SU1101947A1 - Device for automatic reclosing of oil circuit breakers - Google Patents

Abstract

DEVICE FOR AUTOMATIC REPEAT ON OIL SWITCHES, containing a time relay by the number of cycles, an output relay, a protection accelerating relay after automatic restart, element I, characterized in that, in order to increase reliability and simplify operation, an auxiliary time relay, elements are introduced into the device memory of the first and second cycle time relays and auxiliary time relay, blocking trigger, prohibition element, three NOT elements, two resistors, a capacitor and nine diodes, with output time relay of the first cycle is connected to the input of the memory element of the time relay of the first cycle, the output of which is connected to the first input of the logic element and whose second input is connected to the Q-output of the trigger blocking, the output of the AND element is connected via the first diode to the output relay, the first block contact the switch is connected to the R-input of the blocking trigger and, via the second diode, to the element, the inhibitor, whose output through the first resistor and the third diode is connected to the input of the memory element of the second cycle time relay, the output of the memory element of the time relay in second cycle through the fourth diode is connected to the input of the time relay of the first cycle and directly with the input of the first logic element Hf, through the first capacitor and the second resistor - from the 5-input 1 lock trigger and through the fifth diode to the input of the second CPC time relay, 1a, the input of the second element is NOT connected to the second block-contact switch, the output of the second element is NOT connected through the fifth and sixth diodes to the inputs of the first and second cycle time relays, the input of the third logic element is NOT connected to the first block-contact switch and its output through the seventh diode is connected to the input of the auxiliary time relay, the output of which is connected to the memory element of the auxiliary time relay, the output of the memory element of the auxiliary time relay through the eighth diode is connected to the input of the second cycle time relay and the blocking input from the relay, and the output of the first logic element NOT through the ninth diode is connected to input 4: auxiliary time relay.

Description

The invention relates to electrical engineering, in particular, to automatic devices and can be used in electrical networks 6-20 KB and other electrical installations for re-switching on electrical installations (for example, overhead, cable and mixed transmission lines, transformer substations, etc.) after their automatic shutdown an oil switch equipped with a solenoid or spring-load actuator providing one or more cycles of switching the oil switch after one cocking of the drive.

Two-time automatic reclosing (AR) devices are known with time delays for the first and second AR cycles, containing a power supply unit, indicating relays, an oil switch control relay and a time relay that enable the automatic shut-off oil switches to turn on twice, for example with solenoid drive 1.

However, these devices do not provide a lower position of the drive load after the last unsuccessful recloser cycle or after manually turning on the oil switch for a short circuit in the control circuit of the oil switch with a single-action spring-load actuator, and also have a large power consumption, since after the last an unsuccessful reclosing cycle in the control circuit of an oil switch with a solenoid1–1m actuator does not ensure the disconnection of the electromagnetic relays that make up the reclosing device.

Closest to the invention is an apparatus for automatically re-activating oil switches, comprising an oil switch control relay, time relay 2.

However, the known device also does not ensure that the drive does not enter after the unsuccessful last AR cycle in the control circuit of the oil switch with a single-action spring-load actuator, has a large power consumption, since it does not ensure the complete disconnection of the time relay module from the power circuits after the last unsuccessful AR cycle in the control circuit of the oil switch with solenoid drive.

The purpose of the invention is to increase reliability and simplify the operation of the automatic reclosing device.

This goal is achieved by the fact that a device for automatically re-activating oil switches, containing, a time relay by the number of cycles, an output relay, an acceleration relay, is wired after an automatic restart, and an AND element, an auxiliary time relay is inserted, the memory elements of a time relay

first and second cycles and auxiliary time relay, blocking trigger, prohibition element, three NOT elements, two resistors, a capacitor and nine diodes, with the output of the first cycle time relay connected to the memory element input of the first cycle time relay, the output of which is connected to the first the input of the logic element And, the second input of which is connected to the Q-output of the lock trigger, the output of the element And

the first diode is connected to the output relay, the first auxiliary contact of the switch is connected to the R-input of the blocking trigger and via the second diode to the inhibit element, whose output through the first resistor and the third diode is connected to the input of the memory element of the second cycle time relay, the output of the memory element of the time relay of the second cycle is connected through the fourth diode to the input of the relay of the time of the first cycle and directly to the input of the first logic element NOT, through the first capacitor and the second resistor to the S input of the blocking trigger and through the fifth diode with the input of the second cycle time relay, the input of the second element is NOT connected to the second block switch contact, the output of the second element is NOT connected via the fifth and sixth diodes to the time relay inputs of the first and second picks, the input of the third logic element is NOT connected to the first block switch of the switch , and eio exit through the seventh

0 LED is connected to the input of the auxiliary time relay, the output of which is connected to the memory element of the auxiliary time relay, the output of the memory element of the auxiliary time relay through the eighth diode connection to the time relay of the second cycle and

. its input is blocking, its relay, and the output of the first logical 10 element NOT through the ninth diode is connected to the input of the auxiliary time relay.

