SU1274064A1 - Device for protection of three-phase electric installation against switching in use under break-down of insulation - Google Patents

Description

The invention relates to electrical engineering and is intended to protect electrical consumers from an unacceptable decrease in insulation resistance.

The purpose of the invention is to increase the reliability of protection by increasing the accuracy of its operation and operational safety.

The drawing shows a diagram of the device. YU

The device contains a switch 1, three NC contacts of which are located in each phase of the electric motor 2 supply, an actuator 3 with the first 4 and second 5 NC contacts, the first 6, second 7 and third. 8 capacitors, switch 9, switch 10, first 11 and second 12. control buttons, first 13, second 14 and third 15 resistors, first 16 and second 17 potentiometers, threshold element 18, make contact 19 of the switch, zener diode 20, diode 21, fuse 22 and thyristor 23.

The device works as follows.

In the initial state, the mains voltage is zero. Switch 1, motor 2 and actuator 3 are disabled. Capacitors 6-8 are discharged. Switch 9 is open. Switch 10 is open in one circuit and closed in a second. The control buttons 11 and 12 are in the position shown in the drawing.

When applying voltage to the input of the system and turning on the switch 9, the capacitors 6 and 7 are charged to the appropriate value. When the control button 11 is closed, the resistor 13 with the capacitor 8 is connected in series with the leakage potentiometer 16 ^ and the capacitor 6. When the capacitor 6 is charged to the on voltage of the threshold element 18, the latter is turned on and the control current flows through the potentiometer 17 - the discharge current of the capacitor 6. The thyristor 23 opens. The Executive body 3 turns on and opens its contacts 4 and 5. Illumination of the threshold element, 18 indicates the operability of the control device. The control button 11 is opened and the capacitor 8 with the resistor 13 is disconnected from the threshold element 18, which is closed. Button 12 control off

1274064 2 Executive body 3 and close the thyristor 23 by opening the circuit of their power. The control device is ready for operation.

The voltage from the output of the threshold element 18 through the opening contact of the control button 11, opening contact 5 and opening contact of the switch 10 is supplied to one of the terminals of the motor 2.

If the insulation resistance of the electric motor 2 is lower than the permissible value ·, then the voltage across the capacitor 6 and potentiometer 16 becomes higher than 15 of the switching voltage of the threshold element 18. The latter is turned on, and the discharge current of the capacitor 6 through the threshold element 18 to the potentiometer 17 enables the thyristor 20 23 and the actuator 3, which turns on and opens its contacts 4 and 5, thereby prohibiting the inclusion of the motor 2 and switch 1 in operation. At the same time, 25 the voltage is removed from one of the terminals of the electric motor 2, ensuring the safety of personnel. Similar processes occur in the circuit and when a person accidentally touches 30 to one. From the terminals of the electric motor in the process of monitoring the insulation resistance. The device is returned to its initial state by the control button 12..

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If the insulation resistance of the electric motor 2 is within acceptable limits, then the threshold element 18 and the thyristor 23 remain in the closed state. By turning on the switch 10 40, the switch 1 is turned on and supplies the mains voltage to the input of the electric motor 2, which operates in the set mode. At the same time, the NC contact of the switch ⁴ 5 of the device 10 removes the control voltage from the input of the motor, and the NO contact 19 of the switch 1 connects the capacitor 6 and the leakage potentiometer 16 through the first resistor 14 to the ⁵⁰ output of the zener diode 20, which together with the resistor 15 forms a parametric stabilizer. Due to this, the voltage across the capacitor 6 remains virtually unchanged, and after disconnecting the electric motor 2 from the network, the monitoring device immediately monitors the insulation resistance. Disconnection of the electric consumer from the network is carried out by switch 10. Further, the processes in the circuit continue .. At the end of the operation of the electric motor of switch 9, the mains voltage is removed from the device.

The diode 21 provides power to the protection circuit, and through the fuse 22, the device is protected against short-circuiting in the protection circuit.

The device allows not only to protect the motor from an unacceptable decrease in insulation resistance, but also in the particular case to measure the specific value of the insulation resistance of the electric motor.

Claims (2)

