CN200970551Y - Power controller for static duster and its remote control system - Google Patents

Abstract

A power supply controller and telecontrol system for an electrostatic separator is composed of a rapping control mould, a spark detection mould, a spark forecast mould and a charge ratio optimization module; wherein, the rapping control mould is connected with the power supply of the electrostatic separator and the rapping executive devices orderly on a dust catching plate, for producing the required rapping cycle and rapping duration of all rapping modes and the required constant voltage of the executive device under all rapping modes; the spark forecast mould is used for analyzing the second derivative of a secondary current wave for pre-deciding the producing of the spark; the spark detection mould is used for the frequency analysis of the secondary current wave with the sample rate of 64 points for judging the producing of the fine spark; the charge ratio optimization module is used for calculating the quality factor of a dedusting pole plate as per the charge ratio, the secondary current at the loading side and the secondary voltage, so that the required charge ratio of the power supply of the electrostatic separator can be obtained by using the genetic screening method. In addition, the utility model also realizes the telecontrol of the power supply controller of the electrostatic separator.

Description

Power-supply controller of electric dust collector and tele-control system thereof

Technical field

The utility model relates to a kind of power-supply controller of electric and control system thereof, relates in particular to a kind of power-supply controller of electric dust collector and tele-control system thereof, belongs to the environmental protection equipment technical field.

Background technology

Flue gas ash removal and material that electric cleaner is widely used in industrial departments such as thermal power generation, metallurgy, building materials, garbage disposal and chemical industry reclaim.It is to utilize electrostatic force to realize solid-state or liquid particle and flow separation, between discharge electrode that the electric cleaner internal interval is arranged and dust collector pole, apply with high voltage direct current, form electric field and keep a space that is enough to make gas ionization, the gas around discharge electrode will be ionized and form gas ion and electronics.When dusty gas passes through electric field, ion and electronics make it charged attached to the powder dust particle surface at the volley, charged particle under the effect of electric field force to dust collector pole motion and be deposited on the dust collector pole, thereby reach the purpose of powder dust particle and flow separation, ash-laden gas is purified.When dust layer reaches certain thickness on the dust collector pole, make dust fall into ash bucket by means of rapping apparatus, finish the dust collection process.

Electrostatic precipitator is compared with other cleaners, and power consumption is few, and the efficiency of dust collection height is applicable to the dust of removing 0.01-50 μ m in the flue gas, and can be used for flue-gas temperature height, occasion that pressure is big.But the performance of electrostatic precipitator is except that the influence that is subjected to three big factors such as dust characteristic, equipment structure and flue gas flow rate, and the voltage height of power supply output also has a significant impact efficiency of dust collection.

The power supply of electrostatic precipitator is made up of control cabinet, step-up transformer and rectifier, the electrostatic precipitator working voltage need keep 40-75kV and even more than the 100kV, it is to realize the optimization of powered operation pattern, rational rapping control mode and spark detection in real time and the necessary means of handling that the high integration of electrostatic precipitator power supply is controlled automatically.

See also Fig. 1, Fig. 1 is the powered operation pattern diagram of power-supply controller of electric dust collector; As can be seen from the figure, it is three kinds of gap power supply modes, and first kind is traditional interval power supply mode, and its charge ratio is adjustable at 1-65; The second way is to fill 2 half-waves, stops several half-waves; The third mode is to fill 1 half-wave, fills 1 little electric current in the several half-waves that stop, to adapt to special working condition.When using, present users at home and abroad can in control procedure, select wherein a kind of mode according to the characteristic of ature of coal.Yet the weak point of predefined mode of operation is, the user can not be in real time finds best charge ratio adapting to current operating condition according to parameters such as analog quantity limits value, spark rate and charge ratios, thereby selects optimum control scheme.

