RU2524926C1 - Device to monitor operation and protection of three-phase electric motor - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device comprising current sensors, a comparator with a threshold level setter, a contactor unit with contacts in a power supply circuit of an electric motor is equipped with two rectification and highest voltage release units, a differential amplifier and an analogue voltage divider. At the same time each of rectification and highest voltage release units is made on three operational amplifiers with diode-resistive feedbacks, and outputs of rectified voltage of one of polarities are combined and connected with the output of the highest voltage of the unit.

EFFECT: realisation of a simple and universal device to monitor good condition and protection of a three-phase electric motor characterised by simple design, low cost, small size and weight, and high reliability.

3 cl, 1 dwg

Description

The proposal relates to electrical engineering and can be used in devices for monitoring the operation and protection of a three-phase electric motor to diagnose its condition and prevent overload.

A device for the protection of three-phase motors "STRAZH-02" (000 NPP "RADIOAUTOMATICS", passport and operating instructions VGLA. 468243.002 PS, Bryansk, 2001), containing two current sensors, channel current overload, phase channel, control circuit, power supply, starter, "protection - reset" button, controls, adjustments and indications. The device turns off the motor during current overload, breakage of one of the phases and phase voltage asymmetry.

The disadvantage of this device is that it is triggered in the event of an emergency and does not provide pre-emergency diagnosis of the state of the engine. In addition, the device requires quite laborious adjustments and protection settings for the given engine characteristics.

A device for protecting an electric motor is known (patent RU 2350001, IPC Н02Н 7/00, March 20, 2009), comprising current transformers in the phases of electric motor supply, a magnetic starter, a rectifier, an overload control unit, a current-time characteristic generating unit, a comparator and an actuating relay.

The disadvantage of the device also lies in the lack of determining the pre-emergency state of the engine and its timely shutdown. In addition, the elements of the device forming the time-current characteristic have a large non-linearity and do not provide its full compliance with the actual characteristics of the engine.

Closest to the proposed device is an electronic system and method of protection for electric motors (patent US 2011/0149446, IPC Н02Н 7/09, Н02Н 3/04, Н02Н 3/26, 06/23/2011). The system includes current sensors installed on the motor power buses, a contactor with contacts in the power supply circuit of the motor windings, a central processor that processes signals from current and voltage sensors, drive and switching interfaces, a display, sound and light alarms . The method implemented in the system makes it possible to characterize the damage occurring in the engine and the tendency for possible damage. This ensures timely shutdown of the engine and prevention of its operation in modes not specified by the specification. One of the most important parameters controlled by the system is the imbalance in the phase currents of the motor.

The disadvantage of the system is the complexity and complexity of processing a large data array, significant hardware costs and the associated high cost, significant weight, dimensions and low reliability.

The proposed device is based on monitoring the imbalance of the phase currents of the motor, which can be caused by both internal and external factors: inter-turn and inter-winding faults, blown fuses and phase failure, reduced insulation resistance or breakdown, distortion of phase voltages. All of these causes can lead to engine crashes. The earlier an unacceptable imbalance in the phase currents of the motor is detected and turned off, the higher the probability of its trouble-free operation.

The drawing shows a functional diagram of a device for monitoring the operation and protection of a three-phase electric motor.

The device contains three current sensors 1 on the motor power buses, a comparator 2, the input 3 of which is connected to the threshold level switch 4, and the output is connected to the input of the contactor unit 5 with contacts 6 in the power supply circuit of the motor windings 7, and an indication unit 8. The device is equipped with two blocks 9, 10 rectification and allocation of the highest voltage, differential amplifier 11 and analog voltage divider 12. The current sensors 1 are connected to the inputs of the rectification and isolation unit 9 of the highest voltage, with the output 13 of which the input 14 of the amplifier 11 is connected, and with the other three outputs 15, 16, 17, the inputs of the rectification and isolation unit 10 of the highest voltage. The output 18 of the block 10 is connected to the input 19 of the amplifier 11 and the input 20 of the voltage divider 12, with the second input 21 of which the output of the amplifier 11 is connected, and the first input 22 of the comparator 2 and the display unit 8 are connected to the output.

Each of the blocks 9, 10 is made on three operational rectifiers 23, 24, 25 with diode-resistive feedbacks, the inputs of which are connected to the inputs of the blocks. The outputs 26, 27, 28 of the rectified voltage of one (negative) polarity are combined and connected to the outputs 13, 18 of the highest voltage of blocks 9, 10, and the outputs 29, 30, 31 of the rectified voltage of another (positive) polarity of the operational rectifiers 23, 24, 25 of the block 9 are connected to its three other outputs 15, 16, 17.