This invention relates to electrical engineering and is intended to protect electrical consumers from an unacceptable reduction in insulation resistance. The purpose of the invention is to increase the reliability of protection by increasing the accuracy of its operation and operational safety. The drawing shows a diagram of the device. The device contains a switch 1, three breaking contacts of which are placed in each phase of the power supply of the electric motor 2, the actuator 3 with the first 4 and second 5 latching contacts, the first 6, second 7 and third.8 capacitors, switch 9, switch 10, first 11 and the second control button 12., the first 13, the second 14 and the third 15 resistors, the first 16 and second 17 potentiometers, the threshold element 18, the switching contact 19 of the switch, the Zener diode 20, the diode 21, the fuse 22 and the thyristor 23. The device works as follows . In a similar state, the network voltage is zero. Switch 1, electromotor 2 and actuator 3 are disabled. Capacitors 6-8 are discharged. Switch 9 is open. Switch 10 is open in one circuit and closed in the second. The control buttons 11 and 12 are in the position shown in the drawing. When the supply voltage is applied to the system input and the switch 9 is turned on, the capacitors 6 and 7 are charged to the appropriate value. When the control button 11 is closed, the resistor 13 with the capacitor 8 is connected in series with the leakage potentiometer 16 and the capacitor 6. When the capacitor 6 is charged, the threshold element 18 is turned on and the control current, the discharge current of the capacitor 6, flows through the potentiometer 17. Thyristor 23 opens. Executive body 3 turns on and opens its contacts 4 and 5. The lighting of the threshold element 18 indicates the operability of the control device. The control button 11 opens and disconnects the capacitor 8 with a resistor 13 from the threshold element 18, which is closed. By means of the control button 12, the actuator 3 is switched off and the thyristor 23 is closed by opening the supply circuit. The control device is ready for operation. The voltage from the output of the threshold element 18 through the disconnecting contact of the control button 11, the disconnecting contact 5 and the disconnecting contact of the switch 10 is fed to one of the motor terminals 2. If the insulation resistance of the electric motor 2 is below the permissible value, the voltage on the capacitor 6 and potentiometer 16 becomes higher than the turn-on voltage of the threshold element 18. The latter is turned on, and the discharge current of the capacitor 6 through the threshold element 18 on the potentiometer 17 ensures that the thyristor turns on 23 and the actuator 3, which turns on and opens its contacts 4 and 5, thereby prohibiting the switching of the electric motor 2 and the switch 1 into operation. At the same time, the voltage is removed from one of the clips of the electric motor 2, ensuring the safety of personnel. Similar processes occur in the circuit and when a person accidentally touches one of the clips of an electric motor in the process of monitoring the insulation resistance. The device returns to the initial state by pressing the control button. I If the insulation resistance of the electric motor 2 is within acceptable limits, then the threshold element 18 and the thyristor 23 remain in the closed state. By turning on the switch 10, the switch 1 is turned on and supplies the network voltage to the input of the electric motor 2, which operates in the set mode. At the same time, the switching contact is disconnected, phone 10 removes the control voltage from the motor input, and the closing contact 19 of switch 1 connects capacitor 6 and leakage potentiometer 16 through the first resistor 14 to the output of the zener diode 20, which together with the resistor 15 forms a parametric stabilizer. Due to this, the voltage on the capacitor 6 remains almost unchanged and after the motor 2 is disconnected from the network, the monitoring device immediately monitors the insulation resistance. Disconnection of the power consumer 2 from the network is carried out by the switch 10. Further processes c. the circuit continues. At the end of the operation of the electric motor switch 9, the mains voltage is removed from the device. A diode 21 provides power for the protection circuit, and the fuse 22 provides protection for the device against short circuits in the protection circuit. The device allows not only protecting the electric motor from unacceptable reduction of the insulation resistance, but also, in a particular case, measuring the specific value of the insulation resistance of the electric motor. The invention The device for protection of a three-phase electrical installation from being put into operation in the event of isolation failure, contains a switch, three closing contacts of which are placed respectively in each phase of the power supply of the D1vigatel actuator, an actuator with two break contacts, a diode, a capacitor, a threshold element, two resistors, two control buttons and a thyristor, characterized in that, in order to increase reliability, two potentiometers are additionally introduced into it, a fuse, a switch, a switch, a fourth deputy The switching contact of the switch, the second and third capacitors, the Zener diode and the third resistor. Moreover, the switch's winding is connected by one input to the - zero wire and the other input through the sequential connected contact of the switch, the first breaker contact of the actuator, the switch and the fuse to one of of the supply phases, the fourth make contact of the switch is connected with one of its 6D4 terminals through a second resistor with a neutral wire, and another terminal simultaneously through a break contact -switch - with one of the motor phases and through the second disconnecting contact of the actuator and the disconnecting contact of the first control button - with the slider of the first potentiometer, which is simultaneously connected via the closing contact of the first control button and the first resistor with a neutral wire, through the first capacitor and the third connected in series resistor - with the anode of the first diode, the cathode of which is connected to the common connection point of the switch output and the first eroding contact of the actuator, parallel The first potentiometer is connected to the first capacitor, in parallel with which are connected the second potentiometer and the threshold element, the first input of which is connected to the common output of the first potentiometer, the second output of the second potentiometer is connected to the anode of the zener diode, the cathode of which is connected to the neutral wire, and the serially connected second connected in parallel to the zener diode control button, actuator winding and thyristor connected by its cathode to the common anode connection point the second potentiometer, the slider of which is connected to the control electrode of the thyristor, the second capacitor with one lead is connected to the neutral wire, and the other to the common connection point of the anode of the first diode and the third resistor, and the third capacitor is connected to the first resistor, and the executive organ shuntiroana diode.