SU970423A1 - Signal receiving device - Google Patents

Description

(54) DEVICE TO RECEIVE SIGNALS

one

The invention relates to automation and telemechanics and can be used in control and monitoring equipment.

A device for receiving signals, made on a three-stroke reversible distributor, contains electromagnetic relays, a common power bus, three clock lines, communication lines (power bus) between nodes (cells), and isolating diodes 1.

The disadvantage of this distributor is the presence of five .-: other communication between adjacent nodes.

Closest to the present invention is a device for receiving signals, made on a relay reversing distributor, containing electing nodes, power buses, single-winding relays with short circuits and disconnecting contacts, first diodes of the first single-winding relay of each electoral node connected to the cathode of the first development the connecting diode, the anode of which is connected via the opening contact of the second one-winding relay to the first power bus, with the cathode of the second connecting diode the anode of which

through the short-circuiting contacts of the first single-winding relay, respectively, connected to the second and third power buses, the first winding terminal of the second single-winding relay is connected to the cathode of the third decoupling diode, the anode of which is connected to the first and second power buses through the short-circuiting contacts, and the fourth cathode

10 isolating diode, the anode of which is connected through the disconnecting contact to the fourth power supply bus

The disadvantages of the known distributor are the presence of a relatively 15 large number of communication lines (power lines) between cells and a limited field of application.

A large number of lines

20 between the cells of the distributor requires a stranded cable between objects, and this reduces the reliability of the control system and increases the cost of it with a large length of the communication line.

25

Claims (2)