FIG. 1 is a functional diagram of an automatic re-closing device for oil circuit breakers; pas figs. 2 is a schematic diagram of a device for automatically re-activating oil switches; in fig. 3 - scheme

5 oil switch control with solenoid actuator; in fig. 4 shows the connection of the automatic reclosing device into the control circuit of the oil circuit breaker with a spring loaded Elm actuator.

The automatic reclosing device contains the relay 1 time 0 or the first cycle. The output of the memory element 2 is connected to the first input 3 of the logic element And 4. The second input 5 of the element 4 and 4 is connected

g to the Q-output of the asynchronous RS-trigger 6 lock. The output of element 4 through diode 7 is connected with the relay 8 controlling the oil switch and the drive. The output of the first output transistor 9 is connected to the relay 8 directly, and the output of the second output transistor 10 through the resistor 11. The output of the transistor 10 is connected to the switch 12 of the kind of operation. The input of the transistor 9 through the discharge resistor 13 is also connected to the switch 12 of the kind of operation. A forcing capacitor 14 is connected in parallel with the resistor 13. A relay 15 output of the time of the second AR cycle is connected to the input of the memory element 16 of the second AR cycle. The output of memory element 16 via diodes 17 and 18 is connected respectively to inputs 19 and 20 of relay 1 and 15 of the first and second AR cycles and directly to the input of the first logic element HE 21, and through capacitor 22 and resistor 23 - from S- input trigger blocking 6. Input 24 of the prohibition of automatic reclosing is connected with the input of the second logic element HE 25, the output of which through diodes 26 and 27 is connected with inputs 20 and 19 of relay 1 and 15 of the time of the first and second cycles of automatic reclosing. A blocking input 28 of the automatic reclosing device is connected via diode 29 to the input of block 30 of the automatic reclosure, the output of which is connected via the resistor 31 and diode 32 to the input of memory element 16. The blocking input 28 is connected to the R-input of the trigger bis the input of the third logic element HE 33, the output of which through diode 34 is connected to the input of the auxiliary time relay 35. The output of the first logic element HE 21 through the diode 36 is also connected to the input of the auxiliary time relay 35, the output of which is connected to the input of the memory element 37 of the auxiliary time relay. The output of the memory element 37 is connected to the input of the third output transistor 38, the output of which is connected to the blocking relay 39. The output of the memory element 37 is connected via diode 40 to the input 20 of the relay 15 of the time of the second AR cycle. The Q-output of the trigger 6 through the switch 41 of the number of cycles of AR and the diode 42 is connected to the input of the memory element 16 of the second AR cycle 16. The S-input of the trigger 6 is connected to a common bus through connected in parallel capacitor and resistor (not shown). The Q-output of the interlock trigger 6 through a capacitor is connected with the total thickness of the automatic reclosing device (not shown). The oil switch and drive control relay 8 has a closing contact 43 and an opening contact 44. A blocking relay 39 has two closing contacts 45 and 46. The inputs of power supply unit 47 are connected to outputs 48 and 49 of the automatic recloser. The first positive output 50 of power supply unit 47 is associated with an oil switch and drive control relay 8 and with a blocking relay 39 (connecting conductors are not shown). The second positive output 51 of power supply 47 is associated with relays 1 and 15 of the first and second reclose cycles, with elements 2 and 16 of the memory of the first and second recloses, with memory element 37 of the auxiliary time relay with logic gate 4 and logic He elements 21, 25 and 33 (conductors not shown). The negative output 52 of power supply 47 is connected to the relay 1 and 15 of the first and second reclose cycles and to the automatic reclosing block 30 (connecting conductors are not shown). In FIG. 2 asynchronous RS-triggers are used as elements 2 and 16 of the memory of the first and second cycles of the automatic reclosing and memory element 37 of the auxiliary time relay. To provide the initial installation of the required (single or zero) level at the outputs Q and Q, S input 1 of each trigger is connected to a common bus through a capacitor connected in parallel and a resistor (not shown in the diagram for simplicity). In order to prevent false positives, the indicated triggers, their Q outputs are connected to the total voltage through capacitors (not shown). The collector of transistor 53 of the time relay of the first reclose cycle is connected to the R-BXO of the asynchronous RS-flip-flop of the second memory element 2 of the first recloser. The base of the transistor 53 through the diode 54 is connected to the input 19 of the time relay of the first AR cycle. Input 19 of the time relay through a resistor 55 is connected to the “plus time of the driving capacitor 56 of the time relay of the first AR cycle. The "plus capacitor 56" through time delay setting resistors 57 and 58, through discharge diode 59 is connected to the second positive output 51 of power supply 47. The Q-output of the trigger 6 is connected to the first input of the element 4. The second input of the terminal 4 is connected to the Q-output of the asynchronous RS-trigger 6 of the lock. The output of the logic element 4 through diode 7 is connected to the relay 8 controlling the oil switch and the drive. Indicative relay 60 double action is connected to the output element 4 directly. The output of logic element 4 via diode 61 is connected to the first positive output 50 of memory unit 47. The collector of the first output transistor 9 is connected to the connection point of the anode of the diode 7 with the relay 8. The collector of the second output transistor 10 is connected via a resistor 11 to the collector of the transistor 9. The base of the transistor 10 is connected via a resistor 62 to the switch 12. A resistor 63 is connected between the base and the emitter of the transistor 9, the base of the transistor 9 is connected through a resistor 64 and the discharge resistor 13 to a switch 12. In parallel with the resistor 13, a boosting capacitor 14 is connected

