SU1541743A1 - Device for starting induction electric motor - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in drives of various mechanisms where it is necessary to start the motor in two stages. The purpose of the invention is to increase the reliability of work. The device contains connected in series with the network leads through a resistor, a capacitor and the contactor contacts of the coil of two contactors and a time relay, as well as a triac and a threshold element with an RC circuit at the input. Reliability is improved by keeping the triac time relay open during the contactors switching time. For this, a single diode and a second diode and a capacitor connected in parallel with it, which is connected in parallel with the triac control circuit, are connected to the cathode circuit of the triac. 1 il.

Description

The invention relates to electrical engineering and can be used in drives of various mechanisms, where it is necessary to start an electric motor in two stages.

The purpose of the invention is to increase the reliability of

The drawing shows a diagram of the device for starting an asynchronous motor.

The device contains cameras 1 and 2 magnetic starters (contactors), the Start 3 and Stop 4 buttons, the power supply terminals 5 and 6, the time relay, made in the form of a triac 7, resistors 8-10, diodes 11 and 12, the time of the master NS circuit 13, 14 installed at the input of the threshold voltage element - a single junction transistor (OPT) 15, which forms with the capacitor 14 of the HC circuit,

a resistor 9 and a triac's control electrode-cathode junction, a closed circuit, a filter capacitor 16, which with diode 17 and a resistor 18 form a rectified voltage source from which OPT 15 is powered across the bases. The coil 1 of the first magnetic actuator through the disconnecting contacts 19 of the second magnetic actuator and its closing contacts 20 are connected to one of the terminals of the capacitor 21 and resistors 22 and 23. The second terminals of the capacitor 21 and resistor 22 are connected to the coil 2 of the second magnetic actuator, and the second output of the resistor 23 is connected to the anode of the triac and breaker contact 24 of the first actuator. The cathode of the triac is connected to the anode of the diode 12 through the capacitor 25. The triac 7 and the time relay are powered via the break contacts 26 of the button

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Start. The coil 2 is connected to the terminal 6 of the network through the closing contacts 27 of its magnetic starter.

The device works as follows.

When the button 3 is tangled, the current passes through the coil 1 and the factor acts. The coil 1 is connected to the mains through the closing contact 20 of the contactor through the coil 2 of the disconnected conjector, resistor 22 and capacitor 21. The capacitance 2 of the capacitor 2 and the resistance of the resistor 22 are set so that under the action of the current flowing through the coil 2 of the contactor, the capacitor 21 and resistor 22, pins 20 and coil 1 of the contactor, when it is on, on coil 2 of the off contactor would drop a voltage more than 10 times less than the nominal voltage of the contactor winding, and the contactor with coil 2 would be Disconnected, although ka 2 eyelet to retain the current flows p contactor coil 1 in the closed position. Power contacts (not shown) The coil of the contactor 1 of the stator of the stator of the electric motor is included in the starting mode, for example, according to the star or the lower speed Starts the process of starting the electric motor.

Due to the drop in voltage on the coil 1 of the contactor under the action of

ica, rectified by diode 17 through reamer & 9, triac control circuit /, resistor 10, diode 12 and button 26, begins to charge the capacitor 14 the time of the driving RC circuit consisting of resistor 13 and capacitor 14, and through the resistor 13, the limiting voltage on the bases of the OPT 15 e is charged capacitor 16. The resistor 8 is required

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A resistor, a resistor 10, and a diode 12 flow through a tone causing a voltage drop across resistor 10. To the extent of this voltage drop through diode 12, capacitor 25 is charged, which is discharged to the triac control circuit, keeping it open when the voltage at terminals 5 and 6 of the network reverses direction. Diode 11 provides a flow of reverse current through the triac and its load.

Thus, using resistor 10, capacitor 25 and diodes I and 12, triac 7 is kept open until contactor coil 2 is triggered. Since most of the network voltage is unlocked and triggered through triac, coil 2, the resistors 22 and 23 and the capacitor 21, the current is mainly allocated to the resistors 22 and 23, the contactor with the coil 2 does not operate. Only when the contacts 24 of the contactor with the coil 1 are closed, through the open triac 7 the contactor with the coil 2 is turned on, self-locking through its closure contact 27, the contactor stator windings of the electric motor connect to the three-phase network according to the triangle circuit or to the power contacts (not shown)

higher speed i.e. from undervoltage (from the star), the stator windings of the electric motor are switched to the nominal supply voltage (triangle).

