DE1224395B - Receiver for ripple control systems - Google Patents

Description

Receivers for ripple control systems are known in ripple control systems Pulse telegrams sent from a central command point to a power line, to carry out switching operations in remote devices. In the receiver will A synchronous motor started by a start impulse, which has a contactor drives. This contactor normally runs for the duration of the pulse telegram once around. After this rotation, the synchronous motor is interrupted by a Self-holding track, which is located on a Kantakt disc, brought to a standstill. If the receiver accepts the preset pulse during the turn of the dialer, in addition to the status pulse If there are further impulses, the receiver will be adjusted to them a switching action is carried out.

Such an arrangement is not useful when acoustic or optical signals are to be controlled, as they are, for. B. be used in air defense. The signaling of all types of signals must begin immediately after the start pulse. In addition, it should be possible to switch to another signal while the signal is being given. However, this is not a recipient of the conventional type described above possible.

It is known to use a pulse telegram for such purposes, in which after a start impulse for the entire duration of the signaling impulses in certain Intervals are sent, with each pulse signaling for the duration up to initiates the next impulse. For example, for a continuous tone or a continuous light an uninterrupted pulse train is sent during the delivery for blinking or howling every second pulse is necessary. Likewise, by omitting several impulses an interrupted signaling can be brought about.

A disadvantage of an arrangement based on this principle is the fact that the contactor continues to run even in the absence of pulses until it has his Has completed rotation. This is particularly disadvantageous if, during the accident a power failure occurs. In such a case, the contactor remains in the relevant position and does not complete its rotation until it is switched on again of the, network, so that when the system is switched on again for a certain period of time is ready to receive.

, With the device according to the claims, these disadvantages are avoided. According to the invention, control pulses of the pulse telegram extend over several uninterrupted revolutions of the contactor. This measure has the advantage, among other things, that the pulse telegram can have any length, regardless of the number of contacts that can be accommodated on a contact path, which was decisive in the previous arrangements.

The reception of the start pulse expediently only effects one cycle of the contactor, while the last pulse assigned to the cycle is received by bridging the zero position on the self-holding contact one more revolution proved.

For the control of optical or acoustic signal generators with permanent or intermittent signals such as those used e.g. B. used in air raid protection the arrangement expediently made so that one revolution of the contactor one period of the intermittent signal. In this way it is possible in any one way Immediately shut down the receiver in the event of a malfunction without first having to do the rest Time until the end of the pulse telegram must continue to run in the starting position.

The contactor is provided with a contact that closes it the receiver is switched to standby when the start impulse is longer than a control pulse. If the start impulse is not long enough, it begins Although the voter motor is running, the receiver is not on standby set so that signals are not emitted. The start impulse must therefore be the have the appropriate length.

If the start pulse is too long, there is a in the contactor further contact is provided, which cancels the readiness of the recipient, so that the contactor is stopped at the end of its revolution, namely then, if, as I said, the start pulse is too long or but a glitch is received in the pause in question. Another contact at the contactor can only cancel the readiness of the recipient if the last one The pulse assigned to the cycle or the first pulse of the period not sent became.

An exemplary embodiment of the invention is explained in more detail with reference to the drawing explained.

The contactor 10 of the receiver, shown in B 1 1 d 4 and designed as a contact disk, is explained in conjunction with the circuit according to B i 1 d, 5 . The 50 Hz network is connected to terminals R and Mp, on which the audio frequency pulses are superimposed from a central unit. An input resonant circuit made up of a capacitance C and an inductance F is tuned to the audio frequency. The inductance is represented by an audio frequency relay F, which has a contact f in the circuit of a relay RH. The relays RH, R, and R, are normal telecommunication relays, which are activated by appropriate relay contacts. The relay Ri is, and, 1, equipped with two windings R R. K to K. are contact pads of the contactor 10 (B i 1 d. 4). - M is the motor required to drive the contact disc synchronously. ü is a transformer and Gl is a rectifier arrangement.

The functioning of the receiver is as follows: If a start impulse is given, the relay F in the input resonant circuit responds and closes its contact f. As a result, RH is excited so that the selector synchronous motor M can start via its contact rhi. This is now kept in operation by a selector contact K until the zero position is reached, i.e. for one full revolution.

