CN201368751Y

CN201368751Y - Differential pressure flowmeter

Info

Publication number: CN201368751Y
Application number: CNU2009200838668U
Authority: CN
Inventors: 李曦; 宋异; 冯丹凤
Original assignee: Huazhong University of Science and Technology
Current assignee: Huazhong University of Science and Technology
Priority date: 2009-02-27
Filing date: 2009-02-27
Publication date: 2009-12-23
Anticipated expiration: 2019-02-27

Abstract

A differential pressure flowmeter belongs to a fluid measuring instrument, and solves the problems in the prior flowmeter of complicated structure and high cost, and is used for measuring fluid flow. The differential pressure flowmeter comprises a throttle pipe, an SMD (surface mounted device) pressure sensor, an SMD temperature sensor and a signal processing circuit, wherein the throttle pipe is a cylinder with a baffle arranged in the inner hole thereof; a conical, inverted conical or parabolic hole is formed at the center of the baffle; the SMD pressure sensor and the SMD temperature sensor are mounted in chambers on two sides of the baffle respectively, and output signals to the signal processing circuit for processing; and the signal processing circuit comprises a pressure signal processing module, a temperature signal processing module, an integrating module and a power supply. Aiming at different fluids, the utility model can select a compensation formula in the signal processing circuit to improve measurement precision; the remote and intellectualized instrument reading is realized through a remote control module or a digital display module; and in addition, the utility model has the advantages of small whole volume, simple structure, easy installation, and low processing cost of parts and components.

Description

A kind of differential pressure flowmeter

Technical field

The utility model belongs to the fluid metering instrument, relates in particular to a kind of differential pressure type apparatus for metering fluids that has temperature compensation function.

Background technology

Flowmeter is widely used in fields such as oil, chemical industry, metallurgy and daily life.Along with the carrying out of national West-East National Gas Transmission Project, the large tracts of land of the development of oil gas field cause and city gas and coal gas is popularized, and the flow rate test scope expands to the measurement of rock gas, oil and other form fluids from simple fluid liquid.Flow is in respect of numerous species, and differential pressure flowmeter is an a kind of the most classical and utilization fluid metering instrument the most widely wherein.

On general structure, the differential pressure flowmeter that existing market is sold can be divided into following two classes: the first kind is the differential pressure flowmeter of band drainage tube; Another kind of not with the differential pressure flowmeter of drainage tube.The former advantage is to safeguard and does not influence when changing the normal transmission of fluid, but its constitutional detail is many, and volume is relatively large, is difficult for installing, and the loss of pressure in drainage tube is bigger, so error in dipping is relatively large; Latter's compact conformation, but less because of leaving the position that sensor installs for, mounting temperature sensor not usually, and the influence of temperature, pressure versus flow volume density and the characteristic of throttling element etc. all are grouped into an experience factor, the first back of demarcating just no longer changes.In fact the flow of fluid is subjected to many Effect of Environmental, as everyone knows, fluid temperature (F.T.), when pressure changes, its density also changes thereupon, especially is subjected to Temperature Influence bigger, simultaneously, the influence of the structure fluid pressure of differential pressure flowmeter restriction device is also bigger, measure differences in pressure can obtain result comparatively accurately nearby, and therefore, all there is certain error in dipping in above-mentioned two class formations.Integrated and intelligent and application demand high-precision measuring at differential pressure flowmeter, have considerable achievement in research and application example both at home and abroad, as utility model patent " temperature, pressure integral intelligent differential pressure flowmeter (ZL02244278.2) " is exactly a kind of temperature compensated flow meter that has, but its inner structure adopts eddy current type flow sensor; What adopted its inside of utility model patent " a kind of intelligent flow meter (ZL200620104194.0) " is that flow converter is measured fluid, and both equal prices are expensive, and are difficult for processing; What utility model patent " integral intelligent differential pressure flowmeter (ZL0222484.5) " adopted is the structure with drainage tube, brings the pressure loss; The application for a patent for invention book of having accepted " intelligent gas flowmeter (application number 02117499.7) " at the flow measurement of gas, does not fit into the measurement of multiple fluid specially.

Summary of the invention

The utility model provides a kind of differential pressure flowmeter, solves the problem of existing flowmeter structure complexity, cost costliness, is used for the flow measurement of fluid.

