SU587620A2 - User's standby automatic switch - Google Patents

Description

The invention relates to low-voltage electric devices based on power semiconductor technology, namely to contactless automatic switches on power thyristors that perform the function of switching from one network to another. According to the main auth. No. 316154 is known for an automatic backup switching device containing thyristors in parallel in the phases of both circuits, a voltage analysis unit, a logic unit, 6LOK1 and thyristor control, current sensors. The disadvantage of the known machine is its low reliability. In order to increase the reliability of the standby switching machine, with the counter-parallel-connected thyristors in the phases of both networks, the voltage analysis unit, the logic unit, the main control unit of the HCTOpaNffl type n backup network, the current sensors, and the inputs of the voltage analysis unit are connected to the phases of both networks, and the output - to the input of the logic unit, to the other inputs of which the outputs of current sensors installed in the load phases are connected, the outputs of the logic unit are connected to the inputs of the thyristor control units, the outputs to The second ones are connected to the control electrodes of the main and standby thyristors, a delay element is inserted into it, the input of the delay element is connected to the output of the analysis unit and the output of the delay element is connected to the corresponding input of the logic unit. Fig. 1 shows the functional diagram of the automaton in Fig. 2, a time diagram explaining the operation of the automaton. The structure of the automatic backup switching of consumers includes a unit for analyzing the voltage of the main and backup networks, a logic unit 2, a delay element 3, 4 and 5 for controlling the thyristors of the main and backup networks, power thyristors 6-17, and current sensors 18-20. The machine works as follows. When initially turned on, unit 1 analyzes the voltages of all phases of the main and backup network and issues a signal to turn on one of the networks, as a result of which control signals are sent to all the power thyristors of the main or backup network.

With a decrease in the voltage of the working (main) network from block 1, the switching signal to the spare network is supplied to block 2 of logic. At the same time, a delay element 3 is triggered, forming a pulse with a duration of 3/4 T of the network, where T is the period of the network signal. On the other hand, the logic unit receives signals from current sensors 18-20, constantly informing about the directions of currents in the phases of the load. The logic unit 2 analyzes incoming signals, removes control signals from a power thyristor (main) network and sends signals only to turn on those thyristors of the connected (backup) network, the circuit polarity of which coincides with the direction of the current in the corresponding phases of the load. At the end of the pulse of the delay element, control signals are supplied to all thyristors of the backup network.

The timing diagram illustrates the case of switching the load from the main network to the backup one with a reactive inductance load (COStp 0.2-0.4 and three-phase short circuit to the automaton. At the same time, the current in the load should decrease exponentially. However, as a result of switching on the thyristors of the backup network the thyristors of the main network are forcibly locked. and the load is connected to the backup network.

The pulse duration of the delay element is chosen to be 3 / 4T of the network, since it is the shortest time guaranteeing the closure of the thyristors of the main network when the voltage of one of the phases of the backup network is out of phase with the load current of the corresponding phase and has just passed through a zero value.

For all other cases of reducing the operating voltage of the network, the load is switched as described above, and the switching time does not exceed 3 / 4T of the network + Dv response time of the voltage analysis unit to decrease the voltage of the working network.

.Invention formula

A backup automatic switching machine for consumers according to aut. 316154, characterized in that, in order to increase its reliability in operation, a delay element is inserted into the machine, the input of the deceleration element is connected to the output of the angles voltage unit, and the output of the delay element is from the corresponding input of the logic block.

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