SU1121736A1 - Device for automatic reclosing of oil-immersed circuit breakers - Google Patents

Description

(21) 3501238 / 24-07

(22) -18.10,82

(46) 10/30/84. MU Bul.

(72) V.S. Padalka

(71) Voroimlovgrad north

electrical network enterprise

(53) 621.316.925 (088.8)

(56) 1. Bogorad A.M. and Nazarov Yu.G.

Auto reclosing

in power systems. W., Energy,

1969, Figure 3-10.

2. In the same place, fig.4-7.

(54) (57) AUTOMATIC REPEATED SWITCHING DEVICE OF OIL SWITCHES with a spring-load drive containing a time relay for the first and second automatic turn-on (AR) cycles and the LAMNUT element and the spring-load actuator of the oil switch contains a turn-on electromagnet, an electric motor, a motor, and a motor element of the LAMFL and spring-load actuator of the oil switch contains a turn-on electromagnet, an electric motor, a motor, and a motor element of the LAMFUT and a spring-load actuator of the oil switch contains a turn-on electromagnet, an electric motor, a motor, and an electric motor, an electric motor, and a spring-load element; -contact oil switch, breaker-contact actuator and automatic block-contact, characterized in that, in order to expand functionality, increase reliability and simplify In addition, two time relays are added to it, the element is NOT, three elements are AND, the MEMORY element is the threshold element, the switch for the number of automatic reclosing cycles, the output relay with closing and opening contacts, the power supply unit and fifteen diodes, and the spring-load oil drive Two short-circuit block contacts of the drive and the second block contact of the oil switch are entered, the input of the time relay of the first AR cycle is connected to the output of the HE element, and its output through the first diode is connected to the input of the output relay and the switch of the number of cycles of AR, the first input of the device through the second, third and fourth diodes is connected respectively to the input of the element NOT, the input of the time relay of the second recloser and to the first input of the element AND the inhibit AR, is connected to the first input of the second AR the second AR cycle, the output of which is connected to the input of the PANIU element of the second AR cycle) the first output of the MEMORY cell of the second AR cycle through the fifth diode is connected to the time relay input of the third AR cycle, and its second output is connected to the first input m switch the number of cycles of the AR, the second input of the element I. the second cycle of AR through the sixth diode connected to the input of the output relay and the second input of the switch of the number of cycles of AR, the output of the time relay of the third cycle AR and connected to the first input of the third AR input. through the seventh diode is connected to the input of the output relay, the output of the element And the third cycle of automatic reclosing is connected to the input of the element MEMORY of the third cycle of the automatic reclosing, the output of which is through the eighth diode connected to the input of the MEMORY element of the second cycle of automatic reclosing The second method is with the input of the output relay, the output of the switch of the number of cycles of the automatic reclosing is connected to the input of the MEMORY element of the third cycle via the tenth diode. AR, the second input of the device is connected to the first input of the prohibit time relay, the output of which through the eleventh diode is connected to the input of the prohibition threshold element

AR, the first output of the ARC prohibition threshold element is connected via the twelfth diode to the input of the NO element, its second output is connected through the thirteenth and fourteenth diodes respectively to the second input of the ARA prohibit time relay and to the second input of the ARI prohibitor, whose output is through the fifteenth diode connected to the input of the MEMORY element of the third AR cycle, the first and second inputs of the power supply unit are connected to the third and. the fourth device inputs, the opening contact of the output relay is connected between the first and second outputs of the device, and its closing contact is connected between the third input and the third output device, the first input of the device is connected to the first power supply through the serially connected automatic block contact and the first block contact block of the drive oil switch wto 736

The device's input is connected to the first power supply through an automatic block contact, the third input of the device is connected to the first power supply through a series-connected automatic contact block and the first disconnecting block contact of the oil switch, the first output of the device is connected to the first power button, the second output device is connected via a second disconnecting blocking contact of the drive with the first input of the electric motor, the third output of the device is connected through serially connected closing contacts of the contact of the drive Yes, and the second disconnection of the oil circuit breaker contact with the first input of the switching electromagnet, and the second power bushes connected to the fourth inputs of the device and the second inputs of the switching electromagnet and the electric motor.

The invention relates to electrical engineering, in particular, to electric power industry, and can be used in distribution networks for automatically re-activating oil switches with down-load actuators.

A device for automatic reclosing (AR) with a time delay for spring-operated actuators implemented on an electromechanical relay l3 is known.

However, such a device provides only a one-time reclosing, it is not sufficiently reliable and difficult to operate.

It is also known device twofold APC switch with a spring actuator 2.

The device provides a double re-start with a time lag in the first and second cycles.

The known device does not provide a triple re-enable. cheni, is not reliable and difficult to operate.

increase reliability and simplify operation.

