DE754399C - Delay relay - Google Patents

Description

Delay relays In many fields of technology, in particular on the railway signal area, one uses relay circuits, which are switched on their circuit only respond after a certain time. For the delay the switching movement is preferably used in the capacitors electrical processes.

Efforts have now been made to achieve the longest possible delay times reach. The invention is also based on this object and proposes measures before, which is the delay time for relays that are used to achieve a switch-on delay cooperate with capacitors, allow even further increase.

A relay is known which consists of two opposing windings one of which is connected in series with a capacitor. This known relay serves as a slow-running relay breaker. At the moment of When switched on, both windings carry approximately the same current, practice but due to their opposite direction of winding they are equal and opposite in size directed field effects on the relay core. One winding is immediately of voltage, the other is due to the initially very strong charging current of the capacitor flowed through. As soon as the capacitor is charged, the current goes out through the winding connected in series with it, and all that remains is the field effect of the one winding left, which brings the relay to pull-in.

Based on this, the invention proposes a delay relay opposing windings, one of which with a capacitor is connected in series. If these windings are dimensioned appropriately, a very long switching delay is achieved. To the switching delay even further To drive, it is proposed according to the invention to add a resistor to the capacitor bypassing the point in time when the capacitor is charged by its shunt pushes out further. There is an arrangement known in which capacitor and Resistor are connected in parallel. This arrangement does not affect a relay circuit, let alone a delay relay circuit, not even a DC circuit, but an AC circuit. Here the capacitor serves to act as induction-free Resistance to bridge the inductive resistance.

According to a further feature of the invention, the capacitor Resistance connected in parallel may be of an ohmic or inductive nature. In the end you can also let the resistor consist of relay windings.

Various embodiments of the invention are shown in Figs. i to 3 illustrated. In these explanations, which are to be evaluated purely as examples, to the scope of which the invention is not intended to be bound is the capacitor in FIG a purely ohmic resistor connected in parallel, in Fig. 2 a series connection an ohmic and inductive resistance, the ohmic resistance being preferred adjustable, and finally in Fig. 3 a resistance that consists of turns the relay coil with which the capacitor works together. pre-condition for correct operation is the choice of the appropriate size of the resistor. In As shown in Fig. 2, it is easy to find the right size by moving the To adjust the tap. In Fig. 3 it is assumed that the capacitor part of the relay winding connected in parallel has fewer ampere-turns than the one lying in line with him.

The mode of operation of the arrangements is essentially the same, the explanation can therefore be satisfied with Fig. i. All versions have one thing in common the capacitor C, the co-operating with the capacitor winding R, and the Winding R2, which counteracts R1. i is a relay contact that is in the basic position closed is. A resistor W is parallel to the capacitor. The whole arrangement can be connected to voltage using a manual switch H.

Initially, it is the mode of operation only with the counter-winding R2, but without the resistance W examined. If the hand switch H is closed, then flows through the winding R2 a current of a certain magnitude. By the from the capacitor C and the parallel branch formed in the winding R1 also flows a current, which initially has maximum size, since the capacitor is initially still uncharged, as it progresses State of charge of the same but gradually goes down to zero. In the beginning when the Currents in the two branches in which R, and R1 lie are approximately equal, the fields generated by the two windings also cancel each other out, and the relay as a whole is in an indifferent state. Only when the capacitor is more strongly charged, that is, its charging current has decreased has, and the capacitor the further current flow via the branch in which R1 is located, blocks, the winding R is almost alone current-carrying and is capable of its effect the relay for switching is no longer neutralized by the field of R1 bring to.

The fact that the invention is now in addition to the reverse winding proposes the parallel connection of a resistor to the capacitor, the Delay period postponed considerably further. Bridging the capacitor by the resistance W of the desired size delays the charging of the capacitor. A certain discharge current always flows, which makes the capacitor much slower can reach a certain voltage as if this resistance was not there were. As a result, the charging current of the capacitor flows much longer, so that the winding R1 has a longer current flowing through it and is able to last longer Neutralize the effect of the winding R2. By a suitable size of the resistance So you are able to use the specified circuit for a very long time, practically to achieve arbitrarily long delay times.

In Fig. 2, TV means an inductive resistance, and W2 means an adjustable ohmic resistance; We have already discussed the dimensioning rules for the turns Ri connected in parallel with the capacitor in relation to the turns R1 connected in series for this purpose in FIG. 3. In general, the windings R1, Ri and R2 and W1 are mounted on the magnetic circuit of a single relay.

Claims (3)

PATENT CLAIMS: e.g. Delay relay consisting of two counteracting Windings, one of which is connected in series with a capacitor is, characterized in that the capacitor is connected in parallel with a resistor is. 2. Delay relay according to claim r, characterized in that the dem Capacitor connected in parallel resistance is ohmic and / or inductive in nature. 3. Delay relay according to claims z and 2, characterized in that the resistor consists of relay windings. To distinguish the subject matter of the invention from the state of the art, the following publications were taken into account in the grant procedure: German Patent No. 653 709; French Patent No. 840 993; z> Feinmelderelais «by Mühlbrett and Boysen, 1933, p. zo7 and xo8 and Fig.89.