SU90883A1 - Device for winding harness - Google Patents

Description

The proposed DC ion switch operates according to the step-disconnect principle. It differs from the known ones in that in the normal operating mode of the line there is only one iop valve through which the operating current of the line flows. For the rest of the circuit breaker valves and resistances, the operating current passes only during the opening of the circuit breaker. Such an ion switch design reduces the cost of a switching device, as the switching valves and capacitors can be chosen at a lower power than the known ion switches. The presence of one working valve reduces energy loss in the switch.

The drawing shows a diagram of the described ion switch. The dissection of one of the wires of the DC line includes: choke /, shunt by control valve 2, with a series-connected high-voltage single-pole switch 5, main valve 4 of the first stage, a high-voltage disconnector 5, shunted by two anti-switched control valves 5 and 7.

When the line is disconnected, the switching valve 8 is opened, as a result of which the capacitor 9 is discharged and the valve 4 goes out and the valve is turned off using grid control. Under the action of the rechargeable capacitor 9, the flow of the switched off current through the valve 8 stops. The switching valve 10 of the second stage opens to the moment when the voltage of the capacitor 9 passes through a zero value. When the voltage across the disruptive capacitor .9 rises, the tripped current will flow through the resistance 11 and the valve 10. As a result, the tripping current decreases.

To further reduce the value of the current to be shut off, switching valves and capacitors are installed in subsequent stages. In the final stage, the final shutdown of the line occurs. To reduce the overvoltage in the line to be disconnected, valve 12 is installed. Disconnector 5 is opened after turning off the line, thereby allowing all capacitors to be charged.

To enable the automatic reclosing, valves 6 and 7 are installed, which create the conditions for disconnecting the disconnector 5 without arresting. Reducing the overvoltage in the supply network can be achieved by performing resistance of 11 of several parallel-connected resistances with controlled valves. To reduce the cost of capacitor 9 and other capacitors, they can be made up of several capacitors that are switched when the switch is triggered from parallel connection to series. Accelerating the charging of the commutator capacitor 9 and the capacitors in other stages can be achieved by the inclusion of ionic valves in their charging circuit. In order to prevent the discharge of capacitors of all steps except the first, the resistance // and the resistance of the other steps can be switched on after the valve 10 and the corresponding valves in the other steps.

With a small network inductance, the two-stage circuit breaker circuit can be simplified by excluding the switching valve 10. In this case, the second-stage capacitor can be discharged in normal mode. In order to reduce the number of stages of the switch breaker, each subsequent stage can be connected to a previous stage capacitor, in addition to the valve 8. In case of need for two-pole or reverse switching, two working valves are installed, which can have common switching stages for both poles or directions.

Subject invention

Claims (4)

1.Ion DC switch, operating on the principle of step off, characterized in that, in order to reduce its cost, it has only one ion valve, which is energized during the operating state of the line, and the remaining switching ion valves only turn on the time it takes to complete the shutdown process. 2. The ion switch according to claim 1, characterized in that in order to enable automatic reclosing in the main circuit of the switch, an isolator is installed that is shunted by two anti-parallel controlled valves. 3. Application dl. The ion switch according to claim 1, in order to reduce the overvoltage in the line during the shutdown process, the variable disconnecting ohmic resistance. 4. The ionic switch according to claim 1, characterized in that, in order to reduce the cost of the switch, the switching capacitances are made up of several capacitors that are switched when the switch is operated from the parallel connection to the serial 5. The ion switch according to claim 1, characterized in that accelerating the charging of switching capacitors, ionic valves are included in their charging circuit.