DE1614704C3 - Circuit arrangement for a delayed switch-off relay - Google Patents

Description

So-called switch-off wipers are known which work with a fixed time constant. With these Arrangements are the series connection of a relay and a capacitor, the relay a diode is connected in parallel. The entire circle is burdened by a resistance. At the When switched on, the capacitor is immediately charged via the diode because it bridges the relay. When switching off, the capacitor discharges through the resistor and the relay until the voltage of the Capacitor drops below the hold value of the relay.

The disadvantage of this known arrangement is that large capacitances and resistances are required which require a large amount of space and only have a fixed time constant available stands.

Proceeding from this prior art, the invention is based on the object of a circuit arrangement for a delayed switch-off relay, which is constructed in a simple way, only comparatively small resistances and capacitances and therefore only a small one Requires space and has a large control range for the time constant.

According to the invention, this is achieved in that a capacitor on the one hand via a switch-off contact and on the other hand is connected to the network via a changeover contact and a diode and this Capacitor another capacitor is connected in parallel, with one branch between the Capacitors one or more resistors are arranged and the other branch via one or several resistors are connected to the changer, and the capacitor is connected in series with one Glow tube and a rush relay is parallel, which is connected to the via a diode and a changeover contact positive or connected to the zero phase of the network and the two changeover contacts are switched by the impulse relay.

The circuit arrangement according to the invention results in a very large control range of the time constants, namely in a regular ratio, d. i.e. the ratio of the smallest adjustable delay to the largest adjustable delay of 1/300. Farther only small capacitances and resistances are needed, so that the whole arrangement is on can be accommodated in the smallest of spaces.

At least one of the resistors connected to the changer in the mains connection can be regulated formed so that the time constant can be set precisely.

An embodiment of the invention is on Hand of the drawing explained in more detail.

Mitl and 2 denote the two network connections, between which the capacitor 3 is switched on, namely once via the switch-off contact 4 and on the other hand via the diode 5 and the changeover contact 6, whose two switching positions are denoted by 7 and 8 are. A further capacitor 9 is connected in parallel with the capacitor 3, with the Branch 10 between the two capacitors 3.9, the resistor 11 is arranged. To the other Branch 12, the resistors 13, 14 are connected, which are connected to the contact 8 of the changer 6.

The series connection of the glow tube 15 and the surge relay 16 is parallel to the capacitor 9. The rush relay 16 is switched on by a pulse and then holds itself without further Energy supply is necessary.

The surge relay 16 is still via the diode 17 and the changeover 18 either with the positive pole of network 1 or connected to the negative pole of network 2. The two contacts of the changer 18 are denoted by 19 and 20.

For better clarity, the individual connection points of the lines are also labeled with the reference symbols 21, 22 and 23 provided.

The mode of operation of the arrangement is as follows:

By closing the contact 4, the capacitor 3 is connected to voltage, since the changeover contact 6 is in the position shown, i.e. is in contact with the contact 7. Points 21, 22, 23 are thus at a positive potential, so that the capacitor 9 can not be charged, but only capacitor 3, since there is a voltage drop across resistor 11 between points 23 and 24 consists.

When the switch 4 is opened, the capacitor 3 discharges through the resistor 11 and charges in the process immediately the capacitor 9, since only a small time constant is available. As soon as the tension of the capacitor 9 exceeds the ignition voltage of the glow tube, it ignites, so that the relay 16 is tightened. The relay 16 is a rush relay which reacts to an impulse and then maintains the current position without additional energy input. When the impulse relay picks up 16 are switched over, the changeover contacts 6 and 18, so that they come to rest on the contacts 8 and 20. In this position, the capacitor 9 is charged in the opposite direction because the diode 17

is applied to the network branch 2 via the changer 18. As soon as the ignition voltage of the glow tube 15 is reached is, the relay 16 drops out again, so that the entire arrangement is back in the starting position.

When charging the capacitor 9 in the second phase, the remaining voltage must first be of the capacitor 9, which corresponds approximately to the extinction voltage of the tube 15, so that there is a comparatively large time constant. Furthermore, the capacitor 3 is in this Phase also charged because it is parallel to capacitor 9. This means a further increase the time constants.

The exact setting of the time constant is made on the adjustable resistor 14.

The circuit arrangement according to the invention is extremely simple in its structure and enables it the use of comparatively small capacities! and resistors, being yourself also results in a large control ratio that cannot be achieved with conventional arrangements was. Another major advantage is the significantly reduced space requirement.

1 sheet of drawings

Claims (2)

i 614 704 claims: 1. Circuit arrangement for a delayed switch-off relay, characterized in that that a capacitor (3) on the one hand via a switch-off contact (4) and on the other hand via a changeover contact (6) and a diode (5) is connected to the network (1, 2) and this capacitor (3) another capacitor (9) parallel-IeI is connected, wherein in the one branch (10) between the capacitors (3, 9) one or more Resistors (11) are arranged and the other branch (12) via one or more resistors (13, 14) is connected to the changeover contact (6), and the capacitor (9) is connected in series a glow tube (15) and a surge relay (16) is parallel, which via a diode (17) and a changeover contact (18) connected to the positive (1) or the zero phase (2) of the network is, and the two changeover contacts (6, 18) from the impulse relay (16) are switched. 2. Circuit arrangement according to claim 1, characterized in that at least one of the Resistors (13, 14) connected to the changeover contact (6) in the mains connection (1, 2) can be regulated isT