CN203562978U - Transformer oil purifier based on high-voltage pulse superposition direct-current electric field generation technology - Google Patents

Abstract

The utility model provides a transformer oil purifier based on a high-voltage pulse superposition direct-current electric field generation technology. The transformer oil purifier generates bipolar high-voltage pulse through an IGBT single-tube series circuit, and superposes high-voltage direct current on the basis of the bipolar high-voltage pulse generated by the IGBT single-tube series circuit; and compound voltage generated by the IGBT series connection based high-voltage pulse superposition direct-current electric field generator acts on an oil purifying device provided with a positive plate and a negative plate, and then, a direct-current steep pulse compound electric field is generated between the positive plate and the negative plate. Abundant frequency components of the bipolar steep pulse electric field can act on various colloid impurity particles, so that the particles perform reciprocating movement to be separated from oil molecules, and then, the particles perform directional movement under the action of the high-voltage direct-current electric field.

Description

Based on the transformer oil clarifier of high-voltage pulse stack DC electric field generation technique

Technical field

The utility model relates to Pulse Power Techniques field, is specifically related to the high-voltage pulse stack DC electric field generator based on IGBT series connection.

Background technology

Transformer oil is insulation and heat eliminating medium important in transformer, and the safe operation of transformer is played an important role.But inevitably can infiltrate impurity in the production of transformer oil, storage, transportation, installation process, and after transformer long-time running, can be aging under the factor effects such as electricity, light, heat, chemistry, produce a large amount of contaminant particles, comprise decomposition gas, colloid and fiber etc. in metal particle, oil, affect the performance of transformer oil.

The method of traditional purification transformer oil is as limited to the clean-up effect of aging transformer oil in pressure type oil filter filtration method, adsorption filtration method, vacuum filtration process etc., and because various restrictions are difficult to meet the needs of in-line purification.Japan, in the seventies early start research in last century electrostatic oil cleaner method, is mainly used in the purified treatment of hydraulic oil.The former Soviet Union, the U.S., India etc. carry out the research of the method thereupon, and the electrostatic oil cleaner equipment of the various different size models that released one after another.For example, the EOC-R series static electricity oil cleaning device that KLEENTEK industrial group in Tokyo produces is widely used in the purified treatment of hydraulic oil and lubricating oil all over the world.China is from the eighties this technology that begins one's study in last century, and the units such as Tianjin oil filter factory, Jilin the first machinery plant develop the static electricity oil cleaning device with independent intellectual property right in succession.In addition, the people such as Zhou Shiyu of Beijing Post-graduate Dept., China Mining Univ started the design of theory analysis and the dust collecting body of carrying out electrostatic oil cleaner from 1980.But people also find electrostatic oil cleaner method, there is equally certain defect, cannot remove the colloidal impurity being dissolved in oil.This colloidal impurity is adsorbed on around oil molecule, cannot directed movement under high voltage direct current field action, thus be difficult to be eliminated.If can make colloidal impurity particle in deteriorated transformer oil be purified, just can reclaim deteriorated transformer oil and carry out purified treatment, will greatly reduce undoubtedly transformer oil use cost, to greatest extent economic utilization transformer oil.

Summary of the invention

The purpose of this utility model is to provide a kind of transformer oil clarifier based on high-voltage pulse stack DC electric field generation technique, this device produces bipolarity high-voltage pulse by IGBT single tube series circuit and (in time domain, has the exponential damping pulse of fast rise edge, higher magnitude, its frequency content having in frequency domain is very abundant, frequency band is very wide, be referred to as steep-sided pulse herein), and the high voltage direct current that superposes on the bipolarity high-voltage pulse basis producing at aforementioned IGBT single tube series circuit by supercircuit.The composite voltage that the aforementioned high-voltage pulse stack DC electric field generator based on IGBT series connection is produced acts on after the oil purifier that has positive and negative pole plate, will between positive and negative pole plate, produce direct current steep-sided pulse compound field.Bipolarity Pulsed Electric Fields has enriches frequency content and can act on multiple colloidal impurity particulate, makes it to produce reciprocating motion and departs from oil molecule, then under high voltage direct current field action, to pole plate, does directed movement.Like this, when DC electric field is processed in deteriorated transformer oil general impurity particle, because departing from the colloidal impurity particle of oil molecule, the effect of bipolarity Pulsed Electric Fields also will under DC electric field effect, to both sides pole plate, move after charged.Like this, the clean-up effect of colloidal impurity particulate in can significantly improving deteriorated transformer oil when purifying general impurity particle.

For realizing the technical scheme that the utility model object adopts, be such, a kind of transformer oil clarifier based on high-voltage pulse stack DC electric field generation technique, comprise that power-supply system, bipolarity high-voltage pulse form system, direct current steep-sided pulse supercircuit, signal translating system, synchronous trigger module and load, and some IGBT single tube modules.

Described power-supply system comprises mains supply, and by high voltage direct current module, bipolarity high voltage direct current module and the Switching Power Supply of described mains powered.Described high voltage direct current module produces and exports not the high voltage direct current higher than+20kV.Described bipolarity high voltage direct current module produces and exports a road not higher than the high voltage direct current of+12kV by positive polarity output terminal, simultaneously, produce and export a road not higher than the high voltage direct current of-12kV by negative polarity output, the absolute value of described positive polarity output terminal and negative polarity output output voltage equates.Described Switching Power Supply produces and exports the direct current of 15V.

Described in each, IGBT single tube module comprises an IGBT single tube, DC-DC module, light/electric transducer, switch driver and gate protection circuit; described DC-DC module receives the direct current of Switching Power Supply input in power-supply system, and the output of described DC-DC module is to the power end power supply of described switch driver and light/electric transducer.When described light/electric transducer receives light signal, output a control signal to the control end of switch driver; When described switch driver receives control signal, output drive signal is to the grid of IGBT single tube; Described gate protection circuit input is connected with the grid of IGBT single tube by circuit connection; described gate protection circuit output (is called the pin C of IGBT single tube the input of IGBT single tube herein by the output of circuit connection and IGBT single tube; the pin E of IGBT single tube is called the output of IGBT single tube, and remaining person is roughly the same) connect.

