CN202471143U - Integrated intelligent flow meter - Google Patents

Abstract

The utility model relates to an integrated intelligent flow meter, which consists of a measuring tube, an upstream pressure sensor component, a downstream pressure sensor component, a mounting bracket, a computer data processing unit, an upstream flow adjuster, a built-in core body, a downstream flow adjuster and a temperature sensor. Since an inner Venturi tube is used as a throttling component, the measurement accuracy and the measurement stability are improved; and since a plurality of pressure sensors are used for acquiring pressure signals, an integrated data processing computer can conduct analog-to-digital conversion, software filter, average value calculation and flow rate and flow computation to the acquired pressure signals, the signals are converted into industrial standard digital signals or industrial standard 4-20mA current signals after temperature is compensated and then the digital signals are output in a wired or wireless way, long-term, stable and accurate online measurement can be realized and the integrated intelligent flow meter has a unique measurement advantage especially when a field does not has a condition for installing long straight tube sections.

Description

The integral intelligent flowmeter

Technical field

The utility model belongs to the IT industry technical field, particularly a kind of integral intelligent flowmeter.

Background technology

At present; Generally adopt orifice plate, nozzle and Venturi tube differential pressure flowmeter in the domestic industry flow measurement field as restriction device; In order to guarantee measuring accuracy, adopt the differential pressure flowmeter of said structure to require the upstream and downstream of throttling element that the straight length of certain-length must be arranged; And in a lot of occasions; In extremely limited distance, be distributed with elements such as T shape pipeline, L shaped bend pipe, valve, reducer pipe; Because the restriction of installing space; The straight length of throttling element upstream and downstream is very short, causes the disturbance of measuring section pipeline inner fluid very big, makes that the accurate measurement of fluid is very difficult under this occasion.Shortcomings such as the tradition differential pressure flowmeter also exists the efflux coefficient instability, and is linear poor, repeated bad, and accuracy is because of receiving many factor affecting also not high, easy to wear, and the pressure loss is bigger, and range ratio (rangeability) is little, and the straight length of on-the-spot installation requirement is long.

Summary of the invention

The purpose of the utility model is to overcome the above-mentioned deficiency of prior art and a kind of integral intelligent flowmeter is provided.

The technical scheme of the utility model is: a kind of integral intelligent flowmeter, form by measuring tube, upstream pressure sensor assembly, downstream pressure sensor assembly, mounting bracket, computer data processing unit, upstream flow adjuster, built-in core body, downstream flow adjuster and temperature sensor.

Measuring tube is the cylindrical shell of a circle; Be respectively equipped with a plurality of upper reaches pressure port and a plurality of downstream pressure port at the two ends of cylindrical shell; Upper reaches pressure port and downstream pressure port all are evenly arranged on the cylindrical shell; On each upper reaches pressure port, be respectively equipped with a upper reaches pressure port filtrator; On each downstream pressure port, be respectively equipped with a downstream pressure port filtrator, the position near upper reaches pressure port between upper reaches pressure port and the downstream pressure port is provided with a temperature sensor thief hole, and the temperature sensor thief hole is provided with the temperature sensor mount pad.

The upstream pressure sensor assembly is made up of upstream pressure sensor, upstream three-way connector, upper reaches blowback solenoid valve, upper reaches pressure port filter connector, upstream pressure sensor joint and upper reaches blowback solenoid valve joint; Upstream pressure sensor is installed in a straight-through end of upstream three-way connector with thread connecting mode through the upstream pressure sensor joint; Upper reaches pressure port filter connector is installed in the straight-through other end of upstream three-way connector with thread connecting mode; Blowback solenoid valve in the upper reaches is installed in the side go side of upstream three-way connector with thread connecting mode through upper reaches blowback solenoid valve joint; The pressure signal output terminal of upstream pressure sensor is wired to the pressure signal output terminal of upstream pressure sensor assembly, and the control end of upper reaches blowback solenoid valve is wired to the control input end of upstream pressure sensor assembly.

The downstream pressure sensor assembly is the same with the version of upstream pressure sensor assembly.

