DE1513135A1 - Control device for multiple switching systems - Google Patents

Description

Control device for multiple switching systems This invention relates to a device for displaying incorrect operations in multiple switching systems, which is so constructed that a predetermined constant number of switches is in the working state at any time, while the other switches remain actuated, the composition (combination) of the actuated Switch does not necessarily have to be the same in every moment. Multiple switching systems of this type have many areas of application and can include mechanical, electromechanical or electronic switches. ! = @ ern «4s of the present invention includes the device # "ur control of ii'eri.l operations in an I-multiple switching system cin (i #; @xi <inriun #; steeperscfirtltung and for each switch an impec- c1 -, -. rrzl, zric, r-driurir and a tülfsstrorn -; @: t @@ _ i @ tvorricüt @ .zng, the same- z @ _i rni t, f: inein such an i,; en scarf. LE: r is called r 'r @ the impe- '1 to äridc: rri, sensitive device which responds to the voltage supplied by a further element of the voltage divider circuit and supplies an output signal if this voltage deviates from a predetermined value.

Further details about the invention emerge from the following Description of two exemplary embodiments in conjunction with the drawing.

Fig. 1 shows the auxiliary power holding device and the voltage divider circuit according to a first embodiment of the invention.

Fig. 2 shows the auxiliary power switching device and the voltage dividing circuit according to a second embodiment of the invention.

According to r'igo 1, six switches a to f (not shown) are provided, each of which has an auxiliary switch a1 to t1 that interacts with it. These auxiliary switches are provided with normally open contacts and are "in unactuated" State shown. A resistor (10 to 15) is connected to each auxiliary switch, where the resistances all have the same value. The possible ones with the switches a1 to f1 connected cons. Stand combinations are connected to one another in parallel and form a component of the voltage divider circuit. Another resistance 16 forms the other component of the voltage divider circuit and is at one end connected to the parallel arrangement of switches and resistors. The full Voltage divider circuit is shown with a source as a battery constant Potential Y connected. A voltage sensitive circuit 17 is across the resistor 16 is connected and responds to the voltage generated across it.

The mode of operation of the device is as follows: if two switches are in the working state at any time, then two of the resistors 10 to 15 are connected in parallel between the potential Y and the resistor 16. A constant potential then arises at the resistor 16 and the circuit 17 is dimensioned so that it does not respond to this voltage.

If more or less than two switches are actuated due to some error, then more or less than two of the resistors 10 to 15 are connected in parallel to one another and a different voltage than the known one arises across the resistor 16. The circuit 17 responds to this in that it gives an output signal on the line 18, as a result of which an error warning is triggered.

It should be assumed that switches a to f and auxiliary switches a1 to f1 always work at the same time. A fault in this respect in the device is far less likely than a fault in the operating circuits of the switches themselves, especially if these circuits contain electronic circuits. However, an error that affects a switch and the associated auxiliary switch will also result in an error display, since the switching sequence then changes. It should be noted that the switching contacts themselves were not checked, because the possibilities of a contact fault are very low if the circuit in operation is working properly.

In the presence of mechanical or electromechanical switches own the. Auxiliary switch and the main switch abnormally separate contact sets, operated by the same mechanism. With semiconductor switches it is necessary to provide separate switches for the two functions, preferably such that the auxiliary switch does not work if the main switch fails.

In the embodiment described here, there is one component the voltage divider circuit from a parallel circuit with the auxiliary switches associated possible Wideratanda combinations.

Fig. 2 shows another possible embodiment of the invention, in the one component of the voltage divider maintenance from a rain connection of all Auxiliary switch consists of each resistor in parallel with the associated auxiliary switch is switched. The same reference numbers have been chosen for the same elements.

Closing an auxiliary switch causes the associated resistance is short-circuited and the total resistance of a component of the voltage divider circuit decreases. In the described embodiments, the have help switches a1 to f1 contacts that work in the same way as those of the associated Main switch, doh. they close when the main switch contacts close. Of the Auxiliary switch can be used in the opposite direction, whatever it is Meaning to work on the associated main switch, as long as the relationship of all switches each other .is the same. In the same way, the impedance arrangements 10 up to 16 of the voltage divider circuit are not necessarily real resistances, although this is the most suitable form. The voltage sensitive circuit 17 can be of any embodiment which is between a required value of the Voltage and any other value.

Claims (1)

1.) Device for checking incorrect operations in a multiple switching system, characterized by a voltage divider circuit and for each switch by an impedance arrangement and by an auxiliary current switching device which is operated simultaneously with such a switch in order to change the impedance of the voltage divider maintenance, as well as by a voltage-sensitive device, which responds to the voltage originating across a further component of the mentioned voltage divider circuit and delivers an output signal if this voltage deviates from a predetermined value. 2.) Device according to claim 1, characterized in that all these impedance arrangements have the same value and each is connected in series with its associated auxiliary current switching device, and that the various combinations of the impedance arrangements and auxiliary current switching devices are connected in parallel with each other and with said further components of the voltage divider circuit are in series with a source of constant potential. 3.) Device according to claim 1, characterized in that all these impedance arrangements have the same value and each is connected in parallel to its associated Hilgsstrom-Schaltvorrich-, device, and that the various combinations of the impedance arrangements and auxiliary current switching devices with each other and with the other Components of the voltage divider circuit are connected in series to a source of constant potential. 4.) Device according to at least one of claims 1 to 3, characterized in that the impedance arrangements in the voltage divider circuit are real resistors.