SU936216A1 - Device for disconnection of generators of electric power stations for given total power - Google Patents

Description

The invention relates to electrical engineering, in particular to emergency automation of power systems, and can be used as an executive body in automatic control devices of powerful 5 power systems.

A device is known for switching off power plant generators at a given power, in which the number of generators to be turned off is determined by subtracting the average power of the generators from the power of the shutdown task [1].

However, the known device is not ¹⁵ allows you to select the optimal number of disconnected generators.

Most .blizkim to the invention by the technical essence is a device for disconnecting the generator ²⁰ za- this power comprising emergency control unit, an adder whose output is connected to the second input of the comparison circuit, electronic and manual switches, sensors, and power keys, connecting power sensors to adder [2].

In this device, the group of generators to be switched off is determined by comparing the signal specified for switching off the power with the output signal of the adder, to the input of which power sensors of one, two, three, etc. are connected. generators in a sequence that takes into account the degree of their readiness for shutdown. As soon as the output signal of the adder exceeds the value of the signal of the given power, the comparison circuit is triggered and sends a signal to terminate the selection process of the disconnected group of generators.

However, with various load generators in this device, it is not possible to achieve sufficient accuracy in determining the number of disconnected generators.

The purpose of the invention is to increase the accuracy of determining the number of disconnected generators of a power plant.

The goal is achieved in that the device for disabling gene- ₅ tors power to a predetermined total power, emergency control unit comprising, a comparison circuit having a first input connected to the emergency control unit, and the second output of the adder hours, electronic switch, outputs of which are connected with the inputs of the manual switch, and the input is connected to the emergency control unit ⁴ ,, 5 the outputs of the manual switch are connected to the control inputs of the keys of the first group, the inputs of which are connected to the output comparison schemes, power sensors of generators connected through ₂₀ keys of the second group with sum-inputs. trip relay paradises, the number of keys in the first and second groups of sensors The trip relay power is equal to the number of generators, supplemented by delay units by the number of generators with triggers and OR elements, with the first inputs of the OR elements connected to the outputs of the manual switch, the second inputs - with the first outputs of the corresponding ₃₀ triggers, and the outputs with the control inputs of the corresponding keys of the second group, the inputs of the triggers are connected through delay blocks to the outputs of the corresponding keys of the first group, and the second outputs are connected to the Le disconnect ³⁵ .

The drawing shows a block diagram of the proposed device as an example of a power plant with three generators.

The device contains an emergency control unit 1, which sets the power output of the power plant during emergency conditions, an electronic switch 2, at the outputs of which, in the presence of the output signal ⁴⁵ of the emergency control unit 1, rectangular pulses appear sequentially in time, a comparison circuit 3, a manual switch 4 for setting the selection sequence generator ⁵⁰ to turn off, on the basis of the degree of willingness to disable the keys of the first group 5 ^_ 7 th second group of keys 8-10, time delay elements 11-13 are connected with manual switch, three | ⁵⁵ gers 14-16, logical elements OR 17-19, intermediate relays 20-22, adder 23 and power sensors 24-26.

A device for turning off power plant generators for a given power for the case of a three-generator power plant work ^? in the following way.

When an emergency occurs in the power system at the output of the emergency control unit 1, a signal appears proportional to the value of the required unloading power of the power plant. This signal is fed simultaneously to the input of the electronic switch 2 and the first input of the comparison circuit 3. The comparison circuit 3 is triggered, since its second input initially has a zero signal. At the same time, the unload signal triggers the electronic switch 2, on the first output of which a rectangular pulse appears. This pulse through the manual switch 4 is fed to the input of the OR logic element 17 and the key control circuit 5. Using the appropriate commutations on the manual switch, the sequence of receipt of rectangular pulses from the outputs of the electronic switch 2 to the generators selection circuit for switching off is set in advance as they are ready for switching off. According to the drawing, the generator that is turned off is the relay that is turned off, then 21 and finally 22. The OR gate 17 is activated and unlocks the key 8. In this case, the signal from the power sensor 24 is fed to the input of the adder 23 and after it to the second input of the comparison circuit 3 . If the magnitude of this signal is less than the magnitude of the unload signal, then comparison circuit 3 remains in the triggered state. The output signal of the comparison circuit is supplied through a key 5 opened with a rectangular pulse to the time delay element 11. The trigger 14 is triggered by the output signal of the time delay element, which leads to the operation of the intermediate relay 20 and to the first generator shutdown. The time delay element is necessary in order to prevent false triggering of the trigger 14 before the end of the process of comparing the signal of the power sensor 24 with the unloading signal. Simultaneously with the output of the trigger 14, a signal is supplied to the OR element 17 to exclude the locking of the key 8 after the termination of the pulse

9362 at the first output of electronic switch 2.

Similarly, it compares the sum signal power sensors 24 and 26 with a signal power razgruz- _s ki. If the total signal exceeds the discharge power signal, the comparison circuit is locked. In this case, the trigger 16 and relay 22 do not work. After the pulse ceases, the key 19 is also locked at the second to the output of the electronic switch 2, which disconnects the power sensor 26 from the adder 23. The comparison circuit is again activated. At the same time, $ 5 • is the pulse at the third output of electronic switch 2, and the process of comparing the total signal of power sensors 24 and 25 with the signal of unloading power takes place. If _m does not locked comparison circuit (toggle flip-flop 18 and relay 21 is activated, which leads to disconnection of the second generator.

The proposed device allows 25 more accurately determine the number of generators to be switched off, which increases the effectiveness of emergency control devices, where used as a measure of generator off Fuse ₃₀ tvrascheniya disorders stability of parallel operation of the power.

