DE905397C - System for the selective remote control of work processes through interruptions of an alternating current network feeding the receivers caused by a transmitter - Google Patents

Description

System for selective remote control of work processes by from Interruptions caused by a transmitter in an alternating current network feeding the receivers The invention relates to a system for the selective remote control of work processes due to interruptions caused by a donor in one of the receivers feeding, a special kind of alternating current network that is not permanently live the choice of a specific work process by the time period between two Interruptions in the alternating current network is determined. Such a remote control system can e.g. B. be such that when the network is switched on at the encoder and 'on the recipients provided voters are put in sync that after a subsequent short-term interruption of the network in each case that of the selected Duration between two interruptions assigned recipient selector their work process execute and that then all voters after reaching their starting position come to rest. The invention aims at remote control systems as outlined above Type the automatic remote control of the work processes and is characterized in that a time element does both the interrupts and the encoder that the transmitter dialer running synchronously with the receiver dialers initiates the process of the time element and determines the length of time between two interruptions will. A contact selector with two contact groups can preferably be used for the time element Find use that are alternately connected to .the associated contact arm. This contact arm is connected to one via the excitation winding of the timing element Mains conductor A and, via a normally open contact, one in series with the contact arm of the Contact selector lying relay connected to a power line B and the one Contact group across the winding one causing the network interruptions Relay to power line A and the other contact group via the field winding of the encoder selector to power line A and via a zero contact of the (encoder selector and the breaker contact of the network with .dem network conductor B connected.

Furthermore, a contact relay can be used for each remote-controlled operation be provided that with a pressure contact provided for each relay and via the common breaker contact of the network for all relays the start contact and the selector contact connected to the relay winding of the Transmitter selector connects to power line B via a break contact of a shutdown relay. The shutdown relay can be from one of the transmitter selector shortly before returning to his Initial closed contact can be controlled.

In the drawing, the invention is shown in Figs. R and 2, f only the basic circuit diagram of the remote control method and 2 shows the switching arrangement of a remote control system with automatic control the operations shows.

According to the circuit diagram of FIG. I, the sensors contain z one from the network A, B controlled, executing a very specific movement when started and Engine 2 running at constant speed and one coupled to it Selector 4. and the also controlled by the network receiver 5 with your engine 2 synchronously running engine 6 and a contact selector coupled to it 7 and contact relay 8, g.

When the network _1, B is switched on by a switch 1o provided at the transmitter station, the selectors 1 and 7 are set in motion by their engines 2, 6. If, for example, when the contact arms ii, r2 are reached, their voter contact; ,; by acting on the switch zo das @, Tetz A, B briefly interrupted, the Reiais 8 is de-energized and thus its working contact 13 is closed. When the network is switched on again, the relay 9 performing the operation is excited, whereupon the relay 8, which is also excited, opens the normally open contact 13. The contact arm 12- has thus become de-energized again. The two engines, 6 come to rest as soon as the contact arms 1i, 12 have reached their initial position. So that the contact arm 12 of the receiver selector 7 is de-energized only after the relay 9 has been energized, the relay 8 must have a pick-up delay.

The operation of the remote control method is based on the fact that after an interruption in the network, the voters are put in sync and that a second brief interruption of the network takes place at a selectable point in time, according to which the recipient voters assigned to this point in time carry out their work carry out.

In the remote control system shown in detail in Fig. 2 for the automatic remote control of work processes, the transmitter connected to the power lines A, B contains a contact selector Kt Contact relays V, W, X, Y and a number of contact relays Z., Z2, Z3 ... and pressure contacts D1, D2, D3 corresponding to the operations to be carried out. . .. The arrangement of these operating means in the switching arrangement of the encoder is readily apparent from three Fig. 2, so that this need not be discussed. It should also be mentioned that the transmitter is connected to the new mains conductors _A, B and the receivers Ei, E2, E3. .. are connected to the line conductors A, Bi.

To initiate and carry out a work process, the pressure contact corresponding to the desired work process must be depressed. The pressure contact D3 is thus acted upon when, for example, the receiver E3 is to carry out an operation. A circuit _1, a, D3, x i, y1, B is then closed. The contact relay Z3 is thus excited, whereby the normally open contact a and the holding contact a2 are brought into the closed position.

When the pressure contact D3 is released, the contact relay Z; over a2, w, excited. Furthermore, a circuit A, 1T, b, a1, w1, B is closed by the normally open contact a1 brought into @ the closed position, so that the contact relay V is excited and its normally open contact v i closes. A circuit for the interrupt relay Y is then closed via v, the excitation circuit of the synchronous motor, Sz and also via v1, c, ei. The interruption relay Y brings its normally closed contact y, out of the closed position, whereby the first interruption of the network A, B1 takes place, the duration of which is given by the speed of the contact arm c, which is now rotated by the synchronous motor S2, and the width of the contacts of the contact group ei.

