SU1228134A1 - Device for remote monitoring and controlling of two-position objects - Google Patents

Abstract

The invention relates to electrical communication technology and electrical signal transmission systems, in particular, to a remote control system for distributed light-signaling means via two-wire communication lines. The purpose of the invention is to increase the information capacity, reduce weight, simplify and unify the equipment. The device contains a two-wire communication line with wires, a control and monitoring station, having a power source, an alternating voltage generator, 6 "remote control and monitoring cells, each with a switch, an indicator, and actuating points, each with current protection element, power supply, signal lamp, pulse generator, sensor, executive relays. The device provides control and monitoring of the signal lamp using a two-wire communication line, while controlling the mode of operation of the signal lamp by means of a switch, and the control of the function of the signal lamp is carried out according to the indicator of the control panel. The use of different power supply sources and alternating voltage generator connected via control to the communication line from the control point and executive points increases the information capacity of the system, as the number of variations in control and control functions increases. 1 il. with S (L

Description

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The invention relates to electrical communication technology and electrical signal transmission systems, in particular, to a remote control system for distributed light-signaling means via two-wire communication lines, and can be used for remote control of light-signaling means of navigation equipment.

The purpose of the invention is to increase the size of the ion capacitance, reduce mass, simplify and unify the equipment.

The drawing shows a circuit diagram of a device for remote control and monitoring of on-off objects.

The proposed device contains two-wire communication lines with wires 1 and 2, a control and monitoring station (PU) having a source 3 of power, an alternating voltage generator 4, a capacitor 5 and cells 6, -6 of remote control and monitoring, each of which contains pushbutton switch 7 with self-return, indicator 8 of the second LEDs 9 and the second LED 10 and the resistor 11 connected in series, the executive points of the PI, IP, each of which contains the current protection element 12, the power source 13, the signal a new lamp 14, a transistor 15, a pulse generator 16, a sensor 17, including a zener diode 18, a first, second and third resistors 19, 20, 21, respectively, the first 22 and second 23 transistors, the first 24 and second 25 AC relays with windings 26, 27 , closing contacts 28, 29 and switching contacts 30, 31, polarized two-winding turnip 32 with the first 33 and second 34 windings, switching contact 35 and closing contact 36, diode 37, first 38 and second capacitors.

The static state of the device is characterized by electrical connections in the circuits of the PU and. In the PU circuit, the power source 3 is connected by its negative terminal to the first input of the generator 4 and the disconnecting contact of the switch 7 of cell 6, and the positive terminal through the third closing contacts of the switches of 7 cell ,, with the second input of

the first 4 LEDs and the first terminals of the resistors 11, connected in series with the second LEDs 10 of the indicators 8. In each cell 6, -6 ", the cathodes of the first LEDs 9 are connected with the anodes, the second LEDs 10, the second wires 2 of the line and the second closing contacts of the switches 7. The first and second outputs of the generator 4 are connected respectively to the second closing contacts and through capacitance to the first closing contacts of all the switches 7 of the cells 6, - 6. The first wire of the first communication line is connected to each Custom cell

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the first closing contacts of the corresponding switches 7 and with the opening contact of the switch 7 of the subsequent cell 6, -bg ,.

In the circuit of each executive point, the wire 1 of the communication line is connected to the negative terminal of the source 13, the first output of the generator 16, the emitter of the transistor 15, the emitters of the first transistor 22 and the second transistor 23 through the first resistance 19 of the sensor 17, as well as with moving switching contacts 30, 31 relay 24, 25. The positive terminal of the source 13 is connected to the second output of the generator 16, through a signal lamp 14 to the collector of the transistor 15 and through series-connected zener diode 18 and the third resistor 21 to the base of the first trans 22 stories sensor 17, through a second resistor 20 - to the collector of the first transistor 22 and the base 23 TpaHsjHCTopa second sensor 17, and the first and second fixed contacts 30, 31 switch 24, 25, respectively, through the first 33 and second

34 winding relay 32, the anode of the diode 37 and through the closing contact 36 of relay 32 - with the fourth output of the generator 16, the third output of which is connected to the base of the transistor 15. The collector

the second transistor 23 is connected to the closing contact 29 of the relay 25, the first fixed contact 35 of the relay 32 and through a series-connected winding 27 of the second relay 25 and the second

the capacitor 39 is with the first fixed contact 30 of the first relay 24. The diode anode 37 is connected to the second fixed contact 35 of the relay 32, circuit 3.

by tactile contact 28 of relay 24 and through series-connected winding 26 of relay 24 and the first capacitor 38 - by the second fixed contact 31 of relay 25. The closing contacts 28, 29 of relay 24, 25 and the movable switching contact 35 of relay 32 are connected to the second wire through current protection element 12 2 lines of communication.

The device works as follows.