Block 5 contains a key on the transistor 32, the input of which is connected to the input of the block 5. In the collector circuit of the transistor 32 is included a coil 33 of the contactor. Parallel to the transistor 32 are connected in series connected auxiliary open contact 34 of the contactor and a normally-closed button 35 to turn off the contactor.

A device for monitoring the operation and protection of a three-phase electric motor operates as follows.

When power is applied to the electric motor, phase currents flowing in the windings 7 act on the sensors 1. At the outputs of the sensors 1 constant positive voltages appear, proportional to the actual values of the phase currents. In block 9, at the combined outputs 26, 27, 28 of the rectifiers 23, 24, 25, the largest (largest) input voltage is allocated, proportional, for example, to the phase current - I _A. This voltage has a negative polarity and goes to the output 13 of block 9. At the same time, the output 29 of the rectifier 23 of block 9 will have a voltage of zero, and the outputs 30 and 31 of the rectifiers 24, 25 of block 9 will have positive voltages proportional to the differences in phase currents: (I _A —I _B ) and (I _A —I _C ). These voltages go to the outputs 15, 16, 17 of block 9 and are applied to the inputs of block 10, which, in a similar way, releases voltage 18 proportional to the maximum (in magnitude) difference of the phase currents of the motor, for example (I _A -I _B ) . The voltage polarity at the output 18 of block 10, as well as at the output 13 of block 9, is negative. Obviously, one of the currents entering this difference - I _A - is the maximum, and the other - I _B - is the minimum phase current. The voltages from the outputs 13, 18 of blocks 9, 10 are supplied to the inputs 14, 19 of the differential amplifier 11. The amplifier 11 calculates a voltage proportional to the arithmetic mean value of the maximum and minimum phase currents, in accordance with the formula:

I _A -1/2 (I _A -I _B ) = (I _A + I _B ) / 2.

The required transmission coefficients for each input 14, 19 of the amplifier 11 are set using the corresponding resistors connected to its inputs.

Analog divider 12 determines the maximum relative value of the phase current imbalance as the ratio of the maximum difference of the phase currents of the motor to their arithmetic mean value:

(I _A -I _B ) / (I _A + I _B ) / 2.

Connected to the output 22 of the divider 12, the display unit 8 displays the value of the relative mismatch of the phase currents of the electric motor, allowing maintenance personnel to control the operation of the electric motor. When this value reaches the threshold level set by the setter 4, for example 10-20%, the comparator 2 is activated. Under the action of the output signal of the comparator 2 in block 5, the transistor 32 opens, which feeds the coil 33 of the contactor. This opens the contacts 6, disconnecting the motor windings 7 from the network, and closes the contact 34, self-locking winding 33 of the contactor. After eliminating the malfunction that caused the imbalance of the phase currents of the electric motor, the button 35 opens the circuit of the coil of the contactor 33, removes its blocking and the device returns to its original state.

If necessary, the operation and protection monitoring device can be equipped with logic, memory and indication elements, which allow displaying the phases with the highest and lowest currents and storing this information after the protection is triggered, which simplifies the troubleshooting.

Thus, the proposed device implements a simple and universal way of monitoring the health and protection of a three-phase electric motor in the entire range of operating currents. The device allows you to prevent the occurrence of both emergency and pre-emergency conditions of the motor. Its implementation requires a minimum number of widespread analog microcircuits. It is characterized by low cost, small size and weight, high reliability and ease of operation.

Claims (3)

1. A device for monitoring the operation and protection of a three-phase electric motor, comprising current sensors on the electric motor power buses, a comparator, the second input of which is connected to a threshold level adjuster, and the output is connected to the input of the contactor unit with the contacts in the power supply circuit of the motor windings, and an indication unit, characterized in that it is equipped with two rectification and isolation units of the highest voltage, a differential amplifier and an analog voltage divider, and the current sensors are connected to the inputs of the first rectification unit and the highest voltage, with one of the outputs of which the second input of the differential amplifier is connected, with the other three outputs are the inputs of the second rectification and isolation unit of the highest voltage, the output of which is connected to the first inputs of the difference amplifier and an analog voltage divider, with the second input of which the output of the differential amplifier is connected , and with the output - the first input of the comparator and the display unit. 2. The device according to claim 1, characterized in that the rectification and isolation blocks of the highest voltage are made on three operational rectifiers with diode-resistive feedbacks, the inputs of which are connected to the inputs of the blocks, the outputs of the rectified voltage of the same polarity are combined and connected to the output of the highest voltage of the blocks and the outputs of the rectified voltage of a different polarity of the operational rectifiers of the first block are connected to its three other outputs. 3. The device according to claim 1, characterized in that the contactor unit contains a transistor switch, the input of which is connected to the input of the unit, and the contactor winding is included in the transistor's collector circuit, and a auxiliary open contact of the contactor and a normally closed disconnect button are connected in series with the transistor contactor.