Nothing Special   »   [go: up one dir, main page]

CN103028494B - A kind of electrostatic precipitation pulse power source control system - Google Patents

A kind of electrostatic precipitation pulse power source control system Download PDF

Info

Publication number
CN103028494B
CN103028494B CN201210554680.2A CN201210554680A CN103028494B CN 103028494 B CN103028494 B CN 103028494B CN 201210554680 A CN201210554680 A CN 201210554680A CN 103028494 B CN103028494 B CN 103028494B
Authority
CN
China
Prior art keywords
voltage
circuit
controller
high frequency
pulse
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201210554680.2A
Other languages
Chinese (zh)
Other versions
CN103028494A (en
Inventor
陈军律
叶航
蓝永森
王文勇
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ZHEJIANG LIANCHENG ENVIRONMENT SCIENCE AND TECHNOLOGY Co Ltd
Original Assignee
ZHEJIANG LIANCHENG ENVIRONMENT SCIENCE AND TECHNOLOGY Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ZHEJIANG LIANCHENG ENVIRONMENT SCIENCE AND TECHNOLOGY Co Ltd filed Critical ZHEJIANG LIANCHENG ENVIRONMENT SCIENCE AND TECHNOLOGY Co Ltd
Priority to CN201210554680.2A priority Critical patent/CN103028494B/en
Publication of CN103028494A publication Critical patent/CN103028494A/en
Application granted granted Critical
Publication of CN103028494B publication Critical patent/CN103028494B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Electrostatic Separation (AREA)

Abstract

The invention discloses a kind of electrostatic precipitation pulse power source control system, it includes major loop, controller and triggers driving sampling circuit, and major loop includes the first loop that cleaner unit provides a continuous print fundamental voltage and cleaner unit provides the second servo loop of a pulse voltage being interrupted;Controller controls this fundamental voltage full breakdown voltage less than the electric discharge of cleaner unit electric field inside spark, and controller controls 35 times that this pulse voltage is fundamental voltage.The voltage of native system output is big, and during cleaner unit spark discharge, without the turn-off time, electric field energy recovers fast, and inverse corona can be overcome on-the-spot, obvious especially for the fine dusts dust collection effect in electric precipitation;Operating frequency is high, and power factor is big, and three phase mains is powered, three-phase grid balance, few to the harmonic pollution of electrical network, more decreases the volume and weight of transformator, saves consumptive material.

