RU2035785C1 - Switch - Google Patents

Abstract

FIELD: relay automatics. SUBSTANCE: switch has two polarized relays with two-stabilization modes, with switching-on and off winding, with two-position adjustment of contact system, make and break contacts. In addition there is break contact of additional relay, make contact of auxiliary relay and input to start program-time device. In common circuits of switch there are used first and second diodes, button of common reset with contact, additional control button with make contact, common resistor and thyristor. Each channel includes five common leads-out, four diodes, thyristor, relay winding make contact of control key and make contact of starting button. Switch uses make output contact of program-time device which closes on completion of preset time program. This contact is held in closed state for the course of time after start command across input of program-time device beginning from moment of termination of realization of preset time program and return of this contact into initial break condition after removal of start command at input of program-time device. Output make contact of program-time device sets switch into starting position automatically. Remote transfer of switch into starting state is also possible by means of reset button with make contact. additional control button with make contact is inserted and used to set additional relay into starting state. Its break contact closes starting circuit of program-time device. Common thyristor ensure starting of additional relay and not switching on of it after additional button is disconnected with make contact. Channel thyristor is started with the aid of starting button and corresponding diodes which makes it possible to start winding of switching on of channel relay and to keep it later in switched-on state without use of contacts of relay of this channel. EFFECT: enhanced operational reliability. 1 dwg

Description

 The invention relates to automation and can be used, for example, in the automation of filters for water treatment of thermal power plants.

 Known switch [1] containing a group of parallel-connected channels, each of which contains an electromagnetic relay with a make contact and an inclusion winding, a diode, a control key with a make contact. Common elements are a reset key with an NC contact for resetting, two pins for connecting a power source.

 The disadvantages of this switch are the presence of a chain of serial contacts of the channel relays and the relay being energized, which leads to unreliable operation and power consumption.

 A known switch [2] contains terminals for connecting power, a general reset key with an NC contact, an auxiliary relay with an NC contact and an on coil, a group of parallel-connected channels, each of which has four terminals, a relay with an NC and an on coil, the first and second diodes and a control key with a make contact, as well as a common chain of consecutive make contacts of the channel relays, each of which is respectively shunted by the make contact of the control key. After the supply voltage is supplied by the control key of the switched channel, for example the first one, the switch is turned on and the current flows through the circuit: the first output of the power source is the opening contact of the general reset key the opening contact of the auxiliary relay the first channel output is the closing contact of the control key relay coil the fourth output of the power source. The relay of the first channel starts, and its contacts change their state. The current flows through the circuit in the switch: the first output of the power source, the open contact of the general reset key, the make contact of the relay of the first channel of the common serial circuit, the open contact of the control key of the second channel, the open contact of the control key of the third channel, the second output of the first channel, the make contact of the relay of this channel two parallel circuits (the first diode relay coil fourth terminal of the first channel second diode third terminal of the first channel auxiliary relay coil) second terminal for connecting the power source . As a result, the relay of the first channel on this circuit rises to self-locking, the auxiliary relay is turned on, and its NC contact opens the circuit of the first outputs of all channels. When the control key of the first channel returns to its initial state, the channel relay and auxiliary relay remain energized. The first channel of the switch is on.

 If it is necessary to turn on another channel, the key of the selected channel is turned on, and its opening contact is opened and a circuit for holding the switched on relays of the first channel and auxiliary relay is provided. These relays are switched off in the initial state, and through the closed opening contact of the auxiliary relay, the relay start current of the switched channel is on. The processes are similar, only the sequence in the retention chain changes.

 An auxiliary relay is introduced in this switch, the contact of which opens the circuit of the first outputs of all channels. The disadvantages of this switch are the presence of a chain of serial contacts of the channel relays and control keys, the energized relays being energized, the use of channel relay contacts, which leads to unreliable operation and power consumption.

 The purpose of the invention is improving the reliability of operation, reducing power consumption, expanding its functionality.