The Control of Voltage rapping is meant that the secondary voltage to electric cleaner is controlled (restriction) when rapping, thereby realizes the removing to the collecting plate dust, improves the efficient of electric precipitation.Prior art such as a kind of device A LSTOM EPIC II that input is adjusted and controlled to the electrostatic precipitator power supply based on microprocessor.This electrostatic precipitator power control unit EPIC II changes rapidly in order to control gas temperature, dust composition, air-flow etc., thereby reaches the suitable spark ratio that will keep.It regulates rectifier by the mode of test spark ratio, can stablize the correction of spark rate by the electric current of electrostatic precipitator load-side.This prior art is that the restriction secondary current is realized power control rapping, but the size of secondary current and dust collector electrode body is big or small inseparable, and therefore, the size of deduster body has directly influenced the effect that realization power is controlled rapping.Yet the body size of secondary voltage and deduster is irrelevant, and reaching desirable rapping effect with the method for secondary voltage control rapping is one of problem of the required solution of industry.

The accurate detection of spark is the electrostatic precipitation power-supply device key of control automatically with handling.If desire to make electric field to reach peak efficiency, promptly electric field has maximum corona discharge power, and the voltage that just requires electric supply installation to export can approach the breakdown voltage curve of electric field itself at any time.And in case because various disturbances, flashover and arcing appear in electric field, when causing rush of current, electric supply installation can in time suppress flashover and arcing by reducing or stopping output, with anti-tamper deduster body and electric equipment, reduce unnecessary power consumption, but require when flue gas medium is recovered, can recover normal power supply rapidly.Therefore, how accurately to detect the spark signal before the electric field breakdown, and to handle in real time according to contained information on the spark be the key point of control.The foundation that spark detects: when electric field spark occurred, changing all can appear in the primary voltage in the electric supply installation, secondary voltage, primary current, secondary current.

The spark detection mode of technology employing both at home and abroad is nothing more than three kinds at present: the fast rise by secondary current detects; Quick decline by secondary voltage detects; The motional impedance of electric field detects when taking place according to spark, promptly carries out spectrum analysis according to the higher hamonic wave of secondary current signal, and spark is detected.Here adopt secondary voltage particularly the first derivative of secondary current analyze the trend that spark produces, the detection of above-mentioned spark and undertreatment part are:

When 1) carrying out spectrum analysis spark is detected according to the higher hamonic wave of secondary current signal, when spark appearred in electric field, secondary current contained more higher hamonic wave.The detection of this higher hamonic wave relies on the speed of sampling, secondary current being carried out can not detect higher hamonic wave reliably under 32 the situation of sampling rate, therefore, can not detect small spark.

2) spark produce critical condition the time, adopt first derivative to analyze the trend that spark produces, the result that first derivative produced only is a numerical value change.Therefore, the rate of change of first derivative reaction secondary voltage and secondary current only can be used for catching spark signal afterwards, can not satisfy the accuracy requirement of spark forecasting.

In addition, at present in static dust-removing power controller field, usually by the control upper computer software many static dust-removing power controllers are carried out this locality control with LAN, the technology of its main flow is for adopting 485 serial communication protocols, yet the transfer rate of this method is slower, only 9600bps, and communication poor reliability.

Summary of the invention

In view of this, a purpose of the present utility model realizes the powered operation pattern optimization of electrostatic precipitator power supply, rational rapping control mode and spark detection in real time and the necessary means of handling for a kind of static dust-removing power controller is provided.

Another purpose of the present utility model makes the technical staff just can carry out place remote control to the controller at scene in remote control room for realizing the Long-distance Control to field controller.

The purpose of this utility model realizes by the following technical solutions:

A kind of power-supply controller of electric dust collector, this controller comprises: the rapping control module, it links to each other with rapping actuating unit on the dust collection plate successively with the electrostatic precipitator power supply; This rapping control module comprises: rapping pattern determination module, in order to determine to be carried in the amplitude of voltage on the rapping actuating unit and the duration of this voltage according to the ratio resistance on the dust collection plate; Rapping time generation module links to each other with described rapping pattern determination module, in order to be provided with and to produce required shaking cycle of various rapping patterns and rapping duration; Voltage generating module links to each other with described rapping time generation module, in order to produce described actuating unit required constant voltage under various rapping patterns.

