DE1175338B - Circuit arrangement for delayed capacitor relays - Google Patents

Description

Circuit arrangement for delayed-release capacitor relays The invention refers to a circuit arrangement for delayed release capacitor relays, at which the size of the drop-out delay between one by the rating of the capacitor given maximum value and a minimum given by the operating time of the relay Value is freely adjustable.

There are already such relays known in which the change in Drop-out delay due to the change in a resistance in the capacitor-relay circuit, thus current-dependent, takes place. The control range of these arrangements is limited by the holding current of the relay. If the ohmic resistance of this circuit is too high, so the relay drops out immediately; if the resistance is too small, the Time constant R - C low, which means that the relay must drop out quickly. The values between these resistance values only result in an in low limits variable time delay that often meets the demands not enough.

It is also already known to adjust the drop-out delay to be achieved by mechanically modifying the magnetic circuit of the relay; this changes the armature air gap. This possibility of adjustment is natural also limited, since the stroke of the armature and thus the contact through-stroke, which is always must be available, severely restricts the setting options. With these well-known Functional reliability is one of the options for adjusting the drop-out delay the relay is endangered by possible fluctuations in the mains voltage, so that they prohibit circuit arrangements, one of which is great constancy in which accuracy is required.

The invention is based on the object of a reliably working and to create a circuit arrangement which requires the least possible effort and which Possibility gives the relay both without additional drop-out delay as well as work with a drop-out delay that can be set within the given limits let, the excitation of the relay regardless of the respective time setting is carried out consistently by the mains voltage. According to the invention, this is thereby achieved achieved that the relay winding from the mains voltage via an electrical Valve containing supply circuit is excited that the capacitor via an adjustable, voltage dividers with different voltages connected to the mains voltage a further electric valve containing charging circuit is chargeable that the discharge of the capacitor via a third electrical element in the discharge circuit Valve takes place exclusively via the relay winding and that all three valves are open in the direction of the excitation current.

In a further development, the voltage divider consists of two or more, Fixed ohmic resistances that determine the upper and lower limit of the drop-out delay, between which there is a potentiometer resistor, whose tapping with the electrical Valve of the capacitor charging circuit is connected.

Patent protection is only sought after for the combination of features the main claim, for the subclaims only in connection with the main claim.

The drawing represents an exemplary embodiment of the invention Switching arrangement.

The circuit arrangement consists of the voltage divider W1, P1, W2, which is connected to the terminals a, b of the network, further of the delay part, which is formed from the capacitor C and the relay R, and finally of the blocking rectifiers Gri, Gr2, Gr3 . When the switch S is closed, the relay R receives the mains voltage via the rectifier Gri. At the same time, voltage is applied to voltage divider W1, P1, W2, and capacitor C is charged with the predetermined voltage in accordance with the position of the tap of potentiometer P1. The rectifier Gr2 blocks the line voltage and prevents it from being able to charge the capacitor C additionally. The rectifiers Grl and Gr are switched in their blocking direction so that the capacitor C can only be discharged via the relay R. After opening the switch S, the capacitor only discharges via the rectifier Gr2 to the relay R. Through the rectifier Gr. the parallel connection of the lower part of the potentiometer P1 and the resistor W., and the parallel connection of the entire voltage divider is blocked by the rectifier Grl.

By changing or replacing the resistor W1, the upper limit and by exchanging or changing the resistance W., the lower Determine the limit within the arbitrary limit by changing the potentiometer P1 Times of the drop-out delay are adjustable.

In the case of the circuit arrangement, the mains voltage is above one as a blocking element acting rectifier in the forward direction directly on the relay; the capacitor lies across a further rectifier opposite the first rectifier directional rectifier and over the upper part of the voltage divider on the network. Correspondingly, depending on the position of the potentiometer on the capacitor When the voltage is set, the armature position is tightened after the mains voltage has been switched off for one determined by the potentiometer setting and thus by the voltage Maintain the time given on the capacitor. The one between the capacitor and The rectifier located near the potentiometer prevents the capacitor from discharging can be done via the lower part of the voltage divider; the one between the capacitor and the relay lying rectifier is the one between the potentiometer and the capacitor lying rectifier rectified, creating an inevitable discharge exclusively is given via the relay and a charging of the capacitor to the level of the mains voltage is prevented.

Claims (2)

Claims: 1. Circuit arrangement for delayed release capacitor relays, at which the size of the drop-out delay between one by the rating of the capacitor given maximum value and a minimum given by the operating time of the relay Any value can be set, characterized in that the relay winding (R) from the mains voltage via a supply circuit containing an electric valve (Grl) is excited that the capacitor (C) via an adjustable, at the mains voltage lying voltage divider (W1, P1, W2) with different voltages over a another electric valve (Gr,) containing charging circuit is chargeable that the discharge of the capacitor (C) via a third electrical element in the discharge circuit Valve (Gr2) takes place exclusively via the relay winding (R) and that all three Valves (Grl, Gr2, Gr.) Are open in the direction of the excitation current. 2. Circuit arrangement according to claim 1, characterized in that the voltage divider (W1, P1, W2) off two or more, determining the upper and lower limit of the fall delay Fixed ohmic resistances (W1, W2), between which a potentiometer resistor (P1), whose tap is connected to the electric valve (Gr3) of the capacitor charging circuit connected is.