Described bipolarity high-voltage pulse formation system comprises charging resistor R1, positive pulse charge switch, positive pulse tank capacitance device C1 and positive pulse discharge switch.Described positive pulse charge switch comprises the IGBT single tube module of N series connection, and described positive pulse discharge switch comprises the IGBT single tube module of N series connection, and N is positive integer; The series connection of described N IGBT single tube module refers to: the output of the IGBT single tube in first IGBT single tube module is connected with the input of the IGBT single tube in next IGBT single tube module, by that analogy.

In described positive pulse charge switch: the input of the IGBT single tube in first IGBT single tube module is the input of described positive pulse charge switch, and the output of the IGBT single tube of N IGBT single tube module is the output of described positive pulse charge switch;

In described positive pulse discharge switch: the input of the IGBT single tube in first IGBT single tube module is the input of described positive pulse discharge switch, and the output of the IGBT single tube in N IGBT single tube module is the output of described positive pulse discharge switch.

Especially, when N≤2, the input of the IGBT single tube of each IGBT single tube module, output need to be connected (being that parallel connection is all pressed) with the moving/input of static state voltage equipoise circuit, output respectively, while avoiding the IGBT single tube of N IGBT single tube module to be connected in series with this, between the IGBT single tube of each IGBT single tube module, because unbalanced-voltage-division causes IGBT single tube, damage.

One end of described charging resistor R1 is connected to obtain charge power supply with the positive polarity output terminal of bipolarity high voltage direct current module, and the other end of charging resistor R1 is connected with the input of positive pulse charge switch; The output of described positive pulse charge switch is connected with one end of positive pulse tank capacitance device C1, and the other end of described positive pulse tank capacitance device C1 is connected with the earth; The input of described positive pulse discharge switch is connected with the output of described positive pulse charge switch.

Described bipolarity high-voltage pulse forms system and also comprises charging resistor R2, negative pulse charge switch, negative pulse tank capacitance device C2 and negative pulse discharge switch; Described negative pulse charge switch comprises the IGBT single tube module of N series connection, and negative pulse discharge switch comprises the IGBT single tube module of N series connection, and N is positive integer.

In described negative pulse charge switch: the input of the IGBT single tube in first IGBT single tube module is the input of described negative pulse charge switch, and the output of the IGBT single tube of N IGBT single tube module is the output of described negative pulse charge switch.

In described negative pulse discharge switch: the input of the IGBT single tube in first IGBT single tube module is the input of described negative pulse discharge switch, and the output of the IGBT single tube in N IGBT single tube module is the output of described negative pulse discharge switch.

One end of described charging resistor R2 is connected to obtain charge power supply with the negative polarity output of bipolarity high voltage direct current module, and the other end of charging resistor R2 is connected with the input of negative pulse charge switch; The output of described negative pulse charge switch is connected with one end of negative pulse tank capacitance device C2, and the other end of described negative pulse tank capacitance device C2 is connected with the earth; The input of described negative pulse discharge switch is connected with the output of described negative pulse charge switch.

Described direct current steep-sided pulse supercircuit 3 comprises resistance I R3, resistance II R4 and coupling capacitance C; Described resistance I R3 comprises A, B two ends, and resistance II R4 comprises C, D two ends, and coupling capacitance C comprises E, F two ends,

The A termination of described resistance I R3 receive from the output of high voltage direct current module not higher than the high voltage direct current of+20kV; The B end of resistance I R3 is connected with the E end of coupling capacitance C, and the F end of described coupling capacitance C, output and the negative pulse discharge switch output of described positive pulse discharge switch link together; The C end of described resistance II R4 is connected with the B end of resistance I R3, and the D end of described resistance II R4 is connected with a utmost point of load, another utmost point ground connection of described load;

Described signal translating system comprises electric to optic converter (being electric to optic converter J1 and electric to optic converter J2); Described electric to optic converter obtains the light signal of electric time output and by optical fiber transmission, passs the light/electric transducer of all IGBT single tube modules; Light/the electric transducer of described IGBT single tube module receives after light signal, to switch driver output electrical signals, makes switch driver drive signal, the on/off of the IGBT single tube of described driving signal controlling IGBT single tube module to the transmission of IGBT single tube.

The output of described synchronous trigger module is connected with electric to optic converter J1 and the electric to optic converter J2 of signal translating system respectively.

Described load comprises the cavity that holds aging transformer oil, has two and immerse the pole plates of aging transformer oil in described cavity, and the D end of described resistance II R4 is connected with a pole plate wherein, another piece pole plate ground connection.

The utility model adopts after above technical scheme, mainly has following beneficial effect:

1, the utility model adopts IGBT device, and longer service life, operating frequency be higher, greatly dwindled circuit volume, and has reduced the loss of whole circuit.Compact conformation, rationally distributed, reduced the stray inductance of discharge loop, adopt noninductive resistance load, improved output pulse steepness.

2, the utility model adopts optical fiber as signal transmission passage, realizes the electrical isolation between strong, weak signal.Compared with the mode of conventional employing Light Coupled Device, the isolation voltage of optical fiber is higher, and fast response time.The high anti-interfering performance of optical fiber has avoided light signal in transmitting procedure, to be subject to the electromagnetic interference of surrounding environment greatly.

3, the charge and discharge loop output bipolarity steep-sided pulse (thering is the exponential damping pulse on fast rise edge) based on 3 IGBT series connection series systems of the utility model design, technical parameter is as follows: rising edge 200～400ns, amplitude ± 10kV(bipolarity), pulse duration 10us～1ms, frequency 0.2～46Hz.

4, the bipolarity steep-sided pulse of the direct current steep-sided pulse supercircuit amplitude is reached ± 10kV of the utility model design is added in 20kV high voltage direct current, obtains: ± 10kV(bipolarity steep-sided pulse in load)+20kV(direct current) composite voltage.