Preferably, the amplitude of the secondary voltage of described electrostatic precipitator is to be decremented to zero according to the rapping time remaining.

Preferably, the described rapping duration is divided into a plurality of time periods, and equates at the voltage magnitude that voltage generating module produced described in each time period, and this voltage magnitude in time section be decremented to zero step by step.

Preferably, described rapping time generation module is a timer.

Preferably, this controller also comprises: current detection module links to each other with the current detector that is series at dedusting pole plate electric supply installation load-side, in order to detect secondary current; Voltage detection module links to each other with the voltage detector that is parallel to dedusting pole plate electric supply installation load-side, in order to detect secondary voltage.

Preferably, described controller also comprises the spark detection module, link to each other with described current detection module, signal to detected secondary current carries out spectrum analysis, determine the amplitude of each harmonic, and, judge the generation of small spark according to the amplitude of harmonic wave and the corresponding relation of small spark appearance; Wherein, sampling rate is greater than 32 points.

Preferably, described sampling rate is 64 points.

Preferably, this controller also comprises spark forecasting module, links to each other with described current detection module, the waveform of the secondary current that received is carried out derivative analysis of second, and according to the variation of asking the second dervative waveform, pre-determine the generation of spark.

Preferably, the sign change that is changed to waveform of described second dervative waveform.

Preferably, this controller also comprises charge ratio optimization module, link to each other respectively with voltage detection module with described current detection module, be used for secondary current and secondary voltage according to charge ratio, load-side, calculate the quality factor of dedusting pole plate, thereby obtain the required charge ratio of electrostatic precipitator power supply with the genetic screening algorithm.

The utility model also provides a kind of tele-control system that is used to control power-supply controller of electric dust collector, and this system comprises: main control server; At least one presence server is connected with described main control server by network, at least one power-supply controller of electric dust collector, and it is connected with described presence server by LAN.

From technique scheme as can be seen, the utility model has utilized the irrelevant characteristic of body size of secondary voltage and electrostatic precipitator, method with secondary voltage control rapping reaches desirable rapping effect, it is according to the height of boiler load, adopt different Control of Voltage rapping modes that collecting plate and sparking electrode are carried out deashing, i.e. a plurality of rapping timers of having of this controller, various different voltages control rapping scheme can be combined into neatly, the different Control of Voltage in a plurality of stages can be realized dividing in the rapping time flexibly.Above-mentioned pattern can intermittently automatically adopt, and has both reached the purpose of deashing, and dust emissions is exceeded standard.

The utility model also carries out spectrum analysis according to the higher hamonic wave of secondary current signal, and spark is detected.When spark appearred in electric field, secondary current contained more higher hamonic wave.The detection of this higher hamonic wave relies on the speed of sampling, can detect higher hamonic wave reliably, thereby detect small spark under the situation of 64 even higher sampling rate in that secondary current is carried out.

The utility model also adopts the second dervative of secondary current, analyzes the trend that spark produces, thereby the realization spark is controlled in advance.During critical condition that spark produces, the variation on the symbol can take place in second dervative, and is not only numerical value change.This will improve the accuracy of spark forecasting greatly in engineering practice.

In addition, Long-distance Control to on-the-spot power-supply controller of electric dust collector of the present utility model, what adopt is the standard ICP/IP protocol, speed can reach 10/100Mbps, speed is fast, and the communication reliability is greatly improved, and has particularly realized the place remote control to field controller, makes the technical staff just can carry out Long-distance Control to the controller at scene in the place remote control room.

