DE734269C - Arrangement for delayed switching on of rectifier and amplifier tubes - Google Patents

Description

Arrangement for delayed switching on of rectifier and amplifier tubes In order to switch on a circuit with a delay, one uses more different methods Devices that are required for rectifier and amplifier tubes to reduce the Apply anode voltage only when the filament has reached the normal glow temperature has reached.

Known arrangements of this type work with resistors, the one Have start-up time, for example with uranium dioxide resistors. These resistances have a relatively high resistance at normal temperature, which increases with increasing Warming decreases more and more, so that the current is finally sufficient for a relay to operate, which applies, for example, the anode voltage to the tube.

In other arrangements, bimetal strips are used, which are applied when applying the heating voltage are energized, heat up through it and through their Change in shape after a certain time, press the switch for the anode voltage.

These known arrangements with thermal delay have the Disadvantage that there is no delay when switched off and immediately afterwards - is switched on again. In this case the heating element is still warm, so that the restart immediately or at least only with a very short delay he follows. The invention eliminates this disadvantage in that each time Switching on the filament of the rectifier or amplifier tubes all thermal Delay devices consisting of temperature-dependent resistors with different Start-up times exist, come into effect one after the other and when working the following Delay device short-circuited the previous one for the purpose of cooling by relays will. In this way it can never happen that two are in quick succession following switch-ons, there is no delay in restarting, because at least one delay device is always cooled.

The time switch according to the invention is not to be confused with one certain type of time switches that also have two thermal delay devices are in series, but one to switch on and the other to switch off the Circuit is used. So this is opened again after a certain time, by the sum of the delay times; of the two thermal facilities given. is. “The mode of operation of the arrangement according to the invention is for example explained on the basis of the illustration. In this embodiment, as delay devices Resistances with start-up time, e.g. B. uranium dioxide resistors are used. The anode voltage should be used here of a tube rectifier can only be switched on after a certain time if the tube is heated up.

By closing the switch S, the relay R1 is switched on via the Resistor 6V1 applied to the voltage source. At the same time the heating transformer T1 switched on. If the current has become large enough after the start-up time of 6V1, so R1 picks up and closes its two working contacts I and 1I. Through contact I the @Viderstand Wz is short-circuited so that it can cool down. The contact II of R1 puts the relay R., across the resistor I-V. to the voltage source. the Start-up times of Wl and IV., Are z. B. chosen so that that of 6V., About three times that of 6V1. Since the cooling time of the resistors is approximately three times the start-up time corresponds, it is achieved that the 'v resistor 61 #' 1 during the start-up time of 11% cools completely. After the relay R has responded, its contact 1I the resistance 1.17. short-circuited and through the contact I the anode voltage transformer T. switched on. The normally closed contact III of the relay R. switches off the relay R1.

If switch S is now opened and closed again after a short time, so the start-up time of 6V1 is initially available as a delay time. While During this time, IV. cools down during the first switch-on period of the anode voltage has assumed a lower temperature, ”continues. so that at the switching time of 6V1 still part of the switching time of LV., Comes. The total time is big enough to heat up the tube sufficiently. The shortest switching time would occur, disconnect immediately after the relay R has responded, switched off and switched on again immediately would. In this case, however, the filament of the rectifier tube would only be little, cool down, so that the switching time of 1V1 alone is enough to power the tube to heat up again.

Instead of the resistors listed in the example, you can of course also other thermal delay devices, e.g. B. bimetal strip, use Find; It is essential that when working one delay the previous one is being prepared again.

Claims (1)

PATENT CLAIM: Arrangement for delayed switching on of rectifier and amplifier tubes, in which several thermal delay devices are connected in series, characterized in that each time the 1Icizfadens of the rectifier or amplifier tubes is switched on, all thermal delay devices, which consist of temperature-dependent resistors with different starting times, one after the other come into effect and when the following delay device is working, the previous one is short-circuited by relays for the purpose of cooling.