Claims (2)

The purpose of the invention is to improve the accuracy of determining the number of power generators to be switched off. The goal is achieved by the device for disconnecting the power plant generators to a predetermined total power, containing an emergency control automation unit, a comparison circuit, the first input of which is connected to the emergency control automation unit, and the second - with the output of the adder, an electronic switch, the outputs of which are connected to the manual inputs the switch, and the input is connected to the emergency control automation unit, the outputs of the manual switch are connected to the control inputs of the keys of the first group, whose inputs are connected to the output of Comparisons, power sensors of generators connected via keys of the second group with the inputs of the accumulator and the shutdown relay, the number of keys in the first and second groups of sensors. The power of the shutdown relay is equal to the number of generators, supplemented by delay blocks by the number of generators by triggers and OR elements, and the first inputs of the elements OR are connected to the outputs of the manual switch, the second inputs are connected to the first outputs of the corresponding triggers, and the outputs are connected to the control inputs of the corresponding keys of the second group, the trigger inputs are connected Erez delay units to the outputs of the corresponding keys of the first group and the second outputs are connected to the trip relay. The drawing shows the block diagram of the proposed device on the example of a power plant with three generators. The device contains an emergency control unit 1, which sets the unloading power of the power plant during emergency conditions, an electronic switch 2, at the outputs of which, if there is an output signal from the emergency control unit 1, time-series pulses appear sequentially, a comparison circuit 3, a manual switch for setting the sequence of selection of generators for shutdown, based on the degree of their readiness to turn off, the keys of the first group and the keys of the second group 8-10 a manual switch, tri1-ger lt-16, logic elements OR 17-19, intermediate relays 20-22, adder 23 and power sensors. The device for shutting down the power plant generators for a given power for the case of a three-generator power plant works as follows. In the event of an emergency situation in the power system, the output of the anti-emergency automatics unit 1 appears, which is proportional to the value of the required unloading power of the power plant. This signal is fed simultaneously to the input of the electronic switch 2 and the first input of the comparison circuit 3. The comparison circuit 3 is triggered, since at its second input there is initially a zero signal. At the same time, the unloading signal triggers the electronic switch 2, at the first output of which a rectangular pulse appears. This impulse through the manual switch k is fed to the input of the logical element OR 17 and the control circuit of the keys 5. By means of the corresponding switchings on the manual switch, the order of arrival of the rectangular pulses from the outputs of the electronic switch 2 to the generator selection circuits is predetermined to turn off when ready to switch off . According to the drawing, the generator that turns off the relay 17, then 21, and finally 22 is the most ready to be turned off. The logic element of the ICh 17 operates and unlocks the key 8. The signal from the power sensor 2 is fed to the input of the adder 23 and after it to the second input of the comparison circuit 3. If the magnitude of this signal is less than the magnitude of the signal for unloading, then the comparison circuit 3 remains in the actuated state. The output signal of the comparison circuit is supplied via a key 5 opened by a rectangular pulse to the time delay element 1T. The output of the time delay element triggers the AND trigger, which triggers the intermediate relay 20 and turns off the first generator. The time delay element is necessary so that the AND trigger does not trigger falsely before the process of comparing the signal of the power sensor 2 with the unloading signal is completed. Simultaneously, a signal is sent from the trigger output to the element OR 17 to eliminate the locking of the key 8 after the cessation of the pulse 59 at the first output of the electronic switch 2. In a similar way, the sum signal of the power sensors 2 and 26 is compared with the unloading power signal. If the total signal exceeds the unloading power signal, the comparison circuit is locked. At the same time, trigger 1b and relay 22 do not work. After the pulse stops at the second output of the electronic switch 2, the key 19 is also locked, which turns off the power sensor 2b from the Torah sum 23. In this case, the comparison circuit is triggered again. At the same time, no is a pulse at the third output of the electronic switch 2 and the process of comparing the sum signal of the power sensors 2 and 25 with the signal of the unloading power occurs. If this does not lock the comparison circuit, 1 the trigger 18 switches and the relay 21 is activated, which causes the second generator to turn off. The proposed device makes it possible to more accurately determine the number of generators to be turned off, which increases the efficiency of emergency control devices, which use generator disconnection as a measure to prevent disturbances in the stability of parallel operation of power systems. The invention The device for turning off the power plant generators for a given total, power containing an emergency control automation unit 66, a comparison circuit, the first input of which is connected to the emergency control automation unit, and the second - the output of the adder, an electronic switch whose outputs are connected to the inputs of the manual switch, and the input is connected to the emergency control automation unit, the outputs of the manual switch are connected to the control inputs of the keys of the first group, the inputs of which are connected to the output of the comparison circuit, yes Generator power switches connected via keys of the second group with the inputs of the adder and the off relay, the number of keys in the first and second groups, the power sensors and the off relay being equal to the number of generators, characterized in that, in order to improve the accuracy of determining the number of disconnected generators, supplemented by delay blocks by the number of generators, triggers, and OR elements, with the first inputs of the OR elements. connected to the outputs of the manual switch, second inputs to the first outputs of the respective triggers, outputs to the control inputs of the corresponding keys of the second group, inputs of the triggers are connected via delay blocks to the outputs of the corresponding keys of the first group, and the second outputs are connected to the off relay. Sources of information taken into account in the examination 1. The author's certificate of the USSR If, cl. H 02 J 3/2, 197. 2. USSR author's certificate number 488072, cl. H 02 J 3/2, 1973.