RU1809495C - Remote control device - Google Patents

Abstract

Use: in systems for remote switching on and off of power units. SUMMARY OF THE INVENTION: A device comprises transmitting and receiving units connected by a single-wire communication line. The transmitting unit contains a control button 6, the make contact of which is connected through a diode 22 to the relay coil of the control button 10. The relay contacts of the control button relay 10 are connected respectively to the windings of the command relay 11, 15 and the relay coil of the control 20. Short-circuit contact of the command relay 11 connected via a command diode 30 to a communication line. The coil of the receive relay 23 is connected via a reverse command diode 28 to a communication line. The closing contacts of the receive relay 23 are connected respectively to the windings of the collection relay 19 and the alarm relay 9. The receiving unit contains a command receiving relay, the windings of which are connected via an input command diode to a communication line that is connected via an output reverse diode to a terminal for connecting a load control. The device provides reliable one-button remote control over a single-wire communication line. 2 ill. ate with

Description

No. Fie1

The invention relates to electrical engineering, and more specifically, to control and signaling means via single-wire communication lines and, in particular, for remote switching on and off of power units and other devices.

The purpose of the invention is to increase the reliability of the device.

In FIG. 1 shows the electrical circuit of the transmitting unit; in FIG. 2 is a circuit diagram of a receiving unit.

The remote control device comprises transmitting and receiving units connected by a single wire line. .

In the transmitting unit, a first terminal 1 for connecting a 27 V alternating voltage supply network is connected to the anodes of the first diode 2, the second diode 3, the third diode 4, and the fourth diode 5.

The cathode of the first diode 2 is connected to the disconnect terminal of the switching contact of the control button 6, the common terminal of which is connected to the first terminal of the first capacitor 7..

The cathode of the second diode 3 is connected to the first terminal of the second capacitor 8 and through the NC contact of the relay 9 of the accident is connected to the common terminal of the switching contact of the relay 10 of the control button, the NC terminal of which is connected through the first NO contact of the first relay

11 issuing commands with anodes of the same diode

12 and sixth 13.

The cathode of the fifth Diode 12 is connected to the first terminal of the third capacitor 14, the first terminal of the winding of the second relay 15, issuing commands and to the output of the make contact of the second relay 15, the common output of which is connected to the cathode of the seventh diode 16, the anode of which is connected to the make of the switching contact of the relay 10 control buttons. The cathode of the sixth diode 13 is connected to the first terminal of the fourth capacitor 17, the first terminal of the winding of the first command relay 11 and with the opening terminal of the switching contact of the second relay 15 of the command, the cathode of the third diode 4 is connected to the first terminal of the fifth capacitor 18 and through the series-connected opening contact reset relay 19 and a closing second contact of the control reset relay 10 is connected to the first terminal of the control relay 20 and to the anode of the eighth diode 21, the cathode of which is connected to the first terminal of the button relay 10 and control and the cathode of the ninth diode 22, and the node of which is connected to the closing terminal of the switching contact of the control button 6. The cathode of the fourth diode 5 is connected to the opening terminal of the first switching contact of the receiving relay 23 and with the disconnecting terminal of the second switching contact of the relay 23

reception. The common terminal of the second switching contact of the relay 23 is connected to the disconnecting terminal of the switching contact of the control relay 20, the common terminal of which is connected to the first terminal of the sixth capacitor 24, the opening terminal of the second switching contact of the receiving relay 23 is connected to the anode of the tenth diode 25, the cathode of which is connected to the first terminal winding relay 9 accident.

General output of the first switching

the contact of the receiving relay 23 is connected via

seventh capacitor 26 with the first output

winding relay 19 reset.

 The cathode of the eleventh diode 27 is connected to the cathode of the input reverse diode 28 and to the first terminal of the winding of the receiving relay 23, the second terminal of which is connected to the anode of the eleventh diode 27..

The second terminal 29 for connecting the 36 V alternating voltage mains is connected through the second make contact of the first command relay 11 to the anode of the output command diode 30, the cathode of which is connected to a single-wire line

communication drugs.

The common terminal 31 for connecting the AC mains is connected to the second terminals 00 of the windings of all relays, the second terminals of the first ... sixth

capacitors, the closing output of the switching contact of the relay 20 control, the closing output of the switching contact of the relay 23 of the reception.

In the receiving unit, the anode of the input command diode 32 is connected to the cathode of the output reverse diode 33 and to the single-wire LAN communication line.

The first terminal of the coil of the command receiving relay 34 is connected to the cathode of the input command diode 32 and the cathode of the diode 35, the anode of which is connected to the second terminal of the coil of the command receiving relay 34 and the common terminal 00 of the alternating voltage network.

