CS254515B1 - Connection for non-contact control of the auxiliary phase of asynchronous motor - Google Patents

Abstract

The circuit uses semiconductor switching elements as an auxiliary phase switch. The auxiliary phase is connected to a semiconductor switch, the control of which is derived from the charging of the capacitor via a rectifier diode. Until the capacitor is charged, the semiconductor switch is still in the closed state and the motor spins safely. After the capacitors are charged, the current stops flowing through the first resistor and the switch turns off the auxiliary phase. The time for connecting the auxiliary phase can be controlled by the values of the capacitors and the first resistor. A third resistor connected in parallel to the capacitor serves to discharge it so that the auxiliary phase can be connected again after the motor is switched off. The circuit is suitable for single-phase asynchronous motors for refrigerators, washing machines, etc.

Description

The invention relates to a wiring for contactless control of an auxiliary motor of an asynchronous motor.

Until now, a mechanical switching contact, which is controlled by the motor phase current coil, has been used for switching the auxiliary phase when starting single-phase asynchronous motors.

When used in refrigerators, washing machines and elsewhere, especially in many switching processes, the contacts wear quickly and the equipment is taken out of operation.

Essentially, the present invention eliminates the wiring for contactless control of the auxiliary phase of an asynchronous motor, the principle being that the first input is connected between the auxiliary phase and the main phase. The second input is connected to the main phase and to the auxiliary phase via a semiconductor switch. The first input is connected to the second input via a first resistor, a diode, a directed anode to the first input, and a capacitor. A third resistor is connected in parallel to the capacitor. The semiconductor switch control electrode is connected to the anode of the diode via a second resistor.

Wiring is cheap, small and efficient. Practically ensures trouble-free operation of single-phase asynchronous motor in refrigerators, washing machines, etc.

The attached drawing shows an example of wiring.

The first power input VI is connected between the auxiliary phase P and the main phase H. The semiconductor switch T is connected via anode to the auxiliary phase P, cathode to the second input V2 of the network, via the first input VI connected via the first resistor R1, anode D and capacitor C to the second input V2.

A third resistor R3 is connected in parallel to the capacitor C. The control electrode of the semiconductor switch T is connected via the second resistor R2 to the anode of the diode D.

When the device is connected to the mains via the first input V1 and the second input V2, capacitor C starts charging through the first resistor R1 and diode D. The first resistance R1 creates a voltage drop which forces the current through the second resistor R2 to the control electrode T transistor, thyristor, triac, etc. When the semiconductor switch T is closed, the auxiliary phase P is connected to the mains. Until capacitor C is charged, the semiconductor switch T is still in the closed state and the asynchronous motor rotates safely. After the capacitor C is charged, current flows through the first resistor R1 and the semiconductor switch T switches off the auxiliary phase P. The connection time of the auxiliary phase P can be controlled by the values of the capacitor C and the first resistor R1. The parallel resistor R3 connected to the capacitor C is connected in parallel to discharge it so that the auxiliary phase P can be connected further.

Claims (1)

Wiring for contactless control of the asynchronous motor auxiliary phase characterized in that the first input (VI) is connected between the auxiliary phase (P) and the main phase (H) of the asynchronous motor, the second input (V2) is connected to the main phase (H) and the auxiliary phase (P) through the semiconductor switch (,), the first input (VI) is connected to the second input (V2) through the first resistor (R1), the diode (D) through the anode to the first input (VI) and the capacitor (C) a third resistor (R3) is connected in parallel to the capacitor (C), the semiconductor switch control electrode (T) being connected via a second resistor (R2) to the diode anode (D).