Description

A kind of electrostatic precipitation pulse power source control system
Technical field
The present invention relates to electric cleaner field, especially relate to a kind of electrostatic precipitation pulse power Control system.
Background technology
Electric cleaner is a kind of flue gas purifying equipment, and its operation principle is: dust dirt in flue gas When grain is by high-voltage electrostatic field, collide with interelectrode negative ions and electronics and charged (or charged in ion diffusion motion), on band, the grit of electronics and ion is at the work of electric field force With lower anisotropy electrode movement and long-pending be attached on opposite electrode, made on electrode by modes such as rappings Dust fall into collection ash bucket in, make the flue gas by electric cleaner be purified, reach protection Air, the purpose of protection environment.
Conventional electrostatic dedusting power supply mode, has Thyristor Controlled voltage regulating rectifier to power the most both at home and abroad Device, it has the advantages such as simple in construction, capacity are big, but also has some shortcomings: 1, work Frequency is power frequency 50Hz (external or for 60Hz), and frequency is low, conversion efficiency as little as 75%, consumption Take electric energy;2, low due to operating frequency, transformator and filtering device volume is big, weight is big, Expend substantial amounts of iron and steel and copper material;3, power supply input loads injustice for biphase electricity for electrical network Weighing apparatus, is again power frequency phase control, and not only power factor is low, and input/output terminal all contains greatly The low-order harmonic that amount is difficult to filter pollutes, and the interference to electrical network is big.4: IGCT is half control type Device, can not adjust output voltage immediately when spark discharge or short circuit, and dynamic responding speed is slow. 5: output ripple is big, causes corona voltage low, and waveform is again single power frequency ripple so that nothing Method adapts to the operating mode of high specific resistance, it is difficult to reach the new demand of field of Environment Protection dust emission.Above-mentioned Reason becomes the bottleneck that present conventional electrostatic dedusting power supply performance improves further, along with country is right The raising of environmental requirement, conventional electrostatic dedusting is difficult to meet country for electric cleaner and wants environmental protection Ask.
Summary of the invention
The present invention is in order to overcome the deficiencies in the prior art, it is provided that a kind of use safely and can effectively be gone Electrostatic precipitation pulse power source control system except high resistivity dust.
To achieve these goals, the present invention is by the following technical solutions: a kind of electrostatic precipitation arteries and veins Rushing power control system, it includes major loop, controller and triggers driving sampling circuit, leads back Road includes the first loop that cleaner unit provides a continuous print fundamental voltage and provides cleaner unit The second servo loop of one pulse voltage being interrupted;Controller controls this fundamental voltage less than cleaner unit electricity The full breakdown voltage of field inside spark electric discharge, it is fundamental voltage that controller controls this pulse voltage 3-5 times;Described first loop includes that the first rectifier bridge, the first inverter circuit and the first high frequency become Voltage rectifier, filtered three-phase alternating voltage is rectified into DC voltage by the first rectifier bridge, This DC voltage is converted into the high frequency rectangular alternating current wave pressure of 0-50KHZ by the first inverter circuit, This high frequency rectangular alternating current wave pressure is carried out boosting by the first high frequency Transformer Rectifier circuit, rectifying and wave-filtering The described fundamental voltage of rear output is to cleaner unit;Described second servo loop include controllable silicon unit, second Rectifier bridge, the second inverter circuit and the second high frequency Transformer Rectifier circuit, the second rectifier bridge will filtering After three-phase alternating voltage be rectified into DC voltage, this DC voltage is changed by the second inverter circuit Becoming the high frequency rectangular alternating current wave pressure of 0-50KHZ, the second high frequency Transformer Rectifier circuit is by this high frequency Square wave ac pressure carries out boosting, after rectifying and wave-filtering voltage pulse output to cleaner unit;Described Trigger and drive sampling circuit to be connected with controller, the most defeated for gathering the transformator on cleaner unit The secondary voltage gone out and secondary current, and feed back to controller, controller receives this feedback letter Combine the control parameter set on controller after number, control silicon controlled in controllable silicon unit and lead Current flow angle, to control the amplitude of described pulse voltage;Controller is by controlling the second inverter circuit Open and shut off the time, to control time of delivery and the interval of described pulse voltage;It is reciprocal with this, It is fundamental voltage superposition one pulse voltage by phased manner;Described first inverter circuit and the second inversion IGBT igbt that circuit is connected by four bridge-types, series resonance