In addition, in the receiving unit, the power contactor 36 for turning on the electric motor 37 of the unit from a three-phase alternating voltage network and the circuit breaker 38 for protecting the electric motor 37, the first output

the windings of the power contactor 36 are connected through the make contact of the command receiving relay 34 to one of the phases of the three-phase network through the circuit breaker 38, and the contact block 39 of the power contactor 36 is connected to the anode of the output reverse diode 33.

In the transmitting unit, between the second make contact of the control relay 20 and the common terminal 00 for connecting the AC voltage supply network, a signal lamp 40 for command control is connected, between the third make contact of the receiving relay 23 and the common terminal 00 for connecting the AC voltage network, the signal lamp is turned on 41 of the operating mode, and between the first make contact of the relay 9 of the accident and the common terminal 00 for supplying power to the alternating voltage network, the lamp 42 and the alarm bell 43, interconnected pa at the same time, to disable which an emergency reset button 44 is inserted, the opening contact of which is connected to the first terminal of the emergency relay 9 winding, and the common terminal of button 44 is connected to the closing second terminal of the alarm relay 9. .

The device operates as follows.

The device circuit is powered by an alternating voltage of 27 V, and 36 V will be used for commands and response signaling via the LAN communication line.

The alternating voltage is supplied from a step-down transformer (not shown in the diagram) having taps from the secondary winding, one of which is with a voltage of 27 V, a second 36 V and a third common 00 for both voltages.

When applying voltage to the circuit, the capacitors are first charged. The first capacitor 7 is charged from the positive half-periods of the 27 V alternating voltage supplied through diode 2 and the switching contact of the command button 6.

 Capacitor 8 is charged from the positive half-cycles through the Diode3.

The capacitor 26 is charged from the positive half-cycles coming through the diode 5 and the first contact of the receive relay 23 and then through the winding of the relay 19, a reset that momentarily operates, which will not affect the operation of the circuit in this case.

Capacitor 18 is charged through diode 4.

To set the command, button 6 is pressed. In this case, the discharge of the capacitor 7 will pass through its make contact and diode 22, as well as through the coil of the relay 10, which is activated by this discharge and is blocked by its second make contact.

The relay 10 is held on hold due to the positive half-cycles of the alternating voltage of 27 V coming from

pin 1 through diode 4, NC contact of relay 19, block contact of relay 10 and diode 21. At the same time, relay 20 is activated, which, with its second contact, turns on lamp 40 in button housing 6, and switching the first contact of this relay eliminates the possibility of charging capacitor 24. In the pauses between half-cycles, the capacitor 18 is discharged through the windings of the relays 10 and 20, keeping them in working condition.

For the relay 11 to operate, the positive half-periods of alternating voltage of 27 V will come from terminal 1 through diode 3, the common terminal of the second switching contact of relay 9 is the first make contact of relay 10. diode 16 is the make contact of relay 15 to the coil of relay 11, which is activated, and in pauses between positive half-periods it will be kept in operation due to the repeated discharge of the capacitor 17.

When the relay 11 is activated and its second contact is closed, the positive command half-periods of 36 V will come from terminal 29 through the contact and diode 30 to the drug communication line.

From the communication line, these command half-periods arrive at the receiving unit through the diode 32 to the coil of the relay 34, which is activated and held in working states between the half-periods due to the inductive extracurrents arising in this relay, which are closed via the reverse polarity diode 35 parallel to relay coil 34.

Relay 34 will, by its contact, turn on the winding of the power contactor 36, which receives a supply voltage of 220 V from one of the phases of a three-phase alternating voltage network of 380 V through a circuit breaker 38.

When the power contactor is activated and its three power contacts are closed, the motor 37 of the unit is turned on. At the same time, the block contact 39 of the power contactor 36 is closed, as a result of which the reverse half-periods of the 36 V alternating voltage will come from terminal 00 through the block contact 39 and through the return diode 33 to the LAN communication line, from where the diode 28 passes through the diode 28 23.

The relay will operate and be held in pauses between half-periods of the 36 V alternating voltage in the operational state due to the inductive extracurrents arising in this relay, which are closed via a diode 27 connected in reverse polarity parallel to the relay coil 23.

When the relay 23 is activated, its first contact switches, as a result of which the capacitor 26 is discharged through the coil of the relay 19, which briefly trips and by its contact resets the blocking relay 10c. At the moment of resetting the relay 10 from the interlock, a short interruption of the power supply to the winding of the relay 11 will occur, but it will not be released due to the discharge through its winding of the capacitor 17.

