DE1097523B - Receiving device for ripple control systems - Google Patents

Description

Receiving device for ripple control systems is the subject of the invention is a receiving device for ripple control systems that respond to a specific audio frequency pulse image responds and for this purpose a contact distributor driven by a synchronous motor has, which is brought into start-up dependency of an audio frequency receiver and a desired switching action after going through its combination steps enables.

The subject of the invention differs from the known in that a capacitor through the contact distributor with charging, discharging and Switching circuits can be interconnected in such a way that before the start of the combination steps is charged and its charge until the completion of the combination steps for the purpose of subsequent triggering of the switching action only remains if during the combination steps of the contact distributor the transmitted audio frequency pulse image with that of the contact distributor the set pulse pattern.

The capacitor with its discharge resistance and the contact times the mailing list and the recipient working with him are included dimensioned so that when a relatively short-term glitch occurs the capacitor cannot discharge or if the distributor disconnects the discharge circuit has prepared, its remaining charge is still sufficient to trigger the switching operation. A toggle relay in reverse circuit is preferably used to carry out the switching operation is used whose auxiliary contact has the each specified switching direction of the toggle relay so that an actuation of the toggle relay - if its switching contact is already in the position through the. Remote control process is to be achieved - is no longer possible, because the capacitor has already been discharged via the auxiliary contact in this case is. The receiving device for audio frequency signals can preferably be a already proposed elsewhere arrangement can be used. With this However, not only can a single switching relay be remotely controlled but several such relays can also be operated. In this Each contact distributor is a trap after the combination steps Assign a group of three contacts each, two of which are used to determine the switching direction and the third serve to trigger the switching action.

Further details of the invention are explained in more detail below with reference to an exemplary embodiment of bar racks shown in the drawing. The position of the relay contacts corresponds to the de-energized state of the relevant relay. The contact making distributor KV has two contact tracks A and B , which consist of stationary contact part pairs 0, st and 1 to 7 or 0 ', y and 1' to 8 '. Each of these contact paths has a contact ka and kb which sweep over them and which are operated jointly by a synchronous motor M. The one contact parts of the contact track. A (st, 1 to 7) are connected via a common line a1 to the rest side of a changeover contact er of a receiving relay ER, and the one contact parts 0 'and 1' to 8 'of the contact track B are connected to the working side of the changeover contact via a line bi he connected. The other contact parts 1 to 5 and 1 'to 5' can each be connected to a line d by means of the combination switch 1 "to 5". A capacitor C is conductively connected on the one hand directly to the terminal II and on the other hand to the line b2 and the one contact part y of the contact track b and via a resistor R1 to the line d.

The other contact part Y is above a line B3 and a valve G2 I. at the terminal to the terminals I and II, the mains voltage U "is applied v. The pole of the changeover it is connected directly to the terminal II. Further, the terminal stands II in the zero position of the contactor distributor via the line a2, the movable contact kca and the line a3 with a capacitor C1, the other assignment of which is connected to the valve G1 and the winding of the receiving relay ER Via valve G2, contact kb in zero position and contact ka in start position and the working or rest side of the changeover contact it is connected to terminals I and II. A switch-on contact n1 of the auxiliary relay switches the motor either directly to terminals I and II or via a capacitor C3 and the valve G2 to the mains voltage UH. A second contact n2 is in the discharge circuit of the capacitor C3.

The receiving relay ER is via the valves G1 and G2 and one in particular high-resistance series resistor R5 is constantly excited by the mains voltage, unless one Bypass for the receiving relay is effective when audio frequency signals are received is. A transistor Tr is used for this purpose, the base of which is connected to a resistor valve arrangement R3, R4, G3 to limit the amplitude is coupled to the inductance L, which together connected to the mains voltage with the capacitor C4 and to the relevant Audio frequency is tuned. A parallel capacitor C9 to the transistor is used for Smoothing of the line voltage rectified by the rectifier G2.

The receiving relay ER is continuously energized so in the absence of audio frequency signals, keeping his changeover it in the opposite position, as indicated in the drawing.

This causes the auxiliary relay N in zero position of the contact transfer manifold from the capacitor C2 as a voltage source via the line b4, kb contact, he excites the line b1 and the working side of the changeover switch from the mains voltage UN and puts his Umschaltkontaktnl in the opposite of the position shown working position at the same time Opening of contact n2. As a result, the synchronous motor M is connected to the rectified mains voltage UN via the working side of the changeover contact yzl, the capacitor C3 and the valve G2 and can because of. of the capacitor C3 do not start.