The goal is achieved by the fact that the device for automatic re-switching of oil switches, which contains the time relay of the first and second cycles of automatic reclosing and the MEMORY element, and the spring-loading oil switch actuator contains the switching electromagnet, the electric motor, the first closing oil contact block switch, disconnecting the contact block of the oil switch actuator, and automatic blocking contact; additionally introduced two time relays, the element NOT, the three elements AND, the element MEMORY, the threshold element, switch the number of cycles of the ARC, the output relay with the closing and opening contacts, the power supply unit and the n-twenty diodes, and two closing contacts of the drive of the main switch and the second contact of the oil switch, and the input the time relay of the first AR cycle is connected to the output of the ilEf element and its code through the first diode 3 is connected to the input of the output relay and the second input of the AR switch cycle number, the first input of the device through the second, third and fourth diodes of the device It corresponds to the input of the element NOT, the input of the relay in the menus of the second reclose cycle and to the first input of the element AND inhibit AR, the output of the time relay of the second AR cycle is connected to the first input of the AND element of the second AR cycle, the output of which is connected to the input of the MEMORY element of the second AR cycle, the first output of the MEMORY element of the second AR cycle is connected through the fifth diode to the time relay input of the third AR cycle, and its second output is connected to the first input of the AR number cycle switch, the second input of the AND element of the second AR cycle through the sixth di ohm output relay and with the second input of the switch number of reclosing cycles, the relay output of the third reclosing cycle is connected to the first input of the third element of the third reclosing cycle, and its second input is connected via the seventh diode to the output of the output relay with the input of the MEMORY element of the third ACV cycle, the output of which through the eighth diode is connected to the input of the MEMORY element of the second cycle of the automatic reclosing, and through the ninth diode to the input of the output relay, the output of the number of cycles of the automatic reclosing circuit is connected to the input element MEMORY of the third cycle of automatic reclosing, the second input of the device is connected to the fifth input of the automatic reclosure time relay whose output via the eleventh diode is connected to the input of the automatic reclosure threshold element, the first output of the automatic reclosure threshold element is connected to the input of the NO element, the second output is connected to thirteenth and fourteenth diodes, respectively, with the second input of the auto-reclose time relay and with the second input of the auto-reclosing element And the prohibiting of the automatic reclosing, the output of which through the fifteenth diode is connected to the input of the third-cycle MEMORY element The automatic reclosure, the first and second inputs of the power supply unit are connected to the third and fourth inputs of the device, the opening contact of the output relay is connected between the first and second outputs of the device, and its closing contact is connected between the third 6.44 input and the third output of the device, the first input of the device is connected to the first the busbar bus through the serially connected automatic block-contact and the first blocking contact of the oil switch actuator, the second input of the device is connected to the first power bus through the automatic block cycle, the third input of the device is connected to the first power bus through a serially connected automatic block-contact and the first blocking contact of the oil switch, the first output of the device is connected to the first power bar, the second output of the device is connected via a second block-block contact of the drive to the first input motor, the third output of the device is connected through a serially connected closing contact of the actuator and the second disconnecting the contact of the oil switch with the first input of the electric Agnita includant, and the second shank are connected to the power input of the fourth unit and a second input and a motor incorporating an electromagnet. Fig. 1 shows a functional diagram of the automatic re-activation of the oil circuit breakers j in Fig. 2, a schematic diagram of the apparatus of the automatic re-activation of the oil circuit breakers in Fig. 3 is a diagram of connecting the recloser to the oil circuit breaker with a spring-loaded actuator. single action The block of the first AR cycle contains the relay 1 of the time of the first AR cycle, the input of which is connected to the output of the logic element NO 2 of the first AR cycle, and the output with the pointer relay 3 of the first of the second AR cycle directly and with the output relay 4 and with the switch 5 of the number of AR cycles through the first diode 6. The first input 7 of the AR device through diodes 8.9 and 10 is connected respectively to the input of the logic element HE 2, the relay 11 is the time of the second AR block and with the first input element 12 And block 13 of the automatic reclosing. The block of the second AR cycle contains a relay 11 of the time of the second AR block, the output of which is connected to the first input 1A of the element AND 15 of the block

second cycle of auto-reclosing. The output element And 15 through the pointer relay 16 of the second cycle of automatic reclosing. Connected with the input of the element MEMORY 17 of the second cycle of automatic reclosing. The first output 18 of the MEMORY 17 unit of the second recloser cycle is connected via diode 19 to the input of the relay 20 of the third reclosing cycle block, and the second output 21 of the MEMORY 17 unit of the second recloser cycle with the 5 reclosing cycle switch 5 is connected directly. The second input 22 of the element I 15 of the second recloser cycle is connected via an isolation diode 23 to the output relay 4 and to the switch 5 of the number of the AR cycles. The output of the relay 20 time of the third cycle is connected to the first input 24 of the element And 25 of the block of the third AR cycle. The second input 26 of the element 25 of the block of the third AR cycle is via diode 27 connected to the output relay 4 and to the switch 5 of the number of AR cycles.

