DE635971C - Circuit arrangement for relay breaker - Google Patents

Description

For relay breakers, facilities are required that have an accurate dimensioning of the individual interruption times. It is known for such facilities to use the charge and discharge times of capacitors. The same capacitor is expediently used to to respond while it is charging and to fall off while it is discharging to delay one and the same relay. The charge and discharge of the capacitor takes place through a resistance. This resistance has in known arrangements with the result that the highest possible charge of the capacitor is not reached, so "that the utilization of this charge for the decay delay cannot be complete.

According to the invention, the capacitor is brought into an extreme state of charge before the start of each delayed switching operation. It should therefore be fully charged after a delayed response of the relay and furthermore completely discharged after a delayed release of the relay. FIGS. 1 and 2 show exemplary embodiments of the invention. In Fig. 1, a relay interrupter consisting of the relays V and R is shown, in which the relay R with a weak pick-up and drop-out delay, ζ. B. is provided by a copper jacket. The capacitor C is assigned to the relay V. When the stimulus button A is pressed, the relay R is switched on via contact v ¹ after a brief response delay. It changes its contact / · and thereby creates a charging circuit for the capacitor: -, relay V and, in parallel, capacitor C, contact r, resistor ^{Wi 1} , button, -} -. The capacitor charges slowly until it has reached the partial voltage caused ^{by the ratio of resistors W 1 and relay winding V.} The relay V responds and changes its contacts v ¹ and ^{v 2} . The resistor Wi ^{1 is} short-circuited by contact v ¹ , so that the capacitor is now at full battery voltage and is therefore fully charged. The relay R switched off at contact V ¹ drops with a slight drop-out delay j it interrupts the excitation circuit of relay V, which remains with the capacitor C in the discharge circuit via resistor Wi ² , relay V. The capacitor slowly discharges from its highest voltage via this resistor until relay V. drops out. Now the contact v ^{2 is} closed, so that the capacitor is completely short-circuited and is thereby completely discharged. Due to the

*} The patent seeker stated as the inventor:

Theodor Korthäuer in Frankfurt a. M.

lay the contact v ^l , the initial state is restored, so that the game can begin again.

2 shows a similar arrangement, in which there is only a single dy stand Wi , which is located by switching both the charging and the discharging circuit of the capacitor C. The processes are the same as those of the arrangement in Fig. 1 completely the same.

This arrangement makes it possible to both extend the switching times as well as, if necessary, a significant reduction in the size of the capacitor required.

Claims (5)

Patent claims: i. Circuit arrangement for actuating relays, in particular relay breakers, in which the change in the charge of a capacitor causes the delayed operation of a relay, characterized in that at the end of each delayed switching movement the capacitor is completely beyond the charge state required to actuate the relay (v) is charged or discharged.
;; 2. Circuit arrangement according to claim I, characterized in that the '^' ■ if complete charging or discharging takes place through actuation of the relay's own contacts. 3. Circuit arrangement according to claim i, characterized in that the Charging or discharging takes place via resistors, each of which is reversed Change in charge can be short-circuited. 4. Circuit arrangement according to claim ι and 2, characterized in that that the time available for complete charging or discharging is limited by actuating a contact (/ ·) controlled by a slightly delayed auxiliary relay. 5. Circuit arrangement according to claim i, characterized in that im Charge and discharge circuits have the same resistance. 1 sheet of drawings