Description of drawings

Fig. 1 is the mode of operation schematic diagram of power-supply controller of electric dust collector;

Fig. 2 is the hardware configuration schematic diagram of the power-supply controller of electric dust collector system of the utility model embodiment;

The functional-block diagram of the power-supply controller of electric dust collector system of Fig. 3 the utility model embodiment;

Fig. 4 is the rapping mode schematic diagram of the power-supply controller of electric dust collector rapping control module of the utility model embodiment;

Secondary current waveform and single order thereof, second dervative figure when Fig. 5 produces for no-spark;

Secondary current waveform and single order thereof, second dervative figure when Fig. 6 produces for spark is arranged;

Fig. 7 is the charge ratio optimizer FB(flow block) of the utility model embodiment;

Fig. 8 is the power-supply controller of electric dust collector Long-distance Control structural representation of the utility model embodiment;

Fig. 9 is controller and PC exchanges data workflow diagram.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is elaborated.

See also Fig. 2, Fig. 2 is the hardware configuration schematic diagram of the power-supply controller of electric dust collector system of the utility model embodiment; Power-supply controller of electric dust collector inside comprises a circuit board, and it comprises: the pulse signal A of the input of the single-chip microcomputer 1 of 24V dc source, control usefulness, clock circuit, memory circuit, controlling of sampling circuit, multi-analog, the input of multi-path digital amount and control controllable silicon A and controllable silicon B work and pulse signal B output circuit etc.The power supply of electrostatic precipitator is made up of control cabinet, step-up transformer and rectifier, and controllable silicon A and controllable silicon B are in order to the powering mode and the power supply amplitude of the power supply (not shown) of control electrostatic precipitator.This controller also comprises current detection module, links to each other with the current detector that is series at dedusting pole plate electric supply installation load-side, in order to detect secondary current; Voltage detection module links to each other with the voltage detector that is parallel to dedusting pole plate electric supply installation load-side, in order to detect secondary voltage.Primary current in the current supply circuit of electrostatic precipitator power supply and primary voltage, secondary current and secondary voltage in dedusting pole plate (load) loop of electrostatic precipitator have directly been controlled, thereby controller is finished the high integration of electrostatic precipitator power supply is controlled automatically, realized that the mode of mode of operation optimization, Control of Voltage rapping and spark detect and handle.

See also Fig. 3, the functional-block diagram of the power-supply controller of electric dust collector system of Fig. 3 the utility model embodiment; This controller comprises rapping control module, spark detection module, spark forecasting module and charge ratio optimization module.Rapping control module and electrostatic precipitator power supply link to each other successively with rapping actuating unit on the dust collection plate, in order to produce the required shaking cycle of various rapping patterns, rapping duration and actuating unit required constant voltage under various rapping patterns; Spark forecasting module is carried out derivative analysis of second to the secondary current waveform, pre-determines the generation of spark; It is the generation that small spark is judged in 64 spectrum analysis that the spark detection module carries out sampling rate to secondary current; Charge ratio is optimized secondary current and the secondary voltage of module according to charge ratio, load-side, calculates the quality factor of dedusting pole plate, thereby obtains the required charge ratio of electrostatic precipitator power supply with the genetic screening method.

The mode that is different from power control rapping that the utility model proposes is the Control of Voltage rapping, and this rapping control module is included in the controller.This rapping control module and electrostatic precipitator power supply link to each other successively with rapping actuating unit on the dust collection plate; This rapping control module comprises: rapping pattern determination module, in order to determine to be carried in the amplitude of voltage on the rapping actuating unit and the duration of this voltage according to the ratio resistance on the dust collection plate; Rapping time generation module links to each other with described rapping pattern determination module, in order to be provided with and to produce required shaking cycle of various rapping patterns and rapping duration; Voltage generating module links to each other with described rapping time generation module, in order to produce described actuating unit required constant voltage under various rapping patterns.The ratio resistance of the different dusts that the utility model can obtain according to the ature of coal of difference burning can adopt different Control of Voltage rapping patterns.