 The claimed switch, as well as the prototype, contains the following similar features: terminals for connecting the power supply, a general reset key, an auxiliary relay with an NC contact and an on-wound, a group of parallel-connected channels, each of which has four pins, a relay-on winding, the first and second diodes , control key with make contact. The first outputs of all channels are connected and connected to the first output of the auxiliary contact of the auxiliary relay, the second output of which is connected to the first output of the common reset key, the second outputs of all channels are connected, the third outputs of the channels are connected, and in each channel the first and second diodes are connected by anodes, the first output the relay enable winding is connected to the first terminal of the control key making contact, the second channel relay enable terminal is connected to the fourth channel output, the fourth channel outputs are connected and connected us to the second terminal for the power supply.

The essence of the invention lies in the fact that the auxiliary relay is bi-stable polarized with on-off adjustment of the contact system, is additionally equipped with a disconnect winding and a make contact, which has a movable contact part output common with the make contact, and the general reset key is made in the form of a button with a make contact . An additional two-stable polarized relay with two-position adjustment of the contact system, make and break contacts with a common output of the moving contact part, on and off windings, additional common first and second diodes, an output make contact of the program-time device, common resistor and thyristor are introduced into the switch , each of the channels has a fifth output, and additional third and fourth diodes, a resistor, a thyristor, an additional start button with a closing contact are introduced into the channel volume, with the first outputs of all channels connected to the first output of the auxiliary relay switching winding, the output of the moving contact part of the NC contact of this relay connected to the first output to connect the power source, the second outputs of all channels connected to the stationary output of the auxiliary contact of the auxiliary relay, the cathode of the first common additional diode, the first output of the make contact common additional
control button, the first output of the closing output contact of the program-time device, the second output of which is connected to the second output of the closing contact of the reset button, the first output of the auxiliary winding disconnect relay, the anode of the second common auxiliary diode, the cathode of which is connected to the second output of the closing contact of the common additional button control, the first output of the auxiliary winding tripping relay, the second output of which is connected to the fixed output of the make contact will complement relay, to the second output of the auxiliary relay enable winding, the third output of each channel is connected to the common thyristor anode, the cathode of which is connected to the first output of the auxiliary relay enable winding, the second output of which is connected to the output of the fixed NC contact of this relay, the fifth output of each channel is connected to the first output of the common resistor, the second output of which is connected to the output of the control electrode of the common thyristor, the second output of the auxiliary winding disconnect winding is connected to the second the output for connecting the power source to the output of the movable contact part of the opening and closing contacts of the auxiliary relay, the anode of the first common additional diode, and in each channel its first
the output is connected to the first output of the make contact of the additional start button, the second output of which is connected to the anodes of the third additional, first and second diodes, the cathode of the third additional diode is connected to the first output of the resistor, the second output of which is connected to the output of the thyristor control electrode, the cathode of the first diode is connected to to the fifth terminal of the channel, the cathode of the second diode is connected to the second terminal of the channel, the anode of the thyristor, the cathode of which is connected to the second terminal of the make contact of the control key, the output terminal of which is connected to the anode of the fourth additional diode, the cathode of which is connected to the third output of the channel, in addition, the opening contact of the auxiliary relay, the closing contact of the auxiliary relay and the trigger input of the program-time device are connected in series between the terminals to connect the power source, while the program-time device is made with the closure of its output closing contact after completion of the processing of a given program, keeping this contact closed during the aftereffect time of the start command at the start-up input of the program-time device, starting from the moment the processing of the specified time program is completed, and the contact is returned to its initial open state after the start command at the start-up input of the program-time device is removed, counting from the moment the workout completes temporary program.

 The drawing shows a schematic diagram of the claimed switch, which contains a group of parallel-connected channels, in each of which there are five outputs, a channel 1 relay coil, a control key 2 with a make contact, a start button 3 with a make contact, the first 4 and second 5 diodes, third 6 and fourth 7 additional diodes, resistor 8, thyristor 9. In addition, there are common elements: auxiliary relay 10 with an on and off winding and its switching contact 11, additional relay 12 with an on and off winding phase and its switching contact 13, resistor 14, thyristor 15, additional control button 16 with a make contact, the first 17 and second 18 are common additional diodes, output and make contact 19 of the program-time device, general reset button 20 with make contact, first 21 and the second 22 pins for connecting a power source. In addition, the NC contact 23 of the auxiliary relay, the NC contact 24 of the auxiliary relay and the trigger input of the program-time device 25 are connected in series between the terminals for connecting the power source.

