CN201155608Y

CN201155608Y - Positioner for digital electrical valve

Info

Publication number: CN201155608Y
Application number: CNU2008200828962U
Authority: CN
Inventors: 吴宁宁; 吴明光
Original assignee: Zhejiang University ZJU
Current assignee: Zhejiang University ZJU
Priority date: 2008-01-31
Filing date: 2008-01-31
Publication date: 2008-11-26
Anticipated expiration: 2018-01-31

Abstract

The utility model discloses a digital electric valve positioner. The positioner consists of a control unit, an I/P electric converting unit, a valve location feedback unit and a fault diagnosis unit. Through the configuration of the discharge characteristic parameter of the positioner and a plurality of discharge characteristics and directions of action for a regulating valve, the distortion of the working discharge characteristic due to factors such as the change of pressure drop ratio is corrected; the valve location control of the regulating valve is based on the Fuzzy-PI double module undisturbed switching algorithm; troubles are diagnosed according to the internal relation of the valve location setting value, the valve location feedback value and the valve diaphragm pressure which are established in a control centre; the knowledge of a rule base is used for reasoning; the user makes a choice to release fully or partially the valve diaphragm pressure to complete the jam releasing operation of the valve; valve displacement/electric conversion in the valve location feedback unit make use of a contactless magnetopotentiometer; human-computer interaction adopts the touch-screen technology; the control unit is connected with a control network by an Ethernet interface.

Description

Digital positioner for electric controlled valve

Technical field

The utility model belongs to electric modulating valve valve positioner technology category, be meant a kind of have modulating valve working flow characteristic distortion correction and fault diagnosis functions especially, valve position is based on Fuzzy-PI bimodulus unperturbed handoff algorithms, and valve position feedback adopts the non-contact type valve position to move/digital positioner for electric controlled valve of electric conversion device.

Background technique

The pneumatic actuator of industrial process is made up of electropneumatic valve positioner, pneumatic actuator and modulating valve.The fundamental function of electropneumatic valve positioner is with the control valve position setting value of control centre's output and the deviation between the control valve position value of feedback, remove to control pneumatic actuator and control valve opening (flow) according to predefined algorithm, simultaneously the valve position feedback unit feeds back real-time valve position value, so electropneumatic valve positioner and pneumatic actuator, modulating valve have been formed a closed loop.Valve positioner has increased the output power of pneumatic actuator, has reduced the hysteresis that signal transmits, and can effectively overcome modulating valve and move middle frictional force and the spool unbalanced force that produces, and has improved the precision of modulating valve.Over past ten years, the technological progress of pneumatic actuator technical field mostly has nothing to do with pneumatic actuator, modulating valve, is mainly reflected in the improvement of valve positioner aspect.The electropneumatic valve positioner of developed country has been upgraded to based on the electric equilibrium principle, and domestic positioning work piece begins from mechanical equilibrium principle progressively to electric balance transition.The SIPART PS/PS2 of Germany SIEMENS company, the SVP300 of Japanese YAMATAKE company, the DVC5000 of U.S. FISHER company are the most representative digital positioner for electric controlled valve in the world.The SEVP of the HVP of river, Chongqing instrument head factory, the SEP of Wuzhong instrucment and meter plant, Electronic University Of Science ﹠ Technology Of Hangzhou has represented the development level of current domestic digital positioner for electric controlled valve.Digital positioner for electric controlled valve is core with the microprocessor, have a series of technical characteristicss such as the multiple Flow characteristics (equal percentage, straight line, soon open etc.) of modulating valve integral body and adjustment automatically, man-machine interaction, the setting of running parameter configuration, fault diagnosis, compare with traditional electropneumatic valve positioner based on force balance principle, its technical order is a a progressive step.Document [1], patent of invention [2] have been discussed the method that realizes the whole multiple Flow characteristics of modulating valve from different perspectives; Patent of invention [3] has proposed the similar valve positioner structure with the SIPART PS/PS2 of SIEMENS company, and the 5 contact switch control algorithms (Fuzzy algorithm) of SIEMENS company are continued to use in valve position control, and what these patent main contents related to is the low-power dissipation power supply design.