See also Fig. 4, Fig. 4 is the rapping mode schematic diagram of the power-supply controller of electric dust collector rapping control module of the utility model embodiment.In the rapping control procedure of the electrostatic precipitator of reality, can the predeterminated voltage shaking cycle, for example be the conventional voltage rapping mode that is shown in Fig. 4 a, it is by regularly providing constant secondary voltage control rapping-off-ash process; Also can be as required increase once with the rapping of mode shown in Fig. 4 b in section sometime, this rapping mode is called part activation voltage control rapping mode, is applicable to the situation that dust is lower than resistance.For avoiding reentrainment of dust, in the A stage of rapping time, secondary voltage is not limited, in the B stage, secondary voltage is limited.

Preferably, can adopt the Control of Voltage vibration dust-cleaning mode that subtracts shown in Fig. 4 c, it is by accurately measuring by stages and the control secondary voltage, the amplitude of the secondary voltage of electrostatic precipitator can be to be decremented to zero according to the rapping time remaining, perhaps, the rapping duration is divided into a plurality of time periods, and equates at the voltage magnitude that voltage generating module produced described in each time period, and this voltage magnitude in time section be decremented to zero step by step.The rapping duration is for example provided by 8 groups of timer combinations, can control the rapping-off-ash process better like this.This Control of Voltage rapping mode adopts when boiler load is low.The flue gas and the dust of electric cleaner of flowing through when boiler load is low is less, adopts Control of Voltage rapping mode that collecting plate and sparking electrode are carried out deashing, generally night boiler load be 60% o'clock of rated load, adopt this pattern.This pattern can intermittently automatically adopt, and has both reached the purpose of deashing, and dust emissions is exceeded standard.

That is to say, at dust specific resistance hour, can adopt non-decompression rapping earlier, again in conjunction with the mode of decompression rapping.And under the high dust specific resistance situation, then adopt the preposition mode that subtracts voltage, promptly before rapping, reduce polar plate voltage earlier, subtract voltage and begin rapping after a period of time again.The reduction of voltage can be divided into different steps, and rapping is controlled and implemented to voltage stage by stage, thereby reaches ash-removal effect and energy efficient to greatest extent.The time of different phase Control of Voltage rapping can distribute rationally according to the amount (thickness that refers to dust on the collecting plate here) of dust, the impulsive force of beater and the ratio resistance (thereby the electric conductivity of decision dust influences the absorption affinity of dust on collecting plate) of dust.The ratio resistance of the thickness of dust and dust can adopt existing sensor technology to measure in real time or estimate according to the empirical value of measuring in the past on the collecting plate.

It generally is to carry out spectrum analysis according to the higher hamonic wave of secondary current signal that the small spark of controller detects, and spark is detected.Theoretical research shows: when spark appearred in electric field, secondary current contained more higher hamonic wave.Adopt formula:

${\stackrel{\•}{A}}_{\mathrm{km}}=\frac{2}{T}{\∫}_0^{T}i\left(t\right)e^{-\mathrm{jkwt}}\mathrm{dt}$

The analysis waveform distortion.

Can draw the amplitude of relevant secondary, three inferior each higher hamonic wave from above formula.

Employing is measured each harmonic content in the secondary current signal based on the frequency analysis of Fourier transform, and wave distortion is serious more, and higher harmonic content is high more.The spark detection module that controller of the present utility model comprises, link to each other with described current detection module, detected secondary current signal is carried out spectrum analysis, determine the amplitude of each harmonic, and, judge the generation of small spark according to the amplitude of harmonic wave and the corresponding relation of small spark appearance; Wherein, sampling rate is greater than 32 points.Preferably, experiment shows, the detection of this higher hamonic wave relies on the speed of sampling, can detect higher hamonic wave reliably, thereby detect small spark under the situation of 64 even higher sampling rate in that secondary current is carried out.

The spark forecasting module that controller of the present utility model comprises links to each other with described current detection module, the waveform of the secondary current that received is carried out derivative analysis of second, and according to the variation of asking the second dervative waveform, pre-determine the generation of spark.During critical condition that spark produces, the variation of symbol can take place in secondary current waveform second dervative, and is not only numerical value change.

