SU1474798A1 - Apparatus for protection of electric motor windings from moisture condensation - Google Patents

Abstract

This invention relates to the protection of the insulation of motor windings from dampness and moisture. The purpose of the invention is to simplify the operation of the device and reduce the cost of electricity. The goal is achieved by the fact that the device is additionally equipped with a differential amplifier, and the motor winding is connected to one of the shoulders of the bridge through the contacts of the switch. The device can be used to protect electric motors operating with significant intervals between switching on in agricultural production conditions, in particular in livestock and poultry houses with high environmental humidity. 2 Il.

Description

1 The invention relates to

protect the insulation of motor windings from moisture and can be used to protect motors that operate with significant intervals between inclusions in agricultural production conditions, in particular, in livestock and poultry farms with increased environmental humidity.

The purpose of the invention is to simplify the operation of the device and reduce the cost of electricity.

Supplying the device with a differential amplifier and connecting the motor winding to the first bridge arm instead of the temperature sensor allows refusing the sensor installation inside the motor, which

simplifies the operation of the device. Controlling the temperature of the winding by its resistance allows you to control the true temperature of the winding, which eliminates the winding breakdown and helps reduce power costs.

Figure 1 shows the circuit diagram of the device; Fig. 2 shows stress patterns at characteristic points.

The device contains a measuring unit 1, made in the form of a bridge. The input bridge diagonal through diode 2 is connected between the plus and the common point of the stabilized two-pole power source 3. Diode 2 is connected between the positive power source and the measuring input diagonal

4i

4i

sj

with

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unit 1. A winding of the electric motor 7 is connected to the first shoulder of the bridge through the closing contacts 4 and 5 of the switch 6. A copper resistance thermometer 8 is connected to the second shoulder of the bridge, monitoring the ambient temperature. The bridge is balanced by trimming resistor 9. The bridge diagonal output is connected to the input of the differential amplifier 10. Diodes 11 and 12 and the zener diode 13 protect the inputs of the differential amplifier from overvoltage. The output of the differential amplifier 10 is connected to the input of the inverting amplifier 14. A gain factor is set by the trimming resistor 15. The output of the amplifier 14 is connected to the input of the temperature setting unit 16, for example, made on the comparator 17. The building resistor 18 performs the function of setting the temperature. The output of the temperature setting unit 16 is connected to the first input of the generator 19 control pulses. The second input of the control pulse generator 19 is connected to the output of the pulsating voltage of the power source 3. The control pulse generator 19 is made on a single junction transistor 20 and a transistor switch 21. The trimming resistor 22 performs the function of setting the current of the motor winding 7. The output of the control pulse generator 19 is connected to the control input of the actuator 23, made, for example, optotristor. The input of the actuating element 23 is connected to the output of the power source 3, and the output through the closing contact 4 of the switch 6 with the windings of the electric motor 7. The input of the power source 3 is connected via the contact 24 of the switch 6 between the phase and neutral wire. The motor 7 is controlled using the Stop 25 and Start 26 buttons, as well as the magnetic starter 27, contacts 28 of which are included in the power network of the motor 7. The magnetic starter 27 has an open contact 29 in the power supply circuit of the switch 6, and the switch 6 has a break contact 30 in the power supply circuit of the magnetic actuator 27. The start button 26 also has an opening contact 31, mouth

5 0 0

five

five

The opto-thyristor 23 is connected through a fuse 32 to a separate winding 33 of the power supply unit 3, and the pulsing voltage of the power supply source 3 is separate from the direct voltage output of the power supply source 3 by a diode 34 in the forward direction. After the device is mounted, it is adjusted. For this, the device is connected to the power network. Through the closed contact of the Stop button 25, the closed contact 31 of the Start button, the closed contact 29 triggers the switch 6 and with its contact 24 connects the power supply 3 to the phase conductor, and the contacts

4 and 5 connects the winding of the motor 7 to the measuring unit 1. At the time of adjustment, the actuator 23 is turned off when the fuse 32 is removed. When the winding and the environment are equal, the trimming resistor 9 balances the measuring unit 1. At the output of the differential amplifier 10, zero potential. Trimmer Resistor

15, amplifier 14 sets the gain of the amplifier, the magnitude of which depends on the resistance of the motor winding. An executive element 23 is connected and the required heating current of the motor winding is set by the trimming resistor 22 of the control pulse generator 19. Trimmer 18 of block 16 is set to exceed the temperature of the winding compared to the ambient temperature at

5-8 ° С

The device works as follows.

When the device is connected to the power network, the switch 6 is triggered through the closed contact of the Stop 25 button, the closed contact 29 and the closing contact 24 connects the power supply 3 to the phase conductor, and the closing contacts 4 and 5 connects the winding of the electric motor 7 to the measuring unit 1.

