SU1132319A1 - Device for adjusting power line circuit breaker when melting glazed frost - Google Patents

Abstract

CONTROL DEVICE BY A SWITCH LEAF SWITCH, containing current transformer connected to the line, overcurrent relay and overcurrent relay connected in series to the output of the current transformer, the start and end of the melting contacts, the first time relay connected to the control bus through the first disconnecting switch a switch contact, a switch-on electromagnet connected to the control busbars in series with the second disconnecting block contact of the switch and the contact of the first relay A contactor of the output terminal, the first closing contact of which is connected in parallel with the overcurrent relay, and the winding is connected to the control busbars via a melt-down contact and the second closing contact of the protection output contactor, an intermediate relay connected to the control busbars via a melt-off contact, the third disconnecting switch. the contact of the protection output contactor and the chain connected in parallel from the contact of the start of melting and the third closing contact of the switch and the first closing contact of the switch The second relay, connected in series with the fourth disconnecting block switch contact parallel to the intermediate relay and the third disconnecting contact of the protection output contactor, is first closed without time delay the second relay is parallel to the first contact of the intermediate relay, and the second slipping contact second (l. a time relay connected in parallel with the second end of the contactor contact of the output contactor is closed, the third time delay contact, the second time relay contact connected in parallel with the first time relay contact, and the opening electromagnet connected to the control bus through the fifth closing contact block of the switch and the second The contact of the intermediate relay, 6 is different because, in order to increase the reliability and simplify the design when melting the ice by simultaneous closures, a third time relays. and current relays of maximum and minimum current, the third one, of which time relay is connected to control busbars via the fourth contact of the protection output contactor, windings of current relays of maximum and minimum current are connected. sequentially to the output of the transform

Description

the current torus, and the contacts connected in parallel with the contact of the third time relay 1132319 are connected in series with the contact of the end of melting.

The invention relates to electric power industry and can be used to control shorting switches when melting ice in a continuous mode by simultaneous short circuits.

It is known a melting circuit breaker control unit containing a pulse-pair made on two time relays, the windings of which are connected to a power source, and the contacts are included in the circuit of the electromagnets on and off of the switch connected to the power supply terminals of the intermediate relay, relay time and pulse counter, the winding of which is connected in parallel with the winding of the switching electromagnet, and its contacts are included in the winding circuit of the intermediate relay 13 The disadvantage of this device is o that it can only be used when melting ice in an intermittent mode.

The closest technical solution is a line breaker control device for melting ice, containing a current transformer connected to the line, an overcurrent and overcurrent protection relay connected in series to the output of the current transformer, start and end melting contacts, a first time relay connected to the taverns control through the first disconnecting block contact switch, the electromagnet of the switch connected to the taverns. control in series with the second blocking contact of the switch and the contact of the first time relay of the protection output contactor, the first closing contact of which is connected in parallel with the overcurrent relay, and the winding of which is connected to the control busbars via the contact of the end of melting and the second closing contact of the protection output contactor, an intermediate relay connected to the control busbars via the end-of-contact contact, the third break contact of the protection output contactor and parallel-connected circuits contact from the start of melting contact and the third closing contact block of the switch and the first closing contact of the intermediate relay, the second time relay connected in series with the fourth disconnecting block contact of the switch parallel to the intermediate relay and the third disconnecting contact of the initial output contactor, the first closing contact without time delay contact the second time relay, connected in parallel with the first closing contact of the intermediate relay, the second slipping contact of the second time relay, switched on parallel to the second closing contact of the protection output contactor, the third closing contact of the second time relay with time delay, connected in parallel with the contact of the first time relay and the opening electromagnet connected to the control busbars via the fifth closing block contact switch and the second closing contact of the intermediate relay 2.

A disadvantage of this device is that it also contains a unit for transmitting information about the end of the smelting process, which also affects the contact of the end of melting, which is complicated in construction, unreliable in operation and expensive.

The aim of the invention is to improve the reliability and simplify the design of the control device of the line switch when melting ice through simultaneous closures.

