SU780084A1 - High-voltage thyristorized power-diode - Google Patents

Description

one

The invention relates to the field of high-voltage converting technology, in particular to valves for converters of direct current energy transmission.

 Known high-voltage tiri.storny valve assembled from electrical modules located in the protective chamber. The modules are made in the form of a column, the individual points of which are connected to fixed contacts located on the insulating tube. Inside the pipe there is a second insulating pipe with two ring contacts, with assistance. 15 flexible connections connected to an adhesive box located outside, to which a high voltage is applied, bridging alternately fixed 20 contacts in the process of control with the help of an actuator, thus applying voltage to the corresponding cells.

The disadvantage of such a valve is that in order to determine the number of punctured thyristors, it is necessary "5" to take it out of operation, i.e. thyristor monitoring is not continuous.

The closest technical solution is a high voltage type 30

A rotary valve, made in the form of immersed in a tank with a coolant, serially connected thyristors with resistor or dividing circuits and a resistor column, and having a liquid thyristor control system / containing an electric bridge.

In order to collect and transmit information about the state of the thyristors to the earth potential, hydraulic gates are used as sensors in the known construction. To determine the number of punctured thyristors, an electric bridge is formed of thyristor chains and parallel-connected voltage dividers. The diaphragm of each bridge includes a drive coil. An insulating circulating fluid, such as oil, is supplied to the seal through an insulating tube from the pump. Through another insulating tube, liquid is diverted from the gate to the detector device.

The disadvantage of such a valve is that the control of the thyristors is imperfect, since during the breakdown of the thyristors in the two arms of the measuring bridge, the control system does not detect faults and.

therefore, in this case, the system / control is unreliable.

The aim of the invention is to increase the reliability of monitoring the state of the Thirisgorov. .

The goal is achieved by the fact that two heat- and electrically insulating pipes with a common supply of circulating coolant, into one of which is placed, are placed in a coolant reservoir. There are resistors of the dividing circuits, and a resistor pole is placed in the other, and at the outlet of the pipes outside the reservoir there are installed resistance thermometers connected to the adjacent shoulders of the electric bridge.

The drawing schematically shows a high-voltage thyristor valve.

In the coolant reservoir 1, they are immersed in series (coupled cells, consisting of thyristors 2 and resistors of 3 separating chains, and a resistor pole 4, electrically connected in parallel to the circuits of the thyristor cells 2.

In this case, the resistors of the dividing chains are placed in the insulating tube 5 and are connected in series inside the tube, and the leads to the thyristor cells 6 are hermetically withdrawn from this tube.

The resistors of pole 4 are enclosed in another insulating tube 7 and are also connected in series, and the leads are connected and connected in parallel with the valve. These pipes have a common inlet 8 for supplying coolant. They are insulated and made of electrically insulating material. The outlets of these pipes are led out of the valve reservoir to the outside by means of metal pipes 9 through control valves 10 to the return manifold of the cooling system. Thermometers of resistance 11 are built into these pipes near the tank, which are connected to the adjacent shoulders of an electric measuring bridge by means of two-wire lines, the other two arms of which are formed by resistors 12, and an indicator device 13 is inserted into the diagonal. from source 14.

The principle of operation is as follows. . .

The voltages on the resistor pole and on the dividing circuit are equal and vary only as the dividing circuit resistor is also connected in parallel with the thyristor gate; the flow rates of the fluid through pipes 5 and 7 are also equal and vary according to the same law, since the pipes are selected with the same section and it is also possible to control the valve at the outlet. The heat influx from the outside to the pipes is also the same.

law, since the pipes with resistors are located in close proximity to each other.

Thus, with the correct thyristors in the high-voltage valve, the power, the currents produced in the resistor column and in the separator circuit will be the same and will change according to the law

P --nP p - uVnk

(l) r

where n is the number of thyristors in a high-voltage valve /

 power output per resistor

 (2)

wed

U is the voltage across the valve; I am a dividing circuit resistor. The change in temperature of the fluid when it flows through the pipe will be

.i, (3)

where ddts - increment t in the pipe with

pitch chain,. increment t in pipe with

resistor pole; Y - fluid flow through

pipes; iiQ - heat influx from outside

C - heat transfer coefficient.

In the breakdown of thyristors, the temperature of the liquid at the outlet of the pipes will be unequal. In tube 7 of the resistor column, the temperature will be determined by the expression (3), and in the tube 5, the dividing resistors will still depend

and the number of punctured thyristors, moreover, the temperature increments in the pipe 5 when the voltage on the valve varies, the flow rate of the liquid and the heat influx from the outside will change not in the same way as in the pipe 7..

The measuring bridge with two arms 12 is adjusted in such a way that the deviation of the zero-body 13 is maximum with no damaged thyristors. In the case of the breakdown of the number of thyristors, the indication of the null organ will tend to zero.

You can install multiple pairs

Thermmeters resistance and to each pair is a measuring bridge, and then thyristors can be monitored by several settings.

To increase sensitivity

bridges, it is possible to include several resistance thermometers in series in each bridge.

The device according to the present invention allows, directly on the potential of the earth, to monitor the occurrence of a predetermined number of punctured thyristors and the reliability of the monitoring of the state of the thyristors. liquid-temperature principle provides:

Claims (1)

SUMMARY OF THE INVENTION A high-voltage thyristor valve made in the form of series-connected thyristors with dividing circuit resistors and a resistor column immersed in a reservoir with a cooling liquid, a bone monitoring system containing an electric one, in order to increase the reliability of thyristor melting, two heat and electrical insulating pipes having a common entrance for supplying a circulating coolant, in one of which are placed the resistors of the dividing circuits, and a resistor pole is placed in the other, while at the outlet of the pipes outside the tank resistance thermometers are installed, which are included in the adjacent shoulders of the electric bridge. . having | liquidistors, the bridge, about that, from the Central Control Commission. Order 9336/19 Circulation 844 Subscription Branch of PPP '' Patent ¹ ', Uzhhorod, st. Project, 4