The limited field of application of the distributor is due to the fact that it does not allow for the implementation of reverse work, starting with any included cell. The purpose of the invention is to expand the field of application of the distributor and reduce the number of supply tires. . This goal is achieved by the fact that a device for receiving signals containing electoral nodes (each of them is made on single-winding relays), the first winding terminal of the first of which is connected via the first diode and the disconnecting contact of the second single-winding relay of the first electoral node closing contact of the second single-winding relay, to the other end of which the first end of the second closing contact of the second single-winding relay, the first power bus and through the winding of the second one are connected Winding relay the anode of the second diode, the cathode of which is connected via a disconnecting contact to a second power supply relay and to the second power supply bus and to one end of the first closing contact of the first one winding relay, the second end of which is connected to the second winding terminal of the first single winding relay and to the first end of the second contact the contact of the first one-winding relay; a winding relay with magnetic memory with closing and opening contacts is entered into each voting unit; the first winding output is first winding A relay with magnetic PS1m is connected to the first terminal of the winding of the first winding relay; the second terminal of the first winding of a two-winding relay with magnetic memory is connected to the second end of the second closing contact of the first one-winding relay; the first output of the second winding of a double-winding relay is connected to a magnetic memory with the second end of the second closing contact of the second one-winding relay, the second output of the second winding of the two-winding relay with magnetic memory is connected to the anode of the second diode, the closing contacts of the two-winding relay magnetic memory of all the nodes electing through a first power bus, connected in series and connected to the input device, the break contacts, shunt first normally open contact of the first relay odnoobmotochnogo two - magnetic relay winding, memory sequentially connected through Auto Rui power bus. The drawing shows a diagram of the device. The device contains two-winding relays 1-3 with magnetic memory, single-winding relays 4-9 with contacts, diodes 10-15 and two power buses 16 and 17, contacts 18-21, winding 22 Oyole 1, contacts 23-41, windings 42 and 43 relays 2 and 3. The device is a control signal distributor. The distributor has several modes of operation. Consider first one of them. In the initial state, all relays 1-3 and relays 4-9 are disabled. To turn on the first cell, it is necessary to feed a power source (not shown) to bus 16, and minus to bus 17. This will switch on relay 4 and relay 1, Relay 4 will turn on along circuit plus power supply - bus 16 - disconnecting Terminal 21 of relay 7 - diode 10 relay 4 winding - disconnecting contact 20 of relay 1 - disconnecting contacts 40 and 41 of the 2 & 3-bus 17 minus the power supply. Relay 4, having turned on, with its contacts 4, becomes self-blocking, closes the switch-on circuit of relay 1 and breaks the preparation of the supply to its disconnecting (second) winding. Relay 1 is switched on along the following lines: plus power supply - bus 16 - disconnecting contact 21 of relay 7 - diode 10 including (first) winding of relay 1 closing contacts 18 and 19 of relay 4 disconnecting contacts 40 and 41 of relay 2 and 3 - bus 17 - source minus nutrition Relay 1, having turned on, with its contacts, prepares the switching circuit of the second election node and breaks the preparation circuit for switching on the first voting node. When the polarity is applied, the voltage in the power bus does not include the elements of the second electoral unit. To turn on these elements, the polarity of the voltage in tires 16 and 17 must be changed. At the same time, the relay 4 of the first node is turned off, and the relay 1 is held in the on state by magnetic memory. Relays 5 and relays 2 of the second electoral node turn on in the same way and prepare the switching circuits of the third node in the next movement step of the device. In each successive clock pulse, the voltage of opposite polarity is applied to the buses 16 and 17. In the interval between clock pulses, the power rails are not applied and the electromagnet relays that have been energized are turned off. When applying clock pulses to tires 16 and 17, relays 4, 5, 6 and relays 1, 2, 3 are sequentially turned on, preparing the power supply circuits of each subsequent electoral unit. Relays 4, 5, 6 are turned on only for the period of operation of the executive mechanism of the object of control (not shown), after which they are not turned off. The reverse of the device occurs automatically after the arrival of a repeated impulse of positive polarity on tire 16, when the last knot is turned on. Relay 9 and disconnecting winding of relay 3 are sequentially switched on. Relay 9 is connected by circuit: plus power supply bus 16 - relay contacts 1, 2, 3 - winding relay 9 - diode 15 opening contact 38 relay 6 bus 17 - minus power source. Relay 9, having turned on, becomes its self-blocking contact, MI 9,. closes the power supply circuit of the tripping relay 3 and breaks the power supply circuit of its energizing winding Relay 3 is disconnected along the circuit: plus power supply source - bus 16 - closing relay contacts 1, 2, 3 - closing relay contact 9 - disconnecting the relay winding 3 - diode 15 - open contact 38 of relay 6 - bus 17 minus power supply. Relay 3, having disconnected by its own contacts, 3 prepares the disconnecting circuit for relay 2 of the second node, elect. With this voltage polarity, the elements of the second node are not selected. To do this, it is necessary to change the polarity of the voltage in tires 16 and 17. At the same time, relay 9 of the third electoral unit is disconnected. and relay 3 is held in an off state by magnetic memory. Relays 8 and relays 2 of the second node are switched in the same way, and they form the disconnecting circuits of the relay 1 of the first electoral node. When applying clock pulses in the reverse mode, relays 9, B, 7 are switched on in buses 16 and 17 and relays 3, 2, 1 are switched off, and prepared for the corresponding power supply of each subsequent node. Relays 7, 8, 9 are included only for the period of operation and the complementary mechanism of the control object. After the relay 1 of the first election node is disconnected, similarly, the distributor cells are switched in the forward direction in the same way as automatically. Thus, with the continuous supply of clock pulses of opposite polarity to tires 16 and 17, the Automatic continuous process of switching nodes is selected first in one direction and then in the opposite one. Switching the nodes of the election in the forward direction is characterized by the sequential switching on of the relay, and switching the nodes in the reverse direction is characterized by their sequential switching off. Let us consider one of the possible options for the work of distributing; . slightly changing the control program and the order of supplying the clock pulses in the excitation line. This control variant is different in that the reversal of the direction of switching of the nodes is carried out on a given node. To do this, after switching on a given node, it is necessary to re-send a voltage pulse of the previously supplied polarity to the power buses. Suppose that when switching nodes of the election in the forward direction, the goal is to reverse the switching direction of the second node. As described above, the next clock pulse included. relay 5 and relay 2, with the prepared circuit for the inclusion of the corresponding elements of the second node. After the end of the indicated clock pulse, the relay 5 is turned off, and the relay 2 is held in the on position by magnetic memory. When the voltage pulse of a previously supplied polarity is re-sent, the relay 8 switches on and the second node relay 2 turns off and the first node turns off the relay 1 circuit. With the arrival of the next clock pulse of the other polarity, the corresponding switching occurs at the first node. Similarly, it is possible to reverse the switching direction of the nodes at any step in the operation of the device in any direction of their switching. In order to orient the distributor to its original position, it is necessary to feed the opposite polarity pulses into tires 16 and 17 until: the zero (or other conditional) cell is switched on, without supplying power during this period of time to the actuators. The proposed device eliminates the disadvantages of the known distributor - it has a smaller number of 1mW of power between cells and a wider field of application. Reducing the number of veins in the cable that is laid between the control objects will increase the reliability of the control system and reduce its cost with a significant distance between the objects. The proposed device allows an automatic continuous process of switching nodes first in one direction and then in the opposite direction, as well as reversing the direction of switching nodes on any given node with any direction of switching them. The advantage of the proposed device is that a limited amount of energy is consumed for its power and orientation, regardless of the number of nodes in it. This makes it possible to use its fe intrinsically safe systems. Claim device A device for receiving signals containing election nodes, each of which is made on single-winding relays, the first winding terminal of the first of which is connected through the first diode and pc). The shorting contact of the second single-winding relay of the first node of the election to the device input and at one end is primary closing the contact of the second single-winding relay, to the other end of which the first end of the second closing contact of the second single-winding relay is connected, the first power supply bus; and through the winding of the second single-wake-up relay anode of the second diode, the cathode of which is connected via a disconnecting contact of the first single-winding relay to the second power bus and to one end of the first latch terminal of the first single-winding relay, the second end of which is connected to the second winding terminal of the first single-winding relay and to the first the end of the second closing terminal, a cycle of the first single-winding relay, characterized in that, in order to reduce the number of power buses and expand the field of application, two magnetic winding relay with closing and opening contacts, the first output of the first winding of the magnetic storage two-winding relay is connected to the first output winding of the first single-winding relay, the second output of the first winding of a magnetic winding relay is connected to the second end of the second closing contact of the first single winding relay, the first output of the second winding of a two-winding relay with magnetic memory, the second end of the second closing contact of the second one-winding relay, the second output in The winding of a magnetic winding two-winding relay is connected to the second diode anode, the closing contacts of the magnetic two-winding relay with the magnetic memory of all nodes selected through the first power bus are connected in series and connected to the device input, opening contacts shunting the first closing contact of the first single winding relay, a magnetic two-winding relay, serially connected via a second power bus. Sources of information taken into account during the examination 1. USSR author's certificate No. 260341, cl. H 03 K 17/74, 1969. 2. USSR author's certificate No. 356357, cl. E 21 D 15/46, 1972 (prototype).