SU1224923A1 - Device for controlling apparatus for switching three-phase load - Google Patents

Abstract

The invention is intended to control a three-phase load switch included in the phases of the supply network. The purpose of the invention is to increase reliability. The device contains two triacs 1 controlling the load 2. A resistor 3 is connected between the input and the control electrode of each triac via a bridge rectifier (MV) 4. The output of the MB 4 is biased by the photo thyristor of the optocoupler 5. The input MB 16 is connected between the network zero and the point connection of the close contact of the switch (P) 10 and one of two diodes 9. Cathodes of diodes 9 (L S HCHE 4:; ii cf K) with

Description

and the photothyristor optocoupler 8 are combined and through the LEDs of the optocouplers 5, the thyristor 6 and the resistor 7 are connected to zero network. The anode of the diode 11 through the disconnecting contact P 10 and the anodes of the photothyristor optocoupler 8 and one of the diodes 9 are connected to the phases of the network. The cathode of the diode 11 is connected to the junction of the resistor 12 and the capacitor 13 of the starting circuit, connected through the photo thyristor of the optocoupler 14 between

The invention relates to electrical engineering, in particular, to devices for contactless switching on and off of a three-phase load, as well as for starting electric motors.

The aim of the invention is to increase the reliability of the device.

The drawing shows a circuit diagram of a control device.

The device contains terminals for connecting the power supply network of the ABCO, sy- sistors 1 for controlling the three-phase load 2, and limiting resistors 3 through rectifying bridges 4 are connected between the input and control electrode of each triac. The output diagonals of the rectifying bridges 4 are shunted by the phototherms of the optocouplers 5, the LEDs of which are connected in series with the thyristor 6 and the ballast resistor 7 between the zero output of the three-phase rectifier performed on the photothyristor of the optocoupler 8 and two diodes 9, and a terminal for connecting the neutral wire. Elements 8 and 9 of the three-phase rectifier are connected to the terminals for connecting the phases of the LAN network. A closing contact of the switch 10 is connected between one diode 9 of the three-phase rectifier and a terminal for connecting the phase of network B, the disconnecting contact of which through the diode 11 is connected to the common connection point of the resistor 12 and capacitor 13 starting circuit. The starting circuit through the photo-thyristor of the optocoupler 14 is included: 5 between the cathode and the control electrode of the thyristor 6. Sequentially

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the cathode and the control electrode of the thyristor 6, the resistor 15 and the LEDs of the optocouplers Bjl are connected to the output MB 16, the introduction of optocouples 8, 14, П 10, diode 11, resistor 15 and МБ 16 and the specified connection of elements eliminates spontaneous switching of the switch and protects the load during deep reducing network voltage, thereby increasing reliability. 1 il.

the connected resistor 15 and the LEDs of the optocouplers 8 and 14 are included in the output diagonal of the rectifying bridge 16, the input diagonal of which is connected 5 between the common connection point of the closing contact of the 1 O switch and the diode 9 of the three-phase rectifier and the terminal for connecting the neutral wire,

10 The device operates as follows.

In the INITIAL state, the capacitor 13 is charged along the circuit: phase B, break contact of switch 10, j diode 11, ballast resistor 7, neutral wire. When switching contacts of the switch 10, the rectifying bridge 16 is connected to the phase B of the AC network.

0 Through the LEDs of the optocouplers 8 and 14, a current begins to flow and their photo thyristors are unlocked. When the photo thyristor of the optocoupler 8 is unlocked, the three-phase rectifier switches from the two-phase rectifier mode to the three-phase rectifier mode. When the photothyristors of the optocoupler 14 are unlocked, the voltage of the charged capacitor 13 is supplied to the control electrode of the thyristor 6

0 and it is turned on. Through the LEDs of the optocouplers 5, a current begins to flow, their photothyristors are unlocked, which leads to switching on of the systors 1 and connecting the load to the AC network.

five

When one of the phases of the mains supply is broken, the three-phase rectifier switches to the two-phase rectifier mode with a rectified rectifier current.

to zero, which leads to the locking of the thyristor 6, and then the triacs 1.

With a deep decrease in the supply voltage, the current through the LED of the optocoupler 8 decreases, it goes out, its photo thyristor is locked. The three-phase rectifier switches to two-phase rectification mode and the triacs 1 of the switch are turned off. The magnitude of the shutdown setting of the optocoupler 8 is adjusted by changing the resistor 15.

If it is necessary to disconnect the switch, the switch 10 returns to its initial state, which leads to load disconnection as in the case of a break of one of the phases of the supply network.

In all cases, the switch can be switched on again only after the corresponding switching of the contacts of the switch 10 and the charging of the capacitor 13.

Thus, the use of the proposed device eliminates the spontaneous switching on of the switch and provides load protection with a deep decrease in the supply voltage, which increases the reliability of its operation.

Claims (1)

Invention Formula A device for controlling a three-phase load on the triacs with a switch containing limiting resistors designed to be connected via controlled key elements between the input and control electrode of each syistor, a three-phase rectifier with Editor N. Gorvat Order 1959/54 Compiled by 0. Mescher Kova Tehred I.Popovich Proofreader I. Muska Circulation 631 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 a zero terminal, two phases of which are uncontrolled, a terminal for connecting the neutral wire, terminals for connecting the network phases connected to the corresponding inputs of a three-phase rectifier, a thyristor and a ballast-resistor connected in series with the control inputs of controlled key elements between the zero output of a three-phase rectifier a connector and a terminal for connecting the neutral conductor, a starting circuit in the form of a series-connected resistor and a capacitor, characterized in that, in order to increase its reliability, it will complement It includes two optocouplers, a resistor, a switch with opening and closing contacts, a diode, an output bridge, the output diagonal of the rectifying bridge is bridged by a circuit of resistors and LEDs of the first and second optocouplers connected in series, and the input diagonal between connecting a neutral wire and an uncontrolled three-phase rectifier input, which is connected to the corresponding terminal through the closing contact of the switch for connecting the mains phase, the photothyristor of the first optocoupler keys in the third phase of the three-phase rectifier and fototiristory second optocoupler connected in series with the trigger circuit which is connected between the cathode and the control electrode of the thyristor, and the total point compounds resistor and capacitor starting circuit via a diode connected to the NC contact of the switch.