The output of the element 25 through the pointer relay 28 of the third cycle of the anti-bribery block is connected to the input of the MEMORY element 29 of the third cycle recloser block, the code of which through diode 30 is connected to the input of the element MEMORY 17 of the second recloser cycle and through diode 31 to the switch 5 and output relay 4 The switch 5 through the diode 32 is connected to the input of the element MEMORY 29 of the block of the third cycle of automatic reclosing.

The second input 33 of the automatic backup unit is connected to the first input 34 of the time relay 35 of the automatic inhibitor block. The output of the relay 35 through diode 36 is connected to the input of the threshold element 37 of the prohibiting unit - AR. The first output 38 of the threshold element 37 of the automatic reclosing block through the diode 39 is connected with the input of the logical element NO 2 of the first reclosing cycle. The second output 40 of the threshold element 37 of the block of the automatic reclosing through diodes 41 and 42 is connected respectively to the second input 43 of the relay 35 of the time block of the automatic reclosing and to the second input 44 of the element 13 of the automatic block of the automatic reclosing. The output element And 13 through the diode 45 is connected to the input element MEMORY 29 block of the third cycle of the automatic reclosing

Output relay 4 has normally open contacts 46 and 4 normally open contacts.

Inputs 48 and 49 are connected to the input of power supply unit 50. The output of power supply unit 50 is connected to all elements of the automatic reclosing device (not shown).

Fig. 2 is a schematic diagram of the device for automatically re-activating oil switches.

The rasa of the first transistor 51 of the time 1 relay of the first cycle through the resistor 52 is associated with the negative of the capacitor 53 time 1 relay of the first cycle. The emitter of transistor 51 is connected to a voltage divider, containing the reference diode 54 and resistor 55, and the collector is connected via a resistor 56 to the base of the second transistor 57 of the first-cycle time relay 1. The collector of transistor 57 is connected to the negative side of the capacitor 53. The base of the output transistor 58 of the relay 1 is the first cycle unit through a resistor 59 connected to the collector of transistor 51, and the collector to the indicator relay 3 of the first cycle unit directly and to the winding of the output relay 4 through diode 6. Parallel to the winding of the relay 3. A protective diode 60 is connected. The collector of the transistor 51 is connected via a resistor 61 to the minus of the power supply unit 50. The minus of the capacitor 53 through the additional resistor 62 and the resistor 63 of adjusting the time of the block of the first AR cycle is connected to the minus of the power supply block 50. Resistor 62 determines the minimum time setting of the block of the first AR cycle. By adjusting the resistor 63, the overrun of the relay 1 time of the first cycle can be set between 0.6-25 s.

The collector of the transistor 64 of the HE 2 logic unit of the first cycle is connected to the base of the transistor 58. The base of the transistor 64 is connected through the resistor 65 to the minus of the power supply unit 50, and through the resistor 66, the diode 8, the first rectifying diode 67 and the suppressor resistor 68 input 7 of the automatic reclosing device. The winding of the output relay 4 is connected to the switch 5 of the number of cycles of automatic reclosing.

The element 17 of the automatic re-switching unit of the second cycle contains a capacitor 69 of the MEMORY element of the second cycle unit, the minus of which is connected via a resistor 70 to the base of the first transistor 71 of the MEMORY 17 element of the second cycle block, whose collector is connected to the base through a resistor 72

the second transistor 73 of the MEMORY element of the second cycle block. The emitter of transistor 71 is connected to a voltage divider containing a reference diode 74 and a resistor 75. The collector of transistor 71 is connected via a resistor 76 to the minus of the power supply unit 50. The collector of the transistor 73 is connected to the plus of the power supply unit 50 and directly to the switching number of cycles Auto Recloser. The minus of the capacitor 69 through diode 78 is connected to the winding of the pointer relay 16 of the second cycle unit. The winding of the relay 16 through the resistor 79 is associated with the plus of the power supply unit 50. Parallel to the capacitor 69, a discharge resistor 80 of the MEMORY 17 element of the second cycle unit is connected. A diode 81 is connected in parallel with the winding of the pointer relay 16. A collector of transistor 73 is connected to the winding of relay 16 via a diode 82.

The time delay element 11 of the second cycle block contains the time specifying the capacitor 83 of the element. The time delay of the second cycle block, plus which after time the time resistor 84 of the second cycle block element, diode 9, diode 67 and resistor 68 is connected to the first input. 7 automatic reclosing device. A capacitor 83 is connected via diode 85 to the collector of transistor 71.

The element 15 of the second cycle AR block contains the transistor 86 of the logic element AND the second cycle block, the base of which through the resistor 87 is connected to the plus of the capacitor 83, and the emitter through the resistor 88 is also connected to the plus of the capacitor 83, the base of the transistor 86 is the first logic input 14, and the emitter is the second logical input 22 of the element I 15. The element 15 is loaded in series with the indicating relay 16 of the second AR cycle and the resistor 79. The emitter of transistor 86 is connected through diode 23 to the output relay 4 and to switch 5 to The number of cycles of autoreclosing. Between the connection point of the anodes of the diodes 8 and 9 and the minus of the power supply unit 50 there is included a smoothing capacitor 89.