Built-in core body is made up of leading portion cone, stage casing right cylinder, rear cone and middle plug, and leading portion cone, stage casing right cylinder and rear cone are fixedly mounted on middle plug, and is on the same axis with middle plug.The cone angle a1 of leading portion cone is 16 °～24 °, length L 1=2～3 * (D-d), and D measuring tube internal diameter wherein, d is the stage casing cylinder diameter; The cylindrical length L 2=d in stage casing; The cone angle a2 of rear cone is 4 °～18 °, length L 3 >=d.

The upstream flow adjuster is made up of center rectification cone, six blades and outer shroud, and blade is the inner ring that radially is evenly arranged in outer shroud, and rectification cone in center is coaxial with outer shroud, and is solidified as a whole through blade and outer shroud.

The downstream flow adjuster is the same with the version of upstream flow adjuster.

The computer data processing unit is made up of data processor DSP, RS232 or RS484 communicator, pressure data 4-20mA current transducer, flow speed data 4-20mA current transducer, data on flows 4-20mA current transducer, RFDC device, D.C. regulated power supply and a plurality of analog line drivers of equating with the total quantity sum of upstream pressure sensor assembly and downstream pressure sensor assembly:

Wherein, The pressure signal input end of computer data processing unit connects one to one and is built in the input end of data processor DSP pressure inside analog to digital converter, and the quantity of input end equates with the total quantity sum of upstream pressure sensor assembly and downstream pressure sensor assembly; The temperature signal input end of computer data processing unit is connected to the input end that is built in data processor DSP temperature inside analog to digital converter;

The output terminal of data processor DSP is connected respectively to the input end of RS232 or RS484 communicator, the input end of pressure data 4-20mA current transducer, the input end of flow speed data 4-20mA current transducer, the input end of data on flows 4-20mA current transducer, the input end of RFDC device and the input end of a plurality of analog line drivers;

The connect one to one control output end of computer data processing unit of the connect one to one control output end of output terminal of data processor DSP of the input end of analog line driver, the output terminal of analog line driver;

D.C. regulated power supply is supplied with computer data processing unit and the needed power supply of whole peripheral electrical equipments.

Measuring tube constitutes the inner venturi tube throttling element with the built-in core body that is installed in its inside; The radially-outer surface geometric profile of built-in core body is similar with classical venturi tube inside surface geometric profile; Constitute a reducing annular overcurrent slit between it and the measuring tube inside surface, fluid through the time throttling process similar with the throttling process of classical venturi tube, annular orifice; The throat of inner venturi tube throttling element is the annulus that constitutes between the circle in the face of cylinder, stage casing cylindrical and the measuring tube of built-in core body; The throttling diameter of inner venturi tube throttling element is defined as equivalent β 1 value than β, and said equivalent β 1 value is meant that said throat annular flow channels cross-sectional area is converted to the effective aperture of the circular orifice with identical circulation area D1With the ratio of measuring tube inside diameter D, promptly

β =d1/D,And

d1=

(here dThe face of cylinder, stage casing diameter for built-in core body), therefore the mathematic(al) representation of said equivalent β 1 value is:

β1 =?

/D

When carrying out flow rate calculation, use said effective aperture D1=

Substitute the classical venturi tube cylindrical shape throat diameter d among the State Standard of the People's Republic of China GB/2624, calculate according to the computing method of classical venturi tube then.

Upstream flow adjuster and downstream flow adjuster are fixedly mounted in the cylindrical shell of measuring tube; The upstream flow adjuster adopts radial blade formula structure, and the upper reaches pressure port that is fixedly mounted on the measuring tube cylindrical shell is inboard, is in the upper reaches of built-in core body, has the effect of fluid rectifier and balanced device; The downstream flow adjuster also adopts radial blade formula structure, is fixedly mounted on the pressure port outside, downstream on the measuring tube cylindrical shell, has the effect of fluid rectifier and balanced device; Built-in core body is installed in the measuring tube cylindrical shell, and the intermediate core nose of built-in core body is installed in the fiaring cone axon hole, center on the upstream flow adjuster, and the middle plug rear end of built-in core body is installed in the fiaring cone axon hole, center on the downstream flow adjuster; Measuring tube constitutes the inner venturi tube throttling element with the built-in core body that is installed in its inside.