The collector of the transistor 65 of the time relay of the second AR cycle is connected to the R input of the asynchronous RS flip-flop 16 of the second AR cycle. The base of the transistor 65 through the diode 66 is connected to the input 20 of the time relay of the second AR cycle. Input 20 through the resistor 67 is connected to the “plus time of the time, its capacitor 68 of the second AR cycle. The plus of the capacitor 68 is through time the driving resistors 69 and 70 are connected to the output 51 of the power supply. A diode 71 is connected in parallel with resistors 69 and 70. A blocking input 28 is connected via the first transformer 72 and the resistor 73 to the R input of the blocking trigger 6. The time setting capacitor 74 of the inhibit AR through a time resistor 73, a diode 29 and through a transformer 72 is connected to a blocking input 28. A diode 76 is connected in parallel with the resistor 75. The cathodes of the diodes 29 and 76 and the resistor 75 are connected to the connected ones. parallel to the resistor 77 and the capacitor 78, the "minuses of the capacitors 56, 68, 74 and 78 are connected to the adapter) to the output 52 of the power supply 47. The Q-output of the blocking trigger 6 through the number of cycles of the automatic reclosing switch 41 and the diode 42 is connected to the R-input of the trigger 16 of the second reclosing cycle. "The plus of the capacitor 74 through the resistor 31 and the diode 32 is also connected to the P, -input of the trigger 16 of the second 1, AR. The input element HE 33 through the resistor 79 is connected to the junction point of the diode 29 and the resistor 73. The output of the logic element PE 33 through the resistor 80 and the diode 34 is associated with the plus time of the driving capacitor 81 of the auxiliary time relay. The Q-output of the trigger 16 of the second AR cycle is connected to the input of the first logic element HE 21.

The output of the logical element 21 is connected with a switch of the 12 kind of operation directly, and with the plus of the capacitor 81 through the resistor 82 and the diode 36. Plus the capacitor 81 through the resistor 83 is connected with the base of transistor 84 of the auxiliary time relay. The emitter of the transistor 84 through the diode 85, and “minus the capacitor 81 is directly connected to the common bus of the AR device. The collector of transistor 84 is connected to the R input of an asynchronous RS flip-flop 37 of the auxiliary time relay. The Q output of the trigger 37 of the auxiliary time relay is connected via a resistor 86 to the base of the third output transistor 38. A collector of the transistor 38 is connected to the coil of the blocking relay 39. A protective diode 87 is connected in parallel with the blocking relay 39.

