SU1536474A2 - Device for overheating protection of object - Google Patents

Abstract

The invention relates to electrical engineering and is intended to protect various objects, such as electric motors, from overheating. The aim of the invention is to provide an automatic self-monitoring device when it is turned on. When the power of the object 1, the control unit 8 and the executive unit 24 is turned on, the capacitors 15, 16 are charged, while the power of the power supply circuits and the device elements are opened, the transistors 21, 25, 38 and the executive relay 33 receive power, which closes its contacts 34 , 40, which leads to the discharge of the capacitor 28, the closing of the transistors 38, 21, 25, which corresponds to the initial state of the device to provide power to the electric motor by blocking the actuator coil 5 and controlling its temperature. When the engine temperature rises above the allowable one, an imbalance of the resistive bridge occurs, which leads to the disconnection of the executive relay 33 and the removal of power from the protected object. 1 il.

Description

The invention relates to electrical engineering and is intended to protect

15364 74 4 - with the point of connection of the capacitor and resistor 29 and contacts 40 of various objects, for example electric motors, from overheating. $

The purpose of the invention is the provision of automatic self-control of the device when it is turned on.

The drawing shows a diagram of the device. jq

The device contains a protected object 1, a starter, including power contacts 2 in the power supply circuit of the object, contacts 3 and 4 and a coil 5 connected to the power source through sequentially connected contacts of the Start button 6 and the contacts of the Stop button 7, control unit 8, including The voltage divider made on the series-connected resistor 9 20

And a zener diode 10, in parallel with which a resistive bridge is connected with its first diagonal, made of resistors 11 - 13 and thermistor 14, capacitors 15 and 16, connected 25 in parallel with resistors 11 and _h ¹ 3, a diode bridge made on diodes 17 - 20, the conclusions of which from the AC side are included in the second diagonal of the first bridge, and in the DC jg circuit there is a transistor 21, the yitter of which is connected to the base through a resistor 22 - to - a diode bridge, and the collector through a resistor to the 23rd common bus of the power supply, a positive block 24, including second transistor switch arranged on transistor 25, whose base is connected through a resistor 26 to the collector of tran-. The resistor 21. The emitter of the transistor 25 dd is connected through a resistor 27 to a common bus power source. In parallel to the resistor 27, a circuit is connected from series-connected capacitors 28 and resistor 29. The execution unit 45 also contains a transistor 30, resistors 31 and 32, an executive relay 33 with contacts 34 and a diode

35, respectively included in the collector and feedback circuits of the amplifier, a diode 36, connected to the emitter of the transistor 25 by the anode and a cathode through the resistor 32 by the emitter of the transistor 30, the capacitor 37 connected in parallel with the actuating relay 33, the transistor 38, its · /, A collector connected to the collector of Transistor 30, an emitter through a resistor 39th anode of the diode 35, and a boost relay 33 connected in series with contacts 4 of the starter and connected in parallel with contacts 6 of the Start button. In this case, the first terminal of the first diagonal of the first bridge and the second terminals of the resistor 31 of the executive relay 33 are connected through the contacts 3 of the starter with + power supply *

The device operates as follows.

When you press the Start button 6, the starter coil 5 is powered. In this case, the power contacts 2 in the power supply circuit of object 1 are closed. The contacts 3 and 4 are closed. When the contacts 3 are closed, the control unit 8 and the executive unit 24 receive power. Moreover, if the power supply circuits of the unit 8 are in good condition, the capacitors 15 and 16. In this case, if the diode bridge circuit, the diodes 17-20 and transistor 21 themselves are in good condition, then the charge current of the capacitors 15 and 16, / passing through the diode bridge and the emitter-base of the transistor 21, opens it, as a result why a resistor n is formed on resistor 23 The exercise, which, through a resistor 26, is applied to the base-emitter junction of the transistor 25, opens it. As a result, along the chain: resistor 31 - transistor 25, the capacitor 28 is charged, the current of which, passing through the resistor 29, creates a voltage drop on it, which is applied to the junction of the emitter base of the transistor 38, opens it. As a result, a circuit is formed: transistor 38 - register 39 - diode 35, through which it receives power from relay 33 and turns on its contacts 34 and 40. When contacts 34 are closed, capacitor 28 is discharged along the circuit: diode 36 contacts 34 - diode 35 - resistor 29. In this case, the transistor 38, connected to its base through the resistor 29 with the common bus of the power source is closed, At the same time, the capacitors 15. and 16 must finish their charge, which is achieved by choosing their predetermined values. For the time between turning on the relay 33 and the end of the charge of the capacitors 15 and 16, the relay 33 holds the capacitor 37 in the on state. At the end of the charge of the capacitors 15 and 16, the transistors 21 and 25 are closed, and the transistor 30 opens and the relay 33 ^ receives power through the circuit: transistor 30 - resistor 32 - contacts 34 - diode 35.,

When contacts 40 of relay 33 and contacts 4 of the starter are closed, a circuit is formed parallel to the contacts of the Start button 6, which puts the starter coil '5 on self-supply and thereby] its power contacts 2 in the power supply circuit of object 1 and contacts 3 in the power supply circuit of units 8 and 24 remain in a closed state.

If it is necessary to stop operation ι of object 1, press the Stop button. 7. In this case, the starter coil 5 is de-energized and the power contacts 2 and contacts 3 and 4 open.

When contacts 3 are opened, 2 power is removed from units 8 and 24. In this case, capacitors 15 and 16 are discharged to resistors 11 and 13, respectively, and capacitor 28 to resistors 27 and

29. The same scheme is prepared for two new start-ups. Diode 36 is necessary to eliminate the false · turn-on circuit of relay 33 at start-up. With the new inclusion of object 1 into operation, the device circuit works in a similar way, 3

In the event of a circuit malfunction, the relay 33 device does not turn on when starting the object 1 and when the button 6 is released, the starter coil 5 is de-energized, contacts ₇ - 2 - 4 open, i.e. the inclusion of object 1 in work with faulty circuits of blocks 8 and 24 does not occur.

Thus, each time the object 1 is turned on, the state of the circuits of the device circuit is diagnosed, which automatically monitors the device.

The overheating of the protected object 1 by the device is controlled in a known manner, namely, when the object overheats, the first bridge is unbalanced and voltage appears on its second diagonal, as a result of which the transistors 21 and 25 open and the negative potential arrives at the base of the transistor 30, which puts it in a closed state. The relay 33 is de-energized and with a time delay, depending on the capacitance of the capacitor 37, opens its contacts 40, which leads to de-energization of the starter coil 5 and shutdown of the object.

Claims (1)

SUMMARY OF THE INVENTION A device for protecting an object from overheating by ed. ft 1352581, characterized in that, in order to ensure automatic self-control of the device when it is turned on, an additional fourth transistor, second diode, seventh, eighth, ninth resistors, second, third, fourth capacitors, second contacts of the executive turnip are introduced, with the second and third the capacitor is connected in parallel to the diagonally opposite resistors of the resistive bridge, the emitter of the first transistor is connected to the common power bus through the seventh resistor, in parallel to which a circuit from about the fourth capacitor and the eighth resistor connected, the common point of connection of which is connected to the base of the fourth transistor, the collector of which is connected to the collector of the second transistor, and the emitter through the ninth resistor and the first diode with a common bus of the power source, the second closing circuits are connected between the anode of the first diode and the sixth resistor contacts of the executive relay, the common point of connection of which with the sixth resistor is connected through the cathode-anode of the second diode to the emitter of the first transistor, the positive pole of the source the power is connected through the newly introduced additional make contact of the magnetic starter to the positive; device bus.