The MEMORY element 29 of the third cycle of the automatic reclosing unit contains the capacitor 90 of the MEMORY element of the third cycle block minus which is connected via a resistor 91 to the base of the first transistor 92 of the MEMORY 29 element of the third cycle, the collector of the transistor 92 is connected through the resistor 93 to the base of the second transistor 94 of the MEMORY 29 element of the third cycle. The emitter of transistor 92 is connected to a voltage divider, it contains a reference diode 95 and a resistor 96. The collector of transistor 92 through a resistor 97 is connected to the minus of the power supply unit 50. The collector of transistor 94 is connected via resistor 98 to the plus side of power supply unit 50, and through diode 30 to minus capacitor 69. Minus capacitor 90 is connected via isolating diode 99 to the winding of indicator relay 28 of the third cycle unit. The winding of the relay 28 through a resistor 100 is connected to the plus of the power supply unit 5.0. A discharge resistor 101 is connected in parallel with the capacitor 90.

0 elements MEMORY 29 blocks of the third AR cycle. A diode 102 is connected parallel to the winding of the pointer relay 28. The collector of transistor 94 is connected to the winding of relay 28 via

5 diode 103.

The relay 20 of the time of the block of the third AR cycle contains a capacitor 104 of the element in the second block of the third cycle, plus which through

0 is a time-conducting resistor 105 of the time element of the block of the third AR cycle and the diode 19 is connected to the collector of transistor 71. Plus the capacitor 104 is connected via diode 106 to the collector of transistor 92.

Element I 25 of the third reclose cycle unit contains a transistor 107 of the element I of the third cycle unit, the base of which is connected via the resistor 108 to the plus of the capacitor 104. The emitter of the same transistor through the resistor 109 is also connected to the plus of the capacitor 104. The emitter of the transistor 107 through diode 27 is connected to winding 5 ke output relay 4 and to the switch 5 the number of cycles of automatic reclosing. The collector of the transistor 94 through the diode 31 is also connected to the winding of the relay 4 and to the switch 5 of the number of cycles of automatic reclosing.

0 The minus of the capacitor 90 is connected via the decoupling diode 32 to the switch 5 of the number of AR cycles.

Contacts 47 of the output relay 4 are connected to outputs 110 and 111, Contacts

S 46 output relay 4 is connected to output 112 and input 48.

9 j11

a voltage mapper across the transistor 113, the base of which is connected via diode 114 and reference diodes 115 and 116 to the minus of the power supply 50, the collector of the transistor 113 is also connected to the minus of the power supply 50. The emitter of the transistor 113 is connected to the positive of the power supply 50. The bridge rectifier on diodes 117120 with an input of 49 s-in is occupied directly, and С | input 48 through a capacitor 121, the latter being shunted by a discharge resistor 122. Between the plus and minus of the power supply unit 50 is connected a capacitor 123, in parallel with which the discharge resistor 124 is connected. Anodes of diodes 8 and 9 are connected via diode 125 to the point of connection diode 115. The cathode of diode 114 is connected via decoupling diode 126, the second forward diode 127 and the second damping resistor 128 are connected to the second input 33 of the automatic recloser. The damping resistor 128 is connected to the positive of the power supply unit 50 via the diodes 129 and 130, and to the negative of the capacitor 53 through the decoupling diode 131.

The threshold element 37 of the block of the ARC contains the first transistor 132 of the threshold element of the block ban, the base of which through the diode 36 and the resistor 133 is connected to the plus time of the driving capacitor

134rele 35 time block ban. The emitter of transistor 132 is connected to a voltage divider containing a series-connected resistor

135 and the reference diode 136. The collector of the transistor 132 through the diode 39 and the resistor 137 is connected to the base of the transistor 64 of the HE 2 element of the first dikla, and through the resistors, 138 and 139 respectively to the minus of the power supply unit 50 and to the base of the second transistor

140threshold element 37 block prohibition. The collector of the transistor 140, through the diodes 41 and 42 is connected respectively to the plus of the capacitor 134 and to the emitter of the transistor 141 of the element And 13 of the prohibition unit. The base of the transistor 141 through the resistor 142, the third diode 10, the diode 67 and the resistor 68 is connected to the first input 7 of the AR device. Transistor base

1736 0

the time of the prohibition unit and the discharge resistor 145 the time of the driving capacitor of the time element of the prohibition unit is connected to the minus of the power supply unit 5 50. The connection point of the resistors 144 and 145 through the diode 127 and the resistor 128 is connected to the second input 33 of the automatic reclosing device. Transistor 141 collector through decoupling diode

0 45 is connected to the negative of the capacitor 90, and through a resistor 146 to the plus of the power supply unit 50.

Fig. 3 shows the scheme of connecting the automatic reclosing device to the control circuit of an oil switch with a single-action spring-load actuator.

