DE680126C - Remote control device for receiving and executing switching commands transmitted by pulse numbers, pulse times or combinations of both - Google Patents

Description

Remote control device for receiving and executing by pulse numbers, Pulse times or combinations of both transmitted switching commands There is one with voters, working remote control device known, with the appropriate Setting of the voters present at the sending point and at the receiving point a very specific device to be operated remotely, e.g. B. a power switch selected to which a switching command is sent after the selection has been made. To select and transmission, three special lines are required. The one to operate the The energy required for the switch is applied by a spring, which is actuated by a The motor, which is always connected to voltage, is continuously wound up.

It is also known to operate in a remote control. Substation a shift drum to be provided, which is occupied with contact pieces and messages about when it expires Transmits changes in position of certain switches to a monitoring station.

After all, it is also known that the Movements of each voter in both the substation and the monitoring station by introducing a rotatable control drum, the first a plurality of, successive Performs angular movements before they move the associated actual voter drum brings a contact step forward.

The invention relates to another type of remote control, and it is assumed that the network has a large number of the most varied Apparatus such as multi-tariff meters, water storage tanks, street lights, air raid protection signals and the like., Are available from a central point at any desired point in time to be operated in the desired manner without having to transmit the switching commands special lines are necessary. Rather, the transmission itself takes place via the already existing power distribution network, preferably in that the voltage of the network is pulsed down several times. According to the invention there is a relay in the receiver that responds to the impulses, a drive that is more constant Speed for driving a control element, several energy stores and several Actuating relay provided, the energy storage according to the incoming Pulses are charged or discharged, but only then transfer their energy to the actuating relay can be delivered when the incoming pulse train of training and the Expiry of the tax body corresponds. The receiving arrangement is in the manner of a start-stop system set in motion by the first current signal received, sets with constant Speed back a certain distance and is then automatically stopped. While this path is being covered, the characterizing the command takes place Pulse sequence the correct charging or discharging of the energy storage.

In the figures, an embodiment is shown, for example of the invention, namely, Fig. 1 shows a circuit diagram of the receiving arrangement according to the invention. the Fig. 2 and 3 serve to explain the mode of operation. From Fig. ¢ are the positions can be seen that all contacts of the circuit according to Fig. i during reception take any command.

The receiving arrangement according to Fig. I consists of a receiving magnet E which, for example, drops when a power line is interrupted and the associated temporary voltage drop and only picks up again when the contact w is folded down. The contact w, as well as the contacts wo, w1, iv2i to iv26 and iv ", w32 mentioned later, are all controlled by a shift drum which is driven by the synchronous motor M, for example, executes a full revolution in 10 seconds that the roller across the three turns executes, one of which, e.g., only during one revolution. B. the first contact can be switched of. iv, is actuated by a cam plate at intervals of 30 seconds, for example such that .these from the Motor M driven cam rotates one full revolution in 30 seconds. The receiving arrangement also contains the capacitors C1, Ca, which serve as energy stores and which can be discharged onto the two receiving relays A and B in different directions depending on the polarity of the charge and B have a number of auxiliary contacts labeled with similar small letters, of which and bi are used for self-holding It is assumed that the device described below is intended to receive three commands, each of which is characterized by a combination of the positions of the two relays A and B. For example, with the command IA is pulled in, B is released. With command II, both relays A and B are picked up, with command III A is released and B is picked up. The position of the two relays determined in this way can be used in various ways to operate a local control circuit or a changeover switch. The interaction can also take place mechanically by combining the movements of both relays. ; Every command or the position of relays A and B caused by the incoming command remains in effect until the next Kcxmmandos arrives.

The changeover of each of the relays A and B to a new switching state takes place by discharging the capacitor Ca or Cb via the relevant relay winding. Which switching state is present after the discharge only depends on the The polarity of the charge of Ca or Cb depends on and not on the previous switching state of the relay.

The basic mode of operation can be seen in Figures 2 and 3. The only difference between these two images is the polarity of the charge of the condenser C. In Fig. 2 the relay A is after the discharge, i. H. after closing the indicated contact always in the tightened state, regardless whether it had tightened or fallen off before. This state is through it caused that the discharge current of the capacitor the relay A briefly to Brings response, so that a self-retention occurs via the Kontakta. In Fig.3 on the other hand, the relay A has dropped out after the discharge of the capacitor, and also regardless of the previous position. Was the relay before if it has already fallen, it attracts briefly during discharge, however, falls but as a result of the opposing amp turns from the mains voltage again off and remains fallen off. When the discharged capacitor on the relay winding is switched, nothing changes in the existing switching state.

The mode of operation of the arrangement is explained below with reference to Fig. I and the time sequence diagram (Fig. ¢). In the idle state, i.e. when the mains voltage is full, the magnet E is attracted and its contacts e1 to e4 are open. All contacts indicated in Fig. I have the position shown. This only does not apply to the contacts of relays A and B, the position of which depends on the preceding switching state. The capacitors Ca and Cb are discharged, the capacitor Cl is charged and is connected to voltage via the roller contact tv1.

When the first pulse arrives, the magnet E drops out and does not attract again by itself. The contact e1 is closed and the motor 1Y1 is set in motion, which is temporarily held via the roller contact where .