5, adopt multiple IGBT series connection (being preferably 3) mode obtained amplitude reach ± 10kV steep-sided pulse; Adopt RCD type passive snubber circuit to solve dynamic (on/off transient state) voltage-sharing in multiple IGBT series connection situations, adopt equivalent grading resistor in parallel to improve the static state voltage equipoise in multiple IGBT series connection situations.

6, this device adopts standardization, modularized design, and each unit can be dismantled and assembling easily; The bipolarity steep-sided pulse of output can be for a lot of Pulse Power Techniques application scenario, and output bipolarity steep-sided pulse amplitude 0～± 10kV is adjustable, meets the needs of different application occasion.

7, this device has been reserved relevant interface, can expand some assemblies wherein.For example, can be by increasing in bipolarity high-voltage pulse formation system the series connection number of IGBT single tube module in (or negative) polar impulse charge and discharge switch just, to reaching the object of the higher amplitude bipolarity of output steep-sided pulse.

Accompanying drawing explanation

Fig. 1 is theory diagram of the present utility model;

Fig. 2 is the just structural representation of IGBT single tube module in (or negative) polar impulse charge and discharge switch of embodiment 1;

Fig. 3 is embodiment 1 direct current steep-sided pulse supercircuit structural representation;

Fig. 4 is embodiment 1 bipolarity high-voltage pulse formation system output bipolarity steep-sided pulse waveform;

Output voltage waveforms when Fig. 5 is embodiment 1 direct current 9.5kV+ pulse 1kV;

In figure: 1 power-supply system, 2 bipolarity high-voltage pulses form system, 3 direct current steep-sided pulse supercircuits, 4 signal translating systems; 5 synchronous trigger modules, 6 loads, 7DC-DC module, 8 light/electric transducer; 9 switch drivers, 10IGBT, 11 gate protection circuits, 12 move/static state voltage equipoise circuit.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail, but should not be construed the above-mentioned subject area of the utility model, only limits to following embodiment.In the situation that not departing from the above-mentioned technological thought of the utility model, according to ordinary skill knowledge and customary means, make various replacements and change, all should be included in protection range of the present utility model.

Embodiment 1:

As shown in Figures 1 to 3, a kind of high-voltage pulse stack DC electric field generator based on IGBT series connection, comprises that power-supply system 1, bipolarity high-voltage pulse form system 2, direct current steep-sided pulse supercircuit 3, signal translating system 4, synchronous trigger module 5 and load 6, and some IGBT single tube modules.

Described power-supply system 1 comprises mains supply 1-1, and high voltage direct current module 1-2, the bipolarity high voltage direct current module 1-3 and the Switching Power Supply 1-4 that by described mains supply 1-1, are powered.Described high voltage direct current module is adjustable for output DC0～20000V, and output current is 1mA, has voltage-limiting protection function; Described bipolarity high voltage direct current module 1-3 produces and exports a road not higher than the high voltage direct current of+12kV by positive polarity output terminal, simultaneously, produce and export a road not higher than the high voltage direct current of-12kV by negative polarity output, the absolute value of described positive polarity output terminal and negative polarity output output voltage is equal, and aforementioned high voltage direct current module and bipolarity high voltage direct current module are the commercial module combining.Described Switching Power Supply 1-4, for 220V alternating current is converted to after 15V direct current, connects with bipolarity high-voltage pulse formation system 2, signal translating system 4 and the trigger module 5 of synchronizeing by wire, with thinking that above-mentioned a few part provides power supply.

Described in each, IGBT single tube module comprises an IGBT single tube 10, DC-DC module 7, light/electric transducer 8, switch driver 9 and gate protection circuit 11, described DC-DC module 7 receives the direct current of Switching Power Supply 1-4 input in power-supply system 1, and the output of described DC-DC module 7 is to the power end power supply of described switch driver 9 and light/electric transducer 8; When described light/electric transducer 8 receives light signal, output a control signal to the control end of switch driver 9; When described switch driver 9 receives control signal, output drive signal is to the grid of IGBT single tube 10; Described gate protection circuit 11 inputs are connected with the grid of IGBT single tube 10 by circuit connection; described gate protection circuit 11 outputs (are called the pin C of IGBT single tube 10 input of IGBT single tube 10 herein by the output of circuit connection and IGBT single tube 10; the pin E of IGBT single tube 10 is called the output of IGBT single tube 10, and remaining person is roughly the same) connect.

Described bipolarity high-voltage pulse forms system 2 and comprises charging resistor R1, positive pulse charge switch 2-1, positive pulse tank capacitance device C1 and positive pulse discharge switch 2-2.Described positive pulse charge switch 2-1 comprises (being N=1) IGBT single tube module, and described positive pulse discharge switch 2-2 comprises (being N=1) IGBT single tube module.

In described positive pulse charge switch 2-1: the input of the IGBT single tube 10 in IGBT single tube module is inputs of described positive pulse charge switch 2-1, the output of the IGBT single tube 10 of IGBT single tube module is the output of described positive pulse charge switch 2-1.

In described positive pulse discharge switch 2-2: the input of the IGBT single tube 10 in IGBT single tube module is inputs of described positive pulse discharge switch 2-2, the output of the IGBT single tube 10 in IGBT single tube module is outputs of described positive pulse discharge switch 2-2.

One end of described charging resistor R1 is connected to obtain charge power supply with the positive polarity output terminal of bipolarity high voltage direct current module 1-3, and the other end of charging resistor R1 is connected with the input of positive pulse charge switch 2-1.Described positive pulse charge switch 2-1 output is connected with one end of positive pulse tank capacitance device C1, and the other end of described positive pulse tank capacitance device C1 is connected with the earth.Described positive pulse discharge switch 2-2 input is connected with the output of described positive pulse charge switch 2-1.

Described bipolarity high-voltage pulse forms system 2 and also comprises charging resistor R2, negative pulse charge switch 2-3, negative pulse tank capacitance device C2 and negative pulse discharge switch 2-4.Described negative pulse charge switch 2-3 comprises (being N=1) IGBT single tube module, and described negative pulse discharge switch 2-4 comprises (being N=1) IGBT single tube module.

