SU1100680A1 - High-voltage switch-gear - Google Patents

Description

And elements, the second input of which is connected respectively with the output of the corresponding block for locking the disconnected position of the switch disconnector switch, the first output of each of the eight second elements AND is connected to the input of the corresponding switch control unit adjacent to the failure. the second output of each of the eight second elements; And connected to the input of the corresponding control unit of the disconnecting switch of the failed switch, the output of each of the eight third elements And is connected to the input of the corresponding control unit by a second line switch adjacent to the damaged one, the first output of which is intended to command the on switch, and the second output is connected to the memory unlocking input of the corresponding first element I,

The invention relates to electrical engineering, in particular, to high-voltage electrical distribution devices of open and closed type. High-voltage distribution devices are known, containing busbars, switches, and disconnectors designed for electrical substations of distribution networks and main lines. power lines and transformations in which the failure of any line or transformer switch clears the substation substation, and in the case of sectional sludge failure and the bus connecting switch is canceled by the entire substation C. The closest to the proposed is a high-voltage distribution device that contains switchgear and disconnectors connected in a ring pattern with four elements connected between them (a transformer and 2 lines) 21, In this circuit, short-circuit on any element (line or transformer) and failure of the switch is turned off, except for the damaged one, one intact element, the invention is increased reliability of power supply Consume lei. This goal is achieved by the fact that in a high lap-switchgear unit containing switches and disconnectors connected in a square ring, transformers and lines. power lines connected to the vertices of the square were additionally introduced four separators included. between each switch and the corresponding transformer, and an automation scheme containing two protection latching blocks for protection of the first and second transformers, two latching protection latching blocks for the first and second power transmission lines, four latching units for the first and second failure reservation devices, the third and fourth switches, respectively, four blocks. latching; no current in the circuit of the first and second transformers, and the first and second, power lines, respectively; and the disconnected position of the first, second, third, and fourth switches, the eight first elements of the logical AND operation with memory, having four inputs, three outputs, and an auxiliary input for removing memory, four control units of the first, second, third, and fourth switches four control units with four separators and four fixing units for their disconnected position, four control units for four disconnectors connected between each switch and the corresponding line, and four fixing units for their disconnected About the position, eight second elements of the logical AND operation, having two inputs and two outputs and eight third elements of the logical AND operation, having two inputs and one output, while in each of the eight first elements of the logical operation and four inputs are connected respectively to the output of the Lix unit activation of the protection of accession, with the output of the unit g) of the absence of current in the connection circuit, with the output of the fixation unit of the action of the backup switch failure device, and with the output of the fixation unit switched off a switch adjacent to the failed one, the first output of each of the eight first elements And is connected to the input of the control unit with a separator adjacent to the Failed switch, the second

the output of each of the first eight elements And is connected appropriately to the first input of each of the eight second elements And, with each second input of which is connected the output of the corresponding Block of the unlocked position of the separator adjacent to the failed switch, and the third output of each of the eight first elements And is connected respectively, with the primary input / 1 input of each of the eight third elements, And, the second input of which is connected respectively with the output of the corresponding block for fixing the disconnected position of the disconnector the first output of each of the eight second elements I is connected to the input of the corresponding control unit by a switch adjacent to the failed and separated with it disconnected separator, the second output of each of the eight second elements I is connected to the input of the corresponding control unit by the disconnecting switch of the left switch, the output of each of the eight third elements And is connected to the input of the corresponding control unit by a second LII switch, adjacent to the damaged one, the first output of which is intended for odachi command to the inclusion of the switch, and a second output connected to the input removably fixing memory sootvetstvukitsego first AND

The drawing schematically shows the proposed device.

Switches 1-4 and separators 5-8 are connected to a square circuit, to the vertices of which are connected power lines 9 and 10 and transformers 11 and 12, Disconnectors 13-16, connected on both sides of power line 9 and 10, respectively, are equipped with remote control actuators and are included in the automation scheme, which contains the following elements.