The automatic reclosure of the inhibitor 24 through the second transformer 88, the diode 89 and the resistor 90 is connected with the base of the transistor 91 of the ban A.P. A transistor 91 with resistors 90 and 92 and a capacitor 93 is the second logical element NOT. The input 20 of the time relay of the second reclose cycle is connected via diode 18 to the Q-output of flip-flop 16 of the second reclose cycle, through diode 26 to the collector of transistor 91 and through diode 40 to the Q-output of flip-flop 37 of the auxiliary time relay. The input 19 5 of the time relay of the first ARC cycle is connected via diode 27 to the collector of transistor 91. The connection point of resistor 90 and diode 89 is connected to a common length through resistor 92, and capacitor 93 is connected in parallel with resistor 92.

 diode 94 is connected to the output 50 of power supply 47.

The input 19 of the time relay of the first recloser cycle through diode 17 is connected with the Q-output of the trigger 16 of the second reclosing cycle. S-trigger input 6

2 blockings via a resistor 23 and a capacitor 22 are also connected to the Q-output of the trigger 16 of the second cycle. APW.

The relay 8 for controlling the oil switch and the drive has a closing contact 43 and an opening contact 44. The blocking relay 39 has two opening contacts 45 and 46.

The control circuit of the oil switch with the solenoid drive of the device. AA is connected via a series-connected control key 95 and an oil switch 96 contacts (the diagram shows the position of the contacts after the oil switch is automatically turned off). Parallel to the auxiliary contacts 96 switches connected contact 45 relay

0 39 blocking. The input 28 of the automatic reclosing device is connected to the alternating operational current circuits through the auxiliary contact 97 of the switch and the control key 95.

The activation of the automatic reclosing device in the control circuit of the oil circuit breaker.m with a spring-loaded drive (Fig. 4) is performed via the control switch 98, the alarm interlock 99 and the circuit breaker 100 of the oil circuit breaker The coil is cocked).

The input 28 of the automatic reclosing device is connected to the alternating operational current circuits through the switch contacts 101 and the 98 control. In parallel, the serially connected auxiliary contacts 99 and 100 are connected contacts 45 blocking relay

5 39. The contacts 43 of the relay 8 through the cover plate 102 are connected to an oil switch on circuit, which contains the drive readiness contacts 103 in series and the switch contacts 104 on the switch and the switch on roller 105.

 The drive ready contacts 106 are connected between inputs 48 and 24 of the automatic reclosing device. The drive motor .07 is connected to the alternating operational current circuits through the drive contacts 108 and the contacts 44

5 relays 8.

The contacts 46 of the AR device are designed to accelerate the effect of relay protection after AR.

In order to provide fast discharge of capacitors 56, 68 and 81 when the power supply unit 47 is disconnected, the outputs 50 and 51 of the power supply unit 47 are shunted by resistors (not shown), and the capacitors 56, 68 and 81 are connected to the power supply unit through diodes 59, 71 and 94.

To reduce the size of transformers 72 and 88, their primary windings, connected to pins 28 and 24, include damping resistors, on which 70-80% of the alternating operating current voltage is dropped (not shown).

When the protection is turned off by an oil switch equipped with a solenoid drive (the contacts of the switch 12 of the automatic reclosing device must be open), voltage 48 of the power supply unit of the automatic reclosing device is applied to the terminal 48 of the automatic reclosing switch 95 and the block contacts 96 of the oil switch, Triggers of elements 2, 16 and The 37 memories and the trigger 6 by the capacitors and resistors connected to the S-BXO-terminals are set to the state with a logical one on the Q-outputs. Therefore, at the outputs of memory elements 16 and 37, a logical unit signal is set, and at the output of memory element 2 of the first AR cycle, a logical zero {since the output of the asynchronous RS flip-flop is used as the output). From the output of the memory element 37 of the auxiliary time relay, the signal of the logical unit is fed through a resistor 86 to the base of transistor 38. Relay 39 is connected by its contacts 46 to the protection acceleration circuit, and contacts 45 provides self-locking of the automatic reclosing.

After the voltage is applied to the power supply unit 47, the reclosing device also starts charging the time of the setting time capacitors 56 and 68 of the first and second reclosure cycles through resistors 57, 58, 69 and 70. As soon as the voltage on the positive side of the capacitor 56 exceeds the voltage the base of transistor 53, diode 54 opens and the current through resistor 55 and diode 54 transistor 53 opens and closes the R input of trigger 2 of the time relay of the first AR cycle, therefore this trigger is thrown and a logical unit signal appears at its Q output and goes to first in 3 elements 4. And the second input of element 4 is the signal of the logical unit already supplied from the Q-output of the trigger 6 for blocking, therefore the signal of the logical unit appears at the output of logic element 4 and the pointer relay 60 and relay 8 are triggered. the digit "1 (the first reclose cycle worked), and the relay 8 with its contacts 43 switches on the oil switch (the circuit for turning off the oil switch off is not shown). After turning on the oil switch, its block contacts 96 are opened, and the block contacts 97 are closed, applying voltage to the blocking input 28 of the LPV device. From the blocking input 28, a variable voltage is applied to the R input of the lockout trip 6 via a transformer 72 and a resistor 73. The negative half-cycle of the alternating voltage trigger blocking 6 is thrown and a logic zero signal appears at its Q-output, therefore at the second input 5 of the logic element 4 also appears