When supposing with the full conducting in controllable silicon 180 degree angles is example, sees also Fig. 5, secondary current waveform and single order thereof, second dervative figure when Fig. 5 produces for no-spark; Wherein, the waveform of secondary current is the sinusoidal pattern (shown in Fig. 5 a) of positive half period, and its first derivative is cosine wave figure (shown in Fig. 5 b), and second dervative is the sinusoidal pattern (shown in Fig. 5 c) of negative half-cycle.

See also Fig. 6, secondary current waveform (shown in Fig. 6 a) and single order (shown in Fig. 6 b) thereof, second dervative (shown in Fig. 6 c) figure when Fig. 6 produces for spark is arranged; As can be seen from Figure 6, when spark produced, t1 is the no-spark pulse constantly, and t2 produces critical point for spark constantly, and t3 produces the maximum place for spark constantly.It is that first derivative becomes big suddenly constantly at t2 that this situation is reflected on the first derivative, and t3 is zero constantly; Being reflected on the second dervative is that the symbol of second dervative waveform has become positive sign by negative sign at t2 constantly, and t3 second dervative constantly reaches negative maximum.

When spark produced, first derivative only was that change has taken place numerical values recited, and the t4 between the moment spike occurs constantly at t2 and t3.Whether analyze spark produces, need follow the tracks of in the numerical value sample range of broad, recursion is calculated, and exists because the numerical value deviation that noise brings and sampling process is inevitable, make this calculating become very unreliable, must cause analytic process that certain error is arranged.And the rate of change of first derivative reaction secondary current only can be used for catching spark signal afterwards.

The figure of comparison diagram 5 and Fig. 6 second dervative can clearly be found, produces critical point t2 at spark, and variation has not only taken place the numerical value of second dervative, and its symbol has also become positive sign by negative sign, promptly t2 and t4 constantly between, waveform generation a positive spike.By the analysis to the second dervative of waveform, as long as find the symbol of waveform second dervative change has taken place like this, just can predict spark will produce, and this is constantly early than spark maximum nidus, thereby predict the generation of spark reliably.

The charge ratio that this controller comprises is optimized module, link to each other respectively with voltage detection module with described current detection module, be used for secondary current and secondary voltage according to charge ratio, load-side, calculate the quality factor of dedusting pole plate, thereby obtain the required charge ratio of electrostatic precipitator power supply with the genetic screening method.

Charge ratio of the present utility model is optimized module and for example can be realized by the mcu programming in the controller.See also Fig. 7, Fig. 7 is the charge ratio optimizer FB(flow block) of the utility model embodiment; Described definite optimal charge is as follows than step:

Step 1: start the charge ratio optimizer;

Step 2: by current charge ratio, the detected secondary current of current detection module and the detected secondary voltage of voltage detection module, calculate the quality factor q (N) of dedusting pole plate, wherein, current charge ratio is N, and N is an odd number;

Step 3: charge ratio is increased by 2, wait the deduster working stability after, secondary voltage, secondary current are sampled, recomputate and obtain a new quality factor q (N+2);

Step 4: former and later two quality factor relatively, judge whether Q (N+2) bigger than k*Q (N), wherein, k for greater than zero less than 1 coefficient;

Step 5: if condition is true, then continue to increase charge ratio, promptly N adds 2 again, continues said process, reaches upper limit set value up to charge ratio, execution in step 9; Otherwise step 6;

Step 6: charge ratio is reduced 2, wait the deduster working stability after, to the sampling of secondary voltage, secondary current, recomputate and obtain a new quality factor q (N-2);

Step 7: compare former and later two quality factor, judge whether Q (N-2) is bigger than k*Q (N);

Step 8: if condition is true, judge whether N is 1, execution in step 9, otherwise, execution in step 6;

Step 9: the charge ratio of determining this moment is the optimal charge ratio.