Transformer protection actuation latch block 17, transformer 11’s block 18 has no current in the transformer 11, switch failsafe actuation device latch block 19 (LEVEL 1, power transmission line protection latch block 20 (power transmission line 9, block of current absence fixation 21 through power lines 9, block 22 latching the closed position of the switch 2, the block 23 latching the unlocked position of the switch 3, block 24 AXI operation of the breaker switch 3, the block 25 latching the unlocked position of the switch 4, block 26 latching the unlocked position o switch, latching unit 27 no current in the transformer 12, latching unit 28 operating the transformer 12, block 29 LPS breaker actuation switch 2, 30 latching triggering block 30, block 31, Latching breaker actuation block 32, elements 33- 40 logical operation AND with - latching of the activated state, nor (memory element), blocks 41-44: control switches 1-4, respectively, blocks 45-48, control separators 5-8, respectively, blocks

0 49-52 control of disconnectors 1316, respectively, blocks 53-56 of fixing the disconnected position of the separators 5-8, blocks 57-60 of disconnection of the disconnected position

5 13-16 respectively, elements 6176 of the logical operation I.

The device works as follows.

With a short circuit (short-circuit) 77 on

0 Transmission lines 9, the switches 1 and 3 must be disconnected from the relay protection operation. If the switch 1 is disconnected (switch 3 is switched off normally) from the breaker failure circuit, the switch 2 switches off the short-circuit current 77. This causes the de-energization of the transformer 11. At the outputs of blocks 19 ( LEVEL SWITCH 1), 20 (power line protection 9), 21 (no current on line 9) and 22

0 (switch 2 is off) signals that are applied to the inputs of the logic operation element 37 AND with the memory element that operates, From the first output of the element 37, the signal is fed to the input of the separator 5 control unit 45, the last is turned off, the division of the damaged power line 9 and the failed switch 1 from the intact part of the improved quadrilateral circuit. The input element 63 And the signals from the output of the block 37 and the block fixation 53 of the disconnected position of the separator 5, the block 63 is triggered and from its output

5 two signals: one to the input of the switch control block 42, and the second to the input of the switch control block 49 13. The switch 2 turns on and supplies voltage to the transformer 11,

one

The time during which the transformer 11 was de-energized consists of the disconnection time, separating 5 liters 5 (0.4 s) and the switch-on time of the switch 2 (0.1-0.2. S), i.e. (o, 50, 7 ) s. Thus, in the proposed scheme, the transformer 11 remains in operation when the switch 1 is disconnected. In the prototype (conventional quadrilateral) scheme, the decoupling of the transformer 11 takes place in this situation for the time required to arrive at the substation

5 operational and maintenance personnel and

production time of operational switching, which usually takes several hours,

After disconnection of the disconnector 13, the block 57 is fixed, fixing its disconnected position, and from its input a signal is fed to the input of element 64 I, at the second input of which there is a signal from the output of block 37. Block 64 is activated and from its output one signal goes to switch on switch 3 which is turned on again into the power line 9, and the second signal is fed to the input of the unit 37 to remove memory from it.

The scheme works similarly with short circuit 77 on power lines 9 and failure to turn off switch 3.

With short circuit 78 in transformer 11, switches 1 and 2 must be disconnected from the operation of the relay protection. If one of the switches (for example, 2) fails to open, then the breaker circuit 4 disconnects from the circuit breaker. At the same time, all four signals appear at the input of element 34 | necessary for its actuation s from protection transformer 11 block 17, from current block 18 in transformer 11, from breaker circuit breaker block 29 and switch 4 off position fixing block 25. The element 34 is triggered and the signal from its output is fed to the input of the separator control unit 47 and to the inputs of the elements 65 and 66, the separator 7 is turned off, the block 55 fixing its disconnected position triggers and sends a signal to the inputs of the elements 65 and 71. the input element 65 And there are both signals (from the output of the element 34 and the block 55), the Element 65 And is triggered and one signal from its output is fed to the block 41 of the control switch 1, and the second signal to the block 50 of the control of the disconnector 14.

Switch 1 re-turns on the transformer 11 (if there is no signal of the prohibition of its protection). After disconnecting the disconnector 14, the damaged switch 2 is disconnected on all sides and it becomes possible to re-enable the power transmission line 10 by the switch 4.

This is done as follows. The signal from the output of block 58 for unlocking the position of the disconnector 14 is supplied to the input of element 66, at the second input of which the signal from the output of block 34 is on duty. Element 66 is triggered and from its output the signal is fed to the input of control switch 44. Turning on switch 4 restores transit on lines 9 and 10. From the second output of the unit

44 receives a signal at the input of block 1 to clear the memory.

Similarly, the circuit operates at fault 78 and failure to turn off the switch 1-, as well as short-circuit at power lines 10 in transformer 12.