A upstream pressure sensor assembly all is installed on the pressure port filtrator of the upper reaches, and upper reaches pressure port filter connector on the upstream pressure sensor assembly and the upper reaches pressure port filtrator on the measuring tube cylindrical shell link together through thread connecting mode;

A downstream pressure sensor assembly all is installed on the pressure port filtrator of downstream, and downstream pressure port filter connector on the downstream pressure sensor assembly and the downstream pressure port filtrator on the measuring tube cylindrical shell link together through thread connecting mode;

Temperature sensor is installed on the temperature sensor mount pad, links together through thread connecting mode, and the temperature signal output terminal of temperature sensor is wired to the temperature signal input end of computer data processing unit.

Mounting bracket is fixedly mounted on the pipeline of upstream three-way connector and downstream three-way connector, and the computer data processing unit is fixedly mounted on the mounting bracket; Pressure signal output terminal on upstream pressure sensor assembly and the downstream pressure sensor assembly is all through the connect one to one pressure signal input end of computer data processing unit of lead, and the control input end on upstream pressure sensor assembly and the downstream pressure sensor assembly is all through the connect one to one control output end of computer data processing unit of lead.

The further technical scheme of the utility model is: the installation quantity of upstream pressure sensor assembly is no less than two; The installation quantity of downstream pressure sensor assembly is no less than two; The installation quantity of upstream pressure sensor assembly can equate with the installation quantity of downstream pressure sensor assembly, also can be unequal.

The utility model principle of work is following:

Upstream flow adjuster and the downstream flow adjuster of barrel that is installed in the flow measurement buret carries out effectively flowing adjustment (rectification) to the fluid velocity distribution gradient in the pipeline and the various non-rotational symmetry velocity distribution that possibly exist before and after throttling; Fluid is through upstream flow adjuster and downstream flow adjuster the time; In switching process, eliminated the turbulent flow of rotating in the fluid, direction is mixed and disorderly; And the direction that the guiding fluid flows makes its ordering, and this accurate mensuration for flow has been established important foundation;

Fluid behind overcommutation is through measuring tube and the inner venturi tube throttling element that built-in core body constituted that places its inside; The radially-outer surface geometric profile of built-in core body is similar with classical venturi tube inside surface geometric profile; And constitute a reducing annular overcurrent slit between the measuring tube inside surface, the throttling process when fluid passes through is similar with the throttling process of classical venturi tube, annular orifice; At the upper reaches of built-in core body, the upstream pressure sensor that is communicated with said upper reaches pressure tappings is gathered the static pressure signal, and in the downstream of built-in core body, the downstream pressure sensor that is communicated with said downstream pressure tappings is gathered the downstream static pressure force signal.

Adopt a plurality of upstream pressure sensors and a plurality of downstream pressure sensor to gather static pressure signal and downstream static pressure force signal, unescapable pressure surge phenomenon when having overcome present employing grading ring counterpressure has improved measuring accuracy greatly.

All the upper reaches static pressure signal of upstream pressure sensor collection send the computer data processing unit; The pressure modulus converter built-in through the computer data processing unit converts digital signal to, and the mean value that calculates upper reaches static pressure signal behind the process software filtering again is to eliminate measuring error; All the downstream static pressure signal of downstream pressure sensor collection send said computer data processing unit; The pressure modulus converter built-in through the computer data processing unit converts digital signal to, and the mean value that calculates the downstream static pressure signal behind the process software filtering again is to eliminate measuring error; The computer data processing unit is according to the mean value of upper reaches static pressure signal and mean value calculation rate of flow of fluid, flow and the pipeline pressure of downstream static pressure signal, and the 4-20mA current signal of digital signal or industrial standard that flow velocity, flow and pipeline pressure is carried out being transformed into after the temperature compensation industrial standard according to the temperature signal of temperature sensor collection again is through wired or wireless output;

During measuring, computer data processing unit each upper reaches blowback solenoid valve of control and downstream blowback closed electromagnetic valve are to guarantee measuring accuracy; During non-measurement, computer data processing unit each upper reaches blowback solenoid valve of control and downstream blowback solenoid valve are opened, and pressure gets in the measuring tube through each pressure tappings greater than the medium of measuring tube pipe internal pressure, blow clean the dirt of pressure tappings inner product.