In described negative pulse charge switch 2-3: the input of the IGBT single tube 10 in IGBT single tube module is inputs of described negative pulse charge switch 2-3, the output of the IGBT single tube 10 of IGBT single tube module is the output of described negative pulse charge switch 2-3.

In described negative pulse discharge switch 2-4: the input of the IGBT single tube 10 in IGBT single tube module is inputs of described negative pulse discharge switch 2-4, the output of the IGBT single tube 10 in IGBT single tube module is outputs of described negative pulse discharge switch 2-4.

One end of described charging resistor R2 is connected to obtain charge power supply with the negative polarity output of bipolarity high voltage direct current module 1-3, and the other end of charging resistor R2 is connected with the input of negative pulse charge switch 2-3.The output of described negative pulse charge switch 2-3 is connected with one end of negative pulse tank capacitance device C2, and the other end of described negative pulse tank capacitance device C2 is connected with the earth.The input of described negative pulse discharge switch 2-4 is connected with the output of aforementioned negative pulse charge switch 2-3.

Described direct current steep-sided pulse supercircuit 3 comprises resistance I R3, resistance II R4 and coupling capacitance C.Described resistance I R3 comprises A, B two ends, and resistance II R4 comprises C, D two ends, and coupling capacitance C comprises E, F two ends.

The A termination of described resistance I R3 receive from high voltage direct current module 1-2 output not higher than the high voltage direct current of+20kV.The B end of resistance I R3 is connected with the E end of coupling capacitance C, and F end, the output of described positive pulse discharge switch 2-2 and the output of negative pulse discharge switch 2-4 of described coupling capacitance C link together.The C end of described resistance II R4 is connected with the B end of resistance I R3, and the D end of described resistance II R4 is connected with a utmost point of load 6, another utmost point ground connection of described load 6.Because load 6(is generally absolute oil chamber, compared to R3, R4 resistance is very large), aforementioned power source system 1 mesohigh DC Module 1-2 output high voltage direct current will be applied in load 6, by aforementioned coupling capacitance C, the bipolarity steep-sided pulse of positive pulse discharge switch 2-2 and negative pulse discharge switch 2-4 output in aforementioned bipolarity high-voltage pulse formation system 2 is coupled in load 6 again, thereby in load 6, obtain direct current steep-sided pulse composite voltage, thereby be just generally band at load 6(, the absolute oil chamber of negative plate) just, in absolute oil chamber between negative plate, produce direct current steep-sided pulse compound field.

Described signal translating system 4 comprises electric to optic converter J1 and electric to optic converter J2.Described electric to optic converter J1 obtains electric exported light signal and passs the described light/electric transducer 8 in light/electric transducer 8 and the negative pulse discharge switch 2-4 in described positive pulse charge switch 2-1 by optical fiber transmission.The electrical signal transfer that light/electric transducer 8 in described positive pulse charge switch 2-1 is exported with the described light/electric transducer 8 in negative pulse discharge switch 2-4 drives signal, the on/off of described driving signal controlling IGBT single tube 10 to produce to the switch driver 9 being connected separately.Described electric to optic converter J2 obtains electric exported light signal and passs the described light/electric transducer 8 in light/electric transducer 8 and the negative pulse charge switch 2-3 in described positive pulse discharge switch 2-2 by optical fiber transmission.The electrical signal transfer that light/electric transducer 8 in described positive pulse discharge switch 2-2 is exported with the described light/electric transducer 8 in negative pulse charge switch 2-3 drives signal, the on/off of described driving signal controlling IGBT single tube 10 to produce to the switch driver 9 being connected separately.

Described synchronous trigger module 5 comprises timer chip, outer meeting resistance R5, outer meeting resistance R6, external capacitor C, inverter.Described timer chip is commercial NE555 chip, by Switching Power Supply 15V output, it is powered.The external fixed resistance R5 of described timer chip resistance is 1k Ω, and adjustable resistance R6 resistance is 470k Ω.When adjustable resistance R6 is adjusted to 15k Ω, it is 46Hz that bipolarity high-voltage pulse forms the bipolarity steep-sided pulse repetition rate of positive pulse discharge switch 2-2 and negative pulse discharge switch 2-4 output in system 2, also finally at load 6(, is generally the absolute oil chamber with positive and negative pole plate) the repetition rate of the indoor generation direct current of absolute oil steep-sided pulse compound field be 46Hz.Described external capacitor C is that capacitance is the patch capacitor of 10uF.Described inverter is commercial element, and model is CD4068.Described timer chip output is divided into two: ①Yi road signal meets electric to optic converter J1 in signal translating system 4, and 2. another road meets electric to optic converter J2 in signal translating system 4 after inverter.Therefore, in signal translating system 4, in electric to optic converter J1 and electric to optic converter J2, signal work schedule is just contrary.

