconnected upper and lower metal plates, while the gap between the outer and inner hollow cylinders is filled with a sacrificial substance, for example, in the form of a powder with a given steam capacity, in the inner hollow cylinder there is a collection board and a block of physical current sources with conductors, a lower sleeve passing through the lower metal plate and the lower non-metal plate, and the upper bushings are coaxially mounted in the upper non-metal and metal plates of the inner cylinder, characterized in that it further comprises dielectric washer, under which the upper non-metallic plate is installed, which is located in turn on the upper metal plate, a plug installed in the through hole in the walls of the housing and the external cylinder, a non-return valve sealed to the throttle by means of a pipe and located in the through hole in the walls of the housing and the external cylinder above the plug at the level of the collection board with conductors of physical current sources, while the non-return valve is connected in series with the coil and the collection of evaporation products of the sacrificial substance, the coil is fixed with the body of the condenser and with the body of the collection of evaporation products using couplers and pins, rigidly connecting the body of the team an ica with a lower non-metallic plate, while the lower sleeve is hermetically inserted into the body of the collector of evaporation products of the sacrificial substance.

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