CS258601B1 - Unidirectional electromagnets' demagnetization connection - Google Patents

Description

The invention relates to a circuit for the demagnetization of unidirectional electromagnets for load, brake and control magnets supplied with a direct current as well as electromagnets for flaw detection.

Until now, semiconductor rectifiers have been manufactured to supply electromagnets. DC, in which the problem of magnetizing the magnet after switching off the excitation current is solved by connecting the excitation winding to the opposite polarity of the rectifier. The reverse current polarity is severely limited by incorporating the resistor in the circuit. This method does not lead to perfect demagnetization; is associated with the conversion of energy into useless heat and requires two DC contactors, which are narrow-profile devices.

The principle of the circuit for the demagnetization of unidirectional electromagnets according to the invention is that the winding of the electromagnet is connected to the rectifier output via a thyristor and a series combination of capacitor and resistor is connected in parallel to the winding of the electromagnet.

The main advantage of the circuit for demagnetizing the direct current electromagnets according to the invention is virtually perfect demagnetization, energy saving and the fact that no direct current contactors are required. The switching is transferred to the input of the rectifier, where it is no problem to procure the AC contactor. In case the rectifier is thyristor or transistor, respectively. it is replaced by a semiconductor DC power converter, it can be switched off by blocking the gate signals and thus extending the service life of the contactor.

In the attached drawing, FIG. 1 shows a particular example of a circuit for demagnetizing a unidirectional electromagnet according to the invention with a three-phase diode bridge rectifier, and FIG. 2 is the time dependence of the current in the solenoid winding after the thyristor is switched off.

The winding 1 of the electromagnets is connected via a thyristor 2 to the output of the rectifier 3. In a particular case, it is a three-phase diode rectifier in a bridge connection. The rectifier input 3 is connected to the mains via contactor 6. Parallel to the solenoid winding 1, a series combination of capacitor 4 and resistor 3 is connected.

Switching off the contactor 6 at the input of the rectifier 3 terminates the current at its output. The thyristor 2 goes into a non-conductive state and separates the output of the rectifier 3 from the oscillating circuit consisting of the electromagnet winding 1, the capacitor 4 and the resistor 5. The energy flows between the electromagnet winding 1 and the capacitor 4 in harmonic oscillations. in resistor 3, resp. The current amplitude damping and the frequency of the oscillations are given by generally known relationships. In FIG. 2 is a specific, oscilloscopically sensed time dependence of the current in the electromagnet winding 1, on which, when the thyristor 2 is switched off, a break is seen in which the value of the steady current of the electromagnet winding 1 passes into the damped harmonic range.

The circuit for the demagnetization of unidirectional electromagnets according to the invention can be used in all devices for the transport of ferromagnetic substances. load electromagnets, electromagnetic clamping of components on machine tools, electromagnetic gripper robots, magnetic flaw detection and electromagnetic actuators.

Claims (1)

SUBJECT A circuit for demagnetizing unidirectional solenoids, characterized in that the solenoid winding (1j) is connected via a thyristor (2) to the output of the rectifier (3) of the invention and parallel to the solenoid winding (1) is connected in series.