Therefore, when synchronous trigger module 5 sends positive pulse tank capacitance device C1 charging and during negative pulse tank capacitance device C2 discharge signal: signal electric to optic converter J1 in signal translating system 4 in ①Yi road reaches the light/electric transducer 8 of IGBT single tube module in positive pulse charge switch 2-1 and negative pulse discharge switch 2-4, makes switch driver 9 output drive signals make IGBT single tube 10 open (being that positive pulse charge switch 2-1 and negative pulse discharge switch 2-4 are all open-minded).In aforementioned power source system 1, bipolarity high voltage direct current module 1-3 positive polarity output terminal charges to positive pulse tank capacitance device C1 by positive pulse charge switch 2-1; Meanwhile, negative pulse tank capacitance device C2 discharges to direct current steep-sided pulse supercircuit 3 by negative pulse discharge switch 2-4.2. another road signal electric to optic converter J2 in signal translating system 4 reaches the light/electric transducer 8 of IGBT single tube module in positive pulse discharge switch 2-2 and negative pulse charge switch 2-3, makes switch driver 9 output drive signals make IGBT single tube 10 turn-off (being that positive pulse discharge switch 2-2 and negative pulse charge switch 2-3 all turn-off).Disconnection positive pulse tank capacitance device C1 is connected with direct current steep-sided pulse supercircuit 3, and meanwhile, disconnection negative pulse tank capacitance device C2 is connected with bipolarity high voltage direct current module 1-3 negative polarity output in aforementioned power source system 1.On the contrary, when synchronous trigger module 5 sends positive pulse tank capacitance device C1 electric discharge and during negative pulse tank capacitance device C2 charging signals: signal electric to optic converter J1 in signal translating system 4 in ①Yi road reaches the light/electric transducer 8 of IGBT single tube module in positive pulse charge switch 2-1 and negative pulse discharge switch 2-4, makes switch driver 9 output drive signals make IGBT single tube 10 turn-off (being that positive pulse charge switch 2-1 and negative pulse discharge switch 2-4 all turn-off).Disconnection positive pulse tank capacitance device C1 is connected with bipolarity high voltage direct current module 1-3 positive polarity output terminal in aforementioned power source system 1; Meanwhile, disconnect being connected of negative pulse tank capacitance device C2 and direct current steep-sided pulse supercircuit 3.2. another road signal electric to optic converter J2 in signal translating system 4 reaches the light/electric transducer 8 of IGBT single tube module in positive pulse discharge switch 2-2 and negative pulse charge switch 2-3, makes switch driver 9 output drive signals make IGBT single tube 10 open (positive pulse discharge switch 2-2 and negative pulse charge switch 2-3 are all open-minded).Positive pulse tank capacitance device C1 discharges to direct current steep-sided pulse supercircuit 3 by positive pulse discharge switch 2-2; Meanwhile, negative pulse tank capacitance device C2 is connected with bipolarity high voltage direct current module 1-3 negative polarity output in aforementioned power source system 1 by negative pulse charge switch 2-3, in order to obtain charge power supply.Like this, positive pulse tank capacitance device C1 charging and negative pulse tank capacitance device C2 replace charge and discharge, form final positive and negative bipolar pulse.

Described 6 comprise the cavity that holds aging transformer oil, have two and immerse the pole plates of aging transformer oil in described cavity, and the D end of described resistance II R4 is connected with a pole plate wherein, another piece pole plate ground connection.

Embodiment 2:

As shown in Figures 1 to 3, a kind of high-voltage pulse stack DC electric field generator based on IGBT series connection, comprises that power-supply system 1, bipolarity high-voltage pulse form system 2, direct current steep-sided pulse supercircuit 3, signal translating system 4, synchronous trigger module 5 and load 6, and some IGBT single tube modules.

Described power-supply system 1 comprises mains supply 1-1, and high voltage direct current module 1-2, the bipolarity high voltage direct current module 1-3 and the Switching Power Supply 1-4 that by described mains supply 1-1, are powered.Described high voltage direct current module is adjustable for output DC0～20000V, and output current is 1mA, has voltage-limiting protection function; Described bipolarity high voltage direct current module 1-3 produces and exports a road not higher than the high voltage direct current of+12kV by positive polarity output terminal, simultaneously, produce and export a road not higher than the high voltage direct current of-12kV by negative polarity output, the absolute value of voltage of described positive polarity output terminal and the output of negative polarity output is equal, and aforementioned high voltage direct current module and bipolarity high voltage direct current module are the commercial module combining.Described Switching Power Supply 1-4, for 220V alternating current is converted to after 15V direct current, connects with bipolarity high-voltage pulse formation system 2, signal translating system 4 and the trigger module 5 of synchronizeing by wire, with thinking that above-mentioned a few part provides power supply.

Described in each, IGBT single tube module comprises an IGBT single tube 10, DC-DC module 7, light/electric transducer 8, switch driver 9 and gate protection circuit 11, described DC-DC module 7 receives the direct current of Switching Power Supply 1-4 input in power-supply system 1, and the output of described DC-DC module is to the power end power supply of described switch driver 9 and light/electric transducer 8; When described light/electric transducer 8 receives light signal, output a control signal to the control end of switch driver 9; When described switch driver 9 receives control signal, output drive signal is to the grid of IGBT single tube 10; Described gate protection circuit 11 inputs are connected with the grid of IGBT single tube 10 by circuit connection; described gate protection circuit 11 outputs (are called the pin C of IGBT single tube 10 input of IGBT single tube 10 herein by the output of circuit connection and IGBT single tube 10; the pin E of IGBT single tube 10 is called the output of IGBT single tube 10, and remaining person is roughly the same) connect.

Described bipolarity high-voltage pulse forms system 2 and comprises charging resistor R1, positive pulse charge switch 2-1, positive pulse tank capacitance device C1 and positive pulse discharge switch 2-2.

Described positive pulse charge switch 2-1 comprises the IGBT single tube module of 3 series connection, and described positive pulse discharge switch 2-2 comprises the IGBT single tube module of 3 series connection.The series connection of described 3 IGBT single tube modules refers to: the output of the IGBT single tube 10 in the 1st IGBT single tube module is connected with the input of the IGBT single tube 10 in the 2nd IGBT single tube module; The output of the IGBT single tube 10 in the 2nd IGBT single tube module is connected with the input of the IGBT single tube 10 in the 3rd IGBT single tube module again.