inductor Lr1, series resonant capacitance Cr1 are constituted;Described triggering drives sampling circuit to include primary current Sample circuit, is acquired the electric current of second servo loop primary side by primary current transformer, and will Data feedback is to controller;Secondary voltage sample circuit, is acquired output by sample resistance Secondary voltage, and by data feedback to controller;Secondary current sample circuit, gathers output Secondary current, and by data feedback to controller.If the feedback signal-two that controller receives Secondary voltage pulsation descent amplitude is relatively big, then be judged as spark discharge;Or secondary current detected Rising amplitude relatively big, be also judged as spark discharge;When controller receives the letter of spark discharge Number time, controller gets started cut out controllable silicon unit and the second inverter circuit, makes second servo loop Stopping output heavy current pulse voltage, dynamic responding speed is the fastest;Controller drives triggering The data that sampling circuit collects detect in real time, decline according to secondary voltage moment in loop The amplitude that amplitude and secondary current moment rise, judges whether that flashing discharges, such as, exists The secondary voltage data collected in period 1 are U1, collecting data second round is U2, U1-U2> 10kV, then be judged as spark discharge;When the secondary current of equipment maximum range is Imax, the real-time secondary current data collected when controller are I > 1.2Imax, then it is judged as Spark discharge.
Described controller includes digital signal processor, switch QS2 and controls transformator TC1, Three phase network power supply biphase by switch QS2, control transformator TC1 to Digital Signal Processing Device is powered.
Further, described controllable silicon unit includes three bidirectional triode thyristors and double for triggering To the triggering circuit of controlled silicon conducting, described triggering circuit includes forceful electric power and vulnerabilities scan part Two pulse transformers T1, the T2 kept apart, by four diode V26, V27, V28, The shaping circuit that V29 is constituted, by resistance R32, electric capacity C5, electric capacity C6, electric capacity C7, electricity Hold C8, resistance R33 and the rc filter circuit of varistor RV composition.
Described first high frequency Transformer Rectifier circuit and the second high frequency Transformer Rectifier circuit are high by one Frequency power transformer and a high-frequency rectification module composition.
The IGBT that described first inverter circuit and the second inverter circuit are connected by four bridge-types is exhausted Edge grid bipolar transistor, series resonance inductor Lr1, series resonant capacitance Cr1 are constituted.
Described major loop also includes circuit breaker Q F, catalyst KM, filtration module, three phase network Power supply after circuit breaker Q F, catalyst KM, filtration module respectively with described first loop, Second servo loop connects.
Supplied to cleaner unit by a damping resistance after described fundamental voltage and big pulse voltage superposition Electricity.
The present invention uses one to surpass far away less than one amplitude of superposition on the fundamental voltage of breakdown voltage Crossing the pulse voltage of breakdown voltage, fundamental voltage is constantly in duty, and pulse voltage is then Superposing with fundamental voltage for discontinuity, the voltage magnitude of pulse voltage is very big, but pulse width The narrowest, electric field two interpolar does not the most have enough time to get through, and pulse just has finished on, and so ionizes Son just can rest between the two poles of the earth, makes dust charged raising dust removing effects, especially to height ratio The trapping of resistance dust, its electric precipitation effect is more preferable.When controller is when spark discharge being detected, First loop still starts work, only turns off second servo loop and exports big pulse voltage, by controlling Three silicon controlled conductings of the input of second servo loop and the second inverter circuit of second servo loop Open the shutoff controlling second servo loop, thus when ensure that spark discharge, inside cleaner unit still So with the presence of a fundamental voltage, thus improve the dust-collecting efficiency of electric precipitation.
In sum, the invention have the advantages that the voltage that native system exports is big, cleaner unit During spark discharge, without the turn-off time, electric field energy recovers fast, and inverse corona can be overcome on-the-spot, special It not obvious for the fine dusts dust collection effect in electric precipitation;Operating frequency is high, power factor Greatly, three phase mains is powered, three-phase grid balance, few to the harmonic pollution of electrical network, more decreases The volume and weight of transformator, saves consumptive material;The the second inverter circuit switching speed used is fast, Adjust output voltage immediately when spark discharge or short circuit, make power supply have dynamic response characteristic.
Accompanying drawing explanation
Fig. 1 is the circuit theory diagrams of the present invention.
Fig. 2 is the schematic diagram of the controllable silicon unit of the present invention.
Detailed description of the invention
In order to make those skilled in the art be better understood from the present invention program, below in conjunction with this Accompanying drawing in inventive embodiments, carries out clear, complete to the technical scheme in the embodiment of the present invention Description.
