DE2816592C2 - Circuit arrangement for controlling a bistable relay - Google Patents

Description

The invention relates to a circuit arrangement for controlling a bistable relay in which the excitation current the relay coil is excited by briefly closing a switching element.

Bistable ReUis are normally activated by briefly applying the alternating voltage the armature of a magnet system is moved, which brings a contact bridge into a different position (see z. B. DE-OS 20 50 134).

The shadow point, based on the sine curve of the voltage to be switched are not defined here. They are somewhere on the voltage curve.

There are also bistable relays that have an electronic memory for the respective switching status. In this case, it is possible to query the voltage curve and otherwise also a defined switching time, yodoch the cost of components is very large. For a minimal contact load, the switching times should are close to the zero crossing.

It is also known that the control current for the relay coil in the area of the zero crossing is applied to relays. or switch off, see DE-PS 1148 619, DE-PS 11 66 877 and DE-OS 21 10 071.

The object of the invention is to close and open AC circuits with very few components to allow in the vicinity of the zero crossing of the voltage.

The object is achieved according to the invention in that a rectifier diode with a resistor in Series with a storage capacitor and the relay coil in series with a thyristor in parallel with the Storage capacitor is arranged, the gate of the thyristor via a gate resistor via a Voltage divider, consisting of two resistors and a task contact connected to the power lines is, whereby the ignition timing of the thyristor so on the movement mechanism as well as the excitation coil of the relay can be adjusted so that the relay contacts open 20 ° to 10 ° electrically before the zero crossing and the relay contacts are closed electrically up to 20 ° after the zero crossing.

The erfindungsgcinälk arrangement is in the drawing using a control circuit for a bistable relay in FIG. 1 explained

In a graphical representation is also shown in FIG. 2 shows the sequence of the processes according to FIG. 1
How dje F i g. 1 shows, a storage capacitor 3 is charged by the positive half-cycle of the mains voltage via the diode 1 and the resistor 2. If the mechanical button 4 is actuated, a current flows through the resistors 5 and 6. The resistors 5 and 6 form

to a voltage divider whose branch point is about a resistor 7 is connected to the gate of a thyristor 8 The voltage divider resistors 5 and 6 are dimensioned so that the gate current the thyristor 8 at a certain point in time on the positive Mains sine wave ignites. This discharges the storage capacitor 3 via the relay coil 9 and the Thy ristor8.

From Fig. 2 it can be seen that the voltage at the voltage divider branch point increases as a function of the resistors 5 and 6 when the sound wave is reached of the thyristor 8 this is switched through, the relay coil is excited with the discharge current of the capacitor and the mechanical movement sequence of the relay follows. This is always for the switching behavior same, d. H. the times from when the response excitation is reached until the contact is opened or the Contacts are also always the same.

With the help of this circuit arrangement, it is possible, from the combination of mechanical movement sequences, To achieve the excitation values of the relay coil and series resistor defined switching points. Through this A very low tendency to weld, low contact wear and few annoying clicks are achieved.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Circuit arrangement for controlling a bistable relay, in which the excitation current through Brief closing of a switching element excites the relay coil characterized in that that a rectifier diode (1) with a resistor (2) in series with a storage capacitor (3) and the relay coil (9) in series with a thyristor (8) parallel to the storage capacitor (3) is arranged wherein the gate of the thyristor (8) via a gate resistor (7) via a voltage divider, Consists of two resistors (5 and β) and a push button contact (4) with the power lines is connected whereby the ignition timing of the thyristor (8) so on the movement mechanism as well as the excitation coil (9) of the relay can be tuned so that the opening of the relay contacts 20 ° to 10 ° electrical before the zero crossing and the closing of the relay contacts up to 20 ° electrical after the zero crossing takes place