SU1656633A1 - Final-control device of emergency automatics - Google Patents

Abstract

The invention relates to emergency control automation of power systems designed to increase the stability and reliability of their parallel operation by shutting down a certain number of station generators in the redundant part of the system in the event of dangerous damage to the network. The goal is to eliminate the excessive actuation of the generator switches when the station is unloaded from emergency control equipment. The busbars 1-5 of the disconnected stages, one of which receives a control command to turn off the generators (OG), are interconnected by diode blocks 9, and apart from the first and last disconnect diodes 10 are connected to the rupture of the busbars. . N-2 separation diode. N-1 diode blocks, and each 1st diode block consists of 1-1 keys 12-21 and diodes 11. The diode blocks 9 and the exhaust gas storing unit configure the diode ordering unit 7 by selecting the exhaust gas priority order. In the case of the arrival of a control command on the exhaust gas, which implies switching off one generator block by one generator switch and the other block, the diode blocks 9 and separation diodes 10 break the signal path to turn off the generator switch of this generator block. 1 il. with

Description

The invention relates to emergency automation (PA) of power systems designed to increase the stability and reliability of their parallel operation by turning off a certain number of station generators and an excess part of the system in the event of dangerous network damage.

The purpose of the invention is the elimination of excessive operation of the generator circuit breakers when unloading the station from the PA.

The drawing shows a diagram of the proposed device for a station having five stages of control (for a different number of stages, the device diagram is similar).

The proposed device contains tires 1-5 stages of unloading the station, a unit 6 for combining the buses, a unit 7 for selecting the order of turning off the generators (OG), a unit 8 for storing the order of the exhaust, diode blocks 9, isolation diodes 10, diodes 11 and keys 12-21.

The device operates as follows.

In the pre-emergency mode, under control of the priority selection unit 7, in the unit 8 for storing the exhaust gas sequence, the generators to be disconnected from the PA are connected to the device buses. The order of this shutdown depends on the current operating conditions of the units and switching equipment of the station.

The priority selection unit 7 adjusts the diode units 9 by controlling the position of the contacts of the keys 12-21 as follows.

The tuning input of each Ι-th diode block from the corresponding output of the priority selection block receives the logical key control signals generated in accordance with the formula

Kij = Γι V B | V with it. (1) where Kij - determines the state of the key connecting the lth and Jth bus (0 - open, 1 closed):

Γι - sign of the use of a generator switch to turn off the generator wound to the i-th bus (0 use generator switches, 1 - no):

B | - a sign of using block switches to turn off the second block generator, the first generator of which is turned off by the generator switch and connected to the l-th bus, and the second generator, turned off by the block switch, is connected to the f-th bus (0 - block switches are used. 1 - no) :

. Cji - defines the ratio of the numbers of the tires] and f (0 - if]> & otherwise 1);

I is the number of the bus to which the input of the Ι-th diode block is connected (1 = 2 ..... N);

j is the number of the bus to which the jth output of the Ιth diode block is connected (| = 1 N – 1. J <I);

I is the number of the bus to which the second block generator is connected, which is switched off by block switches, and the first generator of this block is connected to the ith bus (t = O, ... N, 0 - if the second block generator is not turned on for shutdown).

If in one generator block of the station one generator is turned on for shutdown by a generator switch and the other block, then the contacts of the keys 12-21 that connect the bus, on which the first generator disconnected by the generator switch is connected, to all buses with large numbers must be open starting from the bus onto which the second generator of this unit is connected, which is switched off by block switches. All other key contacts must be closed.

In the event of an emergency in the power system requiring the stations to be controlled, a control command comes to the station from the metering device for control actions to shut down a certain number of exhaust gas stages. The arrival of the command to disable the K - steps corresponds to the appearance of a positive voltage on the Kth bus (if the command ^! Comes in the form of a negative voltage, the polarity of the diodes in block 6 must be changed).