The target is reached in the line switch control device for ice melting containing a current transformer connected to the line, overcurrent protection and overcurrent relay connected in series to the output of the current transformer, start and window contacts of no heat, first time relay connected to the control busbars through the first disconnecting blocking contact of the switch, the switch-on electromagnet connected to the control busbars in series with the disconnecting blocking contact of the switch and By pressing the first time relay, the protection output contactor, the first closing contact of which is connected parallel to the overcurrent relay, and the winding is connected to the control ladders via the melting end contact and the second closing contact of the zarty contactor, an intermediate relay connected to the control slots through the end contact the melting, the third interrupting contact of the contactor of the protection output and the chain connected in parallel from the contact of the beginning of melting and the third closing contact switch and the first lock The latching contact of the intermediate relay, the second Burden relay, connected. -sequentially with the fourth interrupting block contact of the switch in parallel. The intermediate relay and. Warming opener contact of the slab output contactor, the first of the short-circuits without time delay the contact of the second time relay, connected in parallel with the first one of the auxiliary contact of the intermediate relay, second slippage, the contact of the second time relay, which is connected in parallel with the second contact of the contact of the output output terminal terminal, the third short-circuit pin, and the third relay, connected with the second contact of the output terminal a time relay connected in parallel with the contact of the first time relay and a shut-off electromagnet connected to the control busbars through the fifth The first blocking contact of the switch and the second closing contact of the intermediate relay by introducing the third time relay and the current of the maximum and minimum current, and the third time relay is connected to the DRIVE slots through a quarter of the contact of the protection output contactor, the winding of the maximum and minimum current relays the current is connected 194 in series to the output of the current transformer, and the contacts connected in parallel with the contact of the third time relay are connected in series with the contact of the end of melting . The drawing shows a circuit diagram of a control device for a line switch during ice melting. The control unit of the 1 line switch consists of a current transformer 2, a current cut-off relay 3 and a maximum current fault 4 lines, a minimum 5 and a maximum 6 current relay (contacts 7 and 8, respectively), a start 9 and end tO contacts, a time relay 11 (contact 12), 13 (pins 14, 15, and 16) and 17 (pin 18), intermediate relay 19 (pins 20, 21), protection contact contactor 22 (pins 23, 24, 25, 26), on-and-off electromagnets 27. 28 switch and its block contacts 29-33. The overcurrent protection relay 4 is designed to protect the lines only in normal conditions and for the period of melting is blocked by contact 23 of the contactor of the output of the circuit breaker 22. The current cutoff relay 3 is designed to protect the line both in the operating mode and in the melting mode and is configured in such a way that his dead zone enters a place where short-circuiting devices are installed on lines. The current relays 5 and 6 serve to control the disconnection of the second shorting switch on the line path and are configured so that their contacts are simultaneously open only when a current flows in the line due to the short circuit condition of the first shorting switch. Time relay 11 is designed to re-enable the line after it is turned off and the time on it must be longer than the time delay on time relay 13 which sets the duration of the code-off time of the circuit breaker 1 line to issue a control command to the shorting switch. Time relay 17 must be selected. so that its setting is longer than the turn-on time of the switching device and serves to prevent switching off the first line after the first shorting switch is turned on before the second shorting switch is turned on, while the current in the line is only due to the closed state of the first. If, according to the melting conditions, the first and second switching devices can be switched on at the same time, then time relay 17 is no longer necessary and it can be removed from the sublimate. The contactor of the protection output 22 serves to disconnect for the period of ice melting on the overcurrent relay line 4. The contact of the end of melting 10 is used to manually disconnect the heated line from the source of melting by the operator manually from the head substation. The operation of the line breaker control unit is as follows. If it is necessary to melt, contact 9 is closed on the melting gala, and the voltage is applied to intermediate relay 19, which then automatically closes itself by contact 20. Contact 21 of intermediate relay 19 supplies an impulse to open the circuit breaker of the 1 line. After the circuit breaker trips, its block contact 29 closes the starting switch. time relay 11, a blocking contact 32, which triggers a time relay 13, and the auxiliary contact 30, which prepares the opening 2 solenoid circuit 2 of the 1 line switch. After time t, time relay 13 with its slipping contact 15 sends a pulse to turn on the protection output contactor 22, which itself blocks by contact 24, by contact 23 blocks the overcurrent protection 4, by contact 25 disconnects intermediate relay 19, and by contact 26 starts time relay 17. Through time t + At closes contact 16 of time relay 13 and switches off the 1 line switch, its block contacts 29 and 32 are open with and time relays 11 and 13 are turned off if time t + d t (set time on pin 16 of time relay 13) will be equal to the setting on the relay time of the first shorting switch (not shown), the latter will turn on, the melting current will appear in the line due to turning on one shorting switch and contacts 7 and 8 of the minimum 5 and maximum 6 current relays will be open. However, the contactor of the protection output 22 will not open, since the burden relay 17 will still be closed. Then, with a certain amount of time, the second shorting switch will operate, the current in the line will increase, the maximum current relay 6 will operate and close its contact 8. After some time, time relay 17 will open its contact 18, but the protection output contactor 22 will remain on to the power buses, because contact 8 of the overcurrent relay 6 will be closed. At the end of the melting process, the signals for the end of melting will give a pulse to disconnect the second shorting switch, it will turn off, the line current will decrease, and contact 8 will relay 6 razo.mknets maximum DUTY current, de-energized output protection contactor 22, contact 23 which, razomknuvshis, brings into operation overcurrent relay 4 and switch 1 otklyuchits line. At the same time, its block-contact 29 is closed and will put into operation time relay 11, which with a delay of time will re-turn on the switch 1 line. During the dead time, the shorting switch on the line is turned off and the line will be in operation. Introduction of two current relays into the switch control unit allows disconnecting the melting source from the source after the ice melting ends by changing the melting current after disconnecting the second shorting switch, which in turn turns off after a signal from nearby ice melting devices. As a result, there is no need to install a complex and insufficiently reliable block for transferring information about the end of the heat to the line breaker control device, which simplifies the device and increases its reliability.

