SU836798A1 - Three-channel relay trigger - Google Patents

Description

(54) THREE-CHANNEL RELAY TRIGGER

I

The invention relates to automation and can be used in three-channel control systems.

 Known three-channel device containing transistors and relays 1.

The disadvantage of it is the absence of memory elements. A known relay trigger contains a memory relay, a reset relay, resistors, and f2J diodes. The disadvantage of it is low reliability when operating in a three-channel system.

The aim of the invention is to increase the reliability of the three-channel relay trigger.

The goal is achieved by the fact that in a three-channel relay trigger containing in each canape, the first and second relays, the first terminals of the windings of which are connected to the first power bus through their resistors, and the second output of the winding of one of them is connected to the first output of the winding of another relay of its channel and to the closing (opening) contact of the second relay, a switching contact. which is connected to the channel input, in each canape the second power bus through the second and third contacts of the first relay of the subsequent channel respectively and the corresponding third and fourth decoupling diodes are connected to the second terminals of the windings of the first and second relays of this and previous channels.

Figure 1 shows the principle circuit of a three-channel relay trigger in figure 2, a diagram of operation with various combinations of signals at the inputs.

Claims (2)

In accordance with Fig. 1, a three-channel relay trigger contains relays 1 with contacts 2-4 on each channel, de-energizing diodes 5-8, resistors 9.10 and relay 11 with a switching contact 12. Positive power bus 13 via contact 2 of relay 1 own channel and connected in series with it contact 3 and contact 4 of the relay 1 of another channel and through the corresponding opening diodes 5 and 8 are connected to the windings of relay 1 and relay 11 of their own and previous channels. Figure 2, which shows the operation diagrams of the first, second and third channels of the TR igger at various combinations of input signals, T is the duration of the input signals in each channel Tr, the duration of the pause between the input signals 5 T is the operating state time . Relay 1 of each channel T “- the duration of the output signals in each channel at T is the operating state of the relay 11 of each channel X. the inputs of the first, second and third channels are respectively u5 (C (C, -signals on channels; .Y, 2 UL, and UI output channels: .- Channel signals. The device operates as follows. Before the X, X, X inputs of the signals of relay 1 and 11 of all channels are de-energized and are in the original states Signals at the outputs YYY are missing J. s When a signal arrives at one of the inputs (for example, X) of relay 1, the first droplet Circuit: input X, contact 12-relay 1. diode 6, relay 1 winding, resistor 9, negative bus 14. Contacts 2-4 of relay 1 are idling and the state of the circuit does not change. When the signal from input X- is removed, the trigger circuit returns to its original state. When signals are received at any two inputs (for example, X and X, 2), the first and second channel relays trigger each by their own circuit described above. the first channel is blocked by the circuit: bus 13, contact 2 of the relay 1 of the first channel, contact 3 of the relay 1 of the second channel, diode 5, winding 1. hardly relay 1 blo second channel, for kiruets Chains bus 13, pin 2 of the relay 1 of the first cocoa relay contact 4 1 of the second channel, contacts 3, 4 turnips then the first channel 1, the diode 5, and then the relay coil of the second I channel. Relay) of the third channel is triggered by the circuit: female 13, contact 2 of the relay of the first channel, contact 4 of the relay 1 of the second channel, diode 5, then the winding of the relay 1 of the third channel. By triggering turnip 1 of the third channel, the following blocking circuits of the second and third channels are formed: a) Bus 13, contact 2 of relay 2 of the second channel, contact 3 of relay 3 of the third channel, diode 5, then winding of relay 1 of the first KaHanaj b) bus 13, contact 2 relay I of the second channel, contact 4 of the relay 1 of the third channel, diode 5, then the winding of the relay 1 of the second channel; c) thickness 13, contact 2 of the relay 1 of the third channel, contact .4 of the relay 1 of the first channel, diode 5, then winding of the relay 1 of the second channel then winding relay 1 of the third channel. Thus, by triggering the relay in any two or three Kajiariax, blocking circuits of three channels with outputs C of the blocking circuit of each channel are formed through diode 8 is fed to the winding of the relay I1 of this channel. If there are positive signals U., y-relay 11 on inputs i, X, X2, X .J, they are shunted through their own disconnecting contacts 12. When the input signals are removed, the winding bypasses the relay 11 and it triggers. On this cycle, the triggering of all the trigger channels is over (see Fig.2). The outputs Y positive signals Uy. , 0 ,, Vi The triggered state will have triggered after applying to its inputs X, X, X or any two of the three inputs of odd positive pulse signals Ux, Uy Uj (see Fig.2) with a duration of no less than the response time of relay 1 in each channel. When applied to inputs X ,, or to any two of the three inputs of even positive impulse signals with destructiveness n-less than the release time of relay 1, all the capacitors of relay 1 release, since their windings are closed and this moment contacts 12 d.le I 1 they are shunted, and relay 11 through the same contacts and diodes 7 are blocked each at its own signal. Upon releasing the relay 1 at least in two channels, the signals ,, 1) U; j at the outputs, Y .j, Yj, are removed. At the end of the even-numbered input signals of the relay 11 of each channel are released (see Fig. 2), and the trigger circuit arrives in the initial state. Claims of the invention A three-channel relay trigger containing, in each channel, a first and a second relay, the first terminals of which through their own resistors are connected to the first power bus, and the second terminal of the winding of one of the Nichi wires is connected to the first winding terminal another relay of your channel ig. 1 and to the closing (disconnecting contact of the second relay, the switching contact of which is connected to the channel input, characterized in that, in order to increase its reliability, in each channel the second power bus, respectively, through the second and third contacts of the first relay of the subsequent channel and the corresponding The third and fourth decoupling diodes are connected to the second pins of the windings of the first and second relays of this and the previous channels.The sources of information taken into account during the examination 1. USSR author's certificate No. 354622, ln 03 K 19/42, 10/5/70. 2. USSR author's certificate number 447774, cl. H 03 K 23/03, 16.05.72 (prototype). ii-z 2