Despite the fact that the disconnecting switch with a remote drive is a slow-acting device (8 seconds), its inclusion in the automation scheme allows for 8 seconds to disconnect the switch that failed to be disconnected, after which it is possible to restore transit through power lines 9 and .10, the indicated possibility is shown above, implemented in the proposed autorigile scheme of an improved quadrilateral, In the prototype scheme (a regular quadrilateral), in order to restore transit through transmission lines 9 and 10, it is necessary to perform operational switching operations at the switchgear switchboard UPE and repair personnel 1. If the substation has service personnel, it will take several tens of minutes to switch over, if the substation is serviced by an operational outreach brigade (OVB /, it will take several hours to restore the transit.

The proposed circuit of the improved square has advantages over the prototype in the following cases: when the failure of the switch coincides with short circuits on the line with the repair of the circuit switch turned on (according to the diagram) in the circuit of a conventional quadrilateral, the switchgear (RU) is completely redeemed the circuit after disconnecting to the pause-free corresponding separator in the work remains a block line - transformer with short circuit on overhead lines and the failure of both switches in the prototype circuit is fully extinguished RU, and in the proposed scheme, after the respective separators are disconnected, a line unit - transformer is saved in operation.

The goal is to increase the reliability of the distribution device according to the quadrilateral scheme, because when there is a short circuit on the line, accompanied by a failure to turn off the switch, both transformers remain in operation, and if there is a short circuit in the transformer, followed by a switch failure, m, the power is restored automatically after 8s.

The field of application of the proposed scheme extends to cases when a particularly high level of consumer power supply reliability is required and time is not allowed longer than AR does, when a single overloaded transformer rag is not allowed, when power transit through the substation is not disturbed for more than required for automatic reclosing, in the absence of service personnel.

Claims (1)

1. A HIGH VOLTAGE DISTRIBUTION DEVICE, comprising switches and disconnectors connected in a ring circuit in the form of a square, transformers and power lines connected to the vertices of the square, distinguishing by the fact that, in order to increase the reliability of power supply to consumers, in addition, four separators are introduced, which are connected between the circuit breaker and the corresponding transformer, and an automation circuit that contains two blocks of the operation of the protection of the first and second transformers, two blocks of Fixats and. actuation of protection of the first and second power lines, four Locks for recording the operation of the backup device for the failure of the first, second <ego, third and fourth switches, respectively, four Locks for the absence of current in the circuit of the first and second transformers and the first and second power lines, respectively, four Locks for the disconnected the positions of the first, second, third and fourth switches, the eight first elements of the logical operation AND with memory, having four inputs, three outputs and an additional input memory removal, four control units of the first, second, third and fourth switches, four control units of four separators and four blocks of fixation of their disconnected position, four control units of four disconnectors connected between each switch and the corresponding line and four blocks of fixation of their disconnected position eight second elements of the logical aND operation, The available _(boiling two inputs and two outputs and eight ^one third aND logic operation elements having two inputs and one output, wherein each of an eight and the first elements of the logical operation AND four inputs are connected, respectively, to the output. Protection connection fixation block, to the output of the Block of lack of current detection in the connection circuit, to the output of the block of the fixation of the action of the backup device of the failure of the connection switch and to the output of the Block of fixation of the disconnected position of the switch adjacent to failed, the first output of each of the eight first elements AND is connected to the input of the separator control unit adjacent to the failed switch, the second output of each and of the first eight AND elements is connected respectively to the first input of each of the eight second AND elements, with each second input of which the output of the corresponding unit for fixing the disconnected position of the separator adjacent to the failed switch is connected, and the third output of each of the eight first elements AND is connected respectively to the first input of each out of eight third 0890011 '° AS of AND elements, the second input of which is connected respectively to the output of the corresponding block for fixing the disconnected position of the disconnector of the failed switch, the first output of each of the eight second elements And is connected to the input of the corresponding control unit of the switch adjacent to the disconnected and disconnected with it a separator, the second output of each of the eight second elements AND is connected to the input of the corresponding control unit of the disconnector of the failed switch, the output of each of the eight third elements Comrade I is connected to the input of the corresponding control unit by a second line switch adjacent to the damaged one, the first output of which is intended to give a command to turn on this switch, and the second output is connected to the memory release input of the corresponding first element I.