Claims (1)

LINE CIRCUIT BREAKER CONTROL UNIT WHEN ICE IS MELTING, containing connected to. current transformer lines, overcurrent and current cutoff relays connected in series to the current transformer output, melting start and end contacts, the first time relay connected to the control buses through the first opening block contact block of the circuit breaker, the circuit breaker closing electromagnet connected to the control buses in series with a second opening blocking contact of the switch and a contact of the first time relay, a protection output contactor, the first closing contact of which is connected in parallel with the relay max current protection, and the winding is connected to the control buses through the end contact of the melting point and the second closing contact of the protection output contactor, the intermediate relay connected to the control buses through the end of the melting contact, the third opening contact of the protection output contactor and the parallel connected circuit from the start of melting contact and the third closing contact block of the switch and the first closing contact of the auxiliary relay, the second time relay connected in series with the fourth opening block contact The volume of the switch is parallel to the intermediate relay and to the third NC contact of the protection output contactor, the first NO contact of the second timer is switched in parallel with the first NC of the intermediate relay, the second slipping contact of the second relay is connected in parallel with the second NC contact of the output pin contactor , the third closing with a delay of time, the contact of the second timer, connected in parallel with the contact of the first timer, and the electromagnet connected to the control busbars through the fifth closing contact block of the circuit breaker and the second closing contact of the intermediate relay, which is characterized by the fact that, in order to increase the reliability of operation and simplify the design when melting ice by means of simultaneous closures, the third time and current relays are introduced into it the maximum and minimum current relay, and the third, the time relay is connected to the control buses through the fourth contact pin of the protection output contactor, the windings of the current maximum and minimum current relays are connected Sequentially to the output of current transformer * torus and the contacts included time connected posledovatelparallelno third relay contact but with a contact closure melting.