SU783908A1 - Device for off-loading region of electric mains - Google Patents

Description

The invention relates to the field of automation of an electric network.

A device for unloading a region of an electric network [1J.

Most -close technical solution is the device for unloading ® area electrical network, which feed the consumers for several substations The lines of section switch comprising at the transmitting end line command block ¹⁶ with vyyavitel- nym body and placed at the receiving end lines of actuator units with the preparation , fixation, launcher, trip damage detector. and inclusions · ·.

In the known device the transmission pulse signal to turn off the load is disconnected from the central device emergency avtomata- _m ki second circuit supply lines with its ban-automatic reclosing, and a pulse transmission signal to switch off the load previously - the second switch circuit VL from the power substation. Disconnecting the second overhead line for a long time reduces the reliability of power supply to consumers.

The aim of the invention is to increase the reliability of power supply to consumers *.

This goal is achieved by the fact that in the device for unloading the area of the electric network, the consumers of which are fed along several lines from the substation with sectional switches, containing at the transmitting end of the line a command unit with a detecting body, and at the receiving end of the line an executive body consisting of a training unit, the output of which is connected to the first input of the latching unit, to the second input of which a damage detection unit is connected, and the output is connected to the first ^; the input of the load shedding unit, the second input of which is connected to the drive of the linear switch of the receiving end of the line, the third input is connected to the output of the starting block, the first output is connected to the switching unit, the second and third outputs are connected to the drives of the switches of the disconnected load, the control unit is introduced into the actuator, the input of which is connected to the starting block, and the outputs are connected to the drives of the switches of the disconnected load.

The drawing shows a functional electrical circuit of a consumer unloading device.

The device consists of an emergency control unit 1 located at the transmitting end with an emergency detection unit (not shown in the diagram), which serves to issue commands to unload consumers and turn them on automatically! with a permissive signal of emergency automation by opening the circuit breaker 2 installed on substation 3, line 4 connecting substations 3 and 5.

The system also includes an executive body located at the receiving end, consisting of a preparation unit 6, which serves to bring the fixation unit 7 into operation, a start-up unit 8, which serves to control the gauge at the input of the power transformer and bus section 9, GO unit for detecting damage to line 4 , block 7 fixation for remembering the operation of block 10, block 11 disconnect the load, used to turn off the load switches 12 and 13, block 14 turn on the load, serving to automatically restore power off s consumers. The executive body also includes a bus section 15, transformer input switches 1 6 and a sectional switch 17, a control unit 18, which is used to detect and disconnect line 4 after fixing the action of the executive body on disconnecting consumers.

The device operates as follows.

When conditions arise for the operation of emergency control equipment for unloading consumers, command unit 1 is activated at substation 3, which! turns off the switch 2 and blocks the first frequency of the automatic restart (not shown in the diagram) of this switch, while the voltage is removed from line 4. At substation 5, the starting block 8 is activated, which prepares the load disconnecting unit 11 and the control unit 18 for further operation. In this case, the blocks for detecting damage of the 10th fixation 7 human functioning. After a time longer than the duration of the relay protection and the first frequency of automatic reconnection of the supply line 4 at the substation 3, from the protection of power loss (not shown in the diagram) with the monitoring of the absence of voltage on the bus section 9 and the presence of voltage on the bus section 15, the circuit breaker opens 16 of the transformer input and the sectional switch 17 is turned off (ATS occurs). After the circuit breaker 16 is turned off, the load disconnection unit 11 is started and the consumers are unloaded by turning off the switches 12, 13 and prepares the load switching unit 14 for operation.

With a time delay longer than the operation of the ATS at substation 5 from * the second multiplicity and automatic restart (not shown in the diagram), switch 2 is turned off at 25 substation 3. A voltage appears on line 4. At the same time, in the substation 5, the starting block 8 works and returns to the initial position the control unit 18. In addition, with voltage control at the input 30 of the power transformer and on the busbar section 9, automatic restoration of the previous transformer operation mode (not shown in the diagram) is activated, which turns on the transformer input switch 16 and turns off the sectional switch 17, as a result of which the load switching unit 14 starts and the control unit 18 is prepared for operation.

When emergency operating conditions arise, the command unit 1 at the substation 3 is triggered to turn on previously disconnected consumers, and the _4C switch 2 is turned off again without prohibiting the first multiplicity of the line’s re-enabler, while the voltage of line 4 decreases. At substation 5, the starting block 8 is activated, the output signal of which ₅₀ acts on the control unit 18. The latter operates and turns on the switches 12 and 13, previously disconnected through the block 11 disconnect the load.

After a time less than the operating time of ⁵⁵ ATS at substation 5, the switch 2 on substation 3 is turned on from the first multiplicity of the automatic re-activation of line 4. A voltage of 783908 appears on line 4. At substation 5, the starting block 8 is triggered and the executive body returns to its original position.