In described positive pulse charge switch 2-1: the input of the IGBT single tube 10 in the 1st IGBT single tube module is inputs of described positive pulse charge switch 2-1, the output of the IGBT single tube 10 of the 3rd IGBT single tube module is the output of described positive pulse charge switch 2-1;

In described positive pulse discharge switch 2-2: the input of the IGBT single tube 10 in the 1st IGBT single tube module is inputs of described positive pulse discharge switch 2-2, the output of the IGBT single tube 10 in the 3rd IGBT single tube module is outputs of described positive pulse discharge switch 2-2;

Owing to adopting 3 IGBT single tube module series connection (being N≤2 o'clock), therefore the input of the IGBT single tube 10 of each IGBT single tube module, output need to be connected (being that parallel connection is all pressed) with moving/static state voltage equipoise circuit 12 inputs, output respectively, while avoiding the IGBT single tube 10 of 3 IGBT single tube modules to be connected in series with this, between the IGBT single tube 10 of each IGBT single tube module, because unbalanced-voltage-division causes IGBT single tube 10, damage;

One end of described charging resistor R1 is connected to obtain charge power supply with the positive polarity output terminal of bipolarity high voltage direct current module 1-3, and the other end of charging resistor R1 is connected with the input of positive pulse charge switch 2-1.Described positive pulse charge switch 2-1 output is connected with one end of positive pulse tank capacitance device C1, and the other end of described positive pulse tank capacitance device C1 is connected with the earth.The input of described positive pulse discharge switch 2-2 is connected with the output of described positive pulse charge switch 2-1.

Described bipolarity high-voltage pulse forms system 2 and also comprises charging resistor R2, negative pulse charge switch 2-3, negative pulse tank capacitance device C2 and negative pulse discharge switch 2-4.In described negative pulse charge switch 2-3, negative pulse discharge switch 2-4, all there is the IGBT single tube module of 3 series connection, its internal structure, the mode of connection and aforementioned positive pulse charge switch 2-1,2-2 is identical for positive pulse discharge switch.

One end of described charging resistor R2 is connected to obtain charge power supply with the negative polarity output of bipolarity high voltage direct current module 1-3, and the other end of charging resistor R2 is connected with negative pulse charge switch 2-3 input.The output of described negative pulse charge switch 2-3 is connected with one end of negative pulse tank capacitance device C2, and the other end of described negative pulse tank capacitance device C2 is connected with the earth.The input of described negative pulse discharge switch 2-4 is connected with the output of described negative pulse charge switch 2-3.

Described direct current steep-sided pulse supercircuit 3 comprises resistance I R3, resistance II R4 and coupling capacitance C.Described resistance I R3 comprises A, B two ends, and resistance II R4 comprises C, D two ends, and coupling capacitance C comprises E, F two ends.

The A termination of described resistance I R3 receive from high voltage direct current module 1-2 output not higher than the high voltage direct current of+20kV.The B end of resistance I R3 is connected with the E end of coupling capacitance C, and the F end of described coupling capacitance C links together by the output of wire and described positive pulse discharge switch 2-2 and the output of negative pulse discharge switch 2-4; The C end of described resistance II R4 is connected with the B end of resistance I R3, and the D end of described resistance II R4 is connected with a utmost point of load 6, another utmost point ground connection of described load 6.Because load 6(is generally absolute oil chamber, compared to R3, R4 resistance is very large), aforementioned power source system 1 mesohigh DC Module 1-2 output high voltage direct current will be applied in load 6, by aforementioned coupling capacitance C, the bipolarity steep-sided pulse of positive pulse discharge switch 2-2 and negative pulse discharge switch 2-4 output in aforementioned bipolarity high-voltage pulse formation system 2 is coupled in load 6 again, thereby in load 6, obtain direct current steep-sided pulse composite voltage, thereby load 6(is just being generally band, the absolute oil chamber of negative plate) just, in absolute oil chamber between negative plate, produce direct current steep-sided pulse compound field.

Described signal translating system 4 comprises electric to optic converter J1 and electric to optic converter J2.Described electric to optic converter J1 obtains electric exported light signal and by optical fiber transmission, passs the described light/electric transducer 8 of 3 IGBT single tube modules of the IGBT single tube module series connection group in light/electric transducer 8 and the negative pulse discharge switch 2-4 of 3 IGBT single tube modules of the IGBT single tube module series connection group in described positive pulse charge switch 2-1.The electrical signal transfer that the light/electric transducer 8 of 3 IGBT single tube modules of the IGBT single tube module series connection group in described positive pulse charge switch 2-1 is exported with the light/electric transducer 8 of 3 IGBT single tube modules of the IGBT single tube module series connection group in negative pulse discharge switch 2-4 drives signal, the on/off of the IGBT single tube 10 of 3 IGBT single tube modules of described driving signal controlling IGBT single tube module series connection group to produce to the switch driver 9 being connected separately.Described electric to optic converter J2 obtains electric exported light signal and by optical fiber transmission, passs the described light/electric transducer 8 of 3 IGBT single tube modules of the IGBT single tube module series connection group in light/electric transducer 8 and the negative pulse charge switch 2-3 of 3 IGBT single tube modules of the IGBT single tube module series connection group in described positive pulse discharge switch 2-2.The electrical signal transfer that the light/electric transducer 8 of 3 IGBT single tube modules of the IGBT single tube module series connection group in described positive pulse discharge switch 2-2 is exported with the light/electric transducer 8 of 3 IGBT single tube modules of the IGBT single tube module series connection group in negative pulse charge switch 2-3 gives the switch driver 9 being connected separately to produce driving signal, the shutoff of the IGBT single tube 10 of 3 IGBT single tube modules of described driving signal controlling IGBT single tube module series connection group/open-minded.

Described synchronous trigger module 5 comprises timer chip, outer meeting resistance R5, outer meeting resistance R6, external capacitor C, inverter.Described timer chip is commercial NE555 chip, by Switching Power Supply 15V output, it is powered.The external fixed resistance R5 of described timer chip resistance is 1k Ω, and adjustable resistance R6 resistance is 470k Ω.When adjustable resistance R6 is adjusted to 15k Ω, it is 46Hz that bipolarity high-voltage pulse forms the bipolarity steep-sided pulse repetition rate of positive pulse discharge switch 2-2 and negative pulse discharge switch 2-4 output in system 2, also finally at load 6(, is generally the absolute oil chamber with positive and negative pole plate) the repetition rate of the indoor generation direct current of absolute oil steep-sided pulse compound field be 46Hz.Described external capacitor is that capacitance is the patch capacitor of 10uF.Described inverter is commercial element, and model is CD4068.Described timer chip output is divided into two: ①Yi road signal meets electric to optic converter J1 in signal translating system 4, and 2. another road meets electric to optic converter J2 in signal translating system 4 after inverter; Therefore in signal translating system 4, in electric to optic converter J1 and electric to optic converter J2, signal work schedule is just contrary.