If the start pulse is long enough, relay R, 1 is energized via contact K2 of contactor 10 and relay contact rh 2, thus preparing the signal. The relay R1I holds itself through its contact r ,. The contact K "checks the pause between the start impulse and the first impulse as well as later between the even and odd impulses. If the relay F is excited by an interfering impulse during a planned pause, the relay RH responds and applies rh via its contact The second winding of the relay R1 is energized. The counter-excitation generated in this way causes the relay R to drop out. The motor M runs, powered by the contact pad Kl, in the rest position, the readiness to receive is canceled.

If, on the other hand, no impulse arrives during the pause, according to the intended impulse telegram, relay R remains energized, so that relay R2 is energized with the first impulse after relays F and RH respond via contact pad K. and relay contact rh4 which gives the desired control command via its contact r21 and is held via another contact r .. and the contact pad K 6 a until K6 a opens. If further impulses follow, the process described above is repeated between the Kontaktbelägr, nl'C.5b and K,, b. Relay R2 remains energized and the command persists until no further pulse follows after the pulse telegram has ended.

When relay R is energized, contact Kf checks the pause between the odd and even pulses. If a disturbance pulse is received during the pause prescribed by the pulse telegram, the relay R :, releases its counter-winding Rlu. However, if no odd pulse is received and if the contact 10 runs onto the contact pad K4, the RclaiG R, is not -excited, the counter-winding R, 11 is excited via the contact pad K4 and relay contact r2, and the relay Ri is thrown off, see above that the motor M on the Eride of the Kentakt covering Ki stops in its rest position.

In B i 1 d 1 an intermittent signal is shown, as it is z. B. emits a siren. One contact disk revolution is assigned to one period of this intermittent signal.

B i 1 d 2 a shows a pulse sequence consisting of a start pulse s and the pulses 1 to 3, which are to be sent at the moment of contact -%, en K5a and Kb. With # pielsWeise these can cause the signal shown in Fig. 2b, a continuous tone or a permanent light. The complete pulse telegram is, expressed as a sequence of numbers, the following: C s 1 2 3 4 5 ' 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 By omitting every second pulse, a pulse sequence is created as it is indicated in B i 1 d 3 a. B i 1 d 3 b shows the type of signal again, which in this case is a howl (B i 1 d 1) or a flashing light. The complete pulse telegram has the following appearance: s 1 3 5 7 9 - 11 13 15 17 19 - 21 23 25 By omitting all of the following impulses after a certain impulse, e.g. the 5th, 15th, 25th, the interrupted permanent tone or permanent light results from the permanent or permanent light, the impulse telegram of which is to be represented as follows: s 1 2 3 4 5 - - - - s 11 12 13 14 15 - - - - s 21 22 23 24 25 - - - - Finally, the fourth type of signal provided for in air protection is the interrupted, howling or flashing light with the following pulse telegram: s 1 3 5 s 11 13 15 s 21 23 25 In the representations is s = start pulse, 1 to 25 = transmitted pulses, - = missing impulses.

Claims (1)

1. A receiver for remote control systems with a generator driven by einertMotor synchronously contact Gebar, characterized in that the control pulses of the pulse telegram extend over several uninterrupted rounds of Kontaktgebürs (10), 2. A receiver according to claim 1, characterized in that the Receipt of the start pulse causes only one revolution of the contactor (10) and the receipt of the last pulse assigned to the revolution causes another revolution by bridging the zero position on the self-holding contact (K,). 3. Receiver according to claim 1 and 2 for the control of optical or acoustic signal generators with continuous or intermittent signals, characterized in that one revolution of the contactor (10) corresponds to a period of a pulse telegram consisting of several periods. 4. Receiver according to claim 1 and 3, characterized in that the contactor (10) a contact (K,) closes and via this and a controlled by the audio frequency contact (rh.) The receiver is switched to standby. 5. Receiver according spoke 1 to 3, characterized in that in the contactor (10) two contacts (K., K4) are arranged so that the readiness of the receiver is canceled by them and the contactor is stopped at the end of its revolution if during an interfering pulse is received after the pulse pause. 6. Receiver according to claim 1 to 4, characterized in that one of these contacts (K4) cancels the readiness of the receiver if the last associated with the cycle or the first pulse of the period was not sent. Documents considered: German Patent No. 861 434; German Auslegeschrift No. 1098 079; Austrian patent specification No. 167 803.