The utility model adopts inner venturi tube as throttling element; In use there are not the sharp-edged abrasion and long-pending dirty problem of orifice plate throttling element; Through being installed in the inner flow conditioner of flowmeter the throttling preceding pipeline fluid velocity inside distribution gradient and the various non-rotational symmetry velocity distribution that possibly exist are carried out effectively flowing adjustment (rectification); The accuracy and stability of measuring have been improved; Adopt a plurality of pressure transducers to gather pressure signal; Integrated data handling machine carries out analog to digital conversion, software filtering, mean value calculation and flow velocity, flow computing to the pressure signal of gathering, and the temperature signal of temperature sensor collection carries out analog to digital conversion, and the 4-20mA current signal of digital signal or industrial standard that flow velocity, flow and pipeline pressure is carried out being transformed into after the temperature compensation industrial standard is through wired or wireless output; Can realize long-term stability, on-line metering accurately; Can partly replace high price flow instruments such as oscillatory type mass flowmeter, ultrasonic flowmeter, when not possessing long straight length mounting condition especially at the scene, have unique metering advantage.

The utility model compared with prior art has following characteristics:

1. adopt a plurality of pressure transducers to gather pressure signals, the inevitable pressure surge phenomenon of institute has improved measuring accuracy greatly when overcoming present employing grading ring counterpressure.

2. the upstream flow adjuster and the downstream flow adjuster convection cell before and after throttling that are installed in the barrel of flow measurement buret carry out rectification, and be therefore extremely low to the straight length requirement is installed, and can effectively avoid or reduce the additive error of measurement.

3. integrated data handling machine carries out analog to digital conversion, software filtering, mean value calculation and flow rate calculating to the pressure signal of gathering in the flowmeter; And flow velocity, flow and pipeline pressure carried out temperature compensation; The data conversion of output becomes the 4-20mA current signal of digital signal or industrial standard of industrial standard through wired or wireless output; Measuring accuracy is high, and antijamming capability is strong.

4. measurement stability is best in existing all kinds of differential pressure flowmeters.

5. strong to the medium adaptive faculty.

6. it is wide to be suitable for reynolds number range.

7. the pressure loss is little, is about 1/3 of orifice flowmeter, good energy-conserving effect.

Further describe below in conjunction with accompanying drawing and embodiment detailed structure the utility model.

Description of drawings

Accompanying drawing 1 is the structural representation of the utility model;

Accompanying drawing 2 is the left view of accompanying drawing 1;

Accompanying drawing 3 is measuring tube 1 structural representation;

Accompanying drawing 4 is the A-A cut-open view in the accompanying drawing 3;

Accompanying drawing 5 is upstream flow adjuster 3 structural representations;

Accompanying drawing 6 is the B-B cut-open view in the accompanying drawing 5;

Accompanying drawing 7 is upstream pressure sensor assembly 4 structural representations;

Accompanying drawing 8 is the structural representation of built-in core body 2;

Accompanying drawing 9 is the electrical schematic diagram of computer data processing unit 5.

Embodiment

Embodiment: a kind of integral intelligent flowmeter comprises measuring tube 1, built-in core body 2, upstream flow adjuster 3, two upstream pressure sensor assemblies 4, computer data processing unit 5, mounting bracket 6, temperature sensor 7, filter connector seat 8, temperature sensor mount pad 9, filtrator 10, two downstream pressure sensor assemblies 11 and downstream flow adjusters 12.