Therefore, when synchronous trigger module 5 sends positive pulse tank capacitance device C1 charging and during negative pulse tank capacitance device C2 discharge signal: signal electric to optic converter J1 in signal translating system 4 in ①Yi road reaches the light/electric transducer 8 of 3 IGBT single tube modules of IGBT single tube module series connection group in the light/electric transducer 8 of 3 IGBT single tube modules of IGBT single tube module series connection group in positive pulse charge switch 2-1 and negative pulse discharge switch 2-4, make switch driver 9 output drive signals make the IGBT single tube 10 of 3 IGBT single tube modules of IGBT single tube module series connection group open (being that positive pulse charge switch 2-1 and negative pulse discharge switch 2-4 are all open-minded).In aforementioned power source system 1, bipolarity high voltage direct current module 1-3 charges to positive pulse tank capacitance device C1 by positive pulse charge switch 2-1; Meanwhile, negative pulse tank capacitance device C2 discharges to direct current steep-sided pulse supercircuit 3 by negative pulse discharge switch 2-4.2. another road signal electric to optic converter J2 in signal translating system 4 reaches the light/electric transducer 8 of 3 IGBT single tube modules of IGBT single tube module series connection group in the light/electric transducer 8 of 3 IGBT single tube modules of IGBT single tube module series connection group in positive pulse discharge switch 2-2 and negative pulse charge switch 2-3, makes switch driver 9 output drive signals make the IGBT single tube 10 of 3 IGBT single tube modules of IGBT single tube module series connection group turn-off (being that positive pulse discharge switch 2-2 and negative pulse charge switch 2-3 all turn-off).Disconnection positive pulse tank capacitance device C1 is connected with direct current steep-sided pulse supercircuit 3; Meanwhile, disconnect being connected of negative pulse tank capacitance device C2 and bipolarity high voltage direct current module 1-3 negative polarity output in aforementioned power source system 1.On the contrary, when synchronous trigger module 5 sends positive pulse tank capacitance device C1 electric discharge and during negative pulse tank capacitance device C2 charging signals: signal electric to optic converter J1 in signal translating system 4 in ①Yi road reaches the light/electric transducer 8 of 3 IGBT single tube modules of IGBT single tube module series connection group in the light/electric transducer 8 of 3 IGBT single tube modules of IGBT single tube module series connection group in positive pulse charge switch 2-1 and negative pulse discharge switch 2-4, make switch driver 9 output drive signals make the IGBT single tube 10 of 3 IGBT single tube modules of IGBT single tube module series connection group turn-off (being that positive pulse charge switch 2-1 and negative pulse discharge switch 2-4 all turn-off).Disconnection positive pulse tank capacitance device C1 is connected with bipolarity high voltage direct current module 1-3 positive polarity output terminal in aforementioned power source system 1; Meanwhile, disconnect being connected of negative pulse tank capacitance device C2 and direct current steep-sided pulse supercircuit 3.2. another road signal electric to optic converter J2 in signal translating system 4 reaches the light/electric transducer 8 of 3 IGBT single tube modules of IGBT single tube module series connection group in the light/electric transducer 8 of 3 IGBT single tube modules of IGBT single tube module series connection group in positive pulse discharge switch 2-2 and negative pulse charge switch 2-3, makes switch driver 9 output drive signals make the IGBT single tube 10 of 3 IGBT single tube modules of IGBT single tube module series connection group open (positive pulse discharge switch 2-2 and negative pulse charge switch 2-3 are all open-minded).Positive pulse tank capacitance device C1 discharges to direct current steep-sided pulse supercircuit 3 by positive pulse discharge switch 2-2; Meanwhile, negative pulse tank capacitance device C2 is connected by negative pulse charge switch 2-3 and bipolarity high voltage direct current module 1-3 negative polarity output in aforementioned power source system 1, in order to obtain charge power supply.Like this, positive pulse tank capacitance device C1 charging and negative pulse tank capacitance device C2 replace charge and discharge, form final positive and negative bipolar pulse.

Described 6 comprise the cavity that holds aging transformer oil, have two and immerse the pole plates of aging transformer oil in described cavity, and the D end of described resistance II R4 is connected with a pole plate wherein, another piece pole plate ground connection.

Adopt above-described embodiment 2, will be at obtain ± 10kV(of load 6 inputs bipolarity steep-sided pulse)+20kV(direct current) composite voltage, described ± the concrete technical parameter of 10kV is as follows: rising edge 200～400ns, amplitude ± 10kV(bipolarity), pulse duration 10us～1ms, frequency 0.2～46Hz.

Embodiment 3

The present embodiment discloses a kind of transformer oil clarifier based on high-voltage pulse stack DC electric field generation technique, described load 6 comprises the cavity that holds aging transformer oil, in described cavity, there are two pole plates that immerse aging transformer oil, the D end of described resistance II R4 is connected with a pole plate wherein, another piece pole plate ground connection.Adopt embodiment 2 gained ± 10kV(bipolarity steep-sided pulse)+20kV(direct current) composite voltage input load 6, will in the cavity between the positive and negative pole plate of aforementioned load 6, produce direct current steep-sided pulse compound field.When DC electric field is processed in deteriorated transformer oil general impurity particle, because departing from the colloidal impurity particle of oil molecule, the effect of bipolarity Pulsed Electric Fields also will under DC electric field effect, to both sides pole plate, move after charged.Like this, when purifying general impurity particle, can significantly improve the clean-up effect to deteriorated transformer oil colloidal impurity particulate, be in particular in and can improve deteriorated transformer oil dielectric constant, dielectric loss, acid number, puncture voltage, interfacial tension, moisture etc., deteriorated transformer oil after treatment can reach transformer oil operation standard by partial parameters.

