DE765149C - Relay arrangement with delay capacitor - Google Patents

Description

Relay arrangement with delay capacitor It is a capacitor arrangement known, in which the capacitors, charged in parallel, and in; Series connection to the; Consumers are connected. This is how you achieve a higher voltage from a small predetermined voltage.

There are also delay relay systems known in which the relay is interconnected with a condenser, preferably an electrolyte capacitor is. Zorn operation of the arrangement a minimum voltage is required .; zi. B. the formation of this electrolytic capacitor requires a voltage of at least 3 V, which must be available. Often, however, a battery is lower Voltage, for example a 2 V accumulator, r, assumed. An enlargement the battery is not always acceptable.

The invention enables the operation of such a delay relay arrangement with an output voltage that is below the required minimum voltage, and gives the possibility within certain limits any tension to manufacture. She proposes a relay arrangement with a delay capacitor, the main feature of which is that capacitors are used for the supply, which are charged in parallel and connected in series to the delay relay be created.

The proposal according to the invention is carried out by a switching device, in the case of, for example, two capacitors to be switched in two parallel Cables between the mains terminals; One switching contact each of a double-pole changeover device and a capacitor are in different order. For more than: two capacitors As well as for entire groups of capacitors to be switched, similar switching devices are used or the same switching devices are used in an analogous manner.

These features of the invention will become apparent with reference to the drawings illustrated embodiments explained.

In Fig.i the relay is labeled R; him is the capacitor C3 connected in parallel as a delay element. The whole delay relay arrangement the charging resistor is connected upstream. The capacitors are used for supply C1 and C2, which in the drawn basic position are parallel to the voltage and be charged. If: the switch blades of the switch are thrown, then lie the two charged capacitors in series on the delay relay arrangement. There is now double the voltage available compared to the previous one.

It may be desirable to do this simultaneously with the series connection of the capacitors turn off the power source from them. This possibility consists either in: that one pole of the power source is applied via a third switch blade, or one closes one pole of the power source, for example the positive pole in Fig. i, at the pivot point of the first switch blade. That way would only the capacitor C, remain permanently connected to voltage.

The relay R can after receiving the current surge of the capacitor bank connect to a power source through their own contacts, which only provides the holding current needs to deliver. This can be done at a given time by other switching means be separated again. Finally, it can also be designed as a toggle relay.

In many cases, the invention not only makes you the otherwise bypassing the need to increase the supply voltage, but also a smaller battery can choose than was previously possible. You also have the advantage, despite being smaller Output voltage to be able to give the relay a high pull-in voltage, d. H. the To be able to train relays with high resistance, so that due to the low consumption of electrical Energy of the highly charged capacitor reached very long delay times "-earth.

If there are three capacitors to be switched, then: finds them in Nbb. a proposed switching device application. The left half corresponds essentially that in Fig. i. The added third switch is in connected to the battery in the opposite direction. There is also a simple one Switch provided, which is in the circuit of the other battery terminal. The capacitors are now connected in parallel, after switching they are in series.

The switch shown for two or three capacitors to be switched can also be used for a larger number of capacitors at the same time, provided that these are an integer multiple of two or three. You will according to Figs. 3 and d. designed like single capacitors. The switching device is shown in Fig shown for four capacitors. The parallel connection of the capacitors is shown Cl to C4. If the changeover switch L "is switched to the right-hand position, the following is the case Order made: C.,. Cl. C4 and C3.

Claims (1)

PATEXT TRANSPRL CHE: i. Relay arrangement with delay capacitor, characterized in that the supply un: g capacitors are used which are connected in parallel charged and connected in series to the delay relay. Relay arrangement according to claim i for two capacitors to be switched, characterized in that one switching contact each in two parallel lines between the mains terminals Two-pole changeover switch and a capacitor are in different order (Fig.i). 3. Relay arrangement according to claim i for three switchable: nde capacitors, characterized by the use of a three-pole changeover switch, with two capacitors are connected according to claim 2, the third changeover switch reversed to the one mains terminal is connected and the third capacitor between it and the other - \ - mains terminal which also has a simple switch in the parallel stop position is connected to the corresponding terminals of the first two changeover switches (Fig. a). q .. relay arrangement according to claims 2 and 3, characterized in that thatr for a whole multiple of two or three condensers to be switched Circuits according to claim a or 3 as used for capacitors to be switched @ (Fig. 3 to 5).