At present, though the architecture of digital positioner for electric controlled valve becomes better and approaching perfection day by day, the analysis project practice data is not difficult to find, existing digital positioner for electric controlled valve still exist demand urgently improving, further perfect deficiency.At first, control system is design considerations with the modulating valve inherent flow characteristic, and put into operation back residing actual conditions and inherent flow characteristic test condition of modulating valve is far apart, ignores the objective fact that the modulating valve working flow characteristic distorts, and must cause the decline of controlling performance; With the oil refining enterprise is example, modulating valve pressure drop loss accounts for the 20%-40% of enterprise's power consumption, from energy-saving and cost-reducing angle, naturally wish that modulating valve moves under alap pressure drop ratio condition, but decline along with pressure drop ratio, working flow characteristic distortion is more serious, is catastrophic to the negative effect of controlling performance.Secondly, control valve position adopts 5 contact switch control algorithms, though have good robust and fast dynamic response performance, has the not good enough shortcoming of valve position steady-state tracking precision.In addition, the rate of fault of keyboard entry method is higher in the man-machine interaction, and valve position moves/and electric conversion adopts the stability and the reliability of contact-cup anemometer barely satisfactory; Fault diagnosis, particularly the fault treatment strategy lacks the overall point of view of control system, is example with the stuck fault of valve position, causes the valve position feedback value to lose efficacy because of valve position is stuck, deviation between itself and the valve setting position can't be eliminated, so modulating valve film head pressure is tending towards the bleed pressure upper limit.Modulating valve complete shut-down in case fault is got rid of (air to close valve) or standard-sized sheet (air to open valve) not only make the acute right fluctuation of pneumatic actuator operating mode, and also are great interference undoubtedly with regard to The whole control system, even cause security incident.

[1] Zhou Hongyan, a kind of Chinese measuring technology 2005,1 of method [J] that changes the modulating valve static characteristic with intellective electropneumatic valve positioner

[2] Shang Qunli, intelligent actuator valve flow characteristic implementation method, patent of invention ZL2005100496756

[3] Wang Huaxiang, a kind of intelligent two-wire system electropneumatic valve positioner and controlling method thereof, application for a patent for invention number: 2005100112651

Summary of the invention

The purpose of this utility model provides a kind of digital positioner for electric controlled valve.

Control unit in the digital positioner for electric controlled valve is connected with I/P electric conversion unit, micro pressure sensor, failure diagnosis unit, and micro pressure sensor is connected with valve position feedback unit, failure diagnosis unit, control unit through pneumatic actuator; Pneumatic actuator is connected with modulating valve, and the valve position feedback unit comprises that the valve position that is connected moves/electropneumatic transducer, valve position telephone-moving tool driver, and I/P electric conversion unit comprises solid-state relay, the piezo electric valve that is connected.

The internal module annexation of described control unit is: hardware platform is connected with network control chip CS8900A, AD conversion chip ADC0808, touch screen LQ30B7DD01, I/P electric conversion unit respectively based on the S3C2410 chip of 32 ARM9.

Described valve position moves/and the circuit of electropneumatic transducer is: and the first fixed value resistance R4 is connected magneto potentiometer R1 through the first adjustable resistance R2 with magneto potentiometer R1, the second adjustable resistance R3, the second fixed value resistance R5, one end

Failure diagnosis unit is by the embedded micro pressure sensor that is installed on the modulating valve film head pipeline, and valve position is moved/electric conversion module composition.

The utility model is by the correction of valve working flow characteristic distortion, the valve inherent flow characteristic of proofreading and correct working flow characteristic afterwards and Control System Design time institute foundation is coincide, improved the control system quality on the one hand, modulating valve can move than under the Low Pressure Drop Ratio on the other hand, can cut down the consumption of energy greatly.Fuzzy-PI bimodulus unperturbed handoff algorithms has been taken into account the requirement of valve position control to sound attitude two aspect indexs, can not cause interference to valve position and control system when the unperturbed handover module is guaranteed two kinds of mode switching.The application of touch screen and non-contact type magneto potentiometer has then improved the tightness of stability, reliability and the positioning work piece of valve positioner; What provide during the unfreezing operation is selected to discharge or part releasing film head pressure function by the user, has eliminated potential safety hazard, has further improved the controlling performance of valve position and control system.