As shown in Figure 1-2, a kind of electrostatic precipitation pulse power source control system, it include major loop, Controller and triggering drive sampling circuit, and major loop includes cleaner unit provides a continuous print first-harmonic First loop of voltage and the second servo loop of the pulse voltage to cleaner unit offer one interruption;Control Device controls this fundamental voltage full breakdown voltage less than the electric discharge of cleaner unit electric field inside spark, controls Device controls 3 times that heavy current pulse voltage is fundamental voltage, and is superimposed upon on fundamental voltage, Greatly up to for 3-5 times of fundamental voltage, the most greatly, but pulse width is the narrowest, two interpolars The most not having enough time to get through, pulse just has finished on, and such electron ion just can rest on two Between pole, make dust charged raising dust removing effects, the especially trapping to high resistivity dust, Its electric precipitation effect is fine.
Three-phase 380V electric network source inputs, through circuit breaker Q F of major loop, catalyst KM, three After phase filter inductance (Lu, Lv, Lw), three-phase filter capacitor (Cu, Cv, Cw), respectively The first loop in parallel and second servo loop to precipitator energisation, three-phase filter inductance (Lu, Lv, Lw, LQ) power factor (PF) of equipment can be improved, its Electro Magnetic Compatibility is good, three-phase equilibrium; Parallel resistance R1 on catalyst KM, R2, R3, play the effect of buffering.The most described By a damping resistance R7 to precipitator energisation after fundamental voltage and pulse voltage superposition.
First loop includes that the first rectifier bridge K1, the first inverter circuit and the first high frequency transformation are whole Current circuit, the first rectifier bridge K1 will be through three-phase filter inductance and filter capacitor filtered three Cross streams voltage commutation becomes DC voltage, and this DC voltage is converted into by the first inverter circuit The high frequency rectangular alternating current wave pressure of 0-50KHZ, the first high frequency Transformer Rectifier circuit is by this high frequency square Shape alternating current wave pressure carries out boosting, export described fundamental voltage to cleaner unit after rectifying and wave-filtering;The Secondary circuit includes controllable silicon unit the 3, second rectifier bridge K2, the second inverter circuit and the second high frequency Transformer Rectifier circuit, filtered three-phase alternating voltage is rectified into direct current by the second rectifier bridge K2 Voltage, this DC voltage is converted into the high frequency rectangular ripple exchange of 0-50KHZ by the second inverter circuit Voltage, this high frequency rectangular alternating current wave pressure carries out boosting by the second high frequency Transformer Rectifier circuit, whole After stream filtering, voltage pulse output is to cleaner unit.
Described controller includes digital signal processor 1, switch QS2 and controls transformator TC1, Three phase network power supply biphase by switch QS2, control transformator TC1 to Digital Signal Processing Device is powered.Described digital signal processor uses the digital signal with the DSP of 32 as core Processing controller, has faster CPU, the memorizer of more capacity, has data at a high speed Operational capability.
Described triggering drives sampling circuit to be connected with controller, for gathering the transformation on cleaner unit Secondary voltage that device exports in real time and secondary current, and feed back to controller, controller receives Combine controller parameter after this feedback signal to arrange and can control silicon controlled in controllable silicon unit The angle of flow, to control the amplitude of described pulse voltage, controller is by controlling the second inverter circuit Open and shut off the time, to control time of delivery and the interval of described pulse voltage;Past with this Multiple, it is fundamental voltage superposition one pulse voltage by phased manner.
Described triggering drives sampling circuit to include primary current sample circuit, by primary current mutual inductance Device is acquired the electric current of second servo loop primary side, and by data feedback to controller;Secondary electricity Pressure sample circuit, is acquired the secondary voltage of output, and is given by data feedback by sample resistance Controller;Secondary current sample circuit, is acquired the secondary current of output by sample resistance, And by data feedback to controller;Described triggering drives sampling circuit to be connected with controller, is used for Gather secondary voltage and secondary current that the transformator on cleaner unit exports in real time, and feed back to control Device processed, after controller receives this feedback signal, arranges control controllable silicon in conjunction with controller parameter The silicon controlled angle of flow in unit 3, to control the amplitude of described pulse voltage, controller passes through Control the second inverter circuit opens and shuts off the time, during to control the conveying of described pulse voltage Between and interval;Reciprocal with this, it is fundamental voltage superposition one pulse voltage by phased manner.