Simultaneously with this, the roller contact tvl is turned over to the right, so that the capacitor C1 is disconnected from the network. However, it retains its charge and is ready to deliver it to e "and eb. In the meantime, the roller contact iv was briefly flipped downwards around the receiving magnet E again. After a time il, which for the second pulse of the Commands I is characteristic, the roller contacts w21 to w24 are set so that the capacitors - "and eb in the event of a possible discharge of Cl with such a polarity that they switch relays A and B to the command I can bring the appropriate position. The discharge of Cl is linked to the fact that the receiving magnet E actually drops at a certain point in time. At the same time as tv21 to 'v24, the roller contacts w25 and w26 are also activated, which switch them off from the positive pole of the voltage source for the duration of the possible charging of Ca and CL.

In the present case, for example, command II is to be executed. Then the second pulse, e.g. Zt. I2, and the third, z. At the moment t4, come. At time t2, the roller contacts operated by the synchronous motor are in such a way that the capacitors Ca and Cb are charged with the polarity indicated in Fig. I. Both pairs of contacts, namely w21 to w24, are folded up. At time t4, contacts w31 and w32 are closed. When the contacts - "and e4 close due to the arrival of the third pulse, the capacitors Ca and Cb discharge onto relays A and B with such a polarity that both relays pick up, regardless of their previous switching status. Both relays then hold themselves via their contacts a and b1 until the next command.

Shortly before the end of the first cycle, the roller contact tv is turned upwards and causes the receiving magnet E to fall off if this has not yet happened, as explained in the above example. This will make the contacts at the same time. and e4 closed and the capacitors Ca and Cb discharged, if this has not already happened. At this moment contact e1 is closed so that the motor continues to run despite the brief opening of tvo. The shift drum makes two additional dead revolutions in this way. Only shortly before the end of the third rotation does the contact w switch down again and apply the receiving magnet E to the mains voltage. As a result, the contact is opened and the motor is stopped at the next opening from where. The circuit described prevents any incorrect influence from other types of pulses. The @Kontakte wsl to w "" are provided for this purpose. These contacts are automatically closed by the switching drum in the periods between times t, 12, t3 and t4. If a missing pulse arrives in such a period of time, i.e. if the receiving magnet E drops out in such a period of time, the capacitors Cl, Ca and CL are ineffective discharged due to the prepared circuit by closing the contacts e2 to e4 and influencing the relays A and B disabled. It should be noted here that Cl is only recharged after completing three full revolutions.

The establishment is not only bound by the impulses are transmitted by lowering the voltage; rather, the impulses can also mean Audio frequency are given over the power lines and the receiving magnet E to .Incentive an activity as described above.

Claims (9)

PATENT ANSi'iiiici »E-. i. Remote control device for receiving and executing switching commands transmitted by pulse numbers, pulse times or a combination of both, characterized in that in the receiver a relay (E) responding to the pulses, a drive (M) of constant speed for driving a control element, several energy stores (e.g. B. Cu, CL) as well as several actuating relays are provided, whereby the Energiespeidhe; r are charged or discharged according to the incoming impulses, but can only deliver their energy to the actuating relays if the incoming impulse film of the training and the course of the Tax body corresponds. 2. Device according to claim i, characterized marked, that the receiving arrangement received in the manner of a start-stop system by the first Electricity sign is set in motion at a certain constant speed Distance covered and then automatically stopped, and that during this The correct charging or discharging is achieved through the pulse sequence characterizing the command the energy storage takes place. 3. Device according to claim i and z, characterized in that da.ß the receiving arrangement by a self-starting or powered by the network continuously running and then mechanically coupled synchronous motor (M) is driven. q .. Device according to Claims 1 to 3, characterized in that the replication element consists of a contact roller on which the pulse sequence intended for the receiving relay by actuating contacts at suitable times and for suitable periods of time is pictured. 5. Device according to claim i to ¢, characterized in that that a command has three characters as well as the time intervals between them is determined. 6. Device according to claim i to 5, characterized in that that in the rest position of the receiving arrangement there is a main capacitor connected to direct voltage (Cl) disconnected from the network at the beginning of the movement and for the discharge of the in it stored electrical energy provided in accordance with the further pulses will. 7. Device according to claim i to 6, characterized in that: that for each receiving relay (A, B) an intermediate capacitor (C Q, Cb) is provided which is always charged by the main capacitor (Cl) with a certain polarity when the second current signal running over the contacts of the control element is intended for the relevant receiving relay. B. Establishment according to Claims i to 7, characterized in that all capacitors are via the contact roller short-circuited and discharged if one of the incoming impulses does not have the correct timing coincides with the process of the replication organ. 9. Device according to claim i to 8, characterized in that the receiving relays (A, B) are latching (e.g. via the contacts a1, b1) and that they are independent of their position ( attracted or dropped), depending on the polarity of the charge of the auxiliary capacitor, either attracted, thrown off or not influenced in their state. ok Device according to Claims 1 to 9, characterized in that each command is executed by a specific combination of contacts of the receiving relays (A, B) in a control circuit.