As soon as the contact arm c moves from the contact group ei to the contact group e2, the interrupter relay Y is de-energized and the network <9, B1 is closed again as a result. When the contact arm c - rests on the contact group e, two circuits are closed, one of which is formed by <q, X, c2, c, vi, B and the other by A, S1, e2, c, 1j1, B. As a result, the relay X is energized and its normally closed contact x1 is brought into the open position. In this way it is achieved that the action on a further pressure contact remains ineffective during the activity of the transmitter. By closing the second-mentioned circuit, the synchronous motor S1 is put into operation. Shortly after the synchronous motor responds, the zero setting contact ff is closed. The conductor g connected to the network conductor B and routed via the normally closed contact y1 is then brought into connection with the synchronous motor S1 and with the contact group e2. When the contact arm ccm, which is still driven by the synchronous motor S., hits the next contact of the contact group ei, a further movement of the synchronous motor S1 takes place via this conductor g.

The contact arm b of the contact selector K1, which is driven by the synchronous motor S1, causes an interruption of the circuit A, h, b, a1, w1, B. After leaving the initial contact o, the contact relay h now deenergized then interrupts its normally open contact v1. For the time being, however, the synchronous motor S remains excited via the circuit A, S2, c, e., F l, g, y1, B. Only when the contact arm c. Of the contact selector K2 comes to the next contact of the contact group ei will the synchronous motor S2 come to a standstill by interrupting the circuit just mentioned. The contact arm c connected to the contact group e1 then comes to rest. An excitation of the relay Y will not yet take place, since its circuit is now kept open by the normally open contact v. Only when the contact arm b of the contact selector KI, driven by the synchronous motor S1, hits contact 3, the circuit A, II, b, a1, w1, B for the relay h is closed again. The now closed normally open contact v1 then has the effect that, firstly, the synchronous motor S starts up again and, secondly, the relay Y is energized. The network A. .Bi is then opened the second, n times.

The interruption of the network A, B1 is eliminated as soon as the contact arm c of the contact relay K comes to a contact of the contact group e2. Then the contact arm b of the contact selector K1 will also leave the contact 3, so that the relay h is de-energized again and its normally open contact v1 is interrupted again. The synchronous motor S2 then does not come to a standstill, however, because it is now fed via a circuit A, S., c, e2, f1, g, y1, B. A standstill will occur as soon as the contact arm c of the contact selector K2 touches the contact group ei.

Shortly before the initial position of the contact arm b of the contact selector h1, the contact f2 is connected to the contact f1, whereby the switch-off relay W is energized. The normally closed contact w1 of the switch-off relay u 'will then: interrupt the circuit _A, a, a2, w ,, B. As a result, the winding o of the contact relay Z3 is de-energized. The normally open contact a1 and the holding contact a2 of the contact relay Z3 then resume their initial position. In the end position of the contact selector K1, that is the position in which the contact arm b rests on the contact o, the contacts f i and f2 are opened. The synchronous motor then also comes to a standstill. This means that the encoder is again in the ready position to control the next work process.

Of course, you can also train the remote control system in such a way that that by more than two interruptions within one. Voters circulate that through receiver controlled by the encoder

Claims (3)

PATENT CLAIMS: i. System for the selective remote control of work processes caused by a transmitter interruption of an alternating current network feeding the receivers, the choice of a certain work process being determined by the duration between two interruptions in the alternating current network, characterized in that a time element is used for the purpose of automatic remote control of the work processes (K2) of the encoder (i) both brings about the interruptions in the network (A, B) and determines the duration of these interruptions and the encoder selector (4) running synchronously with the receiver selectors (7) initiates the activation of the time element (2 ) and determines the length of time between two interruptions. 2. Remote control system according to claim i, characterized in that a contact selector (KZ) with two contact groups (ei, e2) is used as the time element, which are alternately connected to the associated contact arm (c) which is connected via the excitation winding (S2) of the time element to a network conductor A and a normally open contact (V1) of a relay (Tl) lying in series with the contact arm (b) of the encoder selector (KI) is connected to a network conductor (B) , and that one contact group (ei) is connected via the winding a relay (V) causing the mains interruptions with, the mains lead (# 1) and the other contact group (e2) via the excitation winding (S1) of the encoder selector with the mains lead (A) and via a zero contact (f,) of the upper selector and the breaker contact (y1) of the network (A, B) is connected to the network conductor (B) . 3. Remote control system according to claim i, da-.characterized in that a contact relay (z1, z2, z3) is provided for each remote control operation, which is provided with a pressure contact provided for each relay (D1, D2. D3) and for all relays common breaker contact (y,) of the network (A, B), the initial contact (O) and the selector contact (i, 2, 3) of the encoder selector connected to the relay winding via a normally closed contact (w1) of a switch-off relay (W) connects to the line conductor (B). q .. Remote control system according to claims i and 3, characterized in that the switch-off relay (PI ') from one of the transmitter selector short. before its return to the initial position closed contact (f2) is controlled, ger be brought into effect according to a combination selection system. The Fernsteueranll.age is for the remote control of all types of work processes, such as in.spielsweise the control of tariff meters, hot water storage tanks, street lighting networks, etc., usable.