DE604326C - Method for simultaneous remote measurement and remote counting using the pulse frequency method - Google Patents

Description

GERMAN EMPIRE

ISSUED ON I8.0KT0BER1934

REICH PATENT OFFICE

PATENT LETTERING

604326 CLASS 74b GROUP

Siemens & HaIske Akt.-Ges. in Berlin-Siemensstadt *)

Patented in the German Empire on September 24, 1931

In many cases, the task at hand is to measure remotely simultaneously over one and the same line and remote counting. A simple device serving to solve this problem is given according to the invention, if one uses counting pulses that differ from the remote measurement pulses, whose number in the unit of time is greater than the number of counting pulses by their differentiate longer duration, and at the receiving location the remote counting pulses to another receiving device supplies than the telemetry pulses. In many cases it is even possible to use the pulses used for remote measurement To use remote counting if you want to use the impulses that should also be used for counting, identifies them by their longer duration. At the receiving location you can use relay arrangements ensure that the counting pulses are sent to the counter and the remote measuring pulses to the receiving device for remote measurement. In order to create simple relationships, it is useful to ensure that the The duration of the pulses for remote measurement is independent of the pulse frequency. This can by generating the impulses by discharging energy storage devices (capacitors, Choke coils). The pulse duration can be switched on depending on the counter or switching off energy stores.

An embodiment of the invention, in which the pulses that the receiving device hit, given by discharging capacitors, is shown in the figure ι is the anchor of a counter, z. B. a watt-hour meter that is simultaneously used for transmission the performance and counting the consumed. Should serve kilowatt hours. to for this purpose, his shaft is equipped in a known manner with a collector 2, which is at each revolution of the armature of the counter a certain number of pulses through the Winding of relay 3 sends. 4 is a capacitor that is connected to the movable contact 5 of the relay 3 is charged by the battery 6 and when the movable Contact on the long-distance line 7 discharges. The impulse given in this way hits the Receiving station the relays 8 and 9. The relay 8 is designed as a delay relay and dimensioned so that its armature is not started by the discharge of the capacitor 4 will. On the other hand, the relay 9 responds and charges the capacitor 10 once via the Measuring device 27 in a known manner. To now the Fernmeßimpulse simultaneously to the remote counting to use with, the pulse duration of the remote measurement pulse is increased if a counting pulse is to be given at the same time. to this purpose is used by the capacitor 12, the

*) The patent seeker stated as the inventor:

Dr.-Ing. Manfred Schleicher in Berlin-Charlottenburg.

is also charged by the battery 6. The discharge circuit of this capacitor, which leads via the trunk line 7 is prepared by the relay arrangement 13. Once a Fernmeßimpuls is given, is prepared by the relay arrangement 13 via the Circuit also discharges the capacitor 12, so that the pulse duration is increased. The relay arrangement 13 consists of the delay relay 14 and the relays 15 and 16. The relay 14 is in the circuit of the counter contact 17. Its armature is in the circuit of the relay 15. The relay 15 is equipped with a self-holding contact 18, the over the contact 19 of the relay 16 leads. The relay 15 also has the control contact 20, the one with the fixed contact 21 of the relay 3 and the winding of the relay 16 as well one wire of the long-distance line is connected in series. The delay time of the relay 14 is chosen so that the relay 15 is already addressed before opening its contact has and is held by the self-holding contact 18. The delay time of relay 8 at the The receiving station is selected so that the relay responds if the capacitors 4 and 12 be discharged at the same time. As a result, the counter 22 is switched one step further.

The arrangement now works in the following way: As already described, with each Fernmeßimpuls the relay 3 energizes and places the movable contact members against the contacts 21 and 23. Since the contact 20 lying in the circuit of the capacitor 12 is interrupted is, only the capacitor 4 is discharged via the trunk line 7 and brings only that Relay 9 to respond. When the contact 17 is closed by the counting device is, the relay 15 responds and closes the contacts 18 and 20. Shortly thereafter, interrupts the delay relay 14 the circuit of the relay 15. The relay 15 holds over the contact 18 and the contact 19. If a telemetry pulse is now given, over the closed contact 20 of the capacitor 12 simultaneously with the capacitor 4 over discharge the trunk line, so that not only the relay 9, but also the relay 8 responds.

The relay 14 prevents a prolonged contact time on contact 17 several Fernmeßimpulse are changed in their duration and the relay 8 to respond brings, because the relay 14 closes its contact again only when the contact 17 has been opened, so that only then the relay 15 can respond again.

The method according to the invention can

not only, as shown in the figure, can be applied when using the pulses can be transmitted by direct current surges, but one can also use low or high frequency Use impulses. In this case it is only necessary rather than that illustrated by the one shown Arrangement to send delivered impulses into the long-distance line, these impulses to a To supply relay that connects a low or high frequency source to the trunk line. In the figure, this is indicated by the apparatus 24, which has such a relay and a AC power source included. The incoming impulses arrive at the receiving location Relay, which connects a battery in the circuit of relays 8 and 9. This in The receiving device schematically indicated in the figure is denoted by 25. When transferring The high-frequency pulses can of course also be dispensed with on the long-distance line 7.

In the embodiment shown in the figure, the counting and Fernmeßimpuls derived from one and the same measuring device. It is easy to see that you can of course also use the telemetry pulses from one device to measure the to transfer the position carried out to another device. But there is a condition in all of them Cases that the number of remote measurement pulses in the unit of time is greater than the number of counting pulses, what is practical, easy to achieve. The duration of the counting pulses must also be be smaller than the smallest distance between the remote measurement pulses.

It is easy to see that one can use appropriate frequencies for transmission the counting and measuring pulses the long-distance line at the same time for the transmission of other messages, such. B. for telephoning, can use. The same also applies to high frequency transmission. .

Claims (6)

Patent claims: 1. Method of simultaneous remote measurement and remote counting using the pulse frequency method for the transmission of the measured value, characterized in that that the counting pulses are different from the telemetry pulses, the number of which in the unit of time is greater than the number of counting pulses, by, their greater duration and that at the receiving location the Remote counting pulses are fed to a different receiving device than the remote measuring pulses. 2. A method for simultaneous remote measurement and remote counting according to claim 1, characterized in that some of the telemetry pulses are used simultaneously for counting used and identified as a counting pulse by changing the duration. 3 · The method according to claim 2, characterized in that all pulses dem Receiving device for remote measurement, on the other hand the counting pulses are only fed to the counter will. 4. The method according to claim 3, characterized in that the remote counting pulses be separated from the other pulses by delay relays. 5. The method according to claim 1 to 4, characterized in that the different Duration of the pulses is obtained by discharging capacitors of different sizes. 6. The method according to claim 2, characterized in that by the counter a circuit is prepared at the transmitter, with the help of which the next Femmeßimpuls is changed in its duration. ■ 1 sheet of drawings