RU2045815C1 - Commutator - Google Patents

Abstract

FIELD: relay automation. SUBSTANCE: when power is supplied to terminals 13 and 14, commutator is switched to initial state by pressing button 2 of any channel and by switching to another state of common rest switch 12. Current that runs through its closing contact switches channel relay 1 to initial state. In addition support relay 7 and additional relay 5 are also switched to initial state. commutator is ready to work. Selected channel control button 2 is pressed. Channel relay 1 and additional relay 5 close, and their contacts change their state. Current runs through conducting closing contact of additional relay. Support relay 7 is turned on and its contacts change their state. Opening contact 9 of this relay turns off selected channel relay 1, additional relay 5 and support relay 7. These relays are kept in their state by holding system. In order to activate time program of device 17 additional control button 10 is pressed. Additional relay 5 is switched to initial state and is turned off through its closing contact 6. Conducting closing contact 16 of additional relay supplies starting input of device 17 through opening contact 15 of additional relay. Device 17 operates according to given program. When program finishes, output closing contact 11 of device 17 is closed. EFFECT: increased functional capabilities. 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.

A known switch 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 of the device are a reset key with an NC contact for initialization, two outputs for connecting a power source [1]
The disadvantage of this device is 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, there is also a common chain of consecutive make contacts of the channel relays, each respectively shunted by a make contact of the control key. After the power supply is supplied by the control key of the switched channel, for example, the switch is turned on, the current will go through the circuit, the first output of the power source, the NC contact of the general reset key, the NC contact of the auxiliary relay, the first channel output, the 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 switch 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 output of the first channel, second diode third output of the first channel auxiliary relay winding) second output for connecting the power source tions. 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 turned 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 the de-energization circuit of the included relays of the first channel and the auxiliary one is disconnected. These relays are disconnected to the initial state, and the relay starting current of the switched channel will go through the closed opening contact of the auxiliary relay. The processes are similar, only the sequence in the retention chain changes.

 An auxiliary relay is introduced in this device, the contact of which opens the circuit of the first outputs of all channels. The disadvantage of this device is the presence of a chain of serial contacts of the channel relays and control keys, the energization of the included relays, 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 proposed device, like the prototype, contains the following similar features: two terminals for connecting a power source, a general reset switch with an opening contact, 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 with a closing contact and the inclusion winding, a diode and a control key with a make contact, while the specified and known devices have the following common connections: the first conclusions of all channels are connected and connected to the first the output of the auxiliary contact of the auxiliary relay, the second output of which is connected through the opening contact of the general reset key to the first output for connecting the power source, in each channel its first output is connected to the first output of the auxiliary contact of the control key, the second output of which is connected to the first output of the relay coil of this channel, the second terminals of all channels are connected, and the second terminal in each channel is connected to the first terminal of the NO contact of the relay of this channel, the third conclusions of all channels are connected They are not connected, the third terminal in each channel is connected to the diode cathode, the second terminal output of the channel relay on winding is connected to the fourth terminal of this channel, the fourth channel outputs are connected and connected to the second terminal to connect the power source.

 The essence of the invention lies in the fact that all the relays are made unstable with two-position adjustment of the contact system and are additionally equipped with trip windings, the general reset key and the auxiliary relay are additionally equipped with make contacts, the channel control keys are made in the form of buttons, an additional control button with a make contact is introduced into the switch , two-stable auxiliary relay with two-position adjustment of the contact system, closing and opening contacts and switching windings I and off, an additional diode and a temporary program with an output closing contact, with the first outputs of all channels connected to the first output of the auxiliary relay turning coil, and the second outputs of all channels connected to the first output of the auxiliary contact of the auxiliary relay, anode of the additional diode, the first output the output make-up contact of the program-time device, and through the make-up contact of the general reset key to the first output for connecting the power source, the second output closes contact of the auxiliary relay is connected to the first output of the disconnect winding of this relay, the output of the NC contact of the general reset key connected to the second terminal of the NC of the auxiliary relay is connected to the second terminal of the output NC of the program-time device, the first terminal of the NC of the additional control button, the second the output of which is connected to the cathode of the additional diode and the first output of the disconnect winding of the additional relay, the second output of which is connected to to the second output of the make contact of this relay and the second output of the auxiliary winding of the auxiliary relay, in each channel the second output of the make contact of the relay of this channel is connected to the first output of the disconnect winding of this relay, the second output of which is connected to the fourth output of the channel, the second output of the make contact of the control button is connected to the anode of the diode of this channel, the third conclusions of all channels are connected to the first output of the auxiliary relay winding, the second output of which is connected to the second output of the make contact This relay, the second terminal of the auxiliary winding disconnect relay and the second terminal for connecting the power source, the auxiliary contact of the auxiliary relay, the auxiliary contact of the auxiliary relay and the start-up input of the program-time device are connected in series between the terminals for connecting the power source, while the program-time the device is made with the closure of its output closing contact after completion of the development of a given time program, keeping this contact in a closed state if the consequences of the start command at the start-up input of the program-time device are melted, counting from the moment the specified time program is completed, and this contact returns to its initial open state after the start command was removed at the start-up input of the program-time device.

