CN207816368U - Orifice union, rectification and flow measurement device - Google Patents

Abstract

A kind of orifice union, rectification and flow measurement device.Orifice union includes center throttling element and multiple peripheral throttling elements, multiple periphery throttling elements are sheathed on the outside of center throttling element successively, and it is coaxial with center throttling element, it is respectively formed annular fluid passage between center throttling element peripheral throttling element adjacent thereto, between adjacent peripheral throttling element, along the axial direction of center throttling element, annular fluid passage includes interconnected entrance contraction section and iso-cross-section section.The utility model generates sensitive clearly differential pressure signal while stabilization of fluidized, can improve the accuracy and reliability of flow measurement.

Description

Orifice union, rectification and flow measurement device

Technical field

The utility model is related to field of flow measurement, and in particular to a kind of orifice union and the rectification including the orifice union And flow measurement device.

Background technology

If being placed in the throttling element that a circulation area is less than conduit cross-sectional area in the pipeline full of fluid, in pipeline Fluid beam just will produce local contraction or flow separation when by the throttling element, at contraction or separation, static pressure meeting It reduces, therefore will produce certain pressure difference (also known as differential pressure) before and after throttling element.There are one between this pressure difference and flow Fixed functional relation, therefore the forward and backward pressure difference measurements flow of the throttling element in measurement merging pipeline can be passed through.

In existing merging pipeline using between stagnation pressure and static pressure pressure difference realize flow measurement flow sensor with Orifice plate (see Fig. 1), calibrating nozzle, Venturi tube, various even speed tubes are the most typical.Wherein, orifice plate, calibrating nozzle, Venturi tube Difference is caused stress etc. being the contraction that occurs when flowing through measuring piece by fluid；Even speed tube by fluid mainly to flow through measuring piece The separation of Shi Fasheng causes stress difference.In order to overcome the dresses such as the various pumps of upstream and downstream, valve, elbow, bypass in fluid transmission pipe The influence of the unfavorable factors such as caused whirlpool, pulsation is set, these flow sensors are required for long in use Front and back straight pipe, to ensure that the flowing when measuring flow in pipeline is fully developed standard pipe stream.Front and back straight pipe is wanted Ask the application scenario for significantly limiting various flow sensors, thus engineers and technicians using various fairings come as early as possible Ground makes the flow development in pipeline to standard state.

Existing fairing is usually made of the elongated channel of a branch of or several beams, if controlling the quantity in these channels, just Flow constriction or separation can be caused before and after channel, so as to generate differential pressure for flow measurement；Reduce the density in channel simultaneously, And these channels are set according to certain rule, advantageously reduce interacting between channel rear portion flow separation.It is based on This thinking, engineers and technicians have developed tool as shown in Figure 2 a and 2 b based on the normal flows sensor such as orifice plate There is the throttling set of porous channel, is used for rectification and flow measurement.

United States Patent (USP) US5341848, US5529093 all disclose it is a kind of it is with multiple circular channels, with certain thick The plate fairing (i.e. multi-hole orifice) of degree.And according to certain rule to the size, quantity, present position of circular channel into Row is appropriate to be arranged, to improve flow stability, flowing is made fully to develop as early as possible.

United States Patent (USP) US7051765 and Chinese patent CN200710162844.6 further disclose a kind of balance hole plate, It is equally have multiple through-holes disposed according to certain rules, have certain thickness plate-like devices.On this balance hole plate The size of through-hole, quantity, position are according to making the requirement that Reynolds number is equal in each through-hole be configured, to balance fluidised form, make stream Dynamic fully development as early as possible, improves measuring accuracy.

Chinese patent CN201110344567.7, CN201120087553.7, CN201220273926.4 etc. are also announced The multi-hole orifices of similar structures is used for flow measurement.Chinese patent CN201220323927.5 discloses a kind of Venturi type Multi-hole orifice, each through-hole have the intermediate gradual thicker shape in thin both sides, i.e. Venturi type.When fluid flows through this orifice plate When, since venturi shape is close to streamlined, reduce turbulent flow, to reduce front and back straight pipe requirement, also due to reducing Turbulent flow, keeps pressure signal more stable, to improve measurement accuracy.Chinese patent CN201410241286.2 discloses one kind Jet rose reaches same purpose using the calibrating nozzle of one or more groups of central symmetries distribution.

Although these prior arts promote the development of differential pressure type flow meter, but can not be in stabilization of fluidized Sensitive clearly differential pressure signal is generated simultaneously, is still extremely improved space.

Utility model content

The purpose of this utility model is to propose a kind of orifice union and the rectification including the orifice union and flow measurement dress It sets, to generate sensitive clearly differential pressure signal while stabilization of fluidized, improves the accuracy and reliability of flow measurement.

On the one hand the utility model provides a kind of orifice union, including center throttling element and multiple peripheral throttling elements, described Multiple periphery throttling elements are sheathed on the outside of the center throttling element, and, the center coaxial with the center throttling element successively It is respectively formed annular fluid passage between throttling element peripheral throttling element adjacent thereto, between adjacent peripheral throttling element, along institute State the axial direction of center throttling element, the annular fluid passage includes interconnected entrance contraction section and iso-cross-section section.

Preferably, the axial length of the center throttling element and the multiple peripheral throttling element is equal, and axial end face phase Mutually alignment.

Preferably, the center throttling element is cylindricality, including the first segment and second segment being connected, and is throttled along the center The axial direction of part, the reduced diameter of the first segment of the center throttling element, the second segment of the center throttling element are etc. The cylinder of diameter；The periphery throttling element is infundibulate, including the first segment and second segment being connected, along the peripheral throttling element Axial direction, the second segment of the reduced diameter of the first segment of the periphery throttling element, the periphery throttling element is equal straight The cylinder of diameter.

Preferably, the area of the cross section of the annular fluid passage meets following formula (1), wherein the cross section is hung down Directly in the axial direction of the center throttling element：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

r_iFor the center radius of circle of the iso-cross-section section of i-th of annular fluid passage.

Preferably, the center throttling element is cylindricality, and the periphery throttling element is tubular, is throttled perpendicular to the center On each axial section of part, the cross section of the center throttling element is rectangle, and the cross section of the periphery throttling element is Rectangular-ambulatory-plane, along the axial direction of the center throttling element, the center throttling element include the first entrance contraction section that is connected and First equidimension section, the periphery throttling element includes the second entrance contraction section being connected and the second equidimension section.

Preferably, the area of the cross section of the annular fluid passage meets following formula (2), wherein the cross section is hung down Directly in the axial direction of the center throttling element：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

z_iFor the half of the catercorner length of the central rectangular of the iso-cross-section section of i-th of annular fluid passage.

Preferably, the orifice union is for being set in pipe under test, and the pipe under test is cylindrical