The capacitor C3 is charged in the process. Once an audio frequency start signal, the network voltage is superimposed, the transistor Tr opens and thereby makes the receiving relay ER-energized, so that this decreases and its changeover it brings into the illustrated position. The auxiliary relay N is thus also de-energized and switches on the synchronous motor M with its changeover contact n1 returning to the position shown. In the zero position of the contact distributor, a capacitor C1 is connected in parallel to the receiving relay ER through the contact ka, which only allows the receiving relay to drop out and thus start when an audio frequency signal of a correspondingly long duration is present.

The motor M now brings the contacts ka and kb out of the zero position and the contact ka in the start position st. In the start position, the circuit for the auxiliary relay N is closed again for the duration of the start signal and the synchronous motor M is stopped when it responds again. So that the motor comes to an immediate standstill when the contacts ka and kb enter the start position, the capacitor C3 discharged via the normally closed contact n2 and the resistor R2 will give the motor a charging surge in the braking sense via the working side of the changeover contact n1: Of course, the The task of the capacitor C3 can also be fulfilled by the capacitor C in a correspondingly modified circuit. When the start signal disappears, the transistor Tr blocks and the receiving relay ER responds again, so that the auxiliary relay N drops out again and the synchronous motor M is switched on again via the idle side of its changeover contact n1. The syncbron motor M moves the contacts ka and kb over the contact tracks A and B.

The contact kb temporarily closes in the y position Charging circuit for capacitor C. The circuit runs from terminal II Via the capacitor C, line b2, contact part pair y and contact kb, the line b3, valve G2 to terminal I. Thus, the capacitor C is charged.

If, as the contacts ka and kb move on via the contact part pairs 1 to 7 or 1 'to 7', the specific combination step determined by the switching contacts 1 "to 5" and the auxiliary contact s1 of the switching relay S coincides with the transmitted audio frequency signal sequence, ie the receiving relay ER its changeover he rhythmically kd with the travel speed of the contacts and kb operated so that the capacitor C to the step 8, a discharge 'can not be discharged, then carried out on step 8' of the capacitor C via the winding of the switching relay S. It is hereby assumed that the audio frequency signal sequence ends when the switching step 7 or 7 'is reached and thus the receiving relay ER has brought its changeover contact into the working position when the contact kb reaches step 8'.

The switching relay, preferably a toggle relay with reverse circuit its contact s2 a switching, reporting or remote control circuit not shown in detail.

The motor remains switched on until the contacts kca and kb has returned to its zero position. Because at this time the audio frequency signal has already ended, so the receiving relay ER is energized, the auxiliary relay N respond in the zero position of contact kb and interrupt the motor circuit. The synchronous motor M is immediately due to the charging current of the capacitor Cl Brought to a standstill.

But if the combination of characters co-determined by the changeover contacts 1 "to 5" at one point does not match the audio frequency signal sequence, then over one of the changeover contacts and one of the contacts ka or kb and the relevant ones dormant. Contacts of a contact path of the discharge circuit for the capacitor C. closed. However, if the auxiliary contact s1 already has one in step 6 or 7 Has a position that he should only assume after actuating the switching relay, or the first part of the five combination steps does not involve the audio frequency signal sequence matches, then one of the changeover contacts and one of the contacts ka or - kb as well as the relevant dormant contacts of a contact path of the discharge circuit closed for the capacitor C, so that an actuation of the switching relay is prevented will. Up to the contact position 7 or 7 ', the transmitted character string must therefore be in a certain chronological order according to the specified switching action to be taken be maintained.

To avoid premature discharge of capacitor C through in the meantime to prevent short-term interference pulses occurring between two switching steps, is the time interval between the individual steps of the contact distribution list KV relatively large compared to the contact times on the individual switching steps chosen. This also means a glitch that occurs during the contact time can cause only a slight discharge of the capacitor C, so that its residual charge still leads to the triggering of the switching action is in the discharge circuit of the Capacitor C of the resistor R1 arranged. The time constant of the R. -C element is chosen accordingly large. It is assumed in the above that the glitch of shorter duration than the contact time.