A logical zero and the output of element 4 receive a logic zero signal, which removes the voltage from the pointer relay 60 and from the switch and drive control relay 8.

If the first cycle of the automatic reclosing operation failed, the switch again closes its block contacts 96 and opens the block contacts 97 (for the time of the block contacts 96 of the switch, the voltage on the block 47 of the power supply of the automatic recloser was applied through the contacts 45 of the blocking relay. As soon as through the time set by the resistor 70, the overvoltage of the time of the driving capacitor 68 exceeds the base voltage of the transistor 65, the voltage across the resistor 67 and the diode 66 is applied to the base of the transistor 65, which opens and flips the second trigger 16 11CLE.LPW is in a state with zero on the Q-output. At the same time, the capacitor 22 is discharged through the resistor 23 and delivers a negative pulse to the S-input of the blocking trigger 6 (the values of the resistor 23 and the capacitor 22 are selected so that when the lipive closes the output of capacitor 22 to the total impedance of the discharge current of capacitor 22 through resistor 23 was of a minimum duration sufficient to reliably cross-trigger trigger b). The trigger 6 is locked to the state on the Q-output. A logical unit signal now appears on both the inputs and output of element 4 and is re-applied to the pointer relay 60 and the switch 8 and switch control relay 8. Relay 8 is activated, turning on the oil switch repeatedly with its contacts 43, and at the same time the indicator is triggered.

5, relay 60, the numeral "2 (operation of the second AR cycle) is now set on its display. The oil switch is turned on, its block contacts 97 are closed, supplying voltage through input 28, transformer 72 and resistor 73 to R-input of trigger 6 of blocking, which by negative voltage half-period at R-input is shifted to Q-Out. At the second input and the output of logic element 4, a logical zero appears,

Do not disconnect relays 60 and 8.

If the second AR cycle was unsuccessful, the auxiliary contacts 96 of the oil switch are closed, and the auxiliary contacts 97 are opened.

9

At the moment of flip-over of the trigger 16 of the second cycle of AR from the opening of the transistor 65, a logical zero from the Q-output of the trigger 16 is fed to the input of the HE unit 21. A logical unit appears at the output of the block 21. Through the resistor 82 and diode 36, the charge time of the auxiliary time relay driver 81 is started. After 1.5-2 seconds, transistor 84 opens and translates a trigger 37 of the auxiliary time relay in a position with a logic zero on the Q output, transistor 38 closes the blocking relay 39 turns off, breaking up the circuit 46 after acceleration of the protection circuit after contacts 46, and contacts 45 - the self-locking circuit automatic reclosing devices in the on state. However, since the second AR cycle was unsuccessful and the block switch 96 of the oil switch was closed, the power of the AR device after the unsuccessful Bioporo cycle of the AR continued to flow through the block contact 96. If the second AR cycle was successful, the charge of the capacitor 81 now occurs not only through the resistor 82 and diode 36, but also through the resistor 80 and diode 34, since now the block contacts 97 are closed and through the input 28, the transformer 72 and the resistor 79 are supplied with a variable voltage to the input of the logic element HE 33, therefore during actions of negative half The output signal of element 33 will appear at the output with the same frequency and the signal of the logical unit, which is 1 Y through the resistor 80 and the diode 34 accelerates the charge of the capacitor 81 to the open voltage of transistor 84. After the opening of transistor 84, the process is described disconnecting the lock relay 39, e: -o contact 45 breaks the automatic recloser and turns off.

Xlie was the first yigieuiHbiM 1gik. Anf5, then through block contacts 97, input 28, transformer 72 and resistor 79 to the input of element 33 is energized, and the charge of capacitor 81 now occurs only through resistor 80 and diode 34. After opening transistor 84 occurs, as in previous cases The x, trip b, overcurrent relay 39, and power is removed from the recloser, and diodes 59, 71, 76, and 94 provide a quick discharge time to the drive capacitors 56, 68, 74, and 81.

