SU1072234A1 - Device for controlling switch of three-phase load - Google Patents

Abstract

A DEVICE FOR CONTROLLING A THREE-PHASE LOAD SWITCH on a triac, containing limiting resistors designed to be connected via controlled key elements between the anode and the terminal controlled by the electrode of each triac, and a control key that differs from that. in order to increase its reliability by eliminating incomplete-phase modes, it is equipped with a three-phase uncontrolled rectifier with zero output, a thyristor with a starting chain in the form of a series-connected resistor and a capacitor, the common point of which is connected through a dynistor to the control elec- trode of the thyristor and an additional limiting resistor one of the inputs of the uncontrolled rectifier is connected to the terminal of the alternating phase phases via the control key, the other two inputs of the uncontrolled rectifier oedineny with i clamps the other two phases of the alternating voltage, the trigger string (L in parallel with the thyristor, and a thyristor connected in series with the control inputs actuated key elements and further limiting resistor and connected to the output terminals of an uncontrolled rectifier w w Od |. 4

Description

This invention relates to electrical engineering, in particular to motor starters. Three-phase switching switching devices are known that are made on the basis of controlled valves of symmetric thyristors L1J. These devices allow three-phase load to be switched non-contact. The disadvantage of.-Devices is the complexity of the triac control circuit and the lack of load protection from non-full-phase modes. Triac control circuits are also known in the AC circuit in the form of limiting resistors connected through a controlled key element between the anode and the control electrode of the triac 2. The disadvantage of this device is the lack of protection against incomplete-phase modes when using it in a three-phase current circuit. The proposed technical entity and the achievable result is a three-phase switching device containing two-pole triacs, controlling electrical s which through a limiting resistor and a control switch connected to the anodes of the SOC. A disadvantage of the known devices is the lack of protection against incomplete-phase modes. The purpose of the invention is to increase reliability by eliminating incomplete-phase modes. The goal is achieved by providing the device for controlling a three-phase load switch with a three-phase uncontrolled rectifier with a zero terminal, a thyristor with a starting chain in the form of a series-connected resistor and a capacitor, the common point of which is connected through a dynistor with the control electrode of the thyristor, and an additional limiting resistor, with one of the inputs of the uncontrolled rectifier connected to the clamp Of the alternating voltage phases, via the control switch, the other two inputs of the unregulated rectifier are connected to the terminals of the other two phases of the alternating voltage, the start-up circuit is connected in parallel to the thyristor, and the thyristor is connected in series with the control inputs of the Controlled Key Elements and an additional limiting resistor and connected to the output terminals of the unmanaged rectifier. The drawing shows a diagram of the proposed device. The circuit contains the ABCO three-phase voltage source, triacs triac 1, three-phase load 2. Triac 1 control electrodes are connected via limiting resistors 3 to rectifier bridges 4, to the DC outputs of the optocouplers 5, the optocouple LEDs are connected between each other in series and connected between the neutral wire and the output of the three-phase rectifier 6 through the ballast resistor 7 and the thyristor 8. The control electrode of the thyristor 8 through dynistor 9 is connected to the connecting point tim resistor 10 connected to the anode of the thyristor 8 and the capacitor 11 connected to the cathode of the thyristor 8, a three-phase diode rectifier 6 connected to the terminals of the supply network ABC. Between one three-phase rectifier diode 6 and for the power supply network A, the control switch 12 is turned on. The rectifying bridges 4, loaded onto the optocouplers 5, are controlled AC key elements connected in series with the triac control electrodes and the LEDs are the control inputs of these key elements. The proposed device operates as follows. When the control switch 12 is open, at the output of the three-phase rectifier 6 a two-phase rectified voltage appears. The parameters of the starting chain 9-11 are chosen so that during two-phase rectifying the voltage on the capacitor ll is set lower than the breakdown voltage of the input 9, as a result of which the thyristor 8 is off, the current in the LED circuit is absent, the photo thyristors are off, the keys 4 are open, and the triacs 1 are off and load 2 is disconnected from the mains. When the key 12 is closed, the three-phase rectified voltage appears at the output of the rectifier 1ytel 6, the average value of which is greater than the two-phase rectified voltage. As a result, the voltage on the capacitor 11 rises to the breakdown voltage of the dynistor 9 and it starts up. On. The control electrode of the thyristor 8 receives a triggering pulse and is switched on. Through the LEDs of the optocouplers, a current begins to flow, the photothyristors turn on, which leads to the switching on of the triacs 1 and the connection of the load to the AC network.

If the voltage disappears in one of the phases of the mains supply, the rectifier 6 again switches to the Two-phase rectifier / what mode. It leads to load shedding as in the case of opening the key 12.

Thus, the use of the proposed device in contactless switches of three-phase load ensures protection of the load from incomplete-phase modes, which will increase the reliability of its operation.

Claims (1)

DEVICE FOR MANAGEMENT THREE-PHASE LOAD SWITCH on triacs, containing limiting resistors intended for connection via controlled key elements between the anode and control electrode of each triac, and a control key, which differs in that. in order to increase its reliability by eliminating out-of-phase modes, it is equipped with a three-phase uncontrolled rectifier with a zero output, a thyristor with a starting circuit in the form of series-connected resistor and capacitor, the common point of which is connected through a dynistor to the thyristor control electrode, and. additional limiting resistor, wherein one input of uncontrolled rectifier connected to the clamp phase alternating voltage via a control key, other two input neup * equals rectifier connected to the terminals _with the other two phases variable SS-frequency voltage, launcher chain connected in parallel thyristor and the thyristor is turned on in series with the control inputs of the controlled key elements and an additional limiting resistor and is connected to the output terminals of an uncontrolled rectifier. SU ... 1072234> I