SU1730708A1 - Device for protection of self-excited induction generator unit from voltage and frequency change - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in microhydroelectric power plants. The purpose of the invention is to ensure reliable operation of a stand-alone asynchronous generator with capacitor excitation in micro hydropower plants driven by an unregulated hydro turbine and a single-phase connection of electrical consumers to the generator. The generator, when the water is supplied to the tour, begins to rotate, self-excited by a capacitor bank. The voltage of the generator increases, the voltage relay is activated, and the contacts are closed. The thyristors are opened by connecting the ballast to the generator. The generator voltage is reduced to the specified tolerance limits. When you press the Start button, the actuator is activated, and the contacts are closed. After releasing the Start button, the starter is held in the actuated position by the current through the contact. In the absence of a current in the consumer, the generator voltage is above the permissible limits, threshold elements are triggered, sending signals to the first inputs of elements I. At the moments of formation of the sync pulses by the generator, the signals at the (+1) - input of the counter, which output the the key enable signals of the key block, through which the ballast load stages are connected to the consumer's power lines, the current increases and the generator voltage decreases. When current flows through the consumer, the current increases and the voltage of the generator decreases, the output of the element And the signals are fed to the (-1) -input of the counter, the output of which is the key switch-off signals, and the ballast load steps are disconnected from the power lines the current decreases and the voltage of the generator increases. The ballast load is connected or disconnected until the generator voltage falls within the specified allowable limits. 1 z.p, f-ly, 2 ill. Ј XJ CJ Oh x | About 00

Description

The invention relates to electrical engineering and is intended for use in microhydroelectric power plants.

The purpose of the invention is to ensure reliable operation of autonomous asynchronous

a generator with capacitor excitation in micro-hydroelectric power stations driven by an unregulated hydro turbine and a single-phase connection of electrical consumers to the generator.

Figure 1 presents the block diagram of the device; 2 is a schematic diagram of the device.

A device for protection against changes in voltage and frequency of an autonomous asynchronous generator 1, equipped with a battery 2 of excitation capacitors and a drive 3, contains measuring current transformer 4 and voltage transformer 5, single-phase full-wave rectifier 6, first 7 and second 8 variable resistors and an executive unit 9. A current transformer 4 is provided with terminals 10.11 for connecting its primary circuit successively to a first power supply supply line 12 from an asynchronous generator. The primary winding of the voltage transformer 5 is provided with leads 14, 15 for switching it between the first 12 and second 16 power supply lines 13. The first variable resistor 7 is connected between the first 17 and second 18 leads of the secondary winding of the current transformer 4, the first pin 17 of which is connected to the first input of the 19 single-phase full-wave rectifier 6.

The device has a block of protection against transient overvoltages 20, a ballast emergency resistance 21, a magnetic starter 22 with two closing power contacts 23.24 and a closing block contact 25, a button 26 Starting with a closing contact, a button 27 Stop with a break contact, the third variable resistor 28, the current function and voltage function control unit 29, the reversible binary counter 30, and the key unit 31.

The transient overvoltage protection unit 20 is provided with control input terminals 32, 33 for switching it between output terminals 34, 35 of the asynchronous generator 1, and output terminals 36, 37 is connected to the ballast emergency resistance 21.

The control chain, consisting of the coil of the magnetic actuator 22 connected in series, the disconnecting contact of the button 27 Stop and the closing contact of the Start button 26, shunted by the closing contact 25 of the magnetic actuator 22, is equipped with leads 38, 39 to enable this chain between the output terminals 24, 25 units of the asynchronous generator 1 parallel to the control input of the block 20 protection against transient overvoltages.

The first 23 and second 24 make contacts of the magnetic actuator 22 are provided with terminals 40, 41 and 42, 43 for

switching on each power contact in series, respectively, into the first 12 and second 16 power supply lines of electrical consumers 13 between the output terminals 34, 35 of the asynchronous generator unit 1 and the zone of connection to these lines of the primary circuits of the measuring transformers 4 and 5 of current and voltage.

The second input terminal 44 of the single-phase full-wave rectifier 6 is connected to the first terminal 45 of the secondary winding of the voltage transformer 5, the second terminal 46 of which is connected to the second terminal 18 of the secondary winding of the current transformer 4; Between the output terminals 47.48 single-phase full-wave rectifier 6, a smoothing capacitor 49 is connected in parallel, as well as the second 8 and third 28 variable resistors, each connected according to the rectifier output voltage divider circuit, the middle terminals 50 and 51 of which are connected to the first 52 and second 53 to the control inputs of the current function and voltage control unit 29.

The unit 29 controls the current and voltage functions on the first 54 and second 55 threshold elements, the inputs of which serve respectively the first 52 and second 53 control inputs of this unit, the inverter 56, two AND 57, 58 logic elements, and a clock generator 59, and the output the first threshold element 54 through the inverter 56 is connected to the first input of the first element And 57, the output of the second threshold element 55 is connected to the first input of the second element And 58 directly, and the second inputs of the first 57 and second 58 elements And connected to the output of the gene Rathore clock 59 provided with the gate input terminals 60, 61 for connecting the clock generator 59 to the first 12 and second 16 supply lines electroconsumers zone in addition to these lines of the primary circuits of measuring transformers 4 and 5 the current and voltage.

