DE900969C - DC timing relay - Google Patents

Description

The '892,483 patent relates to a DC timing relay which can be used on various Voltages can be connected without affecting the set fall time changes. When the excitation current is switched on, a capacitor charges in parallel to the Relay coil on. After switching off the excitation current, the armature drops out with a delay, because the capacitor discharges through the relay coil. A counter coil is turned off the direct current network is excited in the opposite direction to the main coil as soon as the relay armature is attracted is. At the moment when the holding force of the main coil has dropped so far that If the pulling force of the counter coil keeps the equilibrium, the relay drops out.

To the relay even during the fall time of voltage fluctuations To make the network independent, the counter coil is in the same way according to the invention Way as the relay main coil is fed by a special capacitor that works simultaneously is disconnected from the mains with the capacitor of the main coil. That way have both capacitors have the same initial voltage. They become beneficial through various Contacts of the same switch connected to the network and later switched off by him.

The invention is illustrated in the drawing, for example.

An armature contact b3 of the relay B controls a not drawn circle. A capacitor C is conductively connected to the relay main coil ii and is preceded by a high discharge resistor 13. A counter coil 14 parallel to coil ii serves to compensate for the influences caused by voltage fluctuations. This counter coil 14 is connected to a capacitor C ′ via a resistor 3o and a relay contact bi. In the indicated rest position of the relay, the Kontaktbi is interrupted. By closing the contact a, the coil ii is fed from the direct current network 18, i9. The capacitor C is charged via the relay contact b2 and the small series resistor 31. The relay now picks up its armature. At the same time as the contact a, the contact a 'was closed, so that the capacitor C has also charged. The anchor drop is initiated by opening the contacts a, a '. The capacitor C can only discharge via the resistor 13 and the coil ii, since the contact b2 in front of the small resistor 31 is still open. At the same time, the capacitor C discharges through the counter coil 14. After a time which is determined by the mechanical dimensioning of the relay, the capacitor and coil dimensions and the resistors 13, 3o, the coil ii can no longer hold the armature against the pull of the coil 14 to hold. The relay contacts then resume the position shown.

It is expedient to dimension the capacitance of the capacitor C for the counter coil to be very large and to dimension the resistance of the counter coil 14 or its series resistor 3o also to be large. Then this capacitor C is only slightly discharged during the release time of the relay, since the discharge takes place slowly. The fall time is independent of voltage fluctuations, as there is no connection to the grid while the anchor is falling.

Between the completed anchor tightening and the release of the anchor drop any time can elapse.

Claims (2)

PATENT CLAIMS; -i. DC time relay with a capacitor that charges when the excitation current is switched on parallel to the relay main coil, but discharges after switching off the excitation current via the main coil, and with a counter coil to compensate for the voltage influence on the holding force, according to patent 892483, characterized in that the counter coil in the same way as the main coil is fed by a special capacitor, which is disconnected from the mains at the same time as the capacitor of the main coil. 2. DC timing relay according to claim i, characterized by a large in relation to the main coil circuit Dimensioning of the capacitor capacity and the discharge resistance in the circuit of the counter coil.