Description of drawings

Fig. 1 is a typical closed-loop process control skeleton diagram;

Fig. 2 is the digital positioner for electric controlled valve structural drawing;

Fig. 3 is a digital positioner for electric controlled valve control unit schematic diagram;

Fig. 4-a is the working flow characteristic curve of linearly adjust valve;

Fig. 4-b is the working flow characteristic curve of equal percentage modulating valve;

Fig. 4-c is the correlation curve behind distortion of pressure drop ratio s=0.5 condition lower linear modulating valve working flow characteristic and the distortion correction;

Fig. 5 is a Fuzzy-PI bimodulus unperturbed handoff algorithms schematic diagram;

Fig. 6 is a Fuzzy-PI bimodulus unperturbed handoff algorithms flow chart;

Fig. 7 is the circuit diagram of magneto potentiometer;

Fig. 8 is the magneto potentiometer equivalent circuit diagram.

Embodiment

As shown in Figure 1, pneumatic actuator is a link of closed-loop process control system, its effect is exactly a control valve position setting value signal of accepting control centre, adjusts the aperture (flow) of modulating valve, makes the controlled variable that is subjected to interference effect to depart from setting value return setting value.Therefore, when design pneumatic actuator digital positioner for electric controlled valve, except that the sound attitude index of considering pneumatic actuator itself, must pay close attention to the whole controlling system quality simultaneously.

As shown in Figure 2, control unit 1 in the digital positioner for electric controlled valve is connected with I/P electric conversion unit 2, micro pressure sensor, failure diagnosis unit 4, and micro pressure sensor is connected with valve position feedback unit 3, failure diagnosis unit 4, control unit 1 through pneumatic actuator; Pneumatic actuator is connected with modulating valve, and valve position feedback unit 3 comprises that the valve position that is connected moves/electropneumatic transducer, valve position telephone-moving tool driver, and I/P electric conversion unit 2 comprises solid-state relay, the piezo electric valve that is connected.Failure diagnosis unit 4 is by the embedded micro pressure sensor 41 that is installed on the modulating valve film head pipeline, and valve position is moved/electric conversion module 32 compositions.Pneumatic actuator is made up of electropneumatic valve positioner, pneumatic actuator and modulating valve; Electropneumatic valve positioner then is made up of control unit 1, I/P electric conversion unit 2, valve position feedback unit 3, failure diagnosis unit 4.4-20mA valve setting value 42, valve real-time displacement value of feedback 32 Input Control Elements 1 that control centre sets; After Fuzzy-PI bimodulus unperturbed suppresses the handoff algorithms processing, drive solid-state relay 21, the piezo electric valve 22 of I/P electric conversion unit 2; Any moment piezo electric valve A, can only have between the B one open-minded, another then must be closed, so piezo electric valve is actually the pilot valve of pneumatic control valve, if valve A is open-minded, pressurized air enters modulating valve film head, valve rod moves down, vice versa; Valve position is moved by valve position feedback unit 3 and is fed back to control unit 1 in real time.Control unit 1 moves 32 according to film head pressure 41, the valve position of valve setting value 42 modulating valve film head line pressure sensors and carries out fault diagnosis.

As shown in Figure 3, the internal module annexation of control unit 1 is: hardware platform is connected with network control chip CS8900A (12), AD conversion chip ADC0808 (14), touch screen LQ30B7DD01 (13), I/P electric conversion unit 2 respectively based on the S3C2410 chip 11 of 32 ARM9.Software platform is then based on ARM_Linux.Sharp touch screen LQ30B7DD01 (13) technology substituting for key is adopted in man-machine interaction, and the valve setting value of control centre's output, control valve position value of feedback, modulating valve film head pressure link to each other with S3C2410 by AD conversion chip ADC0808 (14); The operation result of control unit exports I/P electric conversion unit (2) to, realizes the control of control valve opening (flow).CPU S3C2410 is 16/32 ARM920T risc processor by the design of Advanced RISC Machines (ARM) Co., Ltd.ARM920T has realized MMU, AMBA BUS and Harvard speed buffering architecture.This structure has independently 16KB instruction Cache and 16KB Data Cache, and each all is to be made of the row of 8 word lengths (line).By a series of complete system peripherals equipment are provided, S3C2410 has significantly reduced the cost of whole system, has eliminated to be the expense of system layout additional devices, function on it the is integrated following sheet:

● the power supply of 1.8V/2.0V kernel, the power supply of 3.3V storage, 3.3V exterior I/O power supply;

● possess the I-Cache of 16KB and the D-Cache/MMU of 16KB;

● external storage controller (SDRAM control and chip selection logic)

● lcd controller (maximum 4K look STN and the 256K look TFT of supporting) provide 1 passage LCD special-purpose DMA

● 4 passage DMA also have the external request pin.

