SU731537A1 - Device for control of single-phase induction motor - Google Patents

Description

one

The invention relates to electrical engineering and can be used for starting and braking single-phase asynchronous motors with a short-circuited rotor of a small mosh, having a starting 5 winding with a phase-shifted (starting capacitor).

Starting circuits of asynchronous motors are known, in which, at the end of the start-up, the start winding or the start capacitor, Yu, is automatically turned off by means of a contactless unit on the semiconductor valves 1.

The closest technical solution to the invention is a device for controlling an asynchronous single-phase motor with series-connected working and starting windings, containing a starting capacitor connected in series with the starting winding and a switching unit connected between the starting capacitor and one of the power supply terminals 2. The switching unit is made on a thyristor-diode element. The control of the thyristor is 25 s as a function of the current of the working winding of the induction motor, for which a resistor is connected in series with it, to which the control electrode and the cathode of the thyristor are connected. When you turn on the asp-30

A large current flows through the working winding into the mains, and the thyristor opens, connecting the starting capacitor to the mains, while the half-wave half-wave of the alternating current flows through the diode and the negative one goes through the thyristor of the switching unit. As the asynchronous motor accelerates, the current in the working winding decreases. At a certain current threshold, the signal from the resistor becomes insufficient to open the thyristor. Thyristor-diode element transmits only a positelpichnaya half-wave of alternating current, charging the starting capacitor n and blocking the diode of the switching unit. The flow of current through the four-diode unit is stopped.

A disadvantage of the known devices is in the circuit of the working winding of the induction motor of the resistor, which degrades the working properties of single-phase asyn.hroynyh engines, in addition, the device does not provide braking mode of the asychronous engine.

The purpose of the invention is to expand the functionality of the device for controlling a single-phase asynchronous motor.

This goal is ensured by the fact that the switching unit is made on two

counter-connected diodes and is equipped with an additional capacitor, a resistor, shunting an additional capacitor, and a two-position switch, with one plate of the additional capacitor connected to the anode of a single diode; and another, its lining is connected to one of the fixed contacts of the switch, the other fixed contact of which is connected to the second power supply terminal, and the fixed contact of the switch is connected to the common connection point of the starting and working windings of the motor.

In the drawing, a diagram of a device for controlling a single-phase asnichroin motor.

The device contains a single-pole switch 1 for two positions, with which the working winding 2 of the electric motor and the starting winding 3 through the starting co-detector 4 are connected to the power supply network, and a contactless switching unit 5 consisting of two counter-connected unmanaged gates - diodes 6 and 7, In series with the diode 7, an electrolytic capacitor 8, shunted by a resistor 9, is connected.

In the initial non-tripping position, the capacitor 8 is connected via switch 1 to the terminals of the working winding 2. In the device, the switching unit ensures the duration of connection of the starting winding 3 to the mains and starting, which corresponds to the charge of the capacitor 8; braking torque on the motor shaft and its zero readiness when disconnected from the network (capacitor discharge to the working winding 2); readiness of the device for start-up in case of disappearance of the mains voltage (capacitor discharge 8 to resistor 9).

The device works as follows.

When the induction motor with the switch 1 is switched on, the working winding 2 and the starting winding 3 flow through the capacitor 4 n switching unit, while the positive current wavelength of the winding 3 passes through diode 6, and the negative through diode 7. Asynchronous motor turns off. After a period of time determined by the capacitance of the capacitor 8, the diode 7 is locked by the capacitor 8, and the switching unit passes only the positive AC half-wave through LT, node 6, while the capacitor 4 blocks the diode 6, as a result of the current flowing through the switching unit 5, and consequently, the starting winding is discontinuing. Starting the asynchronous motor

When the asychronous motor is disconnected from the mains, the capacitor 8 is connected via switch 1 to the terminals of the working winding 2. Condeiser 8 discharges the working winding 2, creating a braking torque on the induction motor shaft. Repeated testing is possible immediately after stopping the induction motor. In the case of disappearing mains voltage when the asychronous motor is running and turning on the switch 1, the circuit returns to its origin and the starting position is performed automatically by discharging the capacitor 8 pa resistor 9. The resistance of the resistor 9 is chosen sufficiently large (several hundred kilo-ohm) for reliable disconnection winding 3.

A device for controlling a single-phase asynchronous motor provides not only a start, but also braking of the induction motor.1 and improves the working properties

engine

Formula and 3 about b and e and

Control device for single-phase asynchronous motor with parallel

connected to the working and starting windings, containing a starting capacitor connected in series with the starting winding, n a switching unit, connected between the starting capacitor and

One of the backs of the power supply source, characterized in that, with an extension of the functional capabilities, the switching unit is equipped with two counter-connected diodes and is equipped with an additional capacitor, a resistor, which shakes the additional capacitor, and a switch for two positive switches, one plate of the additional capacitor and a connected capacitor anode one

the diode and its other side are connected to one of the fixed contacts of the non-switch, another non-contact contact which is connected to the second terminal of the power source, and the moving contact of the switch is connected to the connection point of the starting and working windings of the asphronic motor.

Sources of information taken into account in the examination

1. US patent No. 3414789, CL. 318-221,1968.

2. The patent of Janonia L 8084 / 6G, cl. 55A 342, 1966.

Claims (1)

Claim A device for controlling a single-phase asynchronous motor with parallel connected operating and starting windings, containing a starting capacitor connected in series with the starting winding, and a switching unit connected between the starting capacitor and one of the terminals of the power source, characterized in that, in order to expand the functionality, the switching unit is made on two on-board diodes and is equipped with an additional capacitor, a resistor shunting the additional capacitor, and a switch atelier into two positions, with one lining of the additional capacitor connected to the anode of one diode, and the other lining connected to one of the fixed contacts of the switch, the other fixed contact of which is connected to the second terminal of the power source, and the movable contact of the switch is connected to the connection point of the starting and working windings of an induction motor.