The input 48 of the automatic reclosing device through the disconnecting block contact 147 oil

A 0 switch, an automatic blocking contact (BKA) 148, and an overlay 149 are associated with a 220-volt alternating operational current bus. The circuit breaker oil circuit contains

5 connected in series control switch 150, the disconnecting blocking contact 151 of the oil switch actuator, the disconnecting block contact 152 of the oil switch and the electromagnet 153 of turning on the oil

the switch. The second input 33 of the .APV device is connected to the junction of the auxiliary contacts 147 and 148. The first input 7 of the AR device is also connected to the connection point of the auxiliary contacts 147 and 148 via the fused blocking contact 154 of the drive motor 155 of the oil switch 155 disconnecting contact 47 of output relay 4 and disconnecting block contact 156 of drive 155 are connected in series. The output 112 of the automatic reclosing device is connected via a serial coil of the automatic switch-on counter 157 to the connection point of the key 150 and the block contact 151 of the drive 155.

To limit the voltage on the capacitor 89, a diode 125 is provided, which limits the voltage on the capacitor 89 through the input 7, the resistor 68 and the diode 67 from 220 VAC to the total value of the stabilization voltages of the reference diodes 115 and 116, 11 115 and 116. The negative half-cycle of the voltage, entering through the input 33 and the resistor 128, is shunted by the resistance of the direct conduction of the diodes 130 and 129, which are provided for obtaining a stabilized voltage of 1.2-1.5 V and supplying it through the diode 131 for condenser molding 53 relays 1 time of the first AR cycle. Reference diodes 54, 74, 95, and 136 are provided to obtain a fixed reference voltage and to ensure accurate operation of the threshold elements of the blocks of the first, second, and third cycles of the automatic reclosing, as well as the automatic reclosing block. The stabilization voltage of all the above reference diodes is equal to half the output voltage of the power supply unit 50. Replacing individual sources of reference voltage with a common one requires the use of special measures to prevent false triggering of blocks of the automatic reclosing device, which will complicate the circuit. Therefore, it is advisable to use an individual source of voltage in each of the blocks. Resistors 79 and 100 are designed to prevent the capacitors 69 and 90 from charging the leakage current of the closed transistors 86 and 107. When the oil switch-off of the bodies is turned off from protection (protection circuit and disconnection the switch does not show the block contact 147 of the oil switch closes, the contacts of the BKA 148 remain closed, and through the pad 149 and the contacts of the BKA 148, voltage is applied to the block 50 of the automatic reclosing device through the output terminal 48. The power supply voltage through the resistors 63 and 62 begins to charge the capacitor 53 of the relay 1 time of the first AR cycle.As soon as the voltage on the negative plate of the capacitor 53 exceeds the stabilizing voltage of the reference diode 54, the transistor 51, the base of which is connected to the minus of the capacitor through the resistor 52 53, opens, and a voltage across the base of the transistor 57 is applied through the resistor 56. The transistor 57 opens, and the capacitor 53 through the transistor 57 is instantaneously charged to the output voltage of the power supply unit 50. The transistors 51 and 57 with resistors in their circuits are a threshold device. 3612. necessary to ensure the relay mode of the transistor 58, to which the opening voltage is supplied from the collector of transistor 51 through the resistor 59. The transistor 58 opens and supplies voltage to the pointer-relay 3 of the first AR cycle and through diode 6 to the winding of the output relay 4. Pointer relay 3 and the relay 4 is activated, and the contacts 46 of the output relay 4 are closed by applying through the winding of the counter 157, the block contacts 151 of the drive and the closed block contacts 152 of a large voltage switch to the oil switch 153 electromagnet. The counter 157 is activated, the oil switch is turned on, the drive contact 154 of the drive is closed, and the contact switch 147 of the oil switch is opened. The fact of operation of the block of the first cycle of automatic reclosing is remembered by the capacitor 53. If the automatic reclosing of the first cycle is unsuccessful, after the protection operation the oil switch is turned off and off. closes its blocking contact 147 again. Again, the voltage is applied to the power supply unit 50 of the AR device, however, the output relay 4 coil remains de-energized via input 7, resistor 68, diode 67, diode 8 and resistor 66 energizes the base of transistor 64. . open, holds the transistor 58 in the closed state, and therefore the winding of the output relay 4 is de-energized and through the contacts of the output relay 47 and the auxiliary contacts 156 of the drive voltage is applied to the cocking of the drive 155, During cocking of the drive 155 through its. block contact 154 A voltage is also applied to charge the capacitor 83 of the element 11 for the time delay of the second recloser block (via input 7, resistor 68, diodes 67 and 9, and resistor 84). The charging time of the capacitor 83 is 5-6 seconds and should be less than the cocking time of the drive and longer than the protection running time. After the drive 155 is cocked, its blocking contacts 154 and 156 are opened, and 151 are closed. The auxiliary contact 154 is disconnected from the first input 7 of the AR device, and therefore the voltage is removed from the base of the transistor 64. The transistor 64 is closed and the transistor 58 opens, supplying through 13 diode 6 a voltage to the coil of the output relay 4 and then through diode 23 to the emitter of transistor 86. Since the capacitor 83 is already charged by the time the drive is charged, now the transistor 86 is open, and the indicator relay 16 of the second ARC block is triggered by the charging current of the capacitor 69 through the diode 78. At the same time, transistors 71 and 73 provide a switching mode of transistor 86 as follows. As soon as through the open transistor 86, the winding of the pointer relay 16 and the diode 78, the capacitor 69 is instantly charged to a voltage higher than the stabilization voltage of the reference diode 74, the transistor from its collector opens from the transistor 72

to the base of the transistor 73. There is an avalanche-like process of charging the capacitor 83 through the diode 85 and the capacitor 69 through the open transistor 73-, the diode 82, the winding of the pointer relay 16 and the diode 78.