 The drawing shows a schematic diagram of the proposed switch.

 It contains a group of channels connected in parallel, each of which has four outputs, a channel relay 1 with a make contact 3, a channel control button with a make contact 2, diode 4, in addition there are common elements, an additional control button with make contact 10, an additional diode 18, auxiliary relay 7 with NO contact 8 and NO contact 9, additional relay 5 with NO contact 6, general reset key 12 with NC and NO contacts, output NO contact 11 of the program-time device roystva 17, 15 break contact auxiliary relay, make contact of the auxiliary relay 16, and run-time software input devices are connected in a daisy chain, the first and second terminals 13, 14 for connecting the power source.

 The device operates as follows.

 After applying the supply voltage to the terminals 13, 14, the switch is restored to its initial state by pressing the button 2 of any channel, and then switching the reset key 12 to a different position. A current will go through its make contact, which will switch the channel 1 relay to the initial state, auxiliary relay 7 and additional relay 5 to its original state. The switch is ready to go. Press the control button 2 of the selected channel. The current will go through the circuit: the first output 13 of the power source, the open contact 12 of the general reset key, the first output of the channel, the open contact 9 of the auxiliary relay 7, the make contact 2 of the control button of this channel, then along two parallel circuits (the coil of the relay 1 channel, the fourth output of this channel, the diode 4 channels the third output of the channel winding enable additional relay 5) the second output 14 for connecting a power source. Channel 1 relay and additional relay 5 will turn on, and their contacts will change their state. Through a closed NO contact 6 of the auxiliary relay, current will flow through the circuit: the first output 13 of the power source, NC contact 12 of the general reset key, NC contact 9 of the auxiliary relay, auxiliary relay winding coil 7 NO contact 6 of the auxiliary relay, second terminal 14 of the power source. Auxiliary relay 7 will turn on, and its contacts will change their state. Opening contact 9 of this relay will de-energize relay 1 of the switched on channel, auxiliary relay 5 and auxiliary relay 7. These relays are held in this position by the holding system.

 To carry out the technological cycle according to the specified time program of the program-time device 17, press the additional control button 10. The current will go through the circuit: the first output 13 of the power source opening contact 12 of the general reset key making contact 10 of the additional control button disconnecting coil of the additional relay 5 closed making contact 6 of this relay, the second terminal 14 of the power source. The auxiliary relay 5 will switch to its initial state and will be de-energized through its make contact 6. Through the make contact 15 of the additional relay, the closed make contact 16 of the auxiliary relay will be supplied to the start input of the program-time device 17, which will operate according to the set time program, and after completion the processing of a given time program closes the output make contact 11 of the program-time device 17. The current in the switch will go through the circuit: the first output 13 of the power source NC contact of the general reset key 12 NC contact 11 of the program-time device 17 further along two parallel circuits (closed NC contact 3 relays 1 of the switched channel, relay disconnecting coil 1 of this channel the fourth output of this channel; closed NO contact 8 of the auxiliary relay disconnecting relay of the auxiliary relay 7 the second output of the power source 14. Relay 1 of the switched channel and auxiliary relay 7 will switch to the initial state and de-energize their contacts. The closing contact 16 of the auxiliary relay 7 will return to its original state, the circuit of the program-time device 17 is de-energized, and its output closing contact 11 will return to its original state. The switch is initialized automatically from the make contact 11 of the program-time device. If necessary, you can remotely reset the switch to its original state using the general reset key. In this case, the current will go through the circuit: the first output 13 of the power source is the make contact of the general reset key 12 then goes along two parallel circuits (the second output of the connected channel is the make contact 3 of the relay of this channel is the disconnect coil of relay 1 of this channel is the fourth output of this channel is the make contact 8 of the auxiliary relay auxiliary relay disconnect winding 7) second terminal 14 of the power source. The difference from the prototype in the proposed device is that all relays are made of two-stable with two-position adjustment of the contact system and are additionally equipped with disconnect windings, an additional control button with a make contact, an additional diode, a general reset key is additionally equipped with a make contact, channel control keys are made in the form of buttons .

