DE182054C - - Google Patents

Description

aivvri'icj) ciι ciliΙΐπιΙ'α111 (5. c''iiu] cHii] l · bet cia

PATENT LETTERING

. - JVt 182054 -
CLASS 21 a. GROUP 16.

. Patented in the German Empire on March 23, 1906.

The circuit device described below is intended to serve the branches to master a divided circuit with a number of switches or interruption points, which is smaller than the number of branches. It can be used in circuits such. B. are described in German Patent 137138 and in British Patent 20478/1904

(Fig. 8). .

In the circuits, which are indicated in the named places, can be found . Switches that work at the same time and therefore mechanically with one another can be connected. Some of these switches also have the peculiarity that the one switch pole is made up of several 'open-circuit'

: consists of bars, the other pole, on the other hand, consists of only one common piece. If the insulated contact pieces are also connected in the open state, this creates Secondary closings which the intended

• Can interfere with the operation of the switches.

The purpose of the present invention is to cancel this disruptive effect of the shunt closings. It is achieved by that one in all branches of the circuit, 'which can form shunt circuits, Switches on devices that allow an electric current to pass in only one direction. One such device is ζ. Β an electrolytic cell with an aluminum electrode (Valve cell). ■.

A drawing is included to explain the invention in more detail. Fig. 1 of the same shows schematically a circuit which is arranged according to the present invention. There are α and b branch points of the circuit of the battery /, an, 40 to which three switches c and d are connected. These switches are on the other hand connected to the individual branches 1 to 9 of the circuit, each with a group of three branches. The branches 1 to 9 all contain devices e (valve cells) which allow an electric current to pass in only one direction. So that only one branch receives current when two switches are closed (one each at α and b) , the circuit must be made so that each group, which z. B. is connected by one of the switches C to one pole of the power source f , with each of the groups, which are connected by the switches d to the other pole of the power source f , has one of the branches 1 to 9 in common. It follows, of course, that the groups of branches at switches c and d must be put together differently. If two switches, one each at c and d, are closed, the branch which is common to the connected groups establishes a connection between points a and b and thus between the poles of the power source; so this branch receives electricity. For this connection there are

but secondary closings. For example, when the middle switches c and d are closed, a current can pass directly from λ to b via branch 5. In addition, there are, for example, the paths there via branches 4, i, 2 and 6, 9, 8. These are shunts, and in order to be able to pass them, the current in branches 1 and 9 must be opposite to the normal direction of α flow to b. Thus, such shunts are blocked, if one switches in the branches 1 to 9 valve cells or other devices e which transmit ■ an electric current only in one direction (from A to B).

Fig. 2 shows another. Circuit using the same means of eliminating shunts. Instead of switches c and d in FIG. 1, switches g and h appear in FIG. 2. The switches·/! are dependent on the switches g in such a way that when one of the switches g closes (with the exception of the first) at the same time a switch h is activated by the action of coils i, the circuits of which are closed by the switch g. The branches I to XV of the circuit of the battery f are connected in groups to the switches g and h. The groups of the branches are to be formed here so and to connect that each of the switch to a g .angeschlossenen groups per a branch joint has with all groups treated with switches. A of a higher number than. they are connected to the relevant switch g . Here, too, the use of only one contact on each of the switches g and / 1 results in secondary closures which can be canceled by valve cells or similarly acting devices (Jc-in FIG. 2).

The circuits described can be used to transmit the combinations tclcgraphic flows in type printing, as well as for the automatic operation of Typewriters and typesetting machines, according to the hole combinations of a register strip To hit keys, to release letters or matrices; it can be used in in a similar manner as described in the cited patents.

Claims (1)

Patent-A NSPKuc 11: Circuit device for closing any branch of a multiple branched circuit by means of a limited number of switches, thereby marked that the secondary closings, which the use of common Contacts for several branches will be rendered ineffective by switching on Devices that allow electric current to pass in one direction only (e.g. valve cells with aluminum electrodes) into which parts of the Circuit, which can form shunts. · 1 sheet of drawings.