The threshold circuit on transistors 71 and 73 facilitates the operation of transistor 58, passing through transistor 73 and the diode 82 part of the charging current of capacitor 69 through the winding of the indicator relay 16, while the relay 16 passes the winding almost only at the moment of its activation (only during capacitor charge time 69). At the same time, simultaneous operation of the output relay 4 and the pointer relay 16 of the second AR cycle is ensured, while simultaneous memorization of the fact of operation of the second ARC block is performed. The presence of an element 11 time lag on a resistor 84 and a capacitor 83 in the second recloser block prevents premature opening of transistor 86 at the moment when transistor 58 opens after the relay 1 starts to operate and block the first reclosing cycle of the second recloser cycle 16. Actuation, the relay 4 closes its contacts 46 and through the Counter 157, the block contacts 151 and 152 of the drive and the MOL switch respectively supplies (the voltage to the switch-on electromagnet 153. The counter 157 is activated, the block contacts 154

It is supplied by applying a voltage across the resistor 108 to the first logic input 24 (the base of the transistor 107 of the logic element AND 25 of the block of the third AR cycle). The charging time of the capacitor 104 5-6 cI must be longer than the protection operation time and shorter the drive cocking time. At the end of the drive unit E, its blocking contact 6 and drive 156 are closed, and 151 is closed. If the oil switch fails to turn on after the second ALB cycle, it turns off and closes its own block contacts 147 and 152. Again, the block 147 and input 48 energizes the AR unit. Charged memory capacitor 69 of the second cycle of the automatic reclosing unit restores the transistor modes. 71 and 73, i.e. switches them to the open state, which they had before the power was turned off by the auxiliary contact 147. From the open transistor 71 collector through the diode 19 and the set time, the resistor 105 is energized at the charge of the capacitor 104. During the cocking time of the drive, the charge capacitor 104 charges 154 , the voltage from the base of the transistor 64 is removed, the transistor 64 is closed, the transistor 58 opens and supplies the voltage to the output relay 4 and through the diode 27 to the emitter of the transistor 107 of the logic element 25, At the same time the transistor 107 is opened and the charging current is opened 90 through diode 99 triggers the relay 28, the index reclosure third cycle unit and memorizing the fact reclosure operation of the third cycle time until the power circuit device is broken LLV auxiliary contact switch 147 of the oil. The first transistor 92 of the element MEMORY 29 opens, accelerates the charge of the capacitor 104 through the diode 106, and opens the second transistor 94 of the element MEMORY 29, Transistor 94, in turn, accelerates the charge of the capacitor 90 through the diode 99, the coil of the indicating relay 28 and the diode 103 and through the diode 31 it supplies voltage to the output relay 4. Output relay 4 is activated via the actuator 151 contact blocks and the switch contacts of the switch 152 is energized to the switch-on electromagnet 153, to the switch to turn on. At the time the oil switch is turned off by the protection, the output relay 4, due to the de-energization of its winding, briefly switches to cocking the drive through contacts 47, however, this time is not sufficient for cocking the drive. After the unsuccessful third reclosure cycle and the switch return to the open position, the block contacts 147 are closed, the output relay 4 is energized by the open transistor 94 and the diode 31 is energized, the relay 4 is activated, and the contacts 47 release the power supply circuit of the drive motor 155 The contact 46 of the output relay 4 closes , but due to the fact that the drive is not cocked and its contact 151 is open, the voltage on the turn-on coil 153 through the block contact 152 cannot be applied. Thus, the response time of the first reclose cycle is determined by the time relay setting 1 of the first reclosing cycle block, and the second and third reclosing cycles by the drive cocking time. If all three cycles of the auto-recloser were unsuccessful, the oil switch actuator remains in the uncharted position. If during the operation of the automatic reclosing device any cycle was unsuccessful, the oil contact block 147 remains open, no voltage is applied to the input 48 of the power supply unit 50, the output relay coil is de-energized so the contacts 47 do not interrupt the power supply circuit of the drive drive 155, the drive arises, and after 25-30 seconds all the blocks of the automatic reclosing device return to the initial position (all capacitors except the capacitor 134 are discharged: capacitors 69 and 90 - through resistors 80 and 101, capacitor 83 - through resistor 88, diode 23, relay coil 4 and cut A source 124, a capacitor 104 - a resistor 109, a diode 27, a relay coil 4 and a resistor 124). The automatic reclosure inhibitor block of the claimed auto-reclosing device ycf ensures the following function: prohibiting automatic reclosing after the oil switch key 150 is manually turned on for a short circuit; no reclosing during erroneous actions when the oil switch is turned on, for example, when applying the lining 149 when the oil switch is turned off and the uncapped BKA 148 contacts with both the cocked and non-guided actuator 155. After successful (not short