Above-mentioned quality factor q is the relevant physical quantitys of character such as ratio resistance of same charge ratio, secondary voltage, secondary current and dust, obtain new secondary voltage and secondary current value by sampling, and some feature (as the secondary current virtual value) that hands down by heredity when once calculating before having continued simultaneously, here the succession of existing partial parameters and heredity also has the variation of partial parameters.Here the expression function of the genetic algorithm of Cai Yonging, we are referred to as quality factor, and it has reflected the intrinsic property of dedusting pole plate.

In the present embodiment the quality factor q computing formula can for:

$Q=\underset{t=1}{\overset{n}{\mathrm{\Σ}}}\frac{I_t*\sqrt{U_t*(U_t-V_{\mathrm{ref}})}}{n}$

Wherein, U _tAnd I _tIn be respectively the sampled value of secondary voltage and secondary current, V _RefBe datum, it is the mean value of secondary voltage in the complete charge and discharge cycle, and for example charge ratio is 1: N, then V _RefMean value for secondary voltage in N the half-wave.Empirical parameter k in the flow chart is taken as 1.

See also Fig. 8, Fig. 8 is the power-supply controller of electric dust collector Long-distance Control structural representation of the utility model embodiment; As shown in the figure, this system comprises: main control server PC; Many presence server PC are connected with described main control server by network; Many power-supply controller of electric dust collector, it is connected with described presence server by LAN, and field control is controlled controller by the control upper computer software, as revising parameter value, monitor controller on line state, controlling alarm etc.

The integrated EPA of the controller system software and hardware of being correlated with adopts the standard ethernet ICP/IP protocol to carry out communication, transfer rate 10/100Mbps.Realize the place remote monitoring by internet special line and access encryption software.

A. Long-distance Control implementation method

Realize the control of power-supply controller of electric dust collector place remote, be divided into two steps: the first step according to the IP address of field control PC, by password authentification, is connected with field control PC master control PC in the Long-distance Control office in the internet.Connect to set up good after, Long-distance Control deskman can pass through main control software, and the duty of each controller at scene is monitored, master control PC is with the control PC at the various control commands scene of sending in the Long-distance Control office.Second step, after on-the-spot master control PC receives remote control command, by control software, analyze remote control command at be all field controllers or a certain controller, which kind of order remote command is, behind the affirmation command type, field control PC sends to control command in the controller of being formulated by the control upper computer software, device complete operation to be controlled, field control PC send the corresponding bag of replying to main control PC, and the affirmation operation is finished.

See also Fig. 9, Fig. 9 is controller and PC exchanges data workflow diagram.Controller is at first waited for receiving packet with the PC communication time.Behind the packet in receiving network, whether the judgment data bag is to issue oneself, is the operation of then carrying out the back, is not just to get back to waiting step.If issue the packet of oneself, to judge earlier that also the bag that PC is sent out in the LAN still is the bag that long-range PC sends.After having judged main frame, be judged as which kind of order of main frame, be write parameters or read parameter.Wait for behind the response command that operation finishes,, wait for receiving next packet,, judge whether overtimely, do not have overtimely to continue then to wait for that operation finishes, just the overtime error reporting that sends is to main frame if operation is not finished if get back to waiting step just operation is finished.

Carrying out in the data exchange process with PC, RTU (Remote Terminal Unit is called for short RTU), controller is connected in (RTU also can directly link to each other with controller) in the same Ethernet by Ethernet switch with PC, RTU.Various data and the signal handled through the control host CPU pass to PC and RTU by communication with CPU, and corresponding, the various command of PC and RTU also passes to host CPU by the controller communication with CPU and responds.

Signals such as on-the-spot oil temperature, primary voltage, secondary voltage are changed through A/D by isolation filter, and data are sent on the host CPU, and host CPU is handled these data, and sends signal, and the numerical value of different range is sent different action commands.

