DE725866C - Procedure for the remote control of signaling devices by Morse code in power systems - Google Patents

Description

Procedure for remote control of signaling devices using Morse code in high-voltage systems According to known proposals, connected to a high-voltage network Receiving relays can be controlled remotely from a control center by having the Mains voltage drops temporarily. However, the lowering is only allowed to a very great extent take a short time for network operation, especially the operation of the connected to the network connected motors, is not disturbed. You can now use - consistently same voltage drop pulses different remote control files, such as the on and off Switching off street lights, tariff devices, hot water storage tanks or the like, perform by, for example, two pulses at different time intervals lets successive and provides the receiving relays with time selectors that only then allow the relay to respond if the respective pulse spacing is a corresponds to the time period set in advance. Certain switching commands can also when using a duration corresponding to the individual switching commands or Number of pulses on a voltage-dependent one connected to a power network Receive relay are transmitted. For this purpose, however, the receiving relay must equipped with a special timing mechanism and distributor arms as well as rows of contacts, etc. be.

With these known remote control systems, however, it would be extraordinary difficult, if not impossible, signals to be given in rapid succession, such as B. Morse code to give. Morse code could well be achieved through the short-term Achieve a voltage drop, but sending Morse code would be too long Require lowering of the voltage, which cause considerable disturbances in network operation could. The invention has the object, despite the use of only short-term voltage reduction pulses correct Morse code using the To enable receiving relay, namely the Morse code on a power network that are already connected to other control relays that are not through this Morse code may be operated, but only to simple voltage reduction pulses react.

According to the invention) the points of the Morse code are unique Voltage reduction pulses generated by delay devices in the signal reception used receiving relay to be extended to the point duration, and the dashes of the Morse code generated by repeating the voltage reduction pulses within the point duration.

-. @ It is best to give the receiving relay some storage device, that can act electrically, magnetically, mechanically, thermally or the like and through the incoming pulse is charged, but only with a certain delay can discharge under signaling.

The invention is based on the drawing, which shows an embodiment represents, explained in more detail willow.

N is the power network to which the voltage drop relay R is connected. The armature 1 of the relay is provided with a pawl 2 that connects to the ratchet wheel 3 cooperates. In the rest position shown, the pawl is out of engagement. A spring: 4 tries to pull off the armature i. Fixed on the shaft of the ratchet wheel 3 sits the ratchet arm 5, which with its pawl 6 in the teeth of a loosely on the Shaft seated ratchet wheel 7 engages. With this wheel 7 one is also loose the shaft seated wheel ß for driving a wind vane 9 connected. Instead of of the wind vane can also use another delay device, e.g. B. an eddy current brake, hydraulic damping or the like. Sits firmly on the shaft of wheel 3 the switching arm i o which a spring ii sword seeks to urge the stop 12. In the position shown holds the switch arm io the switch 13 for the signaling device 14 open.

The relay works as follows: If a point signal is to be given, the voltage in network N is reduced for a short time, for example for the duration of four half-waves; the relay R then releases the armature i for a short time, which under the action of the spring .I executes a stroke and returns again as soon as the voltage rises to its normal level. During the stroke, the pawl 2 first comes into engagement with the wheel 3 and then rotates it in the direction of the arrow by a certain amount. The switch arm io follows this movement: this closes the switch 13 and the signal apparatus 1d. switched on. At the same time, when the parts 7 to 9 are at a standstill, the pawl 6 has slid over the teeth of the wheel 7 and the spring ii serving as a memory has been tensioned or, if it was already pre-tensioned, additionally tensioned. When the arm i now returns to the position shown, the spring ii seeks to bring the arm io and the parts connected to it back into the starting position as well. During the return movement, however, the pawl 6 engages in the wheel 7, that is to say the wind vane 9 is driven. He delays the return of the; Irmes io to the starting position. After this return, the signal device 14 is switched off again by opening the switch 13. The delay device, the force of the spring ii and the stroke of the armature i are balanced in such a way that the device 14 only emits a point signal during this process. The point signal may last for a quarter of a second, for example. When choosing the duration of the point signal, the special network conditions must be taken into account: if the network can withstand four short voltage drops per second, the point signal is made a little longer than a quarter of a second, if the network can only tolerate two drops per second, then the point signal is done something longer than half a second, etc. If, with an acoustic signal, the signal still reverberates after the signaling device has been switched off due to an echo or inertia, then the relay's running time can be shortened by the reverberation time. Likewise, if somewhat luminescent screens are used with an optical signal, the running time of the relay can be shortened by the afterglow period.

If a line signal is to be given, the procedure is initially as for the Point broadcast once the voltage is briefly lowered and before the relay has expired is or the signal has died down, the voltage is lowered again and the same Repeat the process three or four times each time the relay expires. The signal can thus be extended as required. You need to do the repetition not always to wait exactly for the relay to expire after the voltage drop, but rather can also let the voltage drops follow one another in shorter pauses, because the stroke paths of the armature are temporarily stored in the relay, themselves so add up.

A one-time voltage drop thus becomes points, through successive repeated Stress reduction lines generated. Instead of the signal device 14 can also other signaling devices, especially pens, kick in each time a signal is given be pressed against a wandering paper web. Instead of a mechanical delay device the relay can also be equipped with an electrical, magnetic or similar delay device be provided.

The invention offers the advantage that despite exclusive use Morse code given arbitrarily by very short voltage reduction impulses can be.

Claims (3)

PATENT CLAIMS: i. Procedure for the remote control of signaling devices by Morse code in high voltage systems, in which for the purpose of remote control of other devices through short-term voltage drops also others connected to the high-voltage network Receiving relays are operated, characterized in that the points of the Morse code by means of one-off voltage reduction pulses, which are triggered by delay devices (5, 6, 7, 8, 9) in the receiving relay (R) used for signal reception on the point duration can be extended, and the bars of the Morse code by repeating the voltage reduction pulses can be generated within the point duration. 2. Receive relay to carry out the Method according to claim i, characterized in that the short-term voltage drops responding relay (R) or the signaling device (i4) controlled by it with a Delay device (5, 6, 7, 8, 9) provided to maintain the signaling whose delay time corresponds approximately to the length of a point signal. 3. Receive relay according to claim 2, characterized in that the relay (R) with a memory (i i) is provided, which can be charged by repeatedly lowering the voltage, but only discharges with a delay and with a signal.