If the automatic reclosing device is used as a single-use A.АПВ device, then the contacts of the non-switch 41 must be closed. In this case, the oil switch is turned on in the same sequence as in the first cycle of a two-time automatic reclosure. At the moment of switching on the oil switch, as well as after the first cycle of a double reclosing device, alternating voltage is applied to the R input of the lockout trigger 6 through the resistor 73 from the secondary winding of the transformer 72. The lockout trigger 6 supplies a logical zero from its Q output.

101947

ten

To the second input of the element is AND 4, and therefore, the voltage is removed from the windings of the relays 8 and 60. From the Q-output of the blocking trigger 6, through the switch 41 and the diode 42, a logical zero is applied to the R-input of the trigger 16 of the second AR cycle. At the Q-output of the second cycle trigger 16, an auto-zero is set to a logical zero and, from the capacitor 22, a negative pulse is applied through the resistor 23 to the S input of the lockout trip-6, i.e.

Both inputs of blocking trigger 6 are given negative pulses. However, the impulse to the S-input is applied briefly and the negative impulses arrive at the R-input much longer, therefore, the pulse, the post-output to the S-input does not cause a stable blocking of the blocking trigger 6 and therefore the latter remains in a position with a logical zero on Q-Out. In view of the fact that the logical unit on the Q-output of trigger 6 of blocking did not appear, and most of them could not appear, the second switching on of relay 8 and 60 would not occur. Relay 39 will be disconnected after completion of the AR, as well as after the second cycle in the double AR mode, i.e. if the AR fails, then the capacitor 81 is charged only

 through a resistor 82 and a diode 36, and if ycnenjnoe, then also through a resistor 80 and a diode 34. If the last AR cycle failed, then manually return the AR device to its original state

d) break the food chain. In this case, capacitors 56, 68, and 81 are quickly discharged through diodes 59, 71, and 94 and a power supply unit resistor, and capacitor 74, through diode 76, and resistors 77. After about 5 seconds after disconnecting, the disconnect switch

5 can be turned on again with the key sticking.

When the oil switch 1 is turned on manually, the contact is closed (circuit 95 and the voltage switch is applied to the automatic recloser through the auxiliary contact 96 of the switch,

 The Q-output of the trigger 37 of the auxiliary time relay is set to a logical unit, and through the resistor 86 the transistor 38 opens, turning on the lock relay 39. The contacts 46 of the lockout relay 39 are closed,

5 setting up the acceleration protection value after AR, the AR device self-locks through the contacts 45 of the blocking relay, therefore, the device continues to receive voltage at the device input 48 after switching on the oil circuit;

0In view of the fact that the time-setting capacitor 74 of the prohibition of automatic reclosing did not get bored, then at the moment of supplying the control unit to the automatic reclosing device by the charging current of the capacitor 74 through the resistor 3 and diode 32 a negative pulse was applied to the R input of the trigger 16

 second cycle of auto-reclosing. Due to the fact that the duration of the negative pulse through diode 32 at the R input of trigger 16 is much more severe than through a capacitor (not shown) at the S input, the trigger 16 of the second AR cycle is set to a logic zero at the Q output and through diodes 18 and 17 Shuntyr Yutz inputs 19 and 20 of the time relay of the first and second d AR cycles. Due to the fact that now the Q-output of trigger 2 of the first AR cycle, and, consequently, at the first input of element 4 is a logical zero, neither the pointing relay 60 nor the relay 8 will work.

If the manual switch-on of the oil switch fails, the capacitor 81 is charged from the HE block 21, to the input of which a logical zero is fed from the Q-output of the trigger 16 of the second AR cycle, through a resistor 82 and a diode 36. After charging the capacitor 81 and opening the transistor 84, the auxiliary time relay trigger 87 is transferred to another stable state with a logic zero at the Q output, the transistor 38 closes and the lock relay 39 closes, and the voltage on the device LPV through the contacts of the switch 95 and the block-contact 96 continues to flow. about those holes, until manually closed the contact key 95.