In the initial state of the system, the contact of the current protection element of all PIs is closed, and the remaining circuit elements retain their position indicated in the drawing. All communication lines with wires 1 and 2 are under the common voltage of source 3 on the PU side (for example, at a voltage rating of 6 V) and each of the communication lines separately on the PI side is connected to the source 13, having , nominal voltage 12 V. As the nominal voltage of sources 13 is higher than source 3, in each of the communication lines a current flows through the circuit from the control panel: the positive pole of the source 13 is diode 37 - the second fixed and movable contacts of the switching pin 35 - current protection element 12 - wire 2 - light-emitting diode 10 and resistor 1 1 indicator 8 - source 3 - closing contact of the switch 7-- wire 1 of the communication line and the negative pole of the source 13.. Under the action of direct current in these; the circuits of the LEDs, the LEDs 10 of all cells 6, -6f, signalize the health of the communication lines and the switched off state of the signal lamp 14. Since the circuits of the cells are identical, we consider the operation of the circuit of one cell 6 | PU and one IP.

To turn on the signal lamp 14, it is enough to press the switch 7 with self-return, as a result, the opening contact of the switch 7 is opened, the current circuit is interrupted through the LED 10, which goes out, and the first, second and third closing contacts are turned on, turning on the generator 4 and connecting the alternating current from its output through the capacitor 6 and the first and second closing contacts of the switch 7 to the wires 1 and 2 of the communication line. Then alternating current passes through the circuit: wire 2 - current protection element 12 - movable

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and the second fixed contact of the switching contact 35 of the polarized two-winding relay 32 - the winding 26 of the first relay 24 of alternating current 5 - the first capacitor 36 - the moving and second fixed contact of the switching contact 31 of the second relay 25 of alternating current - wire 1 of the communication line. As a result, the first AC relay 24, which self-blocks its closing contact 28, shunt the second fixed contact of the switching contact 35 of the polarized f5 two-winding relay 32 and supplies power from the source 13 to the winding 33 of the polarized two-winding relay 32 through the first the fixed and movable contacts of the switching 20 contact 30. The polarized two-wound relay 32 operates and through its closing contact 36 connects the positive pole of the source 13 to the second generator output, 5 Providing the impulse of a given characteristic to the base of the transistor 15, the signal lamp 14 starts operating, receiving power through the transistor 15 from the source 13, Q and connecting the sensor 17c via the first fixed contact of the switching contact 35 with a wire 2 of the communication line. The process of turning on the signal lamp 14 is completed. After the button 7 is released and its self-resetting, the generator 4 is automatically turned off, the alternating voltage is removed from the communication line and the DC circuit is restored via the disconnecting contact of the switch 7. As a result of the self-resetting switch 7, the first AC relay 24 is released, the power is removed from the winding 33 of a polarized, two-winding relay 32, which remains in a position where its first stationary contact of the switching contact 35 and the closing contact 36 are closed.

The operation of the signal lamp 14 is synchronously duplicated on the LED by the LED 9 as follows.

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When the signal from the generator 16 transistor 15 is open and the signal lamp 14 emits a gleam of light, in the sensor 17 there is a chain: zener diode 18 - resistor 21 - emitter - base transition of transistor 22 is under

low potential (on the order of 0.5 V), the collector-emitter junction of an open transistor 15. Therefore, Zener diode 18 is closed, causing the closure of transistor 22 and passing through the resistor 20 of the base current of transistor 23, which opens, providing current flow through the circuit: positive source pole 3 - LED 9 - wire 2 - current protection element 12 - first floating contact of the switching contact 35 of the polarized two-winding relay 32 - transistor 23 - resistor 19 - wire 1 - disconnecting switch 7 - negative pole of the source Nick 3 and the LED 9 glow. When the generator 16 is turned off between the flashes and the transistor 15 is closed, the signal lamp 14 does not receive power, but through it the indicated chain with the zener diode 18 receives the potential of source 13 sufficient to open the zener 18 and a granistor 22. The emitter-base transition of an open transistor 22 shunts the input circuit of the transistor 23, which then becomes closed, the current through the LED 9 does not pass and it does not light up. Thus, the LED 9 synchronously reproduces the characteristic light operating signal lamp 14.

To turn off the signal lamp 14, press the switch, 7, and the operation of the PU circuit is repeated by analogy with its operation when the signal lamp 14 is turned on.

The operation of the MI circuit varies, namely, the alternating current passes now through the circuit: wire 2 - current protection element 12 - first stationary contact of the switching contact 35 polarized two-winding relay 32 - winding 27 of the second alternating current relay 25 - capacitor 39 - first stationary contact 30 of the switching contact 30 of the first ac relay 24 - wired communication line 1. As a result, the second AC relay 25 triggers, which self-blocks its closing contact 28, shunts the first fixed contact of the switching contact 35 of the polarized two-winding relay 32, and supplies power from the source 13 to the winding 34 of the polarized two-winding relay 32 via the shorting first the fixed contact of the switching contact 31, the polarized two-winding relay 32 operates, returning its contacts 35, 36 to the initial state, which is preserved after the self-return of the switch 7, the trigger Ani relays 25 and 32 to the next instruction to switch the signal lamp 14. Thus, via the switch 7 with PU can be carried out and switch-off signal lamp 14, controls its state by-emitting diode rows 9 and 10.