After resetting the blocking relay 10c, 27 V power will be supplied from terminal T via diode 3, the second relay opening contact

9.through the first relay trip contact

10. through the first contact of the relay 11 closed at this time, through the diode 13, after which the positive half-cycles will charge the capacitor 17 and energize the coil of the relay 11, which will be kept in operation due to the positive half-cycles and discharges of the capacitor 17 through the winding of this relay in pauses between half-periods,

At the same time, these positive half-cycles will pass through the diode 12 to the coil of the relay 15 and to the charge of the capacitor 14. The relay 15 will operate and will be operational due to the indicated positive half-cycles and bits of the capacitor 14 through its winding in pauses between half-periods.

Owing to the operational state of relays 11 and 15, the given command will be electrically locked.

At the moment of resetting the relay 10 from the lock, the relay 20 is turned off, which, by its second contact, will turn off the lamp 40 in button 6, signaling that the given command in the receiving unit has been implemented.

At the same time, the first opening contact of the relay 20, returning to its original upper position, will allow the capacitor 24 to be charged from the positive half-periods coming from output 1 through diode 5 and the switched second contact of relay 23. In addition, from the output through the third contact of relay 23 the lamp 41 will turn on to indicate the operating mode of the device.

The set command is canceled by pressing the same button 6 again, through the make contact of which and through the diode 22 the discharge of the capacitor 7 to the winding of the relay 10 will pass. The relay 10 will operate and block using its block contact. At the same time, relay 20 will operate, which will turn on the second lamp 40 to control the issuance of the command in button 6 with its second contact, and the capacitor 24 will discharge the first contact through 00.

When the relay 10 is activated and blocked, the power circuit of the relay 11 passing through. diode 3. second opening contact of relay 9, first switching contact of relay 10,

the first contact of the relay 11 and the diode 13 will be interrupted, which will lead to the release of the relay 11 and disconnection from the communication line L With the command voltage of 36 V. As a result, the receiving unit will release

0 relay 34, and therefore, to release si. left contactor 36 and turning off the motor 37.

At the same time, the block contact 39 of the power contactor 36 will open, which will lead to the termination of the reverse half-periods of 36 V. into the communication line (via diode 33).

As a result of this, the relay 23 in the transmitting unit is released and through the diode 5 and the first NC contact of this relay

0 positive half-cycles will produce a charge on capacitor 26. This charge, passing through the winding of relay 19, will make it trip for a short time and, with its opening contact, reset relay 10 from the interlock,

5 which will lead to the shutdown of relays 20 and relay 15, ensuring that the device is turned off and is ready for the next command. Simultaneously with the shutdown of the relay 23, its third contact will open and turn off the lamp 41 of the operating mode of the device. . Considering the emergency situation, it should be considered that the device was in the on operating mode and the capacitor 24 was charged, and krn5 the capacitor 26 was discharged. It should be noted that the device circuit responds to a wide variety of emergency situations, such as three-phase failure voltage supplying the electric motor

0 unit, short circuit or overload in power circuits, failure of one of the phases, interruption of the communication line, etc. For example, if the normal functioning of a three-phase network or power unit is interrupted

5, the circuit breaker 38 will shut off, as a result of which the power contactor 36, and therefore the motor 37, will be disconnected. At the same time, the power contact block 39 will open

0 of the contactor 36, as a result of which the reverse half-periods of the alternating voltage 36 V through the diode 33 will not enter the communication line, as well as through the diode 28, which will lead to the release of the receiving relay 23. Contacts

5 of this relay will return to their original state, as a result of which the first contact will charge the capacitor 26 through the coil of the relay 19, which will briefly operate, but there is no effect, in this case, on the circuit

will produce. Thus, in the event of an accident, when the second contact of the relay 23 is released, the capacitor 24 will discharge through the diode 25 and the coil of the emergency relay 9, which will operate and be blocked by its block contact.

In the pauses between the positive half periods of 27 V, this relay will be kept in operation due to the bits of the capacitor 8.

By switching the second contact, the relay 9 will be blocked, simultaneously turning off the power supply to the windings of the relays 11 and 15, which will be released and will disconnect the output of the command-input positive half-periods of the alternating voltage of 36 V, as a result of which the relay 34 will be released.

The closed first contact of the relay 9 will turn on the emergency lamp 42 and the bell 43, and the opened third contact of the relay 23 will turn off the lamp 41 of the operating mode.

To reset the alarm, a button 44 is provided in the device.

The advantages of the proposed device lie in the rational construction of its circuit, which does not incorporate complex expensive equipment.

