DE620148C - Device for multiple remote transmission of measured quantities with the help of synchronously running distributors on the transmitter and receiver - Google Patents

Description

GERMAN EMPIRE

ISSUED ON OCTOBER 15, 1935

REICH PATENT OFFICE

PATENT LETTERING

CLASS 74 b GROUP

General Electricity Society in Berlin *)

Patented in the German Empire on October 3, 1930

For point-like recording of alternating current curves in electrical machines it has already been suggested that the circuit should not be connected to the rotating contact element for the display instrument to close immediately. In this known arrangement if the measuring circuit, which contains a relatively high resistance, is bridged by a capacitor, see above that in the event of a temporary contact closure, the capacitor is initially charged, then after opening the contact, depending on the one imposed on him Discharge voltage and resistance of the display circuit through the galvanometer. In this known device, the use of the capacitor takes place as Energy storage therefore to the rms value of the alternating voltage over all To keep constant across individual measurements.

In contrast, the invention relates to devices for multiple remote transmission of measured variables with the help of synchronously running Distributors at the transmitter and receiver, where the connection line between transmitter and receiver, d. H. the pipeline, is temporarily de-energized. For such facilities it has been proposed so far, the display to record a last transmitted variable in the receiving instruments by that with multiple transmissions according to the impulse system, relatively cumbersome mechanical systems of driver or ballistic instruments are intended as receiving instruments, but are used in intensity systems non-judicial instruments.

However, these devices have certain disadvantages, according to the present Invention can be avoided in which solely by the choice of circuit it is achieved that the receiving instruments last even during the transmission break show the transmitted measured value, so that it is thus made possible by the invention, normal measuring instruments instead of special ballistic or mechanical instruments to use. This is made possible according to the invention in that »the Amount of electrical energy supplied via the long-distance line at the receiving location is partially in stored in a capacitor connected in parallel to the actual receiving device and is fed to it during the transmission pauses. Here the arrangement

*) The patent seeker indicated the following as the inventors:

Dr.-Ing, Wilhelm Stablein in Berlin-Hermsdorf and Dr.-Ing. Herbert Dallmann in Berlin-Karlshorst.

voltage taken so that the resistance of the charging circuit of the capacitor is significant is less than the resistance of the discharge circuit.

In the drawing, an embodiment is shown which relates to the intermittent multiple transmission according to an intensity system. At the transmitter point A there are resistors ι, at which there is a constant voltage and on which the sliding contacts 2 are set according to the parameters to be remotely transmitted. The manner of the sliding contact control does not form part of the invention and is therefore not shown in any more detail in the drawing.

The synchronous changeover switch 3 on the transmitter point A runs in a known manner synchronously and in phase with the switch 4 on the receiving point B. Capacitor 7 is connected. As long as an instrument is connected to the associated transmitter device i, 2 via the changeover switch contacts and the long-distance line, the capacitor 7 is charged and discharged in the subsequent transmission pause via the resistor 6 and the instrument 5. The size of the resistance in the charging circuit ( Part of resistor 1), that of resistor 6 in the discharge circuit and the size of the capacitor can easily be dimensioned in such a way that a practically constant discharge current of the capacitor 7 flows through the instrument 5 during the transmission pause and during the time in which the receiver device is connected to the associated transmitter device is connected, the capacitor 7 is charged to a value of the voltage proportional to the variable to be transmitted, which voltage is then discharged via the instrument 5 during the transmission pause. The resistance 6 in the discharge circuit of the capacitor is significantly greater than the resistance of the charge circuit.

If the measured value to be transmitted goes back from a larger to a smaller value, in this way, the capacitor 7 will also be discharged during the time the transmitter and receiver are connected, namely, part of the capacitor charge is discharged via the long-distance line and the tapped part of the resistance 1.

Claims (1)

Claim: Device for multiple remote transmission of measured quantities with the help of synehr on current distributors at the sender and receiver using Capacitors as storage means for. the power surges applied to the receiving devices, characterized in that it uses measuring devices provided with a straightening force which are preceded by a resistor of such magnitude that the duration of the discharge is much greater than the length of time that elapses before energy is supplied to the capacitor again via the long-distance line. 1 sheet of drawings