Described controllable silicon unit 3 includes three bidirectional triode thyristors and leads for triggering bidirectional triode thyristor Logical triggering circuit, triggering circuit includes two forceful electric power and vulnerabilities scan part kept apart Pulse transformer T1, T2, the shaping being made up of four diodes V26, V27, V28, V29 Circuit, by resistance R32, electric capacity C5, electric capacity C6, electric capacity C7, electric capacity C8, resistance R33, And the rc filter circuit of varistor RV composition.Each bidirectional triode thyristor triggers circuit with it Catenation principle figure as in figure 2 it is shown, each controllable silicon trigger with it circuit connection diagram be as figure Shown in 2.Pulse transformer is first passed through from Digital Signal Processing controller 1 control pulse out T1, T2, then through diode V26, V27, V28, V29 shaping circuit below, the most directly Controllable silicon unit 3 is sent out in contact.
Described first high frequency Transformer Rectifier circuit is by a high frequency transformer TM1 and a high-frequency rectification Module composition, the second high frequency Transformer Rectifier circuit is whole by a high frequency transformer TM2 and another high frequency Flow module is constituted.Described first inverter circuit and the second inverter circuit are connected by four bridge-types IGBT igbt, series resonance inductor Lr1, series resonant capacitance Cr1 are constituted.
Triggering the parameter driving sampling circuit to sample is that Digital Signal Processing controller spark is sentenced Disconnected foundation, controller detects in real time and samples the secondary voltage of returning, secondary current data, such as The secondary voltage data collected within the period 1 are U1, collecting data second round is U2, U1-U2> 10kV, then be judged as spark discharge;Secondary current when equipment maximum range For Imax, the real-time secondary current data collected when controller are I > 1.2 × Imax, then sentence Break as spark discharge.
The work process of the first inverter circuit in the first loop: Digital Signal Processing controller by Touch screen, digital control unit forms.By controlling the start touch key-press of touch screen, then root Determine the IGBT's in loop one by different algorithms according to the mode of operation set and control mode Dutycycle, after opening of device, controller controls output IGBT and triggers pulse, first drives IGBT Igbt Q1, Q4 turn on, DC voltage through igbt Q1, High frequency transformer TM1, series resonant capacitance Cr1, series resonance inductor Lr1, insulated gate are double Gated transistors Q4 charges to series resonant capacitance Cr1, forms the positive half-wave of sinusoidal current, The voltage of series resonant capacitance Cr1 reaches maximum, after charging current is zero, controller according to Trigger signal and turn off the igbt of Q1, Q4, the electricity of series resonant capacitance Cr1 Press the diode on high frequency transformer TM1, igbt Q1, insulated gate double Diode on gated transistors Q4, series resonance inductor Lr1, series resonant capacitance Cr1 are put Electricity, forms the negative half-wave of sinusoidal current, after negative half-wave terminates, because Q1, Q4 fail again Opening, loop current is zero;Then controller controls Q2, Q3 conducting, series resonant capacitance Cr1 is inverted charging, and work process is as hereinbefore.Controller control Q1, Q4 alternately Turn on Q2, Q3, make the first loop provides a fundamental voltage for cleaner unit always.
The work process of the second inverter circuit in second servo loop: Digital Signal Processing controller by Touch screen, digital control unit forms.By controlling the start touch key-press of touch screen, then root Leading of three-phase controllable silicon is determined by different algorithms according to the mode of operation set and control mode Current flow angle and the dutycycle of IGBT, and send corresponding three-phase controllable silicon angle of flow triggering signal; After equipment the first loop normally works, open Digital Signal Processing controller and start internal timing Device, timer time arrives, and first controls igbt Q5, Q8 conducting, unidirectional current Pressure is through igbt Q5, high frequency transformer TM2, series resonant capacitance Cr2, string Connection resonant inductance Lr2, igbt Q8 charge to series resonant capacitance Cr2, Forming the positive half-wave of sinusoidal current, the voltage at series resonant capacitance Cr2 reaches maximum, fills Electricity is after electric current is zero, controller according to fixed trigger drive sample circuit to gather signal shutoff Q5, Q8, the voltage of series resonant capacitance Cr2 diode on igbt Q5, Diode on igbt Q8, series resonance inductor Lr2, series resonance electricity Hold Cr2, high frequency transformer TM2 electric discharge, form the negative half-wave of sinusoidal current, boosted rectification One heavy current pulse voltage of rear formation, superposition is to being precipitator energisation together after fundamental voltage. After the positive and negative half-wave of sinusoidal current terminates, because of igbt Q5, insulated gate bipolar Transistor Q8 fails to be again turned on, igbt Q4, igbt Q6 is also not turned on, and whole second servo loop electric current is zero, stops the supply of big pulse voltage; When the intervalometer in controller restarts timing then, it is double that controller just starts to control insulated gate Gated transistors Q4, Q6 turn on, and series resonant capacitance Cr2 is inverted charging, its work process As hereinbefore, loop occurs big pulse voltage again, but pulse width is the narrowest, the two poles of the earth Between the most do not have enough time to get through, pulse just has finished on, and such electron ion just can rest on Between the two poles of the earth, make dust charged raising dust removing effects, the especially trapping to high resistivity dust, Its electric precipitation effect is fine.Repeat according to this, controller by three bidirectional triode thyristor angles of flow and Control the dutycycle of IGBT, the amplitude changing pulse voltage and the generation frequency producing big pulse Rate size.