 The claimed switch operates as follows.

After applying the supply voltage to the terminals 21, 22, the switch is returned to its initial state by pressing the general reset button 20. The current flows through the circuit: the first output 21 of the power source, the closing contact of the button 20 of the general reset then on two parallel circuits (winding disconnect auxiliary relay 10, the second common additional diode 18 winding disconnection of the auxiliary relay 12 its make contact 13 of the switching contact group) the second output 22 of the source nutrition. As a result, the auxiliary relay 10 and the auxiliary relay 12 switches to its initial state. After releasing button 20, the switch is ready for operation. Turn on the control key 2 of the selected channel and press the start button 3. The current flows through the circuit: the first output 21 of the power source is the opening contact of the switching contact group 11 of the auxiliary relay the first output of this channel is the make contact of the start button 3 then along two parallel circuits (additional diode 6 resistor 8 control electrode of the thyristor 9 its cathode is the make contact of the key 2 of the control winding 1 channel relay enable; diode 4 channel output resistor 14 thyristor control electrode 15 its cathode auxiliary relay switching winding 12 opening contact of the switching contact group 13 it a relay) 22, a second terminal power source. The thyristor 9 opens and the current flows further through the diode 7, the third channel output of the thyristor 15, the auxiliary relay switching winding coil 12, the breaking contact of the switching contact group 13 of the auxiliary relay, the second power supply terminal 22. As a result, the thyristor 15 opens, an additional relay 12 switches over the switching winding, and its switching contact 13 changes its state. Next, the thyristor 15 is closed, the winding of the additional relay 12 is de-energized. The auxiliary winding of the auxiliary relay 10 is energized and the current flows through the circuit: the first output of the power source 21 is the breaking contact of the switching contact group 11 of the auxiliary relay, the auxiliary winding of the auxiliary relay 10 is the closing contact of the switching contact group 13 of the additional relay 12 second terminal 22 of the power source. The auxiliary relay 10 on the switching winding switches, and its contacts change their state, and the switching winding is de-energized. The thyristor 9 of the switched channel is kept open at the moment of switching the contact 11 by the self-induction current in the circuit: the second output of the relay switching coil 1 of the switched channel fourth channel output of the first common additional diode 17 second channel output of the thyristor 9 is the make contact of the control key 2 the first terminal of the relay switching winding 1 channel. When the closing contact of the switching contact group 11 of the auxiliary relay current
goes through the circuit: the first output 21 of the power source is the make contact of the switching contact group 11 of the auxiliary relay the second output of the channel is thyristor 9 is the make contact of the control key 2 is the relay coil of the channel 1, the fourth channel output is the second output of the power supply 22. As a result, the channel start-up circuit is de-energized, and the channel relay coil remains on. To carry out the technological cycle according to the specified time program, press the additional button 16. The current flows through the circuit: the first output 21 of the power source is the make contact of the switching contact group 11 of the auxiliary relay the make contact of the additional button 16 is the disconnect winding of the additional relay 12 the make contact of the switching contact group 13 of this relay is second output 22 of the power source. An additional relay on the trip winding is switched and de-energized, since its contact switches to its original state. The serial circuit of the opening contact 23 of the additional relay, the closing contact 24 of the auxiliary relay and the start-up input of the program-time device 25 is turned on. After the completion of the set time program, the output contact 19 of the program-time device 25 is closed. The current in the switch goes through the circuit: the first output 21 of the source closing
the contact of the switching contact group 11 of the auxiliary relay closing output contact 19 of the program-time device, the winding disconnecting the auxiliary relay 10 is the second output 22 of the power source. The auxiliary relay 10 on this winding switches to its initial state and is de-energized, since its switching contact 11 occupies the initial position. The thyristor 9 is closed, the winding 1 of the channel relay is switched off. The auxiliary contact 24 of the auxiliary relay is reset. After removing the start command at the start input of the program-time device 25, its output closing contact 19 returns to its original state. The switch is reset automatically from the output make contact 11 of the program-time device.