Measuring tube 1 is the cylindrical shell of a circle, is provided with two upper reaches pressure port 1-1 at cylindrical shell one end of measuring tube 1, and two upper reaches pressure port 1-1 are arranged symmetrically on the cylindrical shell of measuring tube 1.The cylindrical shell other end at measuring tube 1 is provided with two downstream pressure port 1-3, and two downstream pressure port 1-3 are arranged symmetrically on the cylindrical shell of measuring tube 1.On upper reaches pressure port 1-1 and downstream pressure port 1-3, be fixedly welded with a filter connector seat 8 respectively, all be provided with a filtrator 10 in the through hole of each filter connector seat 8; Position near upper reaches pressure port 1-1 between upper reaches pressure port 1-1 and the downstream pressure port 1-3 is provided with a temperature sensor thief hole 1-2; Be fixedly welded with a temperature sensor mount pad 1-2 on the temperature sensor thief hole 1-2, temperature sensor 7 is installed on the temperature sensor mount pad 1-2.

Upstream pressure sensor assembly 4 is made up of upstream pressure sensor 4-1, upstream three-way connector 4-2, upper reaches blowback solenoid valve 4-3, upper reaches pressure port filter connector 4-4, upstream pressure sensor joint 4-5 and upper reaches blowback solenoid valve joint 4-6, upstream pressure sensor pressure signal output terminal 4-7, upper reaches blowback solenoid control end 4-8; Upstream pressure sensor 4-1 is installed in the straight-through end of upstream three-way connector 4-2 with thread connecting mode through upstream pressure sensor joint 4-5; Upper reaches pressure port filter connector 4-4 is installed in the straight-through other end of upstream three-way connector 4-2 with thread connecting mode, and upper reaches blowback solenoid valve 4-3 is installed in the side go side of upstream three-way connector 4-2 with thread connecting mode through upper reaches blowback solenoid valve joint 4-6.Upstream pressure sensor 4-1 is provided with pressure signal output terminal 4-7, and upper reaches blowback solenoid valve 4-3 is provided with blowback solenoid control end 4-8.

Downstream pressure sensor assembly 11 is the same with the version of upstream pressure sensor assembly 4.

Built-in core body 2 is made up of leading portion cone 2-1, stage casing right cylinder 2-2, rear cone 2-3 and middle plug 2-4; Leading portion cone 2-1, stage casing right cylinder 2-2 and rear cone 2-3 are fixedly mounted on the middle plug 2-4, and are on the same axis with middle plug 2-4; The cone angle a1 of leading portion cone 2-1 is 16 °～24 °, length L 1=2.5～3 * (D-d), and D measuring tube 1 internal diameter wherein, d is built-in core body 2 stage casing right cylinder 2-2 diameters; The length L 2=d of stage casing right cylinder 2-2; The cone angle a2 of rear cone 2-3 is 4 °～18 °, length L 3 >=d.

Upstream flow adjuster 3 is made up of center rectification cone 3-1, six blade 3-2 and outer shroud 3-3, and blade 3-2 is the inner ring that warp-wise is evenly arranged in outer shroud 3-3, and 3-1 is coaxial with outer shroud 3-3 for center rectification cone, and is solidified as a whole through blade 3-2 and outer shroud 3-3.

Downstream flow adjuster 12 is the same with the version of upstream flow adjuster 3.

Upstream flow adjuster 3 is fixedly mounted in the cylindrical shell of measuring tube 1 with downstream flow adjuster 12; Upstream flow adjuster 3 adopts radial blade formula structure, and the upper reaches pressure port 1-1 that is fixedly mounted on measuring tube 1 cylindrical shell is inboard, is in the upper reaches of built-in core body 2, has the effect of fluid rectifier and balanced device.Downstream flow adjuster 12 also adopts radial blade formula structure, is fixedly mounted on the downstream pressure port 1-3 outside on measuring tube 1 cylindrical shell, has the effect of fluid rectifier and balanced device.Built-in core body 2 is installed in measuring tube 1 cylindrical shell; The middle plug 2-4 front end of built-in core body 2 is installed in the axis hole of the center rectification cone 3-1 on the upstream flow adjuster 3, and the middle plug 2-4 rear end of built-in core body 2 is installed in the fiaring cone axon hole, center on the downstream flow adjuster 12; Measuring tube 1 constitutes the inner venturi tube throttling elements with built-in core body that is installed in its inside 2.

