RU2338285C1 - Method of condenser filling with electrolyte and device for its implementation - Google Patents

Abstract

FIELD: electric engineering.

SUBSTANCE: according to invention method of condenser filling with electrolyte includes condenser degassing and its filling with impregnating solution, at that condenser degassing and its filling with impregnating composition are carried out through single T-bend, which is installed in ventilation opening of condenser. Degassing of every condenser cell is carried out serially or parallel at closed line of impregnating composition supply line, creating under pressure of 0.20-0.90 atmospheres, and then filling is performed after closure of degassing line. Device of condenser filling with electrolyte includes tank with liquid for condenser filling, filling line, and also degassing line with vacuum pump and two valves. Lines of degassing and filling of impregnating compound are joined with T-bend, which is installed between valve of impregnating compound supply and valve of degassing line. Free nozzle of T-bend is intended for installation into ventilation opening of condenser.

EFFECT: simplification of condenser electrolyte filling technology.

2 cl, 1 dwg

Description

The invention relates to electrical engineering and can be used for the manufacture of capacitors with high capacitance, using the energy of a double electric layer (DEL).

A known method of pouring a capacitor with electrolyte, including thermal vacuum drying of the capacitors, thermal vacuum degassing of the impregnating composition placed in the tank, and filling the capacitors with the impregnating composition, while before the drying operation, the capacitors are fixed on the upper base of the container with the impregnating composition, and thermal vacuum drying of the condensers and thermal vacuum degassing composition impregnates carried out jointly, after which the capacity is turned 180 ° and the capacitors are filled (see description to atentu RU №1598747, IPC H 01 G 13/04, publ. 20.05.96, Bul. № 14). This method has a long process of preparation for pouring and an uncontrolled pouring process. Moreover, the implementation of this method requires a complex device with the tank turning 180 °, which means its sealing with a mandatory check for sealing.

A device is known for filling a capacitor with electrolyte, including a pumping system, a tank with an axis of rotation of the nozzle with shut-off valves (see the description of patent RU No. 1598747, MKI N 01 G 13/04, publ. 05.20.96, Bull. No. 14). This device is quite complicated. Turning the tank 180 ° gives the flow of the impregnating composition additional unnecessary dynamics, which leads to instability of the pouring process, including a decrease in the amount of impregnating composition of each subsequent batch of impregnated capacitors. After each refill of the tank with a new impregnating composition, it becomes necessary to check for leaks, which lengthens and complicates the process of preparing the device for filling. Impregnation tank rotation is unsafe for maintenance personnel.

A known method of pouring a capacitor with electrolyte, adopted as a prototype, including evacuating the capacitor, degassing the impregnating composition and filling with the impregnating composition, the capacitor being evacuated to a pressure exceeding the saturated vapor pressure of the impregnating composition at the pouring temperature, the pressure being maintained in excess of 133.3-1333 Pa during the filling process, and the rate of fluid rise when filling the block is selected and maintained equal to 1 mm / min (patent RU No. 2024979, MKI H 01 G 13/04, publ. 15.12.94, BU . № 23). Although the implementation of this method excludes the process of checking for leaks, the complexity and duration of the process due to the process of controlling the temperature and supporting pressure within certain limits do not suit the consumer.

A device is known for filling a capacitor with electrolyte, including a container with a liquid for pouring, a line for supplying an impregnating composition to a capacitor through one of the channels of a two-channel fitting, and valves, as well as a vacuum and degassing line. The evacuation line includes a pumping system consisting of a pump, a level gauge and two valves. The degassing line includes a pumping system consisting of a pump, three valves, a trap and a vacuum gauge combined with a vacuum line (see drawing of the description for patent RU No. 2024979, MKI N 01 G 13/04, publ. 15.12.94, Bull. No. 23 ) Although the implementation of this device excludes the process of checking for leaks, there remains a difficulty in the manufacture and operation of the device due to the process of temperature control and pressure maintenance within certain limits. Also reduces the reliability of its work a large number of docking nodes.

The task of the group of inventions is to obtain a less costly and more rational method of filling the electrolyte into the capacitor, i.e. more economical and easy to implement and operate, including the device that implements it.

The technical result, which is directed by the group of inventions, is to obtain a cost-effective method by reducing the cost of the device that implements it, increasing reliability and security.

