CS258258B1 - Electronic disconnector auxiliary phase single phase asynchronous motor - Google Patents

Abstract

The connection concerns an electronic disconnector of the auxiliary phase of an asynchronous single-phase motor. The disconnector is designed in such a way that a choke is connected in series with the motor control winding and a triac is connected in series with the auxiliary phase of the motor. The choke and the triac are interconnected, with the choke controlling the operation of the triac. Both the choke and the triac are located in the motor terminal box.

Description

BACKGROUND OF THE INVENTION The present invention relates to an electronic disconnector of an auxiliary phase of a single-phase asynchronous motor in which a choke and a triac are incorporated in the terminal block. It is known from the prior art that a centrifugal mechanical switch is used to start the single-phase asynchronous motor, which disconnects the auxiliary phase of the motor when the rated motor speed is reached. This device is disadvantageous because it requires additional inspection, adjustment of the mechanical switch, frequent maintenance and the switch has a limited lifetime. The length of the motor increases because the length of the shaft must be extended to secure the circuit breaker.

These disadvantages are overcome by the electronic disconnector according to the invention, which consists in that a choke is connected in series with the motor control winding. A triac is connected in series with the auxiliary phase of a single-phase asynchronous motor. In parallel to the choke, it is connected by its control electrode and one triac main electrode.

The connection according to the invention increases the reliability of the start-up mode of the single-phase asynchronous motor and does not require additional mechanical modification of the motor shaft.

The attached drawing shows the circuit according to the invention. The motor control winding 2 is connected in parallel with the auxiliary motor phase 2. A choke 8 is connected in series with the control winding 7. Triac 2 is connected in series with auxiliary phase 2 with its main electrodes. In parallel to the choke 5, it is connected by its control electrode and one triac main electrode.

Connecting the motor to the mains energizes the motor control winding 2 together with the winding of choke 4. · At the same time, there is a current surge in the motor - the starting current of the motor. The choke 8 provides voltage and current pulses for the triac 2 in a known manner. The triac 2 operates in a known manner in the blocking and switching field. As soon as the triac 2 reaches its operating point when the inrush current rises, the voltage and current supply from the mains to the auxiliary phase 2 is unlocked and the motor starts to spin. All this lasts as long as the triac 2 operates in the switching area, for which it receives voltage and current pulses from the choke 5 at values higher than the rated motor current.

Once the starting current of the motor in the choke 4 has dropped to the rated motor current, the triac 2 blocks the voltage supply to the auxiliary phase 2 in a known manner ^and thus deactivates it.

From this point on, the motor rotates at nominal speed and draws the rated current.

The auxiliary phase 2 is disabled by the triac 2 as long as the choke 2 supplies voltage and current pulses corresponding to the rated current of the single-phase asynchronous motor.

Claims (1)

SUBJECT OF THE INVENTION Electronic auxiliary phase disconnector of a single-phase asynchronous motor, characterized in that the choke (4) is connected in series with the motor control winding (1), while the triac (3) is connected in series with the auxiliary phase (2) of the motor. the choke (4) is connected by its control electrode and one triac main electrode (3).