In addition to the basic information on the operation of the signal lamp.14, the system provides the PU with information on the occurrence of possible abnormal (emergency) situations both at the IP and in the communication line. In this case, the emergency state of the latter (short circuit or power failure), depriving the control panel of the control functions, at the same time does not disturb the autonomous operation of the signal lamp 14 on the power supply. When any of the wires of the communication line is formed or the voltage of source 13 decreases to the value of source voltage 3 and below, the LEDs 9, 10 are not illuminated. Short circuit of wires 1 and 2 between PU and PI causes constant LED of LED 9 to PU due to flow through it and the closing point of wires 1 and 2 of source current 3. IP circuit does not react to this type of accident if it progressed during the process. automatic operation of the signal lamp 14, and provides the operation of the current protection element 12, if a short circuit occurs when the power supply is in standby mode (see drawing), due to the flow of current from the source 13 through the diode 37, the second fixed contact of the switching contact 35 is polarized About the two-winding relay 32, the current protection element 12 and the closure point of the wires 1 and 2 of the communication line.

If during the operation of the signal lamp 14 controlled by the PU by flashing of the LED 9, the signal lamp 14 burns out, then this information appears as a transition of the LED 9 to a constant glow, since the chain with the zener diode 18 is permanently closed

This is neither the transistor 15, but the transistor 23 in the sensor 17 is constantly open. Having received this information, it should be identified (the constant illumination of the LED 9 can also be caused by a short circuit of wires 1 and 2 in the communication line) by checking the effect of the communication line. the means of giving the command by the switch 7 to transfer the PI to the standby mode, in which the LED 10 should be lit.

The use of different nominal

the voltages of the power sources and the alternating voltage generator connected through the control and monitoring bodies to the communication line from both the control panel and the power supply device to the information system, as the number of variations in the control and control functions increases.

Claims (1)

Invention Formula A device for remote control and monitoring of on-off objects, containing at the control and monitoring station a power source, alternating voltage generator and remote control and monitoring cell, each of which contains a push-button switch, indicator and two-wire communication line, executive points, each which contains a relay, the first capacitor, a diode, characterized in that, in order to increase the information capacity, a remote control cell capacitor is inserted at the control and monitoring point Ensuring both control and two-wire communication lines by the number of execution points, in each cell the disconnecting and first closing contacts of the switch are connected and connected to the first wire of the communication line and to the disconnecting contact of the switch of the next cell, the indicator of each remote control cell is monitored in parallel form connected to the first LED and connected in series to the second LED and a resistor, the cathode of the first and the anode of the second LED are connected to the second wire of the communication line and second CB NO contact of the switch, the anodes of the first LEDs of indicator cells remote management and control connected to the third trailing con five 0 5 0 5 0 0 switch cycles and the positive terminal of the power supply, the negative terminal of which is connected to the first input of the alternating voltage generator and the disconnecting contact of the first remote control and monitoring cell, the second input of the alternating voltage generator is connected to the third closing contacts of the alternator the voltages are respectively connected in each cell of the remote control and control with the second closing contact He also ate through the capacitor with the first closing contact of the switch, and at each executive point a pulse generator, a transistor, a signal lamp, a power source, a current protection element, a first and a second AC relay, a second capacitor, a sensor made on two transistors, three resistors and a zener diode, the relay of the executive point is filled with a polarized two-winding, the emitter of the first transistor and the emitter of the second transistor of the sensor are connected to the negative terminal of the source through the first resistor power supply, with the emitter of the executive station transistor, the first impulse of the pulse generator, the first wire of the communication line and the mobile switching of the first and second AC relays, the collector of the second transistor of the sensor is connected with the closing contact of the second AC relay, the first fixed contact of the polarized two-winding the relay and through the series-connected winding of the second AC relay and the second capacitor with the first fixed contact of the first AC relay, second a fixed contact of which the first fixed contact of the second relay AC. The current is connected through the corresponding windings of the polarized two-winding relay to the cathode of the diode, to the closing contact of the polarized two-winding relay, positive. the power supply terminal, to the first output of the second sensor resistor, to the second output of the pulse generator, and through a signal lamp to the collector of the transistor and in the sensor through series-connected stabilized 912281 Litron and the third resistor to the base of the first transistor, the base of the second transistor of the sensor is connected to the third view of the pulse generator, the quarter output of which is connected to the j contact of the double-winding polarized relay, the cathode of the diode is connected to the closing contact of the first AC relay and the second stationary the contact is a double-winded two-winding relay, and 34 ten through the coils of the first AC relay connected in series and the first capacitor with the second fixed contact of the second AC relay, the closing contacts of the first and second AC relays and the movable switching contact of the polarized two-winding relay are connected and connected to the second wire of the communication line . Editor N. Shvydka Compiled by V. Butin Tehred M. Khodanich Proofreader G “Reshetnik Order 2289/51 Circulation 515 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/3 Production and printing company, Uzhgorod, st. Project, 4