Concrete enforcement is as follows: the first loop controls the pulse duty factor of IGBT by controller, Output IGBT triggers pulse, drives plate directly to drive IGBT insulated gate bipolar brilliant through IGBT Body pipe Q1~Q4.First inverter circuit is converted to the high frequency rectangular ripple of 0~50KHz DC voltage Alternating voltage exports high direct voltage voltage after delivering to high frequency high voltage transformer, rectifying and wave-filtering.Second Three bidirectional triode thyristor (V1, V2, V3, V4, V5, V6) angles of flow are passed through in loop control unit With the pulse duty factor of control IGBT, output IGBT triggers pulse, drives plate through IGBT Directly drive IGBT igbt Q5~Q8.Second inverter circuit is DC voltage The high frequency rectangular alternating current wave being converted to 0~50KHz is sent to high frequency high voltage transformer, rectification filter Export high direct voltage big pulse current and power supply after ripple, but pulse width is the narrowest, electric field two interpolar The most not having enough time to get through, pulse just has finished on.The DC high-voltage power supply of output is loop One and loop two sum.When spark occurs, trigger the secondary electricity driving sampling circuit to sample Pressure or secondary current occur abnormal, feed back to controller, and controller judges to immediately close off Igbt Q5-Q8, the large pluse closing second servo loop rushes high-tension current potential.When After the time set in intervalometer, then export the big pulsed high-voltage in second servo loop Stream voltage.The fundamental voltage in the first loop keeps constant, thus ensure that internal, locates all the time In the case of a first-harmonic high-voltage dc voltage, second servo loop triggers and produces output heavy current pulse electricity Pressure, is not detected by ordinary times when spark occurs waiting field condition for bigger than resistance, has good Dust-collecting efficiency.
This Digital Signal Processing controller is the high speed with the DSP of 32 as core, high-performance, Jumbo nonshared control unit, has processing speed fast, and function is strong, simple in construction, peripheral unit Part is few, high reliability.Employing touch screen shows, operational factor shows more directly perceived, repaiies Change more convenient operation quick.Spark judgment technology is advanced, can extremely accurate judge flashover, and Make optimization process.Flashover processes and realizes voltage of electric field recovery soon, loses minimum, and can have Effect overcomes the generation of inverse corona, provides maximum effective corona discharge power to electric field, thus stably carries High efficiency of dust collection.Point all-wave, intermittent power supply dpd mode, totally six kinds of operations in the method for operation Mode.And be optimized with program by programming expert, simplify operation, strengthen artificial intelligence's mould Sticking with paste and control, the use making equipment is convenient.There is overvoltage and overcurrent control fast and accurately Measure processed, it is ensured that equipment occurs without output overvoltage phenomenon in running and output overcurrent is existing As.There is perfect short circuit, open circuit, the fault detection capabilities such as mistake flows, super oil temperature, equipment Protect more sophisticated.EPAC (Electrostatic Precipitator Auto is had in system Control) software, the change of the electrical characteristics that can be caused according to the operating mode of change, automatically select Select optimal current limitation and charge ratio, thus the cleaning of beneficially pole plate polar curve, make discharge capacity Minimum, and the rectification change energy consumption of more than 30% can be saved.Strengthening network system controls.Pass through Distance net technology, utilizes centralized control (IPC) system, and technical staff can exist at a distance Line observation voltage, current waveform, electric field dynamic U-I curve, can be to inverse corona, corona blocks, Generation and the program of the operating modes such as electric field dust stratification are made and being judged accurately, and are adjusted to by parameter characteristic Good state.During with centralized control (IPC) systems connection, the real-time of device systems can be monitored Controlling controlled state, all functions all can distant control.Equipment reserves A/D, I/O and letter Number transmitter interface, to meet the realization of producer's scene particular/special requirement.
Obviously, described embodiment is only a part of embodiment of the present invention rather than complete The embodiment in portion.Based on the embodiment in the present invention, those of ordinary skill in the art are not doing Go out the every other embodiment obtained under creative work premise, all should belong to the present invention and protect The scope protected.

