SU1585862A1 - Power supply system - Google Patents

Abstract

The invention relates to electrical engineering, in particular to systems for the supply of electric motors subjected to moisture. The purpose of the invention is to save electricity by drying only when the insulation resistance drops below a predetermined value. The system is equipped with a switch 3, connected between the network and the electric motor, and a control circuit comprising an insulation resistance measurement unit 6 and a comparison unit 7. In the event of an interruption in the operation of the motor, in the case of a decrease in the insulation resistance below a predetermined value, the impulse current of the winding insulation is pulsed by controlling the switch. 2 Il.

Description

The invention relates to electrical engineering and can be used to increase the operational reliability of electric motors exposed to moisture.

The aim of the invention is to save energy by drying only when the insulation resistance is lower than a predetermined value.

Haha. 1 shows a block diagram of a power supply system; in FIG. 2 is a functional electrical diagram of the system.

The power supply system contains a three-phase supply network with a neutral wire, an electric motor 1 connected to the network through the power contacts of the switching apparatus 2 and a device for pulse current drying of insulation, having a switch 3 connected between the network and the windings of the electric motor 1, the power supply 4, the input of which is connected to switching device 2, and the outputs to the control unit 5, the unit for measuring insulation resistance 6 and the comparison unit

7. The control unit 5 is connected to the switch 3, the comparison unit 7 and the insulation resistance measurement unit 6, the latter being connected to the windings of the electric motor 1 and the comparison unit 7, which in turn is connected to the alarm elements 8 and 9.

The control unit is a rectangular pulse generator made according to the scheme of an asymmetric multivibrator with a transistor amplifier and relay 10 at the output. The closing contacts 11 and 12 of the relay 10 are included in the control circuit of the switch 3, the switching contact 13 is in the circuit for measuring insulation resistance.

The duration of the pulses and pauses generated by the generator is regulated by variable resistors 14 and 15.

Comparison unit 7 is made by a operational amplifier according to the Schmitt trigger circuit with a transistor switch and a relay 16 at the output. Relay 16 has a switching contact 17 in the power supply circuit of the control unit 5 and signal 8 and a make contact 18 in the signal circuit 9. The upper threshold of the comparison unit 7 is set by the resistor 19, the lower one depends on the hysteresis of the trigger characteristic and is regulated by the resistor 20 in the feedback circuit. In order to prevent false alarms of the comparison unit 7 when the circuit for measuring the insulation resistance is disconnected, terminal 13 includes a resistor 21 in the circuit.

Switch 3 is made in the form of two keys 22 and 23 on symmetric thyristors. The key 22 controls the connection to the network phase of one of the terminals of the motor 1, the key 23 controls the connection to the neutral of the other output of the motor 1. The use of two keys provides galvanic isolation of the windings from the network at the moments of measuring the insulation resistance, which eliminates the influence on the accuracy of measuring leakage currents through the line and isolation of the windings of a power transformer and related electrical consumers.

The power source 4 is connected to the network through the NC contact 24 of the switching apparatus 2. Due to this, the automatic inclusion of the drying device in operation during technological breaks is achieved.

The power supply system operates as follows.

When the motor 1 stops, the power / contacts of the switching device 2 are opened and its auxiliary contact 24 is closed, connecting the input of the power source 4 to the network. From the outputs of the power source 4, voltage is supplied to the insulation resistance measuring unit 6 and the comparison unit 7. Unit 6 measures the insulation resistance, unit 7 compares it with the lower threshold level. If the insulation resistance is above this level, the drying device remains in the Insulation control mode, which is indicated by signal 8. As the windings become wet, the insulation resistance drops and when it reaches the lower threshold level, the comparison unit 7 is activated, relay 16 of which, by contact 17, turns off signal 8 and turns on the control unit 5, and the contact 18 includes a signal 9, indicating the mode of drying of insulation. " The control unit 5 starts the generation of control pulses, causing the periodic opening of the keys 22 and 23 of the switch 3. In this case, the phase winding of the network is briefly applied to the motor windings 1 and they are heated. By adjusting the durations of pulses and pauses with resistors 14 and 15, the required drying temperature is set.

At the moments when the switch 3 is closed, the insulation resistance is measured by the unit 6, connected to the windings by the contact 13 of the relay 10.

When the insulation resistance as a result of drying reaches the upper threshold level, the device using the comparison unit 7 again switches back to the initial mode Insulation control. Then the cycle repeats. When starting the electric motor 1, the drying device is turned off by the contact 24 of the switching apparatus 2 and does not affect the operation of the electric drive.

When using the invention increases the reliability of electric motors at low energy costs.

Claims (1)

Claim An energy supply system containing a three-phase supply line, an electric motor connected to the line through the power contacts of the switching apparatus. and a device for pulsed current drying of insulation, connected to a line and an electric motor, characterized in that. that, in order to save energy by drying only when the insulation resistance is lower than the set value, the line additionally contains a neutral wire, the switching device additionally contains an auxiliary disconnecting contact, the drying device contains a power source connected to the line through the specified opening contact, a resistance measuring unit isolation, a comparison unit with a resistor at the input, a control unit made in the form of a rectangular pulse generator according to the scheme asymmetrical multivibrator with a relay at the output, a switch made in the form of two thyristor switches, one of which is connected in parallel with the power contact of the switching device connecting one of the motor leads to the network, and the other is connected between the other motor terminal and the neutral wire, all of these blocks connected to a power source, the control unit is connected to a switch, a comparison unit and an insulation resistance measurement unit, which is connected to the motor windings and the comparison unit. Figure 2