The use of this device for unloading consumers makes it possible to significantly increase the reliability of power supply to consumers, to exclude high-frequency transmission channels of television signals.

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Claims (2)

78S9O8 line, the third input is connected to the output of the starting block, the first output is connected to the switch-on unit, the second and third outputs are connected to the switches of the switches of the switchable load, the control unit is inserted into the actuator, the input of which is connected to the starting block, and the outputs are connected to the switches of the switches off load. The drawing shows a functional electrical circuit of a consumer unloading device. The device consists of emergency control automation t placed at the transmitting end of the command block with a pronounced ort (not shown in the diagram), which serves to unload the consumers to automatically turn on the emergency control signal by disconnecting the switch 2 installed at substation 3 , lines 4, connecting substation 3 and 5. The executive body located at the receiving end, consisting of the training unit 6 for the employee in the working position e block 7 of the fixing, starting block 8, the service of the voltage of the power input to the power train | 1аtsfa and busbar sections 9, block IO detecting damage to line 4, block 7 of fixings for memorizing the operation of block U of block 11 of disconnecting a load, which serves to disconnecting the breakers of loads 12 and 13, block 14 of switching on, which serves to automatically restore power to be disconnected consumers. The executive orgy also includes busbar section 15, transfer input I 6 switches (1mator and sectional switch 17, control unit 18, which is used to detect disconnection of line 4 after fixing the action of the consumer on disconnecting consumers. The device works as follows. When conditions arise for emergency automation work on the unloading of consumers, it triggers to the andean block I at substation 3, which disables switch 2 and locks the automatic re-activation rate (in the diagram This switch is shown at the same time, the voltage is removed from line 4. At substation 5, the starting block 8 is activated, which prepares the block for disconnecting the load and the control block 18 for further operation, while blocks detecting damage 10 and fixing 7 are functioning. time greater than the time of relay protection and the first multiplicity of automatic restarting of power supply line 4 at substation 3, from power protection (not shown in the diagram) with the control of the absence of power supply on the bus section 9 and the presence of voltage on the bus section 15 The transformer input switch 16 is turned off and the section switch 17 is turned off (ABP occurs). After shutdown. " The switch 16 starts up the load disconnecting unit 11 and discharges consumers by disconnecting the switches 12, 13 to prepare the load switching unit 14 for operation. From an extended time that is longer than the ABP operation time at the substation 5 from the second multiplicity and automatic restart (not shown), the subsampler 2 at the substation 3 is turned off. On line 4, a voltage appears. At the same time, the starting unit 8 is working at the substation 5 and the control unit 18 returns to the initial position. In addition, with the voltage control on the input of the power transformer and on the busbar 9 bus, the automatic operation of restoring the operating mode of the transformer (see not shown) operates, which switches the transformer's input switch 16 on and off the section switch 17, as a result of which the load-on unit 14 is started and The control unit 18 is prepared for operation. When the emergency automation operation conditions occur, the command unit 1 at the substation 3 is triggered to turn on the previously disconnected consumers, which switches the switch 2 off again without prohibiting the first multiplicity of the LIN1SH re-activation machine, while the q line 4 decreases the voltage. At the substation 5, the starting block 8 is activated, the output signal of which It operates on the control unit 18. The latter is triggered and includes switches 12 and 13, previously disconnected through block 11 of the load shedding. After a time shorter than the operating time of the ATS in substation 5, switch 2 is turned on in substation 3 from the first multiplicity of the automatic reclosing device of line 4. Voltage appears on line 4. On substation 5 -cpaeaTbraaeT start block 8 and the executive body returns to its initial position. The use of this consumer unloading device makes it possible to significantly increase the reliability of the supply of consumers, to exclude the transmission of television signals to the sub-frequency channels. The invention The device for unloading the area of the electrical network, consumers of which are fed by several GPa from a PS with sectional transmitters, which contain a command block with a signal at the end of lines, and an executive body consisting of preparation, output which is connected to the input of the latch unit, to the second input of which the damage detection unit is connected, and the output is connected to the input of the load shedding unit, the second input of which is connected to the actuator of the receiving switch to the line, the third input is connected to the output of the starting block, the output is connected to the switch-on unit, the second and third outputs are connected to the switches of the switch-off load, characterized in that, in order to improve the reliability of the power supply to the pager, the control unit is inserted into the executive connected to the starting block, and the outputs are connected to the actuators of the disconnecting switches. The sources of information taken into account under I. USSR Author's Certificate No. 469180, cl. H O2 J 3/24,. 2. Adatsky certificate of the USSR for Application No. 2388562/24-О7, cl. H O2 J 3/24, 1976.