Claims (6)

1. an electrostatic precipitation pulse power source control system, it is characterised in that: it includes leading back Road, controller and triggering drive sampling circuit, and major loop includes providing cleaner unit First loop of one continuous print fundamental voltage and the pulse to cleaner unit offer one interruption The second servo loop of voltage;Controller controls this fundamental voltage less than in cleaner unit electric field The full breakdown voltage of portion's spark discharge, it is first-harmonic electricity that controller controls this pulse voltage 3-5 times of pressure;Described first loop includes the first rectifier bridge, the first inverter circuit And the first high frequency Transformer Rectifier circuit, the first rectifier bridge is by filtered three-phase alternating current Voltage commutation becomes DC voltage, and this DC voltage is converted into by the first inverter circuit The high frequency rectangular alternating current wave pressure of 0-50KHZ, the first high frequency Transformer Rectifier circuit will This high frequency rectangular alternating current wave pressure carries out boosting, export described first-harmonic after rectifying and wave-filtering Voltage is to cleaner unit;Described second servo loop include controllable silicon unit, the second rectifier bridge, Second inverter circuit and the second high frequency Transformer Rectifier circuit, the second rectifier bridge will filtering After three-phase alternating voltage be rectified into DC voltage, the second inverter circuit is by this direct current Voltage is converted into the high frequency rectangular alternating current wave pressure of 0-50KHZ, the second high frequency transformation This high frequency rectangular alternating current wave pressure is carried out boosting by rectification circuit, defeated after rectifying and wave-filtering Go out pulse voltage to cleaner unit;Described triggering drives sampling circuit to be connected with controller, For gathering secondary voltage and the secondary current of output in real time on cleaner unit, and feed back To controller, controller controls after receiving this feedback signal can in controllable silicon unit The angle of flow of control silicon, to control the amplitude of described pulse voltage;Controller is by control That makes the second inverter circuit opens and shuts off the time, to control described pulse voltage Time of delivery and interval;Reciprocal with this, it is fundamental voltage superposition one arteries and veins by phased manner Rush voltage;Described first inverter circuit and the second inverter circuit are by four bridge-types even The IGBT igbt that connects, series resonance inductor Lr1, series resonance Electric capacity Cr1 is constituted;Described triggering drives sampling circuit to include primary current sampling electricity Road, is acquired the electric current of second servo loop primary side by primary current transformer, and By data feedback to controller;Secondary voltage sample circuit, is carried out by sample resistance Gather the secondary voltage of output, and by data feedback to controller;Secondary current takes Sample circuit, gathers the secondary current of output, and by data feedback to controller.
A kind of electrostatic precipitation pulse power source control system the most according to claim 1, its It is characterised by: described controller includes digital signal processor, switch QS2 and control Transformator TC1 processed, three phase network power supply biphase by switch QS2, control transformation Device TC1 powers to digital signal processor.
A kind of electrostatic precipitation pulse power source control system the most according to claim 2, its It is characterised by: described controllable silicon unit includes three bidirectional triode thyristors and for triggering The triggering circuit of bidirectional triode thyristor conducting, described triggering circuit includes forceful electric power with weak Two pulse transformers T1, T2 that the collecting of electrical controls is kept apart, by four two poles The shaping circuit that pipe V26, V27, V28, V29 are constituted, by resistance R32, electric capacity C5, electric capacity C6, electric capacity C7, electric capacity C8, resistance R33 and varistor RV The rc filter circuit of composition.
A kind of electrostatic precipitation pulse power source control system the most according to claim 3, its It is characterised by: described first high frequency Transformer Rectifier circuit and the second high frequency Transformer Rectifier Circuit is by a high frequency transformer and a high-frequency rectification module composition.
A kind of electrostatic precipitation pulse power source control system the most according to claim 4, its It is characterised by: described major loop also includes circuit breaker Q F, catalyst KM, filtering mould Block, three phase network power supply divides after circuit breaker Q F, catalyst KM, filtration module It is not connected with described first loop, second servo loop.
A kind of electrostatic precipitation pulse power source control system the most according to claim 5, its It is characterised by: by a damping resistance after described fundamental voltage and pulse voltage superposition To precipitator energisation.
CN201210554680.2A 2012-12-19 2012-12-19 A kind of electrostatic precipitation pulse power source control system Active CN103028494B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201210554680.2A CN103028494B (en) 2012-12-19 2012-12-19 A kind of electrostatic precipitation pulse power source control system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201210554680.2A CN103028494B (en) 2012-12-19 2012-12-19 A kind of electrostatic precipitation pulse power source control system