● 3 passage UART (IrDA1.0,16 byte Tx FIFO and 16 byte Rx FIFO)/2 passage SPI

● the how main IIC-BUS/1 passage of 1 passage IIS-BUS controller.

● compatible to SD main interface agreement 1.0 editions and MMC agreement 2.11 compliant Versions.

● 2 port usb hosts/1 terminal port USB equipment (1.1 editions)

● 4 passage PWM timers and 1 channel interior timer

● WatchDog Timer

● 117 universaling I/O ports and 24 passage exterior interrupt.

● the power consumption control pattern: have common, at a slow speed, free time and power-down mode.

● 8 path 10 bit A C and touch screen interfaces

● have the RTC of calendar function

● have clock generator on the PLL sheet

Shown in Fig. 4-a, 4-b, actual pressure drop ratio, working medium and ambient temperature according to pneumatic actuator process environments of living in, based on the mechanism of modulating valve working flow characteristic distortion carry out that working flow calculates or field measurement valve position and working flow between relation, with reference to the relation between valve position and the intrinsic flow of valve, the input signal of calibration valve positioning work piece, and move input signal correction control valve position with the valve position after proofreading and correct, make working flow characteristic and inherent flow characteristic identical.The modulating valve inherent flow characteristic is at pressure drop ratio 1.0, pressure reduction 0.1MPa before and after the valve, working medium H ₂O records under 20 ℃ of conditions of ambient temperature; So-called pressure drop ratio is meant pressure drop Δ P on the valve under the modulating valve full-gear _VminOverall presure drop Δ P with valve process duct of living in territory _sRatio, i.e. S=Δ P _Vmin/ Δ P _sThe inherent flow characteristic normalization representation Q/Q of modulating valve _Max=f (L/L _Max), L, L in the formula _Max, Q, Q _MaxRepresent valve opening (valve position), maximal valve aperture respectively, valve flow, maximal valve flow, Flow characteristics f are then relevant with the spool profilogram, common linearity, equal percentage arranged, open three kinds soon.As shown in Figure 2, the Flow characteristics of pneumatic actuator=positioning work piece Flow characteristics * flow characteristics of regulating valve, changing the positioning work piece Flow characteristics just can provide the multiple Flow characteristics and the action direction of pneumatic actuator integral body, document [1] [2] has been done abundant narration to this, product standard configuration function all listed this in by developed country's positioning work piece; In view of working medium, ambient temperature expound adequately the influence of environment flow characteristic is existing, can consult the relevant patent and the document of the long-pending mark aspect of flow, above-mentioned 2 belong to the knowledge category; Therefore this patent is only discussed the influence of pressure drop ratio variation to the Flow characteristics distortion.Modulating valve is installed on the process pipelines, is the liquid resistance device with changeable flow coefficient in essence, supposes that process pipelines two ends overall presure drop is constant, and pipeline on-way resistance and throttling device resistance all can be with changes in flow rate.Fig. 4-a, b show, during standard-sized sheet on the valve pressure drop more little with the ratio S of process pipelines stagnation pressure depreciation, the distortion of valve working flow characteristic is serious more.Be not difficult to obtain valve working flow F (L/L by fluid mechanics principle _Max), intrinsic flow f (L/L _Max), the relation between the pressure drop ratio S three:

F (L / L_{\max}) = f (L / L_{\max}) \sqrt{\frac{1}{{(1 - s)}^{2} f^{2} (L / L_{\max}) + s}} - - - (*)

The algorithm of working flow characteristic distortion correction is as follows:

● consult manufacturer's data, adjusted valve inherent flow characteristic f (L _i/ L _Max), 1≤i≤N, L _I+1＞L _i, L _N=L _MaxWith the form event memory.