Inputs 19 and 20 of the time relay for the first and second cycles of AR will be closed until the key 95 is held in the on state.

 manual switching of the oil switch passed normally, then the capacitor 81 is charged not only through the resistor 82 and diode 36 from the HE 21 logic element, but also receives an additional charge current from the HE 33 logic element through the resistor 80 and diode 34 and after charging the capacitor 81 before the opening voltage of the transistor 84, the trigger 37 of the auxiliary time relay is transferred to another stable state, the transistor 38 is closed, the relay 39 is turned off, breaking its contacts 45 of the power supply circuit of the AR device. Through the closed block contacts 97 of the oil switch, the voltage is applied to the input 28 of the device, and then through the transformer 72, the diode 29 and the resistor 75 to the "plus to the switch ban 74. After 17-20 seconds, capacitor 74 is charged and the AR device is ready for operation.

After the protection switch turns off the oil switch during the operation of the first and second cycles of the automatic reclosing, the block switch 97 of the oil switch is open almost all the time, and the automatic inhibitor capacitor 74 does not receive recharging through the resistor 75 and diode 29 from the transformer 72. However, proper triggering 16 of the second reclose cycle does not happen, since for the capacitor 74 node a very small current is needed, equal to the leakage current of capacitors 74 and 78. Since the leakage current is very small, switching the trigger of the second recloser cycle by this current through resistor 31 and diode 32 will not occur. It is important that the capacitor / 4 prohibition be charged only at the time of the disconnected switch protection.

The operation of the device LPV in the control circuit of an oil switch with a single-action spring-loaded actuator (Fig. 4) proceeds as follows.

In the diagram, the oil switch is turned off by protection, the drive is armed. Switch 12 kind of work must be closed.

When the oil switch is disconnected through the contacts of the control key 98, the emergency block contacts 99, the block contacts 100 of the switch, the terminal 48 is energized to the block 47 of the power supply of the automatic recloser. The installation of triggers takes place in a position with a logical unit at the outputs as in the diagram in FIG. 3. The charging of the capacitors 56 and 68 of the time relays of the first and second AR cycles starts. The operation of the device in the first and second LPV cycles occurs in the same way as in the circuit with the salt-like section and with the only difference that the positive condition for the second ARV relay to operate is the cocking time of the oil switch actuator. The time relay of the second cycle. LPV will not work until the actuator 107 is turned off, p. If the drive is not cocked, the block contacts 106 of the power supply circuit are closed and through the input 24, the transformer 88, the diode 89 and the resistor 90 is supplied to the transistor 91 of the second block NOT. Transistor 91 opens and, through diode 26, shunts input 20 of relay 15 of the time of the second cycle. After the drive 107 is cocked, its contacts 106 times up, the transistor 91 closes and now if 1 on capacitor 68 is enough to open Tpaii3HCTOpa 65. transistor 65 opens, flashing the trigger 16 into an expensive AR cycle to the second stable state. As it follows from here, the time lag between the first and second cycles cannot be less than the drive cocking time.

