DE1018523B - Overvoltage relay, preferably for controller - Google Patents

Description

GERMAN

The present invention ¹ relates to a surge relay, preferably for regulators.

To protect the sensitive switching elements that are used in tube regulators, it is necessary to switch off the regulator as quickly as possible to avoid further damage if overvoltages occur, which can be caused by defects in the tubes such as broken filaments, failure of the anode voltage, etc. . If a grid-cathode short-circuit occurs, currents flow through the tubes, which are only limited by the resistances in the outer circuit of the controller and therefore assume values that excite the existing setting levels far beyond their setpoints and overstress the entire control circuit. ¹ S Normal overvoltage relays have not shown themselves to be able to cope with the demands placed on them, because they are too imprecise. The known relay circuits with glow tubes are also unsuitable for fulfilling this task, since their dead time is too long. With them, there is a glow tube in series with the relay output. If the voltage to be monitored reaches the size of the ignition voltage of the glow tube, it ignites and becomes conductive. The relay responds and effects the intended switching measures. A variable resistor connected in parallel to the glow tube and relay winding is used to set the sensitivity. However, since the current has to build up the entire coil field, a noticeable time passes from the ignition of the glow tube to the response of the relay.

These difficulties can be solved by an overvoltage relay, preferably for regulators, with a glow tube as a voltage-dependent switching element, which is connected upstream of the relay winding, which is characterized in that only parallel to A high-resistance resistor is connected to the glow tube, at which the voltage to be monitored causes a voltage drop which ignites the glow tube when a permissible value is exceeded, so that the relay winding lying in series with the parallel circuit responds and thereby the circuit for a second winding of the relay closes, via which the relay armature is then still held and required Triggers switching action.

In order to be able to set the overvoltage relay to a certain response voltage, it is proposed in a further development of the inventive concept to connect a capacitor in parallel to the resistor, glow tube and relay winding. As the capacitance of this capacitor changes, so does the response voltage of the relay. The design of the relay can be made in detail, for example, so that the relay armature overvoltage relay,
preferably for regulators

Applicant:

LICENTIA Patent-Verwaltungs-G.m.b.H., Hamburg 36, Hohe Bleichen 22

Dipl.-Ing. Ernst Schöne, Berlin-Waidmannslust,

and Werner Krauße, Berlin,
have been named as inventors

only then returns to its rest position when the network feeding the second relay winding is switched off is. Known switching means can switch off the one that feeds the second relay winding Network can be made dependent on the previous elimination of the overvoltage.

In the drawing, a Ausführungsbei is shown game of the overvoltage relay according to the invention. The voltage to be monitored in the control circuit is sent to the overvoltage relay. the terminals. 1 supplied and rectified via the rectifier 2. The output voltage of the rectifier is above the winding 3 of the relay on the two electrodes of the glow tube 4, to which the resistor 5 is parallel lies. In addition, the entire output voltage is present of the rectifier on the capacitor 6. If the voltage supplied to the overvoltage relay is within the permissible limits, the glow tube does not ignite. There is only one current flowing through the resistor 5 and the relay winding 3, which is not enough, to make the relay respond. On the other hand, if it exceeds the voltage to be monitored its permissible value, the glow tube 4 ignites. An additional current can now flow through this tube, which excites the winding 3 so that it attracts the relay armature 7. This is the contact 8, which is with a second relay winding 9 is connected, closed and thereby the relay winding 9 via the terminals 10 and 11 and a resistor to an additional one Tension laid. This additional voltage must be dimensioned so that it is sufficient for the relay winding 9 to excite so that this is able to hold the relay armature alone. By tightening the anchor 7 contacts 13 and 14 are opened at the same time, as a result of which, for example, the control circuit is de-energized

709 758/335

or other necessary switching measures are triggered in order to avoid overloading the regulating organs.

Claims (3)

Claims ·. 1. Overvoltage sirelay, preferably for controllers, with a glow tube as spatination-dependent Switching element which is connected upstream of the relay winding, characterized in that only in parallel A high-resistance resistor is connected to the glow tube, at which the voltage to be monitored is connected causes a voltage drop which, if a permissible value is exceeded, the glow tube ignites so that the series winding connected to the parallel circuit responds and this closes the circuit for a second winding of the relay, via which the relay armature then continues to be held and triggers the necessary switching measures. 2. ÜbeirspaiunungsrelaitS according to claim 1, characterized characterized in that a capacitor is parallel to the resistor, glow tube and relay winding is switched to set the response voltage of the relay. 3. Overvoltage relay according to claims 1 and 2, characterized in that the relay only returns to its rest position when the network feeding the second relay winding is switched on. Considered publications:
"Die Glimmröhre" by Otto Paul Herrnkind, born 1952, p. 46, paragraph 3, "Glimmröhren für Relaisschialtungen". 1 sheet of drawings © 709758/336 10.57