If the station has a generator unit, the first generator of which is turned off by the generator circuit breaker to bus I, and the second generator is connected to disconnect by block switches to bus C, while! <E, the voltage from bus K is transmitted through the corresponding diode block 9 to all buses with the lowest number, if K <(. If K> (, then the voltage from bus K does not go to bus I, since the key connecting these buses is open in the diode block, and voltage cannot be supplied through other diode blocks, since this prevent dividing d and. odes 10.

For example, the first generator of the unit is turned on for disconnection to bus 2, and the second to bus 4, then the contacts of keys 16 and 19 must be open. Moreover, if voltage is applied to bus 4 or 5, it does not go to bus 2, since the keys 16 and 19 are open, and the voltage supply to the bus 2 through the key 17 or 20 and the bus 3 is prevented by an isolation diode 10, included in the gap of the bus 3. Thus, the generator circuit breaker of the first generator does not turn off, although the generator itself will be turned off by the block switch together with a second block generator.

Key management 12-21 can be performed either manually or automatically depending on the method of selecting the sequence of exhaust gases at the station, i.e. similarly to how the setting of the priority storage unit 8 is carried out.

Thus, the use of the proposed device eliminates unnecessary tripping of the generator circuit breakers when unloading the station from the PA, which increases the life of these circuit breakers and increases the reliability of energy supply to consumers.

Claims (1)

Claim Anti-emergency automation actuator acting on shutdown of a given number of unloading stages of a station, at which generators are switched off by both generator and block switches, containing N disconnected level busbars in an amount equal to the maximum number of station unloading steps, a bus combining unit, a priority selection unit and the memory block of the sequence of disconnected generators, while the buses of the disconnected steps are connected to the inputs of the memory block of the sequence and the output is a sequence of switched-off generators, characterized in that, in order to avoid unnecessary operation of the generator circuit breakers during unloading of the station from emergency control, the busbar combining unit is made of N-2 isolation diodes and N-1 diode blocks, where N is the number of buses, each The 1st diode block, where 1 = 2, ... N, corresponding to the 1st bus, except for the first one, consists of 1-1 keys, some of whose contacts are combined and form the input of the diode block connected to the i-th bus, others the key contacts are connected to the anodes of the diodes, - the cathode which are the outputs of the diode-Nogo unit 5, which are connected to shred with smaller numbers. in the gap of each bus bar, except for the first and last, between the input of the Ι-th diode block and the 1st output of the (1 + 1) -th diode block, a dividing diode is connected by an anode to the input of the 1st diode block, the tuning inputs of the diode blocks are connected to the outputs of the block for selecting the sequence of disconnected generators, from which they receive logical 15 key control signals generated by the formula Kij = Γι V B1 V Cje. where Kij - determines the state of the key connecting the 1st and Jth bus (0 - open, 1 closed); G1 - a sign of the use of a generator switch to disconnect a generator connected to the i-th bus (0 25 uses a generator switch, 1 - only block); B | - a sign of using block switches to turn off the second generator of the block, the first generator of which 30 is turned off by the generator switch and connected to the i-th bus, and the second generator turned off by the block switch, wired to the! -th bus (0 - block switches are used, 1 - block switches not 35 used); Cjt is a logical value that determines the ratio of bus numbers JmE (0 if j> £ otherwise - 1); I is the number of the bus to which the 40 input of the diode block is connected (i = 2N); j is the number of the bus to which the jth output of the Ιth diode block is connected (j = 1 .... N-1; J <i); t is the number of the bus to which the second generator of the unit is connected, which is switched off by the block switch, the first generator of which is turned off by the generator switch and connected to the I-bus (ί = 0, ... Ν, 0 - if the second generator of the unit is not connected to shutdown ) Compiled by N. Panteleeva Editor L. Pcholinskaya Tehred M. Morgenthal Corrector O. Kundrick Order 2056 Circulation 335 Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology 113035. Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.