With equal temperature of the winding and the environment, the bridge of the measuring unit 1 is balanced. The voltage at the output of the differential amplifier 10 and at the output of the amplifier 14 is zero. But at this time, the non-inverting input of the comparator 17 receives a signal from the setting device 18, the value of which determines the specified excess of the winding temperature above the ambient temperature. The comparator 17 switches and a positive polarity voltage arises at its output. The control pulse generator 19 generates a pulse that is supplied to the control electrode of the actuating element 23. The opening angle of the optothyristor, and hence the current flowing through the motor winding, is set by the trimming resistor 22 "The executive element 23 opens and a positive current pulse passes through the motor winding When current is passed, the winding is heated. A current pulse is applied to measuring unit 1. A bridge imbalance occurs. Diode 2 prevents overvoltage from entering the positive bus of power supply 3, and diodes 11 and 12 and zener diode 13 protect the input of the differential amplifier from overvoltage. When the bridge is unbalanced, the inverting input of the differential amplifier 10 receives a high level signal. At the output of the differential. the amplifier 10 generates a negative polarity signal, and the output of the inverting amplifier 14 produces a positive polarity signal. The signal from the output of amplifier 14 is fed to the inverting input of the comparator 17. The comparator switches and a negative polarity voltage appears at its output. When the half-wave voltage passes through zero, the opto-thyristor 23 closes. The negative half-wave of the mains voltage does not cause the opening of the auto-thyristor 23. After the opto-thyristor 23 closes, a measuring current passes through the motor winding. If the motor winding is not warm enough, the process is repeated. The passage of current through the motor windings causes them to heat up. The winding resistance increases. At the moment the measuring current passes through the motor winding, an imbalance of the bridge of the measuring unit 1 occurs. At the output of the differential amplifier 10, a negative polarity voltage occurs that is proportional to

the magnitude of the unbalance of the measuring unit 1 power, and the output of the amplifier 14 is a positive voltage. When the temperature of the winding exceeds the ambient temperature by 5-8 ° C, the signal at the output of amplifier 14 compensates for the signal from setpoint 18. At the output of comparator 17, a signal of negative polarity is present. The optothyristor 23 is closed and the heating of the winding is stopped.

During long-term operation of the electric motor, the temperature of its windings is 70–80 ° C. The monitoring device is disabled. The transition to control is as follows.

When the Stop 25 button is pressed, the magnetic starter 27 de-energizes and closes contact 29 in the power supply circuit of switch 6, and also contacts 28 disconnects the motor from the mains. The switch 6 is triggered by its end of time 24, connects the power supply 3, and the contacts 4 and 5 connect the winding 1c to the measuring unit 1. Since the winding of the motor is hot, the bridge of the measuring unit 1 is loosened. At the output of the differential amplifier 10, a signal of negative polarity arises, and at the output of amplifier 14, a signal of positive polarity, much more

g signal coming from the setpoint 18. At the output of the comparator 17 there is a signal of negative polarity. Optothyristor 23 is closed. As the motor cools, the balance signal decreases. When the temperature difference reaches 5-8 ° C. Optothyristor 23 opens and the heating of the motor winding begins. When you press the Start button, the 26th cycle 31 closes and de-energizes the switch 6, which disconnects the power source 3 from the mains and the motor winding from the measuring unit 1. It closes simultaneously

0 pin 30 of the switch in the power supply circuit of the magnetic starter 27.

The magnetic starter 27 is activated and with its contacts 28 it connects the electric motor to the network, and also opens contact 29 in the power supply circuit of switch 6.

Thus, the supply of the device with a differential amplifier and the connection of the motor winding in

Claims (1)

the first shoulder of the bridge instead of the temperature sensor allows refusing the sensor installation inside the electric motor, which simplifies the operation of the device. Controlling the temperature of the winding according to its resistance allows controlling the true temperature of the winding, which eliminates overheating of the winding and helps reduce the cost of electricity when the winding is heated to avoid moisture condensation. Invention Formula A device for protection of motor windings from moisture condensation, containing a measuring unit made in the form of a bridge of four arms, a temperature-sensitive element measuring the ambient temperature is connected to one of the arms, the other resistors are connected, the input diagonal of the bridge is connected to the source constant voltage terminals power supply, inverting amplifier, temperature setting unit, control pulse generator, the output of which is connected to the control input of the actuator, and the first input - to the output of the pulsator supply voltage, power supply input through the first switching contact of the switch is connected to the terminals for connecting to the phase and the neutral wire, the input of the actuator is connected to the output voltage of the power supply, sequentially connected to the closing contact of the magnetic starter, the switch has terminals for connection to the mains, characterized in that In order to simplify operation and reduce electricity costs, a differential amplifier was additionally introduced into it, the fourth arm of the bridge contains the second and third circuits. the switch tangent contacts, each of which is connected to a terminal intended to connect to the corresponding winding of the electric motor, the bridge diagonal output connected to the corresponding inputs of the differential amplifier, the output of which is connected through an inverting amplifier and a temperature setting unit in series control pulses, and the output of the actuator is connected to the point of connection 0 of the second closing contact of the switch with the inverting input differential amplifier home. five At the anode Optotiristara, 23 At the output of the dial Output amplifier / U At the output of the comparator / 7 U Outlet and generator. 9 On off the coil, the electrode is 7 t FIG. 2