Host CPU is being controlled the switching on and shutting down of high-voltage board, and high-voltage board is carried out trip protection.For the warning that the scene causes owing to short circuit, open circuit, overvoltage, overtemperature etc., host CPU shows on RTU or PC with CPU by communication, tells the reason place that the user causes warning.

Receive the extraneous starting-up signal of giving controller, control the switching on and shutting down of electric cleaner, and monitor after controller sends reset signal when extraneous, controller recovers All Alerts.Simultaneously, host CPU is also being controlled controllable silicon (semiconductor Controlled Rectifies the is called for short SCR) triggering of electric cleaner.

Though the utility model discloses as above with preferred embodiment; so it is not in order to limit scope of the present utility model; any those skilled in the art; in not breaking away from spirit and scope of the present utility model; when doing a little change and retouching, therefore protection domain of the present utility model is as the criterion when looking appended the scope that claim defined.

Claims (11)

1, a kind of power-supply controller of electric dust collector is characterized in that, this controller comprises: the rapping control module, and it links to each other with rapping actuating unit on the dust collection plate successively with the electrostatic precipitator power supply; This rapping control module comprises:

Rapping pattern determination module is in order to determine to be carried in the amplitude of voltage on the rapping actuating unit and the duration of this voltage according to the ratio resistance on the dust collection plate;

Rapping time generation module links to each other with described rapping pattern determination module, in order to produce required shaking cycle of various rapping patterns and rapping duration;

Voltage generating module links to each other with described electrostatic precipitator power supply with described rapping time generation module, in order to produce described actuating unit required constant voltage under various rapping patterns.

2, power-supply controller of electric dust collector according to claim 1 is characterized in that, the amplitude of the secondary voltage of described electrostatic precipitator is to be decremented to zero according to the rapping time remaining.

3, power-supply controller of electric dust collector according to claim 2, it is characterized in that, the described rapping duration is divided into a plurality of time periods, and equates at the voltage magnitude that voltage generating module produced described in each time period, and this voltage magnitude in time section be decremented to zero step by step.

4, power-supply controller of electric dust collector according to claim 1 is characterized in that, described rapping time generation module is a timer.

5, power-supply controller of electric dust collector according to claim 1 is characterized in that, this controller also comprises:

Current detection module links to each other with the current detector that is series at dedusting pole plate electric supply installation load-side, in order to detect secondary current;

Voltage detection module links to each other with the voltage detector that is parallel to dedusting pole plate electric supply installation load-side, in order to detect secondary voltage.

6, power-supply controller of electric dust collector according to claim 5, it is characterized in that, described controller also comprises the spark detection module, link to each other with described current detection module, signal to detected secondary current carries out spectrum analysis, determine the amplitude of each harmonic, and, judge the generation of small spark according to the amplitude of harmonic wave and the corresponding relation of small spark appearance; Wherein, the sampling rate of spectrum analysis is greater than 32 points.

7, power-supply controller of electric dust collector according to claim 6 is characterized in that, described sampling rate is 64 points.

8, power-supply controller of electric dust collector according to claim 5, it is characterized in that, this controller also comprises spark forecasting module, link to each other with described current detection module, waveform to the secondary current that received carries out derivative analysis of second, and, pre-determine the generation of spark according to the variation of asking the second dervative waveform.

9, power-supply controller of electric dust collector according to claim 8 is characterized in that, the sign change that is changed to waveform of described second dervative waveform.

10, power-supply controller of electric dust collector according to claim 5, it is characterized in that, this controller also comprises charge ratio optimization module, link to each other respectively with voltage detection module with described current detection module, be used for secondary current and secondary voltage according to charge ratio, load-side, calculate the quality factor of dedusting pole plate, thereby obtain the required charge ratio of electrostatic precipitator power supply with the genetic screening method.

11, a kind of place remote control system that is used to control the arbitrary described power-supply controller of electric dust collector of claim 1-10 is characterized in that this system comprises:

Main control server;

At least one presence server is connected with described main control server by network;

At least one power-supply controller of electric dust collector, it is connected with described presence server by LAN.

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