SU970424A1 - Signal receiving device - Google Patents

Description

The invention relates to automation and can be used to control a large number of objects working sequentially one after another in time.

A device for receiving signals made on the basis of a distributor-generator containing election nodes, each of which is; q a delay bridge element and consists of capacitors and resistances, a diode is connected to the bridge diagonal, and a transistor with input and collector in series with one of the capacitors resistance [1].

A disadvantage of the known device is the presence of three communication lines between adjacent nodes of the election.

Closest to the proposed device for. signal reception, performed on a reversible distributed switch, containing a selection relay and a relay of movement of the election nodes, connected via diodes and relay contacts of the corresponding election nodes to the power buses, adjacent dialing nodes are interconnected by two closing contacts of the motion relay of these election nodes, diodes are connected in parallel to the contacts , and the directions of switching on the diodes of the neighboring election nodes are opposite to Г2].

A disadvantage of the known device is its high power consumption.

The purpose of the invention is the reduction of energy consumption.

This goal is achieved by the fact that in the device for receiving signals containing election nodes, each of which contains two pairs of diodes connected by the anode and cathode, the anode and cathode of the first pair of the first election node are connected to the input of the device and a common bus, double winding is introduced into each election node a relay with magnetic memory and a time relay with an on and off delay with make and break contacts, the first output of a winding of a time relay with a shutter speed on and off through the first open contact winding relay with magnetic memory is connected to the first terminal of the first winding of a double winding relay with magnetic memory and the cathode of the first diode of the first pair, and through the first make contact is connected to the first terminal of the second winding of the double winding relay with magnetic memory and the anode of the second diode per 970424 'relay winding and common bus and howl pairs, the second time output with a shutdown delay is connected to a time relay with a shutdown delay for switching on and off - to the second terminals of the first and second windings of a two-winding relay with with magnetic memory, the cathode and anode of the diodes of the second pair, respectively, through the second make and break contacts of the double-winding relay with magnetic memory are connected to the anode and cathode of the diodes of the first pair of the subsequent election unit.

The drawing shows a schematic diagram of a device for receiving signals. .

The apparatus 1 comprises a relay with a time delay tripping vklyuchenie'i and its normally open contact, double-wound relay 2 with magnetic memory and its trailing and 2 ^ 2 _ί and break contacts 2j + 2 ₄ 3-5 electing nodes, each input node 6, common bus 7, in pairs, diodes 8 and 9.

An actuator (not shown) is connected in parallel with the coil of the time relay 1.

The device operates as follows.

In the initial state, all circuit elements are disabled. To turn on the node 3 plus the power supply, it is necessary to apply to · input 6, and minus to the bus 7. In this case, the actuator and time relay 1 will receive power through the diode and the NC contact. After the expiration of the time provided for turning on the actuator, relay 1 is turned on and with its make contact 1 ^ supplies 40 power to the first winding of relay 2. Relay 2 is turned on and with its switching contacts it breaks the circuit for switching the nickname and time relay 1 of the first node 3 and closes the circuit enable actuator and relay 1 time of the second node 4.

The time relay 1 of node 3 is de-energized and breaks the power supply circuit of relay 2 on winding by its contact. For normal operation of the circuit, it is necessary that the shutdown time of relay 1 is longer than the time on relay 2. Relay 2 is held in the on position by magnetic memory without consuming electrical energy .

The elements of the node 4 are included in the same way and prepare the switching circuit of the node 5.

After turning on the relay 2 of the last node, it is necessary to change the polarity of the applied voltage at input 6 and bus 7, i.e. at input 6, apply the minus of the power source, and to the bus of the executive mech 10 of the mechanism, including 50 plus. In this case, the actuator and the time relay 1 of the first node are supplied with power through the diode and the closing contact 2 _γ . After the time required for the actuator to turn on, relay 1 starts and with its make contact provides power to the disconnecting (second) winding of relay 2. Relay 2 is turned off and breaks the actuator switching circuit ι and the time relay 1 of the first node 3 with its switching contacts and closes the actuator's enable circuit mechanism and time relay 1 of the second node 4. The time relay 1 of the first node is de-energized and by its contact breaks the power circuit of the trip winding of relay 2, which, while holding it in the off position It does not consume electrical energy.

The elements of the second node are switched in the same way and they prepare the switching circuits of the third node. After the relay 2 of the last node is turned off, the polarity of the applied voltage at input 6 and bus 7, etc., must be changed again.

Thus, during operation of the device, relays with magnetic memory are sequentially turned on or off, preparing ^ power circuits for each subsequent node without consuming electrical energy after switching, since the power circuits of their coils are broken by the closing contacts of the time relay 1.

The selectivity of activating the actuator on each node is ensured by the position of the switching contacts of relay 2, the direction ι of switching on the decoupling diodes and the polarity of the supply voltage supplied to: communication input 6 and bus 7.

To orient the device to its initial state, it is necessary to enter

I 6 and bus 7 supply voltage, the polarity of which is determined by the position of the contacts of relay 2 of the first node.

The supply of each node of the relay device with magnetic memory and a time relay with an on / off delay allows it to be used in relay devices with limited electrical energy consumption. , gee.

* Tests show the reliability of the proposed device, it can be used in control systems for roof supports of commercially available mechanized coal mining complexes.

Claims (2)

1. Katkov F.A. Telecontrol. Kiev. Technique, 1967, p. 256. 2. USSR author's certificate number 369268, class, E 21 D 15/46, 1973 (prototype).