SU765933A1 - Device for protecting induction motor from abnormal mode - Google Patents

Description

and the blocking contact of the switching element is connected between the phase and the neutral wire, wherein thermal resistors installed in the windings of the protected electric motor are used as a resistor in one of the branches of the former, and the output of the threshold element is connected to the bypass block.

The drawing shows a circuit diagram of the device.

The device contains current transformers 1, a rectifier 2, a pulse shaper, made in the form of two parallel-connected branches on resistors 3 and 4 and capacitors 5 and 6, pulled by resistors 7 and 8, threshold element 9 connected in parallel to the capacitors of the imager, switching element 10 and shunt block, made on the thyristor 11, resistors 12 and 13, diodes 14 and 15 and the capacitor 16.

The winding of the commutating element is connected to the bypass block and through the break contact of the stop button 17, the closing contact of the start button 18 and the block contact 19 of the switching element are connected in parallel between the phase and the neutral wire.

Thermoresistances installed in the windings of the protected motor 20 are used as a resistor 4 or 8. The output of the threshold element is connected to the bypass unit.

The circuit additionally used a capacitor 21, a resistor 22, a block. Contacts 23 and 24 of the switching element.

The device works as follows.

In the initial state, all circuit elements are de-energized, the capacitors are discharged, the electric motor is disconnected from the power supply terminals.

When the start button 18 is closed, the winding of the switching element 10 through the stop button 17, the resistor 22 and the auxiliary contact 19 is connected to the power source. The switching element 10 is turned on and, by means of its power contacts, connects the electric motor 20 to the power supply terminals. When the switching element 10 is triggered, its block contacts 23 and 24 open, and the winding of the switching element is connected to the voltage of the power source through a capacitor 21, the capacitance of which is chosen so that the voltage on the switching coil of element 10 remains equal to but the minal value . Simultaneously, the capacitor 16 is charged through resistor 12 and diodes 4 and 15 to the voltage of the coil of the switching element, the block contact 19 of which ensures its operation when the start button 18 is lowered. The capacitors 5 and 6 of the pulse former provide the detuning of the threshold element 9 and thyristor 11 blocks

bypassing from transient currents of electric motor 20 when it is started up. In the event of an overload of the electric motor 20, the temperature of its windings increases and the voltage at the output of current transformers 1. This leads to a more forced heating of thermistor 4. When the temperature of the windings of electric motor 20 reaches the maximum permissible value, the resistance of thermistor 4 decreases, the voltage on the condenser 6 increases to the switching voltage of the threshold element 9. The latter switches to the open state, and the capacitor 6 is discharged through the threshold element 9 and the control transition of thyristor 11 of the bypassing unit. The thyristor 11 is also opened by means of its power transition HJUntip the winding of the commutating element 10. The voltage on the winding of the commutating element 10 decreases to zero, and it is de-energized. Capacitor 16 when

This is discharged through the resistor 13 and the open thyristor 11, keeping the latter in the open state until the commutation of the cell 10 is completely disconnected. Disconnecting the wiper element 0 commits the motor 20 to disconnect from the power supply terminals.

The block contacts 23 and 24 of the switching element close, providing the resistors 22 and 13 with a full charge of 21 n 16 capacitors. With noMOiiibto of the thermistor 4 and the adjustable resistor 8, the device is configured to overload the motor to 1.3-1.4 nominal, while in s, cnb repAiope HCTCipa 4 a second subregional adjustable resistor may be enclosed.

In the event of a motor overloading over 1.3–1.4, the nominal voltage on the pressure sensor 6 increases even when the voltage on it is equal to the voltage of the switching element of the yurog element 9,

the last one opens, and the processes in the schema .me repeat |). The 1ectro motor 20 is disconnected from the power supply terminals. In the event of a short circuit in the electric motor, the voltage removed from the capacitor 5 causes the opening of the noporoEJoro elemtmtz 9 and the thyristor 1 of the dAntiroBa.ch block. Engine 20 is de-energized with. When used in a device with a stator, they are connected to an adjustable resistor 8 circuit. Resistor 4 is also usagiil. It is adjustable in a circuit. Industrial equipment ensures reliable protection of electric motors against any anor.nalnyh modes of its operation.

Claims (1)

Invention Formula Device for protecting an asynchronous motor against abnormal cutting.