The device is powered by a reduced alternating voltage, divided into unipolar half-periods, in the pauses between which the operating state of the miniature relays is preserved due to the shunting of the windings of capacitors and low-current contactors and powerful relays (due to inductive extracurrents closing through the contactor winding with using a parallel-directed backward diode.

The device employs low-current relays and small-sized contactors, which make it possible to remotely turn on and turn off the electric motor of the power unit via a single-wire communication line, to continuously monitor the status of all the means included in the device, including to monitor the status the electric motor of the unit and its three-phase network, as well as give an alarm signal with simultaneous emergency shutdown of the unit in case of any violation of the normal functioning of the device.

In addition, the proposed device allows you to set and cancel commands instead of two with the same push command button, which halves the area of control panels, as well as carry out electrical fixation of a given command, which allows automatic emergency shutdown.

The device also provides control over the development of the team from the moment of its assignment to implementation, which increases ergonomic properties.

The distance for remote control has no fundamental limitations.

As a result of the use of small-sized control and signaling devices with dividing the alternating voltage into unipolar half-periods, the number of wires and cable connections is reduced, the dimensions of the equipment, its metal consumption are reduced, and, therefore, the need for huge areas of equipment rooms is eliminated.

Claims (1)

SUMMARY OF THE INVENTION A device for remote control comprising a transmitting and receiving unit connected by a single-wire communication line, the transmitting unit being in the form of a control button, a receiving relay, an output command diode, and the input reverse diode, while the coil of the receive relay and the input reverse diode are connected in series, the cathode of the output command diode is connected to the anode of the input reverse diode, the receiving unit is made in the form of a relay for receiving commands, input command diode, output reverse diode, while the coil of the relay for receiving commands and the input command diode connected in series, the anode of the output reverse diode connected to the output d connection of the load control element, an output for connecting an alternating voltage supply network, characterized in that, in order to increase reliability, it is inserted into the relay transmission unit control buttons, control relays, first and second command relays, alarm relays, reset relays, eleven diodes, seven capacitors, a diode is inserted into the receiving unit, while the first terminal for connecting the AC mains is connected to the anodes of the first in the transmitting unit, the second, third, fourth diodes, the cathode of the first diode is connected to the disconnect terminal of the switching the contact of the control button, the common terminal of which is connected to the first terminal of the first capacitor, the cathode of the second diode is connected to the first terminal of the second capacitor and through the NC contact of the alarm relay - with the common terminal of the switching contact of the relay of the control button, the NC terminal of which is connected through the first NO contact of the first output relay commands with anodes of the fifth and sixth diodes, the cathode of the fifth diode is connected to the first terminal of the third capacitor, the first terminal of the winding of the second command relay and with the output of the closure contact of the second command relay, the common output of which is connected to the cathode of the seventh diode, the anode of which is connected to the closing terminal of the switching contact of the control button relay, the cathode of the sixth diode is connected to the first terminal of the fourth capacitor, the first terminal of the winding of the first command relay and with the disconnect terminal - On the other side of the second command relay, the cathode of the third diode is connected to the first terminal of the fifth capacitor and through the series-connected opening contact of the reset relay and closing The contact of the control button relay is with the first output of the control relay coil and the anode of the eighth diode, the cathode of which is connected to the first output of the control button relay coil and the cathode of the ninth diode, the anode of which is connected to the closing terminal of the control button switching contact, the cathode of the fourth diode connected to the opening terminal of the first switching contact of the receiving relay and to the closing terminal of the second switching contact of the receiving relay, the common terminal of the second switching contact of the receiving relay is connected to the opening by the switching contact of the control relay, the common output of which is connected to the first output of the sixth capacitor, the disconnecting output of the second switching contact of the relay the reception is connected to the anode of the dec diode, the cathode of which is connected to the first output of the accident relay coil, the common output of the first switching contact of the reception relay is connected through the seventh capacitor to the first output of the reset relay winding, the cathode of the eleventh diode is connected to the cathode of the input reverse diode and to the first output reception relay windings, second terminal for AC power connections the voltage is connected via the second make contact of the first command relay to the anode of the input command diode, the cathode of which is connected to a single-wire communication line, the common terminal for connecting the AC voltage supply network is connected to the second terminals of the windings of all relays, the second terminals of the first to sixth capacitors by the closing output of the switching contact of the control relay, the terminal of the switching contact of the reception relay, the anode of the eleventh diode, in the receiving unit, the anode of the input command diode is connected to the cathode of the output reverse diode and a single-wire communication line, the first output of the coil of the relay of command reception is connected to the cathode of the input command diode and to the cathode of the diode, the anode of which .connected to the second terminal of the coil of the command receiving relay and common AC mains output. Fi g. 2.