 The device uses new relationships. The common serial circuit of relay contacts and control keys to keep the relay on is excluded. This allows you to increase the reliability of operation and reduce the power consumption of the switch, and through the use of a program-time device with an output closing contact to expand the functionality of the switch.

Claims (1)

 A SWITCH containing outputs for connecting a power source, 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 outputs, a relay with an NC and an on coil, a diode and a control key with an NC contact, the first outputs of all channels are combined and connected to the first output of the auxiliary contact of the auxiliary relay, the second output of which through the opening contact of the general reset key is connected It is connected to the first output for connecting the power source, in each channel its first output is connected to the first output of the make contact of the control key, the second output of which is connected to the first output of the relay coil of this channel, the second outputs of all channels are combined, the second output in each the channel is connected to the first output of the NO contact of the relay of this channel, the third conclusions of all channels are interconnected, the third output in each channel is connected to the diode cathode, the second output of the channel relay turn-on winding It is connected to the fourth output of this channel, the fourth outputs of the channels are interconnected and connected to the second output to connect the power source, characterized in that all of the mentioned relays are made unstable with two-position adjustment of the contact system and are additionally equipped with disconnect windings, a general reset key and an auxiliary relay equipped with make contacts, channel control keys are made in the form of buttons, an additional control button with make contact is introduced into the switch , an additional bi-stable relay with two-position adjustment of the contact system, make and break contacts and on and off windings, an additional diode and a program-time device with an output make contact, and the first outputs of all channels are connected to the first output of the auxiliary winding of the auxiliary relay, and the second outputs of all channels are connected to the first output of the make contact of the auxiliary relay, the anode of the additional diode, to the first output of the make contact of the program-time device, and through the make contact of the general reset key to the first output of the power supply, the second output of the make contact of the auxiliary relay is connected to the first output of the disconnect winding of this relay, the output of the make contact of the general reset key is connected to the second output of the make contact of the auxiliary relay and the second output of the output make contact of the program-time device to the first terminal of the make contact of the additional control button, the second terminal of which is connected to the cathode of the first diode and the first output of the auxiliary winding of the auxiliary relay, the second output of which is connected to the first output of the auxiliary contact of this relay and the second output of the auxiliary relay of the auxiliary relay, in each channel the second output of the auxiliary contact of the relay of this channel is connected to the first output of the auxiliary relay of this relay, the second output which is connected to the fourth output of the channel, the second output of the make contact of the control button is connected to the anode of the diode of this channel, the third conclusions of all channels are connected to the first output an auxiliary relay turn-on winding, the second output of which is connected to the second output of the auxiliary contact of this relay, the second output of the auxiliary relay disconnect winding, the second output of the auxiliary power supply, the auxiliary contact of the auxiliary relay, the auxiliary contact of the auxiliary relay and the trigger input of the program-time device are connected in series a circuit between the terminals for connecting the power source, while the program-time device is made with the closure of its output closing to After the completion of the execution of the specified time program, by holding this contact closed for the time, the consequences of the start command at the start of the start of the program-time device, counting from the moment the specified time program is completed, and returning this contact to its initial open state after the start command was removed to the input of the start of the temporary program device.