The output of the first element 57, which serves as the first output of the current function and voltage function control unit 29, is connected to the summing (+1) input of the reversible binary counter 30, the output of the second element 58, which serves as the second output of this control unit, is connected to the subtractive (- 1) an input of a reversible binary counter 30, the outputs of which bits are each connected to the control input of the corresponding key of the key block 31, and the execution block 9 is configured as a set of steps 62., 65 of the ballast load according to the number of keys, each

the ballast load stage is provided with leads for connecting it via the corresponding key of the key block 31 to the first 12 and second 16 power lines in parallel with the power consumers 13.

The transient overvoltage protection unit 20 is provided on voltage relay 66 with two closing contacts 67, 68, three resistors 69, 70, 71, four diodes 72-75 and two thyristors 76, 77, and between the first 32 and second 33 controllers The input terminals of this unit are connected in series the first resistor 69 and the voltage relay coil 66, the midpoint of which is connected through the first contact contact 67 of the voltage relay 66 and the second resistor 70 connected to the second control input terminal 33 of this unit connected to the anode the first diode 72, the cathode of which is connected to the first output of the second closing contact 68 of voltage relay 66 and the cathode of the second diode 73, the anode of which is connected to the first control input terminal 32 of this unit connected to the first anode 76 and cathode of the second 77 thyristors, others the power electrodes of which are combined and serve as the first output terminal 36 of the transient overvoltage protection unit 20, the second output terminal 37 of which is the anode of the first diode 72, while the second output of the second contact 68 of the relay 66 is connected It is connected with the control electrode of the first thyristor 76, and through the anode cathode of the fourth diode 75 with the control electrode of the second thyristor 77.

The device works as follows

The start of the micro HPP is carried out with the electrical consumer 13 disconnected from the generator 1, i.e. when the contacts 23, 24, 25 of the magnetic starter 22 are open, by supplying water to the turbine 3, the Generator 1 begins to rotate at an increasing frequency, self-excited by using a battery 2 of capacitor excitation, while the voltage at the output terminals 34, 35 of the asynchronous generator 1 increases. When the voltage increases slightly higher than the voltage of the relay 66, the voltage of the latter is triggered, contacts 67, 68 of this relay are closed, thyristors 76, 77 open, connecting the ballast resistance 21 to the output terminals 34, 35 of the induction generator 1.

21, the voltage at the output terminals 34, 35 decreases and is within the predetermined allowable limits. In this mode, with a connected resistance of 21 micro HPP

can work for a long time.

The network is connected to the asynchronous generator unit 1 by pressing the Start button 26, the magnetic starter 22 is triggered, the contactors 23, 24, 25 of the magnetic starter are closed, and after releasing the Button 26 Starter, the magnetic starter 22 is held in the actuated state by the current flowing through pin 25 of this actuator.

5 At the moment of pressing the button 26 Starting and closing the contacts 23, 24 there is no current in the power consumer 13 (the electrical circuit of the power consumer 13 itself is open), the voltage at the output terminals

0 34, 35 blocks of asynchronous generator 1 is large, while the voltage of the resulting signal from the series-connected windings of transformers 4 and 5 to the input terminals is high

5 19, 44 rectifier 6, respectively, the voltages at the input pins 52, 53 of the block 29 are high. These voltages exceed the voltages of the setpoints of the threshold elements 54, 55, which operate, giving corresponding signals to the first inputs of the And 57 and 58 elements In the moments of formation of the output pulses of the generators 59 sync pulses in this mode of operation, the output of the element 57 forms signals arriving at the summing (+1) input of the binary counter 30, the contents of which increase by 1 at the time of forming each sync pulse. nerator 59. At the output of the counter

0 30, the switch-on signals of the key block 31 are formed, according to which the lines 62-65 of the ballast load are connected in series to the lines 12, 16, thus the load current increases and decreases

5 generator voltage 1.

The ballast load steps are connected until the voltage at the output terminals 34, 35 of the generator 1 falls within the specified allowable limits, while releasing the relay 66 and the ballast resistance 21 is disconnected from the terminals 34, 35 of the asynchronous generator block.

If, when a ballast current is connected to a load of 62-65, the current consumption through the power consumer 13 (the power consumer 13 is closed) increases, the current through the generator will increase and the voltage on the output terminals 34.35 will decrease, while the voltage on the output terminals 52, 53 of the unit 29

will become lower than the settings of the threshold elements 54.55. As a result, when the sync pulses appear at the output of the generator 59 at the output of the element And 58, the signals arriving at the subtractive (-1) input of the binary counter 30 will be generated, the contents of which will decrease by 1 at the time of generating each sync pulse 59. At the output of the counter 30 key cut-off signals are generated by the key block 31, according to which the steps of the ballast load 65-62 are disconnected sequentially from the power lines 12, 16, while the load current decreases and the generator voltage increases.