The specified structure of the contact distributor is chosen because of the simpler graphic representation. In reality, it is more advantageous to apply the contact tracks A and B and the line d to the top and bottom of an insulating plate in the form of etched circle segments and to provide the line d with radially directed stub lines instead of switching contacts, via the resilient contacts, namely the Contacts ka and kb, are moved. The connection or interruption between the contact tracks and the line d in this case takes place in that the stub lines are covered by insulating pieces, namely either the stub line on the bottom or on the top, see above. that the resilient contact pieces are lifted off by the insulating pieces and thereby prevented from making contact.

Claims (7)

PATENT CLAIMS: 1. Receiving device for ripple control systems, which responds to a certain adjustable audio frequency pulse image and which for this purpose has a contact distributor driven by a synchronous motor, which is brought into start-up dependency of an audio frequency receiver and which enables a desired switching action after going through its combination steps, characterized in that a Capacitor (C) is interconnected with charging, discharging and switching circuits by the Kon.taktgabe- distributor (KV) in such a way that it is charged before the start of the combination steps and its charge only then until the completion of the combination steps for the purpose of subsequent triggering of the switching action. retains if during the combination steps of the contact distributor the transmitted audio frequency signal sequence matches the impulse pattern set on the contact distributor (1 "to 5"). 2. Receiving device after Claim 1, characterized in that the time interval between the individual Steps of the contact distributor (KV) relatively large compared to the contact times selected on the individual switching steps, so that occurring in, the intermediate times No discharge of the capacitor (C) is prevented. 3. Receiving facility according to claim 1, characterized in that in the discharge circuit of the capacitor (C) a discharge resistor (R1) and the time constant of the Ri C element is so dimensioned that a while. Interfering impulse occurring during one contact time only such a partial discharge can cause the remaining charge of the capacitor (C) is sufficient for the switching operation. 4. Receiving device according to claim 1, 2 or 3, characterized in that a toggle relay is used to carry out the switching operation (S) is provided in reverse circuit, its auxiliary contact (s1) on the last the specified switching direction for both combination steps. of the toggle relay specifies. 5. Receiving device according to the preceding claims, characterized in that the synchronous motor (M) of the contact distributor is brought into switch-on and stop dependency by an auxiliary relay (N), which in turn is in the zero position via the working side of the switching contact (er) of a receiving relay (ER) of the contact distributor (KV) is connected to voltage and interrupts the motor circuit until a start signal that causes the receiving relay (ER) to drop occurs, and that the motor brings the contact distributor (KV) into the start position (st) from which it returns to its zero position via the combination steps after the start signal has ended. 6. Receiving device according to the preceding claims, characterized in that the capacitor (C) is on one between the starting position (st) and intermediate step (y) located in the first combination step (1 ') is connected to a charging circuit. 7. Receiving device according to the preceding claims, characterized in that the contact distributor (KV) consists of two synchronously actuated contact tracks (A, B), of which the range of the combination steps certain resting contacts always only one or the other over the working or . Idle position of the changeover contact (er) of the receiving relay (ER) on one side to the capacitor (C) can be connected, and that via the last resting contact (8 ') of one contact track (B) the capacitor (C) after the end of the audio frequency signal sequence to the Toggle relay (S) is connected. B. Receiving device according to claim 5 and 7, characterized in that for the separate actuation of several toggle relays the contact tracks (A, B) following the common combination steps (1 to 5, 1 'to 5') a number corresponding to the number of toggle relays Contact groups, each consisting of two contacts (6, 7; 6 '7') for defining the switching direction and one (8 ') for actuating the relevant toggle relay, are assigned. 9. Receiving device according to claim 7 or 8, characterized in that the two contact tracks. (A, B) and the common capacitor lead (d) are designed as circular segments applied to the top and bottom of an insulating plate and the latter is provided with stub conductors arranged in the radial direction, which are swept over by motor-driven resilient contacts and which are used to set the Character combination in each case one of the two associated stub lines on both sides of the insulating plate can be covered by insulating pieces against the contacts. 10. Receiving device according to claim 1, characterized in that to stop the synchronous motor after running into the zero or start position, a previously discharged capacitor is charged in the braking sense over the motor. 11. Receiving device according to the preceding claims, characterized in that the capacitor is also used for actuating the toggle relay to stop the motor. 12. Receiving device according to claim 1 or 6, characterized in that in the zero position (ka) of the contact distributor (KV) through this one. Capacitor (C,) is connected in parallel to the receiving relay, which only allows the receiving relay to drop out and thus start if an audio signal of a longer duration is received. - Publications considered: German Patent No. 1018 962; Austrian patent specification No. 167 803.