Two upstream pressure sensor assemblies 4 respectively with measuring tube 1 cylindrical shell on upper reaches pressure port on the filter connector seat 8 of 1-2 link together through thread connecting mode, two downstream pressure sensor assemblies 11 respectively with measuring tube 1 cylindrical shell on downstream pressure port 1-3 on filter connector seat 8 link together through thread connecting mode.Mounting bracket 6 is fixed on the pipeline of upstream pressure sensor assembly 4 and downstream pressure sensor assembly 11, and computer data processing unit 5 is fixedly mounted on the mounting bracket 6.

Pressure signal output terminal 4-7 on the upstream pressure sensor 4-1 is connected with the pressure signal input end of computer data processing unit 5 respectively through lead, and the blowback solenoid control end 4-8 on the upper reaches blowback solenoid valve 4-3 is connected with the control output end of computer data processing unit 5 respectively through lead; Pressure signal output terminal 4-7 on the downstream pressure sensor 4-1 is connected with the pressure signal input end of computer data processing unit 5 respectively through lead, and the blowback solenoid control end 4-8 on the downstream blowback solenoid valve 4-3 is connected with the control output end of computer data processing unit 5 respectively through lead; Temperature sensor 7 is connected with the temperature signal input end of computer data processing unit 5 through lead.

Computer data processing unit 5 is made up of data processor DSP5-1, RS232 or RS484 communication port 5-2, pressure 4-20mA current transducer 5-3, flow velocity 4-20mA current transducer 5-4, flow 4-20mA current transducer 5-5, RFDC device 5-6, the first analog line driver 5-7, the second analog line driver 5-8, the 3rd analog line driver 5-9, the 4th analog line driver 5-10 and D.C. regulated power supply 5-11;

Wherein, The input end IN1 of the first analog line driver 5-7 is connected to the control output end OUT1 of data processor DSP5-1; The input end IN2 of the second analog line driver 5-8 is connected to the control output end OUT2 of data processor DSP5-1; The input end IN3 of the 3rd analog line driver 5-9 is connected to the control output end OUT3 of data processor DSP5-10, and the input end IN4 of the 4th analog line driver 5-10 is connected to the control output end OUT4 of data processor DSP5-1;

The output terminal CONT2 of the first analog line driver 5-7 is connected to the control output end CONT2 of computer data processing unit 5; The output terminal CONT3 of the second analog line driver 5-8 is connected to the control output end CONT3 of computer data processing unit 5; The output terminal CONT4 of the 3rd analog line driver 5-9 is connected to the control output end CONT4 of computer data processing unit 5, and the output terminal CONT5 of the 4th analog line driver 5-10 is connected to the control output end CONT5 of computer data processing unit 5;

The temperature signal input end AN1 of data processor DSP5-1 is connected to the temperature signal input end AN1 of computer data processing unit 5; The pressure signal input end AN2 of data processor DSP5-1 is connected to the pressure signal input end AN2 of computer data processing unit 5; The pressure signal input end AN3 of data processor DSP5-1 is connected to the pressure signal input end AN3 of computer data processing unit 5; The pressure signal input end AN4 of data processor DSP5-1 is connected to the pressure signal input end AN4 of computer data processing unit 5, and the pressure signal input end AN5 of data processor DSP5-1 is connected to the pressure signal input end AN5 of computer data processing unit 5;

The input end IN5 of RS232 or RS484 communication port 5-2 is connected to the output terminal OUT5 of data processor DSP5-1; The input end IN6 of pressure 4-20mA current transducer 5-3 is connected to the output terminal OUT6 of data processor DSP5-1; The input end IN7 of flow velocity 4-20mA current transducer 5-4 is connected to the output terminal OUT7 of data processor DSP5-1; The input end IN8 of flow 4-20mA current transducer 5-5 is connected to the output terminal OUT8 of data processor DSP5-1, and the input end IN9 of RFDC device 5-6 is connected to the output terminal OUT9 of data processor DSP5-1;

The positive pole of D.C. regulated power supply 5-11 is connected to computer data processing unit 5 positive source V+, negative pole is connected to ground GND, and input end AC1 is connected external power supply with AC2.