The disconnection of the ballast load steps is carried out until the voltage at the output terminals 34, 35 of the generator 1 is within the specified allowable limits.

When the voltage at the output terminals 34, 35 of generator 1 is significantly reduced due to, for example, a short circuit in the power circuit 13, the magnetic starter 22 returns to its original state, opening contacts 23, 24, 25 and disconnecting the asynchronous generator 1 from the network.

Subsequent connection of the generator to the network by pressing button 26. Starting is possible only after the elimination of the short circuit.

Claims (2)

1. Device for protection against voltage variation and frequency of an autonomous asynchronous generator unit, equipped with a battery of field capacitors and a drive, containing measuring current transformer and voltage transformer, single-phase full-wave rectifier, first and second variable resistors and executive unit, and the transformer the current is provided with leads to connect its primary circuit in series to the first power supply line of the electrical consumers from the asynchronous generator, the primary winding of the transformer the voltage is provided with leads for switching it between the first and second power supply lines of electrical consumers, the first variable resistor is connected between the first and second leads of the secondary winding of the current transformer, the first lead of which is connected to the first input lead of a single-phase full-wave rectifier, characterized in that in order to ensure reliable operation of an autonomous asynchronous generator with capacitor excitation in microhydroelectric power plants driven by an unregulated hydro turbine and a single-phase connection of electrical consumers to the generator; a device is equipped with a transient overvoltage protection unit; a ballast emergency resistance; a magnetic starter with two closing power contacts and a closing block contact; with the break contact, the third variable resistor, the control unit of the current and voltage function, the reversible binary counter and the key block, the overvoltage protection block The overvoltages are provided with control input terminals for switching it between the output terminals of the asynchronous generator unit, and the output terminals are connected to the ballast emergency resistance, the control chain consisting of a series-connected coil of the magnetic starter, the opening contact of the Stop button and the closing contact of the Start button , shunted by a closing block contact of a magnetic starter, is provided with leads for switching on this chain between the output terminals of the asynchronous generator a parallel to the control input 0 of the transient overvoltage protection unit, the first and second closing contacts of the magnetic starter are provided with leads for switching on each contact of the power sequentially, respectively 5 to the first and second power supply lines of the electrical consumers between the output terminals of the asynchronous generator unit and the zone of connection to these lines of the primary circuits of current and voltage measuring transformers, the second input terminal of the single-phase two half wave rectifier is connected to the first output of the secondary winding of the voltage transformer, the second output of which connected to 5 the second output of the secondary winding of the current transformer, between the output outputs of the single-phase full-wave rectifier in parallel, the smoothing capacitor, as well as the second and 0 the third variable resistors, each included in the circuit of the output voltage divider of the rectifier, the middle terminals of which are connected to the first and second control inputs of the current and voltage function control unit, while the current and voltage function control unit is made on the first and second threshold elements whose inputs serve respectively the first and second control inputs of this block, an inverter, two logical gates AND and a clock generator, the output of the first threshold element being connected via an inverter to the first input of the first element And, the output of the second threshold element connected to the first input of the second element And directly, and the second inputs of the first and second elements And connected to the output of the clock generator, equipped with control input terminals for connecting the clock generator to the first and second power supply lines in the zone of connection to these lines of primary circuits of measuring current transformers and voltage, with the output of the first element AND serving as the first output of the control unit the current and voltage functions are connected to the summing (+1) input of the reversible binary counter, the output of the second element AND, serving as the second output of this control unit, is connected to the subtracting (-1) input of the reverse binary counter, the outputs of which bits are connected each to the control input of the corresponding key of the key block, and the executive unit is designed as a set of steps of the ballast load according to the number of keys, each step of the ballast load having leads for connecting it via the corresponding key b Key locks to the first and second power lines in parallel to the power consumers. 2. The device according to claim 1, wherein the protection overvoltage overvoltage block is made on a voltage relay with two make contacts, three resistors, four diodes and two thyristors, with the series-connected first resistor and the coil of the relay connected between the first and second control input terminals of this unit voltage, the midpoint of which is connected through a first contact contact of a voltage relay and a second resistor connected in series with a second control input terminal of this block connected to the anode of the first diode, the cathode of which is connected to the first output of the second closing contact of the voltage relay and the cathode of the second a diode whose anode is connected to the first control the input terminal of this unit, connected to the anode of the first and the cathode of the second thyristors, the other power electrodes of which are combined and serve as the first output terminal of the transient protection unit overvoltages, the second output of which is the anode of the first diode, while the second output of the second closing contact of the voltage relay is connected to the first output of the third resistor, the second output of which is connected to the control electrode of the first diode through the anode-cathode of the third diode and The fourth diode cathode is with a control electrode of the second thyristor. 35 34 FIG. 2