circuit) manual switching of the oil switch control key 150 through the closed contacts 148, the voltage is applied to the second input 33 of the AR device, and then through the resistor 128, the diode 127 and the time setting resistor 144 per plus capacitor 134. The charge time of the capacitor 134 is 17-20 s, therefore At the same time, after manual switching on of the oil switch, the automatic reclosing device is automatically outputted (this time is longer than the drive cocking time). When manually turning on the oil switch for short circuit and disconnecting it from the protection device to the input of the automatic reclosing device through the pad 149, contacts BKA 148 and the block contacts 147 of the switch is energized, while the capacitor 134 of the block of the prohibitive block is still not charged, therefore the transistor 132 is opened by the charge current of the capacitor 134 flowing through the resistor 133. From the collector of the transistor 132, through the resistor 139, voltage is applied to the base of transistor 140. Transistor 140 also opens, the voltage through diode 41, resistor 133 and voltage diode 36, opening e transistor 132. Transistors 140 and 132 are opened instantly. In this case, the transistor 140 through the diode 41 bridges the capacitor 134, preventing it from charging through the resistor 133, and from the input 33 side through the resistor 128, the diode 127 and the resistor 144. The open transistor 140 and diode 42 energizes the emitter of the transistor 141 and via the blocking contact 154 of the drive 155, the input 7, the resistor 68, the diodes 67 and 10 and the resistor 142, the voltage is applied to the base of the transistor 141, so the latter opens. Thus, after manually turning on the oil switch for a short circuit, the transistors 140, 132, and 141 of the automatic reclosing block are open. The voltage from the collector of the transistor 141 through the diode 45 is applied to the capacitor 90 of the third recloser cycle. Capacitor 90 is instantly charged before voltage, beyond the voltage stabilizing of reference diode 95, transistors 92.94 and 107 are opened, charging capacitors 90 and 104 are charged. Through the open transistor 94 and diode 30, the second-cycle AR block is instantly charged. Through the open transistor 94 and the diode 31, a voltage is applied to the winding of the output relay 4, the latter is triggered, breaking, the contact 47 of the drive cocking circuit. Contact 46 of output relay 4 is closed, however, the oil switch does not turn on again because the drive is not activated and its block-contact 151 is open. The counter 157 also does not work, since at the moment of the oil switch being turned on manually, the contacts 150 of the key are locked and the winding of the counter 157 is bypassed. Indicating relay 3 of the first reclosing cycle does not work, since the decoupling diode 6 for the voltage supplied to the coil of the relay 4 through the transistor 94 and the diode 31 is turned on in the opposite direction. From the side of transistor 58, the voltage of the pointer relay 3 is not applied to the winding as the transistor 58 is locked by a transistor 64, the base of which is supplied by a voltage from the inhibitor unit through the diode 39 and resistor 137, and thaw through the closed drive block 154, input 7 ,, resistor 68, diodes 67 and 8, and resistor 66. Indicator relays 16 and 28 do not work either, since capacitors 69 and 90 did not charge through the windings of indicator relays 16 and 28, respectively, but through diodes 30 and 4 from the unit the third cycle of the automatic reclosing and blocking the automatic reclosing block, respectively. Indicator, relays 16 and 28 have a triggering voltage of 0.65-0.9 of the output voltage of the power supply unit 50. But since up to 0.5 of the output voltage of the power supply unit 50, the capacitors 69 and 90 are charged, mine the windings of the indicator relays cannot work even if after the opening of all transistors of the threshold devices of the second and third cycles of automatic reclosing the charge of capacitors 69 and 90 from 0.5 to the full voltage of the power supply unit 50 occurs through the windings of the indicator relays, because their operation voltage is selected more than half output voltage of the power supply unit 50. Neither by a mechanical button (not shown) for a short circuit, the automatic inhibitor block switches the output relay 4 to the arming inhibit mode. The operation of the counter 157 and pointer relays 3.16 and 28 in this case does not occur. If the oil switch is turned off and the plate 149 is mistakenly applied when the BCA 148 is unquitated, and the drive is not cocked, in this case, as with manual switching on the short circuit, all the transistors of the ARF prohibition block are opened The capacitors are 90 and 69 and the output relay 4 is triggered, and the contacts 47 open the drive circuit 155. The drive is not energized, so the oil switch does not turn on. Counter 157 and pointer relays 3.16 and 28 do not work. If the oil switch is turned off, the drive is cocked and erroneously superimposed on the tab 149 without acknowledging the contacts of the BKA 148, then only the transistors 140 and 132 of the AIV block are opened, and the transistor 141 remains closed, since the coded drive has 154 contacts this case is open, and the voltage from input 7 through resistor 68, diodes 67 and 10, and resistor 142 to the base of transistor 141 does not flow (transistor 141 of the logic element I 13 is closed. In this case, the