The control output end CONT2 of computer data processing unit 5 is connected to the control input end 4-8 of the first upstream pressure sensor assembly 4; The control output end CONT3 of computer data processing unit 5 is connected to the control input end 4-8 of the second upstream pressure sensor assembly 4; The control output end CONT4 of computer data processing unit 5 is connected to the control input end 4-8 of the first downstream pressure sensor assembly 5; The control output end CONT5 of computer data processing unit 5 is connected to the control input end 4-8 of the second downstream pressure sensor assembly 11;

The temperature signal output terminal of temperature sensor 15 is connected to the temperature signal input end AN1 of computer data processing unit 5; The pressure signal output terminal 4-7 of the first upstream pressure sensor assembly 4 is connected to the pressure signal input end AN2 of computer data processing unit 5; The pressure signal output terminal 4-7 of the second upstream pressure sensor assembly 4 is connected to the pressure signal input end AN3 of computer data processing unit 5; The pressure signal output terminal 4-7 of the first downstream pressure sensor assembly 11 is connected to the pressure signal input end AN4 of computer data processing unit 5; The pressure signal output terminal 4-7 of the second downstream pressure sensor assembly 11 is connected to the pressure signal input end AN5 of computer data processing unit 5.

Claims (3)

1. an integral intelligent flowmeter is characterized in that: be made up of measuring tube, upstream pressure sensor assembly, downstream pressure sensor assembly, mounting bracket, computer data processing unit, upstream flow adjuster, built-in core body, downstream flow adjuster and temperature sensor;

Measuring tube is the cylindrical shell of a circle; Be respectively equipped with a plurality of upper reaches pressure port and a plurality of downstream pressure port at the two ends of cylindrical shell; Upper reaches pressure port and downstream pressure port all are evenly arranged on the cylindrical shell; On each upper reaches pressure port, be respectively equipped with a upper reaches pressure port filtrator; On each downstream pressure port, be respectively equipped with a downstream pressure port filtrator, the position near upper reaches pressure port between upper reaches pressure port and the downstream pressure port is provided with a temperature sensor thief hole, and the temperature sensor thief hole is provided with the temperature sensor mount pad;

The upstream pressure sensor assembly is made up of upstream pressure sensor, upstream three-way connector, upper reaches blowback solenoid valve, upper reaches pressure port filter connector, upstream pressure sensor joint and upper reaches blowback solenoid valve joint; Upstream pressure sensor is installed in a straight-through end of upstream three-way connector with thread connecting mode through the upstream pressure sensor joint; Upper reaches pressure port filter connector is installed in the straight-through other end of upstream three-way connector with thread connecting mode; Blowback solenoid valve in the upper reaches is installed in the side go side of upstream three-way connector with thread connecting mode through upper reaches blowback solenoid valve joint; The pressure signal output terminal of upstream pressure sensor is wired to the pressure signal output terminal of upstream pressure sensor assembly, and the control end of upper reaches blowback solenoid valve is wired to the control input end of upstream pressure sensor assembly;

The downstream pressure sensor assembly is the same with the version of upstream pressure sensor assembly;

Built-in core body is made up of leading portion cone, stage casing right cylinder, rear cone and middle plug, and leading portion cone, stage casing right cylinder and rear cone are fixedly mounted on middle plug, and is on the same axis with middle plug;

The upstream flow adjuster is made up of center rectification cone, six blades and outer shroud, and blade is the inner ring that radially is evenly arranged in outer shroud, and rectification cone in center is coaxial with outer shroud, and is solidified as a whole through blade and outer shroud;

The downstream flow adjuster is the same with the version of upstream flow adjuster;

The computer data processing unit is made up of data processor DSP, RS232 or RS484 communicator, pressure data 4-20mA current transducer, flow speed data 4-20mA current transducer, data on flows 4-20mA current transducer, RFDC device, D.C. regulated power supply and a plurality of analog line drivers of equating with the total quantity sum of upstream pressure sensor assembly and downstream pressure sensor assembly:

Wherein, The pressure signal input end of computer data processing unit connects one to one and is built in the input end of data processor DSP pressure inside analog to digital converter, and the quantity of input end equates with the total quantity sum of upstream pressure sensor assembly and downstream pressure sensor assembly; The temperature signal input end of computer data processing unit is connected to the input end that is built in data processor DSP temperature inside analog to digital converter;

The output terminal of data processor DSP is connected respectively to the input end of RS232 or RS484 communicator, the input end of pressure data 4-20mA current transducer, the input end of flow speed data 4-20mA current transducer, the input end of data on flows 4-20mA current transducer, the input end of RFDC device and the input end of a plurality of analog line drivers;

The connect one to one control output end of computer data processing unit of the connect one to one control output end of output terminal of data processor DSP of the input end of analog line driver, the output terminal of analog line driver;

D.C. regulated power supply is supplied with computer data processing unit and the needed power supply of whole peripheral electrical equipments;

Upstream flow adjuster and downstream flow adjuster are fixedly mounted in the cylindrical shell of measuring tube; The upstream flow adjuster adopts radial blade formula structure, and the upper reaches pressure port that is fixedly mounted on the measuring tube cylindrical shell is inboard, is in the upper reaches of built-in core body, has the effect of fluid rectifier and balanced device; The downstream flow adjuster also adopts radial blade formula structure, is fixedly mounted on the pressure port outside, downstream on the measuring tube cylindrical shell, has the effect of fluid rectifier and balanced device; Built-in core body is installed in the measuring tube cylindrical shell, and the intermediate core nose of built-in core body is installed in the fiaring cone axon hole, center on the upstream flow adjuster, and the middle plug rear end of built-in core body is installed in the fiaring cone axon hole, center on the downstream flow adjuster; Measuring tube constitutes the inner venturi tube throttling element with the built-in core body that is installed in its inside;

A upstream pressure sensor assembly all is installed on the pressure port filtrator of the upper reaches, and upper reaches pressure port filter connector on the upstream pressure sensor assembly and the upper reaches pressure port filtrator on the measuring tube cylindrical shell link together through thread connecting mode;

A downstream pressure sensor assembly all is installed on the pressure port filtrator of downstream, and downstream pressure port filter connector on the downstream pressure sensor assembly and the downstream pressure port filtrator on the measuring tube cylindrical shell link together through thread connecting mode;

Temperature sensor is installed on the temperature sensor mount pad, links together through thread connecting mode;

Mounting bracket is fixedly mounted on the pipeline of upstream three-way connector and downstream three-way connector, and the computer data processing unit is fixedly mounted on the mounting bracket;

The temperature signal output terminal of temperature sensor is wired to the temperature signal input end of computer data processing unit;

Pressure signal output terminal on upstream pressure sensor assembly and the downstream pressure sensor assembly is all through the connect one to one pressure signal input end of computer data processing unit of lead;

Control input end on upstream pressure sensor assembly and the downstream pressure sensor assembly is all through the connect one to one control output end of computer data processing unit of lead.

2. a kind of integral intelligent flowmeter according to claim 1 is characterized in that: the cone angle a1 of the leading portion cone of built-in core body is 16 °～24 °, length L 1=2～3 * (D-d), and wherein D is the measuring tube internal diameter, d is the stage casing cylinder diameter; The cylindrical length L 2=d in stage casing; The cone angle a2 of rear cone is 4 °～18 °, length L 3 >=d.

3. a kind of integral intelligent flowmeter according to claim 1 and 2; It is characterized in that: the installation quantity of upstream pressure sensor assembly is no less than two; The installation quantity of downstream pressure sensor assembly is no less than two; The installation quantity of upstream pressure sensor assembly can equate with the installation quantity of downstream pressure sensor assembly, also can be unequal.

Images