After the relay 15 has been reset, the second cycle of the automatic reclosing at the output of the HE 21 unit is a signal / climatic unit, which through switch 12, the forcing capacitor 14 and the resistor 64 is applied to the base of transistor 9, and through the resistor 62 to the base of transistor 10. the transistor 9 only opens for the short time required for the relay 8 to operate, and the transistor 10 remains turned on and keeps the relay 8 in its receiving state. But in this case (after the relay 15 triggered the second cycle. LPV relay 8 was turned on by the logical element 4. And when, after turning on the oil switch, si, the logic unit at the output of unit 4 disappears, the pointer relay 60 turns off, and the relay 8 remains switched on through the transistor 10 and breaks the power supply circuit of the drive motor 107 with its contacts 44. If the second AR cycle was successful, then the auxiliary time relay 35 closes the transistor 38, the blocking relay 39 turns off and the voltage is removed from the LPV device. clocks 44 of relay 8 are closed and the actuator 107 is driven in. If the second cycle of the automatic reclosing was unsuccessful, after disconnecting the relay 39 locking and opening the contacts 45, the automatic reclosing device receives power through the contact of the control key 98, contacts 99 BKA and the block contacts 100 of the oil switch. Relay B anchor remains engaged and its contact 44 breaks the cocking circuit of the engine 107. At the same time, the contacts 43 of the relay 8 remain closed, however, the oil switch will not turn on because the drive 107 is not cocked and its block contacts 103 open the switch-on circuit. rot 105 includant. If the first AR cycle was successful, the oil circuit breaker contacts 100 remain open, and the 106 contacts are closed. Through the block contacts 106, through the transformer 72 and the resistor 79, an alternating voltage is applied, causing the appearance of positive pulses at the output of the logic element PE 33. From the output of the element 33, the pulses through the resistor 80 and the diode 34 charge the capacitor 8 and then the transistor 84 is opened , flip-flop of trigger 37, zg; The opening of the transistor 38 and the disconnection of the blocking relay 39, its contacts 45 are opened and the automatic reclosing device is disconnected from the operational current circuits. After manually turning on the oil on the 1-o switch, the automatic reclosing device works in the same way as in the solenoid drive circuit, and you can see that the relay 8 opens its contacts 44 with its contacts 44. If the manual activation is successful, then the relay 39 opens its pins 45, the automatic reclosing device is disconnected and the relay 8 closes its contacts 44, closing the cocking circuit of the drive 107. If the manual switch on of the oil switch was not inopportune, then the automatic reclosing device will receive power through the contacts of the key 98, the alarm contact blocks 99 and the contacts 100 to the oil circuit breaker. The relay 8 is held by the open transistor 10, the contacts of the relay 8 will break the drive motor circuit 107 as long as the key 98 is in the On position. Pointer relay 60 will not operate properly, since open transistors 9 and 10 cannot turn it on due to the fact that decoupling diode 7 for transistor 9 and 10 is turned on B in the opposite direction. If the closure of the number of cycles switch 41 transfers the automatic reclosing device B to single mode, then the power supply circuit of the motor drive 07 will open with the contacts 44 of relay 8 after the first unsuccessful reclosing cycle. Thus, if in the single-action spring loaded drive circuit the last AR cycle failed, then the drive is not cocked. In order to switch on the automatic reclosing device into the control circuit of an oil switch with a spring-loaded drive, which provides more than one oil switch on cycle, the proposed automatic reclosing device is activated according to the circuit shown in fig. 3, and the contacts of the switch 12 must be open. In this scheme, the automatic reclosing device works in the same way as in the control circuit of an oil circuit breaker with solenoid actuators. Such a device for automatically re-activating oil circuit breakers can be installed in the control circuit of the oil circuit breaker, both with a solenoid actuator and with a spring-loading actuator providing one or more oil switch on cycles, moreover, if a spring-load ojiHOKpaTHoro actuator is used, the automatic recloser ensures that the actuator does not retract as if unsuccessful the last reclosing cycle, as well as after the manual switch-on of the oil switch for a short circuit. The proposed device improves the reliability and improves the maintenance of the device for automatically turning on the oil circuit breakers.

I.

gc A / 5

H

Asshole

P

Z7V

Management of bodies 6yk / 1yuch. /

V3

ya control subdop

k

29

28 o50

but

. -OCH8

I

9

Achievement X

V5

New / 1N Reading

Sbih / ihjwmenfi

3

Claims (1)

DEVICE FOR AUTOMATIC REPEATING OF OIL CIRCUIT BREAKERS, containing a timer according to the number of cycles, an output relay, an acceleration protection relay after automatic restart, an And element, characterized in that, in order to increase reliability and simplify operation, an auxiliary time relay, elements are introduced into the device memory of the time relay of the first and second cycles and auxiliary time relay, blocking trigger, inhibit element, three NOT elements, two resistors, a capacitor and nine diodes, and the relay output in The first cycle is connected to the input of the memory element of the time relay of the first cycle, the output of which is connected to the first input of the logic element AND, the second input of which is connected to the Q-output of the trigger 'lock, the output of the element And through the first diode is connected to the output relay, the first block The contact of the switch is connected to the R-input of the blocking trigger and, through the second diode, to the element. prohibition, the output of which through the first resistor and the third diode is connected to the input of the memory element of the timer of the second cycle, the output of the memory element of the timer of the second cycle through the fourth diode is connected to the input of the time relay of the first cycle and directly to the input of the first logic element NOT, through the first capacitor and the second resistor - with the S-input of the blocking trigger and through the fifth diode with the input of the second time relay, the input of the second element is NOT connected to the second block contact of the switch, the output of the second element is NOT through the fifth and second S th rows diodes connected to the inputs of the relay time of the first and second cycles, input of the third NAND gate is connected to. the first block contact of the switch, and its output through the seventh diode is connected to the input of the auxiliary time relay, the output of which is connected to the memory element of the auxiliary time relay, the output of the memory element of the auxiliary time relay through the eighth diode is connected to the input of the second time relay and to the input of the blocking relay , and the output of the first logic element is NOT through the ninth diode connected to the input of the auxiliary time relay. SU „„ 1101947