 In addition to the above distinguishing features, the channel switch contacts are excluded in the claimed switch, which makes it possible to use relays with features different from the prototype, for example, an electrohydro relay, which in a real circuit directly controls the operation valves of the technological scheme of the water treatment filters of thermal power plants.

 Thus, the totality of the claimed essential features of the switch, as well as the sequence of functional relationships allow to achieve a positive result.

Claims (1)

 A SWITCH containing terminals for connecting a power source, a general reset key, an auxiliary relay with an opening contact and an on-wound, a group of parallel-connected channels, each of which has four outputs, a relay on winding, the first and second diodes and a control key with an end-contact, the first the outputs of all channels are connected and connected to the first output of the NC contact of the auxiliary relay, the second output of which is connected to the first output of the general reset key, the second outputs of all channels are connected, your conclusions of all channels are connected, and in each channel the first and second diodes are connected by anodes, the first output of the relay enable winding is connected to the first output of the control switch make contact, the second output of the channel relay enable winding is connected to the fourth output of this channel, the fourth channel outputs are connected and connected to the second terminal for connecting the power source, characterized in that the auxiliary relay is made of a unstable polarized with on-off adjustment of the contact system, on the disconnect winding and a make contact, which has a movable contact part output shared with a make contact, a general reset key is made in the form of a button with a make contact, a bi-stable polarized auxiliary relay with two-position adjustment of the contact system, make and break contacts having a common the output of the movable contact parts, windings on and off, an additional common control button with make contacts, common additional first and second diodes, a running contact of the program-time device, a common resistor and thyristor, each channel has a fifth pin, and additional third and fourth diodes, a resistor, thyristor, an additional start button with a closing contact are introduced into the channel, and the first outputs of all channels are connected to the first output auxiliary relay switching windings, the output of the moving contact part of the NC contact of this relay is connected to the first output for connecting the power source, the second outputs of all channels are connected to the fixed the output of the auxiliary contact of the auxiliary relay, the cathode of the first common auxiliary diode, the first output of the auxiliary contact of the common additional control button, the first output of the auxiliary output contact of the program-time device, the second output of which is connected to the second output of the reset button, the first output of the auxiliary winding disconnect relay, the anode the second common additional diode, the cathode of which is connected to the second terminal of the make contact of the common additional control button, the first at the output of the auxiliary relay disconnect winding, the second output of which is connected to the stationary output of the auxiliary relay make contact, the second output of the auxiliary relay enable winding, the third output of each channel is connected to the common thyristor anode, the cathode of which is connected to the first output of the auxiliary relay enable winding, the second output which is connected to the terminal of the fixed NC contact of this relay, the fifth terminal of each channel is connected to the first terminal of the common resistor, the second terminal of which It is connected to the output terminal of the common thyristor control electrode, the second output of the auxiliary relay disconnect winding is connected to the second output to connect the power source, the output of the moving contact part of the opening and closing contacts of the auxiliary relay, the anode of the first common additional diode, and in each channel its first output is connected to the first terminal of the make contact of the additional start button, the second terminal of which is connected to the anodes of the third additional, first and second diodes, the cathode of the third an additional diode is connected to the first terminal of the resistor, the second terminal of which is connected to the terminal of the thyristor control electrode, the cathode of the first diode is connected to the fifth channel terminal, the thyristor anode, the cathode of which is connected to the second terminal terminal of the control key, the first terminal of which is connected to the anode of the fourth diode, the cathode of which is connected to the third output of the channel, in addition, the breaking contact of the auxiliary relay, the closing contact of the auxiliary relay and the trigger input of the program-time device connected in a serial circuit between the terminals for connecting the power source, while the program-time device is made with the closure of its output closing contact after completing the specified program, keeping this contact closed for the duration of the start command at the start input of the program-time device , counting from the moment of completion of the development of a given time program, and the return of this contact to its initial open state after removing the command a bit at the input of the start of the program-time device.

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