This is achieved by the fact that the method of filling the capacitor with electrolyte, including evacuating the capacitor and filling it with an impregnating composition, while evacuating the capacitor and filling it with an impregnating composition is carried out through a single tee installed in the ventilation hole of the condenser, while each condenser cell is evacuated in series or parallel with closed supply line of the impregnating composition, creating a vacuum of 0.20-0.90 atm, and then fill after closing vacuum line.

This is achieved by the fact that the device for filling the capacitor with electrolyte, including a container with liquid for pouring, a filling line, and also a vacuum line with a vacuum pump and two valves, has a vacuum line and a feed line for the impregnating composition, combined with a tee located between the valve for supplying the impregnating composition and valve of the evacuation line, while the evacuation line includes a vacuum pump and a valve located at different ends of the pipeline section, and the supply line of the impregnating composition in It includes a tank and a valve located at different ends of the second segment of the pipeline, while the tee pipe is designed to be installed in the ventilation hole of the condenser.

The drawing schematically shows a device for filling an electrolyte capacitor. The method of filling the capacitor with electrolyte is implemented by a device consisting of a vacuum line 1 and a supply line of impregnating composition 2, a tee 3 located between the valve 4 of the supply of impregnating composition and valve 5 of the vacuum line 1, vacuum pump 6, pipe 7 of tee 3, capacity 8. Vacuum line 1 includes a vacuum pump 6 and a valve 4 located at different ends of a section of the pipeline. The feed line of the impregnating composition 2 includes a tank 8 and a valve 4 located at different ends of the second segment of the pipeline. All joints of the evacuation line 1 and the feed line of the impregnating composition 2, including joints with a tee 3, are hermetically sealed.

The method that implements this device consists in installing the nozzle 7 of the tee 3 in the ventilation hole 9 and pumping the air out with a vacuum pump 6 through the ventilation hole 9 of the fitting 10 from the condenser cell 11 with the valve 5 open and valve 4 closed to a vacuum degree of 0.20-0 , 90 atm created in the cavity of the capacitor cell 11, closing the valve 5 and turning off the vacuum pump 6. Then open the valve 4 for a fixed time of 3.0 -10.0 seconds for the receipt of the estimated amount of electrolyte in the amount of 90.0-100.0 grams through the valve insulating hole 9 fitting 10 into the cavity 11 of the cell capacitor so that when the cavity in the capacitor cells 11 surrounding atmospheric pressure level of the impregnating composition was within ± 2,0-3,0 mm from the fill level. The fill level line is located at 1/2 the height of the ventilation opening 9. The fill time depends on the generated pressure and the volume of active material located in the cavity of the condenser cell 11. When the ambient pressure and the level of the impregnating composition reach the cell cavity 11, the valve 4 closes and the valve 5 opens to drain the remaining electrolyte in the tee. The pipe 7 of the tee 3 is disconnected from the fitting 10. The device is ready to fill the next cell of the capacitor. As the fluid flows from tank 8, it is refilled into the tank in the usual manner.

In practice, the implementation of this method was carried out by the following device. Line 2 had a container 7 made of an acid-resistant material with a volume of 0.1 m ³ . Pipe sections in the form of tubes with a diameter of 5.0 mm and a tee were made of acid-resistant materials.

Using this device and method, it is possible to fill in not only one capacitor cell, but also several of them assembled into a single capacitor, as well as several capacitors together. To do this, use several lines that allow simultaneous rarefaction and the same number of supply lines of the impregnating composition.

Thus, the proposed group of inventions allowed to reduce the complexity and duration of the process, improve working conditions and ensure the safety of staff.

Claims (2)

1. A method of filling a capacitor with electrolyte, including evacuating the capacitor and filling it with an impregnating compound through a single tee installed in the condenser ventilation hole, while evacuating each condenser cell in series or in parallel with a closed impregnating compound supply line, creating a vacuum of 0.20-0, 90 atm, and pouring is carried out after closing the vacuum line, characterized in that the filling is carried out through the ventilation hole of the condenser when reaching pressure in the cavity of the condenser cell of the atmospheric pressure with the level of impregnating composition passing through the ventilation hole of the condenser, and as the fluid flows from the tank, it is refilled in the usual way. 2. A device for filling a capacitor with electrolyte, including a filling line consisting of a container with a liquid for filling and a valve, and a vacuum line combined with it, which includes a vacuum pump and a valve, characterized in that the supply line of the impregnating composition and the vacuum line are aligned through a tee, at the same time, the free branch pipe of the tee is intended for installation in the ventilation hole of the condenser.