● specify the S value, calculate (or actual measurement) working flow by (*).

● by the valve setting value L of control centre ^*(L ^*∝ 4-20mA signal), looks into the inherent flow characteristic table, get Q ^*/ Q _Max

● search from the working flow characteristic table of specifying the S value: Q _i/ Q _Max＜Q ^*/ Q _Max＜Q _I+1/ Q _Max, the needed valve position value of backstepping Flow characteristics distortion correction

L^{'} = L_{i} + ((L_{(i + 1)} - L_{i}) / (Q_{i + 1} - Q_{i})) * (Q_{i}^{*} - Q_{i}),

Replace L with valve position value L ^*Valve position input as valve positioner.

Shown in Fig. 4-c, curve (a) is uncorrected working flow distortion value, and curve (b) then is the working flow characteristic after proofreading and correct, the linearity of the working flow characteristic after obviously proofreading and correct be improved significantly.

Following table is proofreaied and correct front and back working flow characteristic data contrast table for certain linear valve.

Relative opening degree	L/L _max(％)	0	10	20	30	40	50	60	70	80	90	100
Relative opening degree	L/L _max(％)	0	10	20	30	40	50	60	70	80	90	100	Do not proofread and correct	Q/Q _max(％)	4.3	14.5	24.3	33.7	42.0	50.1	56.1	60.2	64.4	66.7	69.3
After the correction	Q ^*/Q _max(％)	4.0	12.4	18.8	25.8	32.4	38.4	45.7	51.6	59.4	65.6	69.8	Do not proofread and correct	Q/Q _max(％)	4.3	14.5	24.3	33.7	42.0	50.1	56.1	60.2	64.4	66.7	69.3

Must be pointed out: the whole multiple Flow characteristics of modulating valve working flow characteristic distortion correction and pneumatic actuator is compatible.If the modulating valve inherent flow characteristic is changed into the inherent flow characteristic of another expectation, take valve position L this moment ₁Proofread and correct and be L ₂If consider simultaneously to eliminate the working flow characteristic distortion, then with L ₂For benchmark it being proofreaied and correct is L ₃, promptly reach above-mentioned target by twice correction to the valve setting value.The correction that working medium, ambient temperature influence Flow characteristics, its technical thought is exactly the same.

As shown in Figure 5, positioning method for digital electric valve is by Fuzzy-PI bimodulus unperturbed switching method 5 regulating and controlling valve openings, and valve position control not only has good robust and dynamic response performance, and has accurate steady track performance.Error adopts Fuzzy method 51 when big, error hour then adopts PI method 52, Fuzzy-PI bimodulus unperturbed switching method 5 is to be selected by Fuzzy-PI discrimination module 53, after Fuzzy-PI bimodulus methods and results is handled by unperturbed handover module 54, export the solid-state relay G3F/G3FD (21) of I/P electric conversion unit 2 to the pulse shape of different in width, the dutycycle of control piezo electric valve 22; When unperturbed handover module 54 has been eliminated the Fuzzy-PI mode switching to the interference of control valve opening and control system.Pneumatic control valve film head air pressure is subjected to the influence of extraneous factors such as supply gas pressure and ambient temperature, becomes when the work loads of modulating valve has again simultaneously and uncertainty, and it is very difficult therefore to set up accurate pneumatic control valve figure place model.Use for reference the Fuzzy-PI bimodulus control algorithm in process control field, make the control valve position Variable Control have excellent dynamic and steady-state behaviour; Disturbance when the Fuzzy-PI control mode is switched is then eliminated by the unperturbed handover module.The setting value of electropneumatic valve positioner (control valve position) is by control centre's input of system, and with control valve position measurement links value of feedback relatively, fuzzy-proportional integral judgement link is according to both deviation e (e=r-1) orders of magnitude, the Fuzzy Control Model that makes one's options algorithm, or selection percentage integral mode algorithm.As | e| during, adopt the CRI reasoning FUZZY ALGORITHMS FOR CONTROL of tabling look-up greater than specified threshold; Otherwise application percentage integral algorithm then.The CRI algorithm with the variance ratio of e and e as input variable, therefore CRI is a kind of fuzzy ratio-differential algorithm in essence, change and probabilistic pneumatic control valve displacement of valve rod are very effective when being used to control, and its dynamic controlling performance is good, but the Steady-State Control quality is not good enough; And ratio-integral mode algorithm is just in time opposite with CRI, with the bimodulus algorithm that PI and two kinds of strategies of CRI combine, has taken into account the sound attitude controlling performance two aspect requirements of pneumatic control valve displacement of valve rod.Must be pointed out that when CRI and PI control mode were switched, CRI exported K ₁K with PI output ₂Between difference can cause the pneumatic control valve valve position is moved, and the interference of controlled process parameter, the unperturbed switch mode is followed the tracks of the output value of Fuzzy-PI bimodulus control algorithm, the method for the change amount Δ u by restriction output quantity U realizes that unperturbed switches.

As shown in Figure 6, set P, I parameter in the initialization, the variance thresholds when PI and Fuzzy mode switching; Form Fuzzy control law and question blank; | e|＞deviation valve position is then carried out CRI, on the contrary PI; Unperturbed switch mode output u realizes the control of solid-state relay dutycycle.

As shown in Figure 7, described valve position moves/and the circuit of electropneumatic transducer is: and the first fixed value resistance R4 is connected with magneto potentiometer R1, the second adjustable resistance R3, the second fixed value resistance R5, one end through the first adjustable resistance R2, and magneto potentiometer R1 is a kind of non-contact type potentiometer.Magneto potentiometer is in the magnetic circuit space that is made of permanent magnet and rotating disk, dispose two blocks of interactional mistor plates, the mistor plate is the semiconductor devices of being made by indium antimonide, its characteristic almost is a pure resistive, the resistance size of each mistor plate two utmost point depends on and the magnetic intensity of passing the mistor plate, when magnetic field changes, the variation that is directly proportional with magnetic intensity of its resistance.Its equivalent circuit as shown in Figure 8.

Fault diagnosis uses regular basic knowledge inference to carry out according to valve setting position, valve position feedback position, valve film head pressure three's internal relation.Select to discharge or partly discharge the function of die pressure when the unfreezing operation is provided by the user, further improved stability, reliability and the controlling performance of valve positioner.With the valve setting value of control centre increase and the air to close modulating valve the stuck fault of valve position to occur be example, because of the valve position deviation can't be eliminated, the valve setting value of control centre is inevitable constantly to be increased, and the valve film head pressure trend bleed pressure upper limit, the regular basic knowledge inference of this moment is as follows:

If valve setting value＞threshold values 1and valve film head pressure＞threshold values 2and valve position feedback value＜threshold values 3

The stuck warning of then valve position

else......

After the operator confirms fault, select to discharge or part releasing film head pressure, carry out the unfreezing operation then by the user.

Claims

1. digital positioner for electric controlled valve, it is characterized in that control unit (1) is connected with I/P electric conversion unit (2), micro pressure sensor, failure diagnosis unit (4), micro pressure sensor is connected with valve position feedback unit (3), failure diagnosis unit (4), control unit (1) through pneumatic actuator; Pneumatic actuator is connected with modulating valve, and valve position feedback unit (3) comprise that the valve position that is connected moves/electropneumatic transducer, valve position telephone-moving tool driver, and I/P electric conversion unit (2) comprises solid-state relay, the piezo electric valve that is connected.

2. a kind of digital positioner for electric controlled valve according to claim 1 is characterized in that the internal module annexation of described control unit (1) is: hardware platform is connected with network control chip CS8900A (12), AD conversion chip ADC0808 (14), touch screen LQ30B7DD01 (13), I/P electric conversion unit (2) respectively based on the S3C2410 chip (11) of 32 ARM9.

3. a kind of digital positioner for electric controlled valve according to claim 1, it is characterized in that described valve position move/circuit of electropneumatic transducer is: the first fixed value resistance R4 is connected with magneto potentiometer R1, the second adjustable resistance R3, the second fixed value resistance R5, one end through the first adjustable resistance R2.

4. a kind of digital positioner for electric controlled valve according to claim 1 is characterized in that failure diagnosis unit (4) by the embedded micro pressure sensor (41) that is installed on the modulating valve film head pipeline, and valve position is moved/electric conversion module (32) composition.