Claims (1)

1. the transformer oil clarifier based on high-voltage pulse stack DC electric field generation technique, it is characterized in that: comprise that power-supply system (1), bipolarity high-voltage pulse form system (2), direct current steep-sided pulse supercircuit (3), signal translating system (4), synchronous trigger module (5) and load (6), and some IGBT single tube modules;

Described power-supply system (1) comprises mains supply (1-1), and high voltage direct current module (1-2), bipolarity high voltage direct current module (1-3) and the Switching Power Supply (1-4) of by described mains supply (1-1), being powered; Described high voltage direct current module (1-2) produces and exports not the high voltage direct current higher than+20kV; Described bipolarity high voltage direct current module (1-3) produces and exports a road not higher than the high voltage direct current of+12kV by positive polarity output terminal, simultaneously, produce and export a road not higher than the high voltage direct current of-12kV by negative polarity output, the absolute value of voltage of described positive polarity output terminal and the output of negative polarity output equates; Described Switching Power Supply (1-4) produces and exports the direct current of 15V;

Described in each, IGBT single tube module comprises an IGBT single tube (10), DC-DC module (7), light/electric transducer (8), switch driver (9) and gate protection circuit (11), described DC-DC module (7) receives the direct current of Switching Power Supply (1-4) input in power-supply system (1), and the output of described DC-DC module (7) is to the power end power supply of described switch driver (9) and light/electric transducer (8); When described light/electric transducer (8) receives light signal, output a control signal to the control end of switch driver (9); When described switch driver (9) receives control signal, output drive signal is to the grid of IGBT single tube (10); Described gate protection circuit (11) input is connected with the grid of IGBT single tube (10) by circuit connection, and described gate protection circuit (11) output is connected with the output of IGBT single tube (10) by circuit connection;

Described bipolarity high-voltage pulse forms system (2) and comprises charging resistor (R1), positive pulse charge switch (2-1), positive pulse tank capacitance device (C1) and positive pulse discharge switch (2-2); Described positive pulse charge switch (2-1) comprises the IGBT single tube module of N series connection, and described positive pulse discharge switch (2-2) comprises the IGBT single tube module of N series connection, and N is positive integer;

In described positive pulse charge switch (2-1): the input of the IGBT single tube (10) in first IGBT single tube module is the input of described positive pulse charge switch (2-1), and the output of the IGBT single tube (10) of N IGBT single tube module is the output of described positive pulse charge switch (2-1);

In described positive pulse discharge switch (2-2): the input of the IGBT single tube (10) in first IGBT single tube module is the input of described positive pulse discharge switch (2-2), and the output of the IGBT single tube (10) in N IGBT single tube module is the output of described positive pulse discharge switch (2-2);

One end of described charging resistor (R1) is connected to obtain charge power supply with the positive polarity output terminal of bipolarity high voltage direct current module (1-3), and the other end of charging resistor (R1) is connected with the input of positive pulse charge switch (2-1); The output of described positive pulse charge switch (2-1) is connected with one end of positive pulse tank capacitance device (C1), and the other end of described positive pulse tank capacitance device (C1) is connected with the earth; The input of described positive pulse discharge switch (2-2) is connected with the output of described positive pulse charge switch (2-1);

Described bipolarity high-voltage pulse forms system (2) and also comprises charging resistor (R2), negative pulse charge switch (2-3), negative pulse tank capacitance device (C2) and negative pulse discharge switch (2-4); Described negative pulse charge switch (2-3) comprises the IGBT single tube module of N series connection, and negative pulse discharge switch (2-4) comprises the IGBT single tube module of N series connection, and N is positive integer;

In described negative pulse charge switch (2-3): the input of the IGBT single tube (10) in first IGBT single tube module is the input of described negative pulse charge switch (2-3), and the output of the IGBT single tube (10) of N IGBT single tube module is the output of described negative pulse charge switch (2-3);

In described negative pulse discharge switch (2-4): the input of the IGBT single tube (10) in first IGBT single tube module is the input of described negative pulse discharge switch (2-4), and the output of the IGBT single tube (10) in N IGBT single tube module is the output of described negative pulse discharge switch (2-4);

One end of described charging resistor (R2) is connected to obtain charge power supply with the negative polarity output of bipolarity high voltage direct current module (1-3), and the other end of charging resistor (R2) is connected with the input of negative pulse charge switch (2-3); The output of described negative pulse charge switch (2-3) is connected with one end of negative pulse tank capacitance device (C2), and the other end of described negative pulse tank capacitance device (C2) is connected with the earth; The input of described negative pulse discharge switch (2-4) is connected with the output of described negative pulse charge switch (2-3);

Described direct current steep-sided pulse supercircuit (3) comprises resistance I (R3), resistance II (R4) and coupling capacitance (C); Described resistance I (R3) comprises A, B two ends, and resistance II (R4) comprises C, D two ends, and coupling capacitance (C) comprises E, F two ends;

The A termination of described resistance I (R3) receive from high voltage direct current module (1-2) output not higher than the high voltage direct current of+20kV; The B end of resistance I (R3) is connected with the E end of coupling capacitance (C), and F end and the output of described positive pulse discharge switch (2-2) output and negative pulse discharge switch (2-4) of described coupling capacitance (C) link together; The C end of described resistance II (R4) is connected with the B end of resistance I (R3), and the D end of described resistance II (R4) is connected with a utmost point of load (6), another utmost point ground connection of described load (6);

Described signal translating system (4) comprises electric to optic converter; Described electric to optic converter obtains the light signal of electric time output and by optical fiber transmission, passs the light/electric transducer (8) of all IGBT single tube modules; Light/the electric transducer (8) of described IGBT single tube module receives after light signal, to switch driver (9) output electrical signals, make switch driver (9) drive signal, the on/off of the IGBT single tube (10) of described driving signal controlling IGBT single tube module to IGBT single tube (10) transmission;

Described load (6) comprises the cavity that holds aging transformer oil, has two and immerse the pole plates of aging transformer oil in described cavity, and the D end of described resistance II (R4) is connected with a pole plate wherein, another piece pole plate ground connection.

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