SU658651A1 - Ac supply device - Google Patents

Description

(54) DEVICE FOR POWER SUPPLY

f AC VOLUME the device of any type is digested with a VISh core because of the short-circuit of the feeder and the current of the make-up, in case of accidental loading from other phipers. Thus, the known devices for the supply of alternating current AC. based on the mercury apparatus, the disadvantages listed are a large number of valve and switching elements. The purpose of this invention is to create static distributing devices for power supply with alternating current with minimal use of valve and switching elements. This goal is achieved by ensuring that the AC power supply system, containing a circuit breaker, busbars and electric motors connected to the busbar via thyristor switches, between the main switch and busbars, is switched on a switching cable containing thyristors connected on a three-phase bridge circuit to the DC terminals of which are connected in series a capacitor with a charge source and a choke. The scheme of the device is shown by ia cher-. The device is connected to a three-phase AC network by means of a head switch 1, for example, using a high-speed oil circuit. Switch 1 feeds busbars 2, to which the feeder thyristor switches are connected and 3, 4, 5, 6, power motors 7, 8, 9, 1 O. The device may have an arbitrary number of feeder thyristor switches. In the drawing, for example, four feeder switches are shown. Switching unit 1 containing thyristors 12-17, connected to the network and forming a bridge circuit, is connected between the inverter 1 and busbars 2, to the outputs of a direct current which includes a choke 18 and a capacitor 19 with a charging source 20. In the operating mode, the head switch J The electric motors 7-1 are powered through the thyristor switches 3-6. In this case, the control system of the thyristor switches 3-6 provides unidirectional power transmission from the tires to the electric motors. Thyristors J. 2 17 switching device 11 is disconnected, the capacitance 19 is charged from the source 20 by the polarity shown in the drawing. With a short circuit on any; From the connections, control impulses from the thyristors of the damaged feeder are removed, the switching device limits the first shock wave of the damage current. In this case, as can be seen from the scheme, it is sufficient to have one switching unit o6uj.ee, which provides suppression of all types of damage on all feeders. For example, in case of a two-phase short circuit on the feeder 7, to switch off the thyristors of the switch 3 - the thyristors that are under the current in the drawing are blackened - it is necessary to turn on the artificial switching thyristors 13.17. In this case, a discharge circuit of the switching capacitor 19 is formed, which artificially switches the thyristor switch 3 switches. fault current to zero, capacitor 19 is recharged through the network and thyristors 13,17 are disconnected when the recharge current reaches zero, after which the source of recharging and recharges capacitance 19 again. The thyristor switch 3 passes through its limited in size and the time pulse of the current, the further turning on of the feeder 7 does not occur, since the control system of the switch 3 is blocked. Similarly, all other types of damage are disabled. On the intact connections 4, 5, 6, the shutdown cycle is practically non-existent, since the resistance of the circuit for the possible discharge of capacity along the intact feeders is large. Under the most unfavorable conditions - when small damage currents are disconnected, switching of intact connections is also possible, but the interruption time cannot exceed more than half of the frequency of the supply voltage, since the time of artificial switching is somewhat electrically: degrees and, because the control system intact feeders are not bpoki {in the case of accidents at adjacent connections, the power is restored after a time dependent on the phase of damage, but always less than half Heat-supply voltage.

The device can be calculated for the simultaneous switching of two faults, and in different phases, dp which requires the inclusion of the corresponding thyristors 12-17.

As can be seen from the drawing, an ectrosupply scheme allows the creation of a static switchgear with a minimum number of gates and switching

LC circuits. This is due to the following:

The valves of the outgoing connections 3, 4, 5, 6 are calculated only by the operating modes of the installation, as in the event of an accident the source current is artificially limited in terms of time and the current from the generator mode of intact electric motors is absent because the control system of the thyristor switches provides Unidirectional Power . The implementation of such a system is not difficult - for example, such a mode is provided by known control systems that generate a width of the thyristor control electrode from the beginning of the positive half-voltage to the appearance of a current greater than the thyristor holding current.

Practically realized prototype of the installation with feeder switches and - 1 O kV; IHOM 40O And showed the ability to select the thyristors of the device only by nominal parameters.

The invention makes it possible to create switchgears for the supply of alternating current with minimum consumption of valve and switching elements.

F o r mula inventions

An alternating current power supply device comprising a head switch, busbars and electric motors connected to busbars via thyristor switches, characterized in that, in order to reduce the total number of switching elements, a switching unit comprising thyristors interconnected is connected between the head switch and busbars a three-phase bridge circuit, to the DC terminals of which are connected in series the newly introduced capacitor with a charging source and a cable sel.

Sources of information taken into account in the examination

1. Electrotechnical handbook, v.2, Energie, M., 1975.

2. Authors certificate of the USSR. № 453769, cl. H O2 T 3/00, 1971.

3.Mogilevsky G.V., Grebennik G.V. Lifar L. R. Distribution point

with contactless circuit breakers, / Electrical industry. Low Voltage Apparatus Vol. 3, M., Eneri, 197O ..