DE944053C - Circuit arrangement for the transmission of angular positions for display works - Google Patents

Description

Circuit arrangement for the transmission of angular positions for display works The main patent 941 353 relates to a circuit arrangement for the transmission of Angular positions, especially for electrically controlled display units, in which two circuits, each containing a voltage divider, from a common power source are fed and a tap is adjusted by the receiver until the the same partial voltage is reached, which is tapped on the encoder by setting it by hand will. The invention relates to a further embodiment of this circuit arrangement according to the main patent with the aim of increasing the operational reliability of the arrangement. According to the invention, this ensures the equality of the partial voltages tapped off Determining test relays closed two circuits, each of which is operational State of one of the two voltage dividers of the encoder and receiver checked. Just When both voltage dividers have been tested, the display circuit is activated.

By checking the operational condition of each of the two voltage dividers independently of one another, it is ensured that the display is only switched on will, if really the Receiver properly on the position the encoder has been set.

An embodiment of the invention is shown in the drawing. This gives the basic current flows of a circuit arrangement for the control of an advertisement again.

A step transformer T i is provided on the encoder. Through the Adjustment of the switching element S i by hand on a tap of the secondary winding a certain partial voltage is tapped.

Another step transformer T 2 is provided on the display unit, whose primary winding comes from the same voltage source as the step transformer T i of the encoder is fed. The partial taps of the secondary winding are from a Switching arm S2 tapped, which is from a Motor.M together with the display carrier is driven.

As soon as a voltage level of the transformer T i is tapped at the transmitter by the switching element S i, which differs from the voltage level tapped by the switching element S2 of the display unit, a current flows over the line L i through which the relay P is energized . Relay P closes a circuit for the bolt magnet R i with contact pi, which pulls its bolt out of the notched disk connected to the display carrier and closes a circuit for the motor M with contact ri. The motor, which is also fed from the alternating current network, starts up and, together with the display carrier, also rotates the sliding arm S2 until it reaches the same voltage tap to which the encoder is set. Relay P falls along a differential voltage at the two ends of line L i. The bolt magnet is de-energized. As soon as the bolt engages a notch in the notch disk connected to the display carrier, the contact yi opens and the motor M also switches off. The contact p 2 of the relay P prepares a circuit for the relay L. Which controls the indicator lamp LA. However, this circuit is dependent on the contacts ka and kb of the relays KA and KB, which respond only when the step transformers' T i and T2 are in an operational state. The contact p 3 of the relay P, when it drops, places one pole of a DC voltage source on the rectifier connected upstream of the relay P, so that two circuits are formed which run independently of one another. One circuit includes the switching arm S i of the transmitter, the step transformer T i and the relay KA; the other circuit contains - the switching arm S 2 of the receiver, the step transformer T2 and relay KB. Both .. circuits .are separated from each other by the capacitor C. If both relays respond, the circuit for relay L is established and the lamp LA projects the value set by the display carrier onto a screen. If, however, relay P has dropped out because the circuit was interrupted by a fault via a step transformer, then one of the relays KA or KB cannot respond and the lamp does not switch on.

The relays KA and KB can also be designed as two windings of one and the same relay, which are dimensioned so that this relay only attracts its armature when both windings are excited, but leaves the armature in its rest position when only one winding is excited. In this case there is only one contact of this relay K in the circuit of the lamp L.

Claims (3)

PATENT CLAIMS: i. - Circuit arrangement for the transmission of angular positions for display works' according to patent 941 353,. Characterized in that a falling relay (P) when tapping equal partial voltages at the voltage divider of the transmitter and the voltage divider of the receiver. two circuits running independently of one another are closed via each of the two voltage dividers, which contain switching means (KA, KB) which only cause the set value to be displayed when they are excited together. 2. Circuit arrangement according to claim i, thereby marked that the additional test circuits to determine the operable State of the voltage divider us are fed by a special power source. 3. Circuit arrangement according to Claims 1 and 2 for arrangements with step transformers as a voltage divider, characterized in that the connecting line of the secondary windings of both step transformers divided by .eine capacitor and the test circuits with direct current sent to the two line sections created in this way are fed: q .. circuit arrangement according to claims i to 3, characterized in that that the test relay, which drops when the same partial voltages are set, is connected to the its excitation by a rectifier provided for alternating current when it falls Switches on DC voltage to supply the two additional test circuits.