charge of capacitors 90 and 69 does not occur, to the coil vkodnogo relay 4 voltage does not act They are connected through diode 31 and transistor 94 or through transistor 58 6. Prevention of switching on relay 4 through transistor 58 is ensured by supplying an AR block through the open transistor 132 collector 132 through diode 39 and resistor 137 to the base of transistor 64, which opens and It prevents the opening of the transistor 58. The pointer of the relay, as in the previous cases, does not work. If necessary, the number of cycles of the automatic recloser can be changed using the number of cycles switch AJ1B. When the switch 5 is set to the single-reclosure position, the diode 32 of the third-cycle AR block is connected with the diode 6 to the anode of the diode 6. After the time 19 of the first ARC block is activated, transistor 58 applies voltage to the indicator AR 3 of the first ARC cycle, and through the transistor 58 and diode 6 to the winding of the output relay 4. The voltage through the transistor 58, diodes 6 and 32 is also supplied to the minus of the capacitor 90 of the third recloser cycle. Capacitor 90 is instantly charged, and transistors 92.94 and 107 open. From the collector of the transistor 94, through the diode 30, the voltage is applied to the charge of the capacitor 69 of the AR block of the second cycle. Pointer relays 28 and 16 do not work, since the main part of the charging current of capacitors 90 and 69 runs, the winding of the pointer relays 28 and 16, respectively. If a single automatic reclosure was unsuccessful, the output relay 4 remains in the position prohibiting arming of the drive. This is ensured by the fact that a voltage is applied to the winding of the relay 4 through the transistor 94 and diode 31. When switch 5 is installed in the position, two-time automatic reclosing the diode 32 of the third reclosing cycle unit switch 5 is connected to the collector of the transistor 73. the AR cycle through the open transistor 73, the switch 5 and the diode 32 instantly charge the capacitor 90, open the transistors 92.94 and 107, and through the open transistor 94 and the diode 31, the voltage is applied to the winding of the relay 4. Indicator relay 28 of the third 1st ARC block in this case does not work. After an unsuccessful second AR cycle, the contacts 47 of the relay 4 remain open, so that the drive remains un-inserted. If the second cycle of the automatic reclosing was successful, the block contacts 147 of the oil switch off the shutter remain open, so the voltage is not applied to the output relay 4, its contacts 47 are closed and the oil switch actuates. When switching the switch 5 of the number of cycles of automatic reclosing to single or double automatic reclosing, the nature of the operation of the automatic reclosing block does not change. So, if the switch 5 is in the single reclose position. and the oil circuit breaker was manually turned on for a short circuit, the oil circuit breaker was turned off after working the protection: o ygts, and through the pad 149, BKA 148 contacts and the auxiliary contacts 147 of the oil switch is applied to the output terminal 48 of the AR device, and through it to the power supply unit 50 of the AR device. But at this moment, the inhibitor block capacitor 134 is not charged, so the charge current of the capacitor 134 passes through the resistor 133, the diode 36 and the base of the transistor 132, and the transistor 140, i.e., opens through the resistor 139. transistors 132 and 140 are opened avalanche-like. Transistor. 141 is also open, since the drive contacts 154 are closed, through input 7, resistor 68, diodes 67 and 10, and resistor 142 supply voltage to the base of transistor 141, and voltage from the collector 45 is applied to minus 90 of the capacitor. The capacitor 90 is charged and causes the opening of the transistors 92.94 and 107. The block of the third AR cycle. Through the open transistor 94 and the diode 31, a voltage is applied to the coil of the output relay 4, its contacts 47 open, keeping the drive 155 in an un-driven state. The closure of the contacts 46 of the output relay 4 does not cause the oil switch to turn on, as the drive is not activated and the drive contact 152 is open. Through the open transistor 94 and the diode 30, the voltage is applied to the charge of the capacitor 69, the charge of which causes the transistors 71.73 and 86 to trip. Due to the fact that the charge of the capacitors 90 and 69 did not occur through the windings of the Indicator rails after 2 manual switching on short circuit does not work. Indicating relay 3 of the first reclosing cycle does not work either, since the drive contacts 154, input 7, resistor 68, diodes 67 and 8, and resistor 66 apply voltage to the base of transistor 64, transistor 64 is open, and transistor 58 is closed, and pointer relay 3 cannot work. If the switch 5 is in the Double-AR position, then the order of operation of the elements of the automatic AR block remains the same. The use of the invention allows to increase the reliability of the device, simplify operation and reduce power consumption.

in the normal mode, reduce the power consumed by the device in the mode of blocking the drive after the unsuccessful last cycle of the automatic reclosing switch of the oil switch, eliminate the incorrect

operation of the device during short-term outages or deep voltage drops in operating current circuits, as well as in case of incorrect actions of operating personnel.

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