Publications (2)

Publication Number Publication Date
CN103028494A CN103028494A (en) 2013-04-10
CN103028494B true CN103028494B (en) 2016-09-21

Family

ID=48016183

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201210554680.2A Active CN103028494B (en) 2012-12-19 2012-12-19 A kind of electrostatic precipitation pulse power source control system

Country Status (1)

Country Link
CN (1) CN103028494B (en)

Families Citing this family (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103920594A (en) * 2013-07-31 2014-07-16 金华大维电子科技有限公司 High-voltage pulse power supply for electric precipitation
CN103944422A (en) * 2014-04-08 2014-07-23 鞍山市太重工矿设备有限公司 High-frequency power supply for electrostatic precipitator
CN104270030B (en) * 2014-10-11 2017-07-07 孙卓 A kind of pulse power that can be exported with short circuit
CN107262285B (en) * 2017-08-10 2023-06-23 北京博谦工程技术有限公司 Current control device for electrostatic dust collection power supply
CN109382211B (en) * 2017-08-14 2024-05-07 北京吉鼎环保科技有限公司 Electrostatic dust removal pulse power supply
RU2770756C2 (en) * 2017-10-09 2022-04-21 Крафтповеркон Свиден Аб High-voltage power supply system
CN110355001B (en) * 2019-08-06 2020-11-06 霍山知行信息科技有限公司 Quick protection system of electrostatic precipitator
CN110880883B (en) * 2019-12-16 2022-09-09 山东理工大学 Inductance energy storage pulse power supply with energy recovery
CN113726188B (en) * 2020-05-25 2023-07-25 中国石油化工股份有限公司 High-frequency high-voltage alternating-current power supply with multiple working modes
CN113996444A (en) * 2021-10-29 2022-02-01 咸宁南玻玻璃有限公司 Closed-loop control system for high-voltage electrostatic dust removal
CN114017883A (en) * 2021-11-03 2022-02-08 爱优特空气技术(上海)有限公司 Intelligent purification device and method for air in tunnel
CN114798179B (en) * 2022-05-25 2024-03-19 南方电网电力科技股份有限公司 Control method and device of electrostatic precipitator

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN202460842U (en) * 2012-03-14 2012-10-03 浙江连成环保科技有限公司 High-voltage control system for electrostatic dust removal
CN202475292U (en) * 2012-03-14 2012-10-03 浙江连成环保科技有限公司 Electrostatic-precipitation high-frequency power supply control system
CN203018208U (en) * 2012-12-20 2013-06-26 浙江连成环保科技有限公司 Electrostatic dust-removal pulse power source control system

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN202460842U (en) * 2012-03-14 2012-10-03 浙江连成环保科技有限公司 High-voltage control system for electrostatic dust removal
CN202475292U (en) * 2012-03-14 2012-10-03 浙江连成环保科技有限公司 Electrostatic-precipitation high-frequency power supply control system
CN203018208U (en) * 2012-12-20 2013-06-26 浙江连成环保科技有限公司 Electrostatic dust-removal pulse power source control system

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
用于电除尘器的直流叠加高频脉冲电源的研究;朱翔;《中国优秀硕士学位论文全文数据库 工程科技Ⅱ辑》;20110915(第9期);第13,25页 *

Also Published As

Publication number Publication date
CN103028494A (en) 2013-04-10

Similar Documents

Publication Publication Date Title
CN103028494B (en) A kind of electrostatic precipitation pulse power source control system
CN103394412B (en) A kind of electric precipitation high-frequency impulse power power-supply
CN201726182U (en) High voltage ultracapacitor power battery charger
CN103427681B (en) High-frequency high-voltage electrostatic dust removal power and control guard method thereof
CN202475292U (en) Electrostatic-precipitation high-frequency power supply control system
CN104785373B (en) A kind of electric precipitation pulse power
CN102107157B (en) Intelligent medium-frequency high-voltage double-output direct current power supply for electric dust removal
CN2852523Y (en) High-frequency high-voltage power supply for electrical dust collection
CN201613182U (en) Corona blue light dust collector
CN105080722B (en) Can jamproof electrostatic precipitation direct current pulse power source
CN103920594A (en) High-voltage pulse power supply for electric precipitation
CN102847610A (en) DC composite pulse high voltage power supply for electrostatic precipitator
CN104201930A (en) Pulse high voltage power source system for electrostatic dust collection and high voltage pulse circuit design method
CN205356156U (en) Intelligent high frequency and high voltage DC power supply based on DSP
CN203540712U (en) High-frequency pulsed power supply for electric dust precipitation
CN203018208U (en) Electrostatic dust-removal pulse power source control system
CN201821270U (en) High-frequency high-voltage power supply for electric dust removal
CN102500468A (en) High-voltage and medium-frequency power supply for electrostatic dust collector and power supply method thereof
CN104253560A (en) Direct current pulse power supply device for electric dust precipitation
CN105691245B (en) A kind of electric locomotive is without impact subregion commutation system and method
CN206585479U (en) Constant flow high pressure power supply and electric cleaner
CN204620218U (en) A kind of electric precipitation pulse power
CN105915068A (en) De-dusting power supply control method, apparatus and system
CN203494657U (en) High-voltage pulse power supply for electric dust precipitation
CN202460841U (en) Electrostatic dust-removing high-and-low voltage integrated control system

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant