CN201865923U - Chemical engineering flow process intelligent pump - Google Patents
Chemical engineering flow process intelligent pump Download PDFInfo
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- CN201865923U CN201865923U CN2010205767801U CN201020576780U CN201865923U CN 201865923 U CN201865923 U CN 201865923U CN 2010205767801 U CN2010205767801 U CN 2010205767801U CN 201020576780 U CN201020576780 U CN 201020576780U CN 201865923 U CN201865923 U CN 201865923U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
- Y02P20/10—Process efficiency
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Abstract
The utility model discloses a chemical engineering flow process intelligent pump, which belongs to the pump control technology. The technical flow process device for realizing the energy saving of the chemical engineering flow process pump in the prior art is complicated, a cable of a motor of the chemical engineering flow process intelligent pump is connected with a motive power control system through an intelligent control system, and the intelligent control system comprises a flow rate-power type chromatogram, an initialization module, a power measuring module, a control module and an output module, wherein the flow rate-power type chromatogram is used for writing a starting rotating speed N0 and writing energy saving, the initialization module is used for setting the target flow rate Q0, the power measuring module is used for measuring the actual power P of the pump operating at a rotating speed N1, the control module is used for comparing the measured actual power P with the flow rate-power type chromatogram to obtain the actual flow rate Q of the pump at the rotating speed N and obtaining the rotating speed N of the pump reaching the target flow rate Q0 through being calculated via a formula of Q0/Q=N/N1, and the output module is used for outputting the rotating speed N reaching the target flow rate Q0 to the motor. The parameter detection is carried out on the pump without adding sensing equipment in the technical flow process device, the energy consumption efficiency is improved, and the existing device can be reformed favorably.
Description
Technical field
The utility model belongs to the control technique of pump, specifically is a kind of energy-conservation chemical-process intelligent pump that mainly is used in oil, the chemical-process tooling.
Background technique
Pump is the big power consumer, and according to the data introduction, the power consumption of pump accounts for 20% of national total power consumption, and the motor power (output) supporting with pump accounts for 45% of national motor total capacity.In oil and chemical plant, the power consumption of pump is then higher, reaches 59% and 26% respectively.In China, the energy loss of past pump movement system is very big, and methods such as valve control and keying bypass are adopted in the adjusting of centrifugal pump more.Show that according to the external survey data of portion in more than 1600 pump of 20 factory's operations, its average energy consumption efficiency has only about 40%, the energy consumption efficiency of the pump about 10% is arranged even have only 10%.Above numeral shows, is containing huge energy-saving potential in the pump industry.
The raising of pump energy consumption efficiency comprises two aspects: the raising of (1) pump host design energy consumption efficiency.Because the designer is when carrying out product specification, improved the energy consumption efficiency of main frame by fair means or foul, so to improve 1% energy consumption efficiency also be very difficult at design conditions point; (2) energy consumption efficiency of raising entire pump movement system.Because, the flow of pump, lift and device flow process relation are very close, when the device design, the flow of pump, lift mainly are to change the harshest situation according to device flow process line loss, device pressure head to calculate definite, this calculating, also must consider some other factor, as: the pipeline ageing loss increases, the Unpredictability of change of flow state etc.; Therefore, the lift affluence that can keep usually when design about 15% is measured.This rich amount is the maximum root that causes the chemical centrifugal pump power dissipation.
The control of chemical flow-process pump can be divided into plurality of processes, in the eighties before the middle ten days, in China, the control of chemical flow-process pump detects with pressure gauge substantially, outlet valve is controlled or the outlet methods such as valves control and the control of keying bypass line that adopt guarantee reliable, the efficient operation of centrifugal pump more, certainly, its control mode mainly is guaranteeing that chemical flow-process pump can reliable operation be a purpose, and this control mode is to be adjusted to the master with hand-guided purely.In the late nineteen eighties, the early 1990s, increasingly mature along with converter technique, and that uses in common feedwater field is increasingly extensive, two kinds of control modes have mainly been selected, the one, in technological process device before or after the centrifugal pump, flow transducer 8(is installed referring to Fig. 1), detect the actual motion flow of centrifugal pump, after flow transducer 8 signals entered frequency variator 7, frequency variator rated flow (or the user sets flow) automatic and centrifugal pump compared, calculate the running speed of a motor, frequency, and, automatically motor speed is adjusted to the calculating rotating speed, thereby realize effective control to centrifugal pump by the frequency adjustment.The 2nd, the forward and backward 9(of setting pressure sensor respectively of centrifugal pump is referring to Fig. 2 in technological process device), by the pressure sensor signal that obtains, frequency variator 7 calculates centrifugal pump inlet outlet pressure differential and the actual lift that uses automatically, and compare with the rated head (or the user sets lift) of this pump, calculate running speed, the frequency of a motor, and, automatically motor speed is adjusted to the calculating rotating speed, thereby realize effective control to centrifugal pump by the frequency adjustment.
Regulate chemical flow-process pump by sensor in conjunction with frequency variator, also can realize effectively energy-conservationly, effect also is apparent in view.But its maximum defective is, one, can only carry out definite value control (, generally in device, also galvanostat need be set) according to the flow value or the force value of prior setting as pressing force control, and can not change and adapt to voluntarily with the technological process device parameter; Two, must in the import and export technological process device of chemical flow-process pump, corresponding flow transducer or pressure transducer be installed.These sensors are installed, not only can make technological process device complicated, and, also can change the characteristic (as: linear loss that flow transducer can increase technological process device is installed) of former tooling to the existing apparatus transformation, cause the change of device technique parameter; Simultaneously, because chemical flow-process pump is used in the workplace of requirement of explosion proof mostly, the increase of these sensors has not only increased the weight of the line service amount of user to equipment, and, because the increase of electrical equipment has also correspondingly increased the security risk that device uses.Pin is because this, though the control mode that sensor is regulated chemical flow-process pump in conjunction with frequency variator is more energy-conservation a kind of control mode, in the chemical-process tooling, the chemical flow-process pump consumption of this control mode is lacking very still.A large amount of control modes with manual modulation valve 10 adjusting chemical centrifugal pumps still shown in Figure 3 that adopt.
The model utility content
The technical assignment of the technical problems to be solved in the utility model and proposition is to overcome existing sensor to realize the energy-conservation technological process device complexity that causes of chemical flow-process pump, change the defectives such as characteristic of former tooling in conjunction with frequency variator, and a kind of chemical-process intelligent pump is provided.
For this reason, the technological scheme that chemical-process intelligent pump of the present utility model adopts is: the motor that it comprises the pump housing and drives pump housing running, the cable that it is characterized in that described motor connects power control system through intelligent control system, and described intelligent control system comprises: be used for write-enable rotational speed N 0, write energy-conservation flow-power-type spectrogram, the initialization module of target setting flow Q0; Be used to record the measurement of power module of pump at the actual power P of a certain rotational speed N 1 running; Be used for the actual power P that will record and flow-power-type spectrogram comparison obtain pump when rotational speed N 1 actual flow Q and calculate the control module that pump reaches the rotational speed N of target flow Q0 by formula Q0/Q=N/N1; The rotational speed N that will reach target flow Q0 is exported to the output module of motor.
As embodiment, described initialization module is an encoder, and described measurement of power module is a dynamometer, and described control module is a controller, and described output module is a frequency variator, and the cable of described motor connects described power control system through control module.
Intelligent chemical flow-process pump of the present utility model, by running state parameter and setting value being compared and calculating the running speed of pump actual demand and automatically adjust, improve energy consumption efficiency, do not need in technological process device, to increase any sensing equipment, and voluntarily the chemical-process intelligent pump is carried out parameter detecting and control, reach the Operational Limits of expectation.Therefore intelligent controller both can be laid in the scene, also can be positioned between control, can not make technological process device complicated, also can not change the characteristic of former tooling and caused the change of device technique parameter, is beneficial to existing apparatus is transformed.In other words, chemical-process intelligent pump of the present utility model can not only be according to the needs of device flow process, not by means of the sensing equipment in the technological process device, oneself's sense intelligence and the requirement of regulating adaptive device, and help having the transformation of chemical process flow device now.
Description of drawings
Fig. 1 is that prior art is by the schematic representation of flow transducer in conjunction with the Frequency Converter Control pump.
Fig. 2 is that prior art is by the schematic representation of pressure transducer in conjunction with the Frequency Converter Control pump.
Fig. 3 is the schematic representation of prior art by hand-guided valve regulated pump.
Fig. 4 is the schematic representation that the utility model passes through the intelligent control system control pump.
Fig. 5 is the skeleton diagram of intelligent control system of the present utility model.
Number in the figure explanation: the 1-pump housing, 2-motor, 3-cable, 4-intelligent control system, 5-power control system, 6-control cabinet, 7-frequency variator, 8-flow transducer, 9-pressure transducer, 10-manual modulation valve.
Embodiment
Below in conjunction with Figure of description the utility model is described further.
Chemical-process intelligent pump of the present utility model, as shown in Figure 4, the motor that it comprises the pump housing and drives pump housing running, the cable of motor connects power control system through intelligent control system, and intelligent control system (referring to Fig. 5) comprising:
Be used for writing (as at manufacture course of products) start rotational speed N 0, (pump of every kind of model has specific type spectrum figure to write (as in manufacture course of products) energy-conservation flow-power-type spectrogram, as flow-power-type spectrogram, lift-flow type spectrum figure, efficient-flow type spectrum figure etc., rule of thumb can from flow-power-type spectrogram, intercept energy-conservation one section), target setting flow Q0(general be that the user sets as required) initialization module;
Be used to record the measurement of power module of pump at the actual power P of a certain rotational speed N 1 running;
Be used for the actual power P that will record and flow-power-type spectrogram comparison obtain pump when rotational speed N 1 actual flow Q and calculate the control module that pump reaches the rotational speed N of target flow Q0 by formula Q0/Q=N/N1;
The rotational speed N that will reach target flow Q0 is exported to the output module of motor.
During concrete enforcement, initialization module is an encoder, and described measurement of power module is a dynamometer, and described control module is a controller, and described output module is a frequency variator, and the cable of described motor connects described power control system through control module.
According to above-mentioned chemical-process intelligent pump, can control the chemical-process intelligent pump: by initialization module write-enable rotational speed N 0, write energy-conservation flow-power-type spectrogram, target setting flow Q0 by following manner; Make pump that rotational speed N 0 starts and record the actual power P of pump in a certain rotational speed N 1 running by the measurement of power module according to starting; By control module with the actual power P that records and flow-power-type spectrogram comparison obtain pump when the rotational speed N 1 actual flow Q and calculate the rotational speed N that pump reaches target flow Q0 by formula Q0/Q=N/N1; The rotational speed N that will reach target flow Q0 with output module is exported to the motor of driven pump.So, measurement of power, comparison and definite rotating speed by repeatedly can make pump work in the higher state of energy consumption efficiency always.When the measurement of power module detects actual power P, the rotational speed N 1 of this actual power P correspondence is startup rotational speed N 0 when starting, rotating speed when reaching target flow Q0 is for to rotational speed N that should target flow Q0, therefore, in the pump operation process, can control to reach higher energy consumption efficiency the rotating speed of pump in good time.Further, the rotational speed N and the speed range of setting that pump are reached target flow Q0 compare, rotational speed N in this speed range seasonal pump work in this rotational speed N, when rotational speed N exceeds this speed range, make this rotational speed N record the actual power of pump running and the rotating speed that calculating pump reaches target flow Q0 again as starting rotating speed.
Claims (2)
1. the chemical-process intelligent pump comprises the pump housing (1) and drives the motor (2) that the pump housing turns round, and it is characterized in that the cable (3) of described motor connects power control system (5) through intelligent control system (4), and described intelligent control system comprises:
Be used for write-enable rotational speed N 0, write energy-conservation flow-power-type spectrogram, the initialization module of target setting flow Q0;
Be used to record the measurement of power module of pump at the actual power P of a certain rotational speed N 1 running;
Be used for the actual power P that will record and flow-power-type spectrogram comparison obtain pump when rotational speed N 1 actual flow Q and calculate the control module that pump reaches the rotational speed N of target flow Q0 by formula Q0/Q=N/N1;
The rotational speed N that will reach target flow Q0 is exported to the output module of motor.
2. chemical-process intelligent pump according to claim 1, it is characterized in that described initialization module is an encoder, described measurement of power module is a dynamometer, described control module is a controller, described output module is a frequency variator, and the cable of described motor connects described power control system through control module.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010205767801U CN201865923U (en) | 2010-10-26 | 2010-10-26 | Chemical engineering flow process intelligent pump |
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CN2010205767801U CN201865923U (en) | 2010-10-26 | 2010-10-26 | Chemical engineering flow process intelligent pump |
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CN201865923U true CN201865923U (en) | 2011-06-15 |
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CN2010205767801U Expired - Lifetime CN201865923U (en) | 2010-10-26 | 2010-10-26 | Chemical engineering flow process intelligent pump |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101994704A (en) * | 2010-10-26 | 2011-03-30 | 浙江佳力科技股份有限公司 | Chemical process intelligent pump and control method thereof |
CN102966570A (en) * | 2012-11-07 | 2013-03-13 | 无锡惠山泵业有限公司 | Speed regulation water pump |
CN108799141A (en) * | 2018-08-14 | 2018-11-13 | 山东京博物流股份有限公司 | Loading system gravity flow pipeline energy saver and power-economizing method |
-
2010
- 2010-10-26 CN CN2010205767801U patent/CN201865923U/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101994704A (en) * | 2010-10-26 | 2011-03-30 | 浙江佳力科技股份有限公司 | Chemical process intelligent pump and control method thereof |
CN102966570A (en) * | 2012-11-07 | 2013-03-13 | 无锡惠山泵业有限公司 | Speed regulation water pump |
CN108799141A (en) * | 2018-08-14 | 2018-11-13 | 山东京博物流股份有限公司 | Loading system gravity flow pipeline energy saver and power-economizing method |
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Granted publication date: 20110615 |
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CX01 | Expiry of patent term |