Switching off the electric motor is performed by opening the button 4. In the circuit diagram of the device, the same triac 79 is unlocked, causes one contactor to turn off, and only after switching off

To reduce the current flowing through the 45 switches of its contacts, turning on the motor circuit of the triac 7 during the charging of the capacitors 14 and 16, and thereby eliminating false triacs of the triac. As soon as the voltage on the capacitor 14 reaches the unlocked voltage of the OPT 15, the last opens. The capacitor 14, through the PTA 15 and the resistor 9, is discharged to the cathode-triac transition electrode 7, and the triac opens.

Triac 7 shunts Contactor coil 1. At the same time through the coil 2, resistors 22 and 23, open triac 7, the control circuit of this si-.

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contactor, which is necessary for reliable automatic start of the asynchronous electric motor. To eliminate the simultaneous switching on of two contactors, their disconnecting contacts 19 and 24 are used. Switching coils 1 and 2 can be carried out with different time delays modified by resistor 13 (from several seconds to several tens of seconds), which allows automatic start-up of asynchronous electric motors with different starting conditions.

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contactor, which is necessary for reliable automatic start of the asynchronous electric motor. To eliminate the simultaneous switching on of two contactors, their disconnecting contacts 19 and 24 are used. Switching coils 1 and 2 can be carried out with different time delays modified by resistor 13 (from several seconds to several tens of seconds), which allows automatic start-up of asynchronous electric motors with different starting conditions.

The device is characterized by high operational reliability, since keeping the ammunition open is carried out by the current flowing through its anode circuit. This provides the device with practical application not only for controlling asynchronous electric motors, but also in other software automation devices.

Claims (1)

Invention Formula A device for starting an asynchronous motor containing two contactors, a Start button with a closing contact pair and a Stop button with a disconnecting contact pair and diodes, the time setting of the RC circuit, resistors and capacitors, one lead of the first contactor coil is connected to the first lead, a closing contactor, a pair of Start buttons, the second lead of which is connected to the first lead through the opening contact pair of the power supply and the second contact of the first capacitor, second the lining of which is connected to the first terminal of the coil of the second contactor, the second terminal of which is connected through the opening contact pair, the Stop buttons to the first terminal of the power supply and power supply, the first resistor is connected by one output to the first plate of the first capacitor, and the other output through the opening contact pair of the first contactor to the second plate of the first capacitor, the second output of the coil of the first contactor is connected to the second output terminal for connecting the source power supply, the output is connected via the closing contact pair of the second contactor to the second output of its coil, characterized in that, in order to increase the reliability of operation, in it s odnopere- Khodnev transistor and a triac in the Start button put rachmykayuscha con five g 50 0 5 0 five 0 a clock pair, seven resistors, four capacitors and three diodes are used in the device, the RC driver circuit is made of the second resistor and the second capacitor connected in series, the first diode is connected by an anode to the first terminal of the first contactor coil, the second resistor's terminal of the master HC circuit is connected to the first output of the third resistor and to the cathode of the first diode, the third capacitor is connected by one plate to the second output of the third resistor, the fourth capacitor is connected by the first plate to the second plate The third capacitor, the fourth, fifth and sixth resistors form a series circuit that is connected in parallel to the fourth capacitor, the anode of the triac is connected to the second output of the resistor, the cathode of the triac is connected to the first output of the fourth capacitor, the control electrode of the triac is connected to the connection point of the fifth and the sixth resistors; the second output of the second capacitor; the time of the output RC circuit is connected to the junction point of the fourth and fifth resistors; the second and third diodes are connected in series with m Between themselves and form a circuit connected in parallel to the fourth capacitor, the anode of the third diode is connected to the second plate of the fourth capacitor, and the cathode of the second diode is connected to the first plate of the specified capacitor, the connection point of the second and third diodes is connected to the disconnecting button of the Start button to the second output for connecting the power source, the emitter of the single junction transistor is connected to the junction point of the second resistor and the second capacitor; connected to the second output of the third resistor, the second phase of the transistor is connected to the second output of the third capacitor, the seventh resistor is connected in parallel to the first capacitor,