A kind of differential pressure flowmeter of the present utility model, comprise choker-line, sensor and signal processing circuit, described choker-line is the cylinder that endoporus has dividing plate, has the groove that is used to install signal processing circuit on its outer tube wall, and the dividing plate center has the hole of taper, back taper or paraboloidal; It is characterized in that:

Described sensor comprises SMD pressure transducer and SMD temperature sensor, and described SMD pressure transducer is installed in respectively in dividing plate two side cavity, and described SMD temperature sensor is installed in dividing plate one side or two side cavity; Described SMD pressure transducer and SMD temperature sensor output signal are delivered to signal processing circuit and are handled;

Described signal processing circuit comprises pressure signal processing module, processes temperature signal module, integrating module and power supply;

Described pressure signal processing module according to the output voltage of the SMD pressure transducer of frequency of operation timing sampling that sets, and is carried out the AD conversion, compares with reference voltage again, obtains force value;

Described processes temperature signal module according to the output voltage of the SMD temperature sensor of frequency of operation timing sampling that sets, and is carried out the AD conversion, compares with reference voltage again, obtains temperature value;

Described integrating module according to pressure, the temperature value that pressure, processes temperature signal module obtain, is carried out flow accumulation and compensation integrating, according to following formula, provides the metering result;

Q = C_{d} α A_{2} \sqrt{\frac{2 (p_{1} - p_{2})}{ρ (1 - A_{2} / A_{1})}},

In the formula: Q is the flow of fluid, units/h; p ₁And p ₂Be respectively the force value of the dividing plate left and right sides, the Pa of unit; ρ is a fluid density, units/m ³

A ₁And A ₂Be respectively the sectional area of dividing plate left and right sides fluid, the m of unit ²

The temperature and pressure compensation coefficient

α = \sqrt{\frac{p_{1}}{T_{1}} \times \frac{T_{2}}{p_{2}}},

Flow coefficient C _dAccording to the length-diameter ratio β in hole on the dividing plate, the typical restriction device coefficient of flow variation diagram of searching the metrological testing technology handbook obtains.

Described differential pressure flowmeter is characterized in that:

On described each SMD pressure transducer and the SMD temperature sensor sleeve is housed, prevents that fluid from washing away it and come off; Also be welded with head protector on the sleeve of described each SMD temperature sensor, further guarantee the reliably working of sensor.

Described differential pressure flowmeter, it is further characterized in that:

Described signal processing circuit also has remote control module, and the receiving remote control signal changes the frequency of operation of signal processing circuit, and the metering result of described integrating module is carried out remote transmission; Remote control module adopts the radio frequency signal transmission chip that satisfies the IEEE802.15 agreement, realizes the transmission of wireless remote signal; Perhaps adopt transmission chip, realize the remote signal transmission of wired connection with RS485 interface.

The utility model can be selected different choker-lines for use at gas, mobile strong liquid and the fluid of the different specialities such as liquid a little less than the flowability, utilize SMD temperature sensor to realize the temperature compensation of flow rate test, realize the differential pressure computing by two groups of SMD pressure transducers, in signal processing circuit, select the pairing compensation formula of different choker-lines for use, improve measuring accuracy; And realize long-range, the intelligent meter reading of differential pressure flowmeter by remote control module or digital display module, and overall volume is little, easy installation simple in structure, and the parts processing cost is low;

Description of drawings

Fig. 1 is an inner structure cut-open view of the present utility model;

Fig. 2 is the utility model signal processing circuit structure synoptic diagram;

Fig. 3 is " the typical restriction device coefficient of flow variation diagram of metrological testing technology handbook;

Fig. 4 is the utility model partial structurtes synoptic diagram.

Embodiment

As shown in Figure 1, the utility model comprises choker-line 1, sensor and signal processing circuit 3, described choker-line 1 has the groove that is used to install signal processing circuit 3 for endoporus has the cylinder of dividing plate on its outer tube wall, the dividing plate center has the hole of taper, back taper or paraboloidal; Sensor comprises SMD pressure transducer 2 and SMD temperature sensor 10, and SMD pressure transducer 2 is installed in respectively in dividing plate two side cavity, and SMD temperature sensor 10 is installed in dividing plate one side or two side cavity; SMD pressure transducer and SMD temperature sensor output signal are delivered to signal processing circuit 3 and are handled.

Signal processing circuit 3 is affixed by circuit board mounting base in the groove on choker-line 1 outer tube wall 5 and choker-line 1.The throttle orifice of choker-line 1 upper spacer can adopt multiple differential pressure implement devices such as orifice-plate type, venturi type, nozzle-type.

Choker-line 1 is fixed between detected fluid input channel 4 and the detected fluid output channel 6 by bolt.

As shown in Figure 2, signal processing circuit comprises pressure signal processing module, processes temperature signal module, integrating module and power supply, can also have remote control module or local digital display module;

The pressure signal processing module of signal processing circuit, processes temperature signal module, integrating module adopt the high-performance low-power-consumption Single Chip Microcomputer (SCM) system to realize, power supply can adopt button cell, under the normal condition, its working time, installation dimension was not more than 25mm * 30mm greater than 1 year.

Remote control module adopts low-power consumption near radio radio signal transmission chip, the frequency of operation height, and antijamming capability is strong, as the CC2340 radio frequency chip, can realize the function of long-range meter reading, or adopts the RS485 module to realize remote wire transmission.Moreover, the utility model also can replace with remote control module local digital display module, realizes local direct digital display.

Concrete test and signal Processing and transmission course as shown in Figure 2, the SMD pressure transducer of upstream and downstream is responded to the force value of fluid, and by lead fluid upstream and downstream pressure signal is transferred in the signal processing circuit; SMD sensor is responded to the temperature of upstream and downstream fluid respectively, is sent to signal processing circuit by lead, and signal processing circuit is measured pressure and temperature according to pre-determined frequency of operation; Minimum for noise effect in the pressure and temperature conversion results is reduced to, can adopt " over-sampling " technology, obtain more redundant data, and carry out smoothing processing and average.This is measured result of calculation and delivers to the integrating module, according to selected compensation formula:

Q = C_{d} α A_{2} \sqrt{\frac{2 (p_{1} - p_{2})}{ρ (1 - A_{2} / A_{1})}},

The actual flow of convection cell carries out derivation, flow coefficient C in the formula _dAccording to the length-diameter ratio β in hole on the dividing plate, the typical restriction device coefficient of flow variation diagram of searching the metrological testing technology handbook obtains.The metrological testing technology handbook can be consulted Lin Zonghu. " metrological testing technology handbook, the 6th volume [z]. Beijing: China Measuring Press, 1996,11; Relevant coefficient of flow variation diagram is formed by the pairing coefficient of flow table drafting of the 40th page～63 pages various ways of measure pressure that provided of this handbook, sees Fig. 3.Among the figure, the β value provides above each bar curve, and transverse axis is the reynolds number Re of fluid, and the longitudinal axis is a flow coefficient C _dThe digital quantity that its integrating comes out passes the signal to by the low-power consumption near radio radio signal transmission chip in the remote control module in the pulpit in a distant place and shows, realize long-range, the intelligent management of flowmeter control, or directly on flowmeter, show by local digital display module, entire circuit is battery-powered, and normal working hours was greater than 1 year.

Fig. 4 represents that SMD pressure transducer and SMD temperature sensor are installed and the partial view of hermetically-sealed construction.Wherein, SMD pressure transducer 2 and SMD temperature sensor 10 installation dimensions are not more than 3mm * 3mm; On each SMD pressure transducer and the SMD temperature sensor sleeve 7 is housed, sleeve 7 welds with the tube wall of choker-line 1, and filling with sealant 9 in the sleeve 7 are realized fixing and sealing SMD pressure transducer 2 and SMD temperature sensor 10; Also be welded with head protector 8 on the sleeve 7 of described each SMD temperature sensor.

Claims

1. differential pressure flowmeter, comprise choker-line, sensor and signal processing circuit, described choker-line is the cylinder that endoporus has dividing plate, has the groove that is used to install signal processing circuit on its outer tube wall, and the dividing plate center has the hole of taper, back taper or paraboloidal; It is characterized in that:

Q = C_{d} α A_{2} \sqrt{\frac{2 (p_{1} - p_{2})}{ρ (1 - A_{2} / A_{1})}},

The temperature and pressure compensation coefficient

α = \sqrt{\frac{p_{1}}{T_{1}} \times \frac{T_{2}}{p_{2}}},

2. differential pressure flowmeter as claimed in claim 1 is characterized in that:

On described each SMD pressure transducer and the SMD temperature sensor sleeve is housed; Also be welded with head protector on the sleeve of described each SMD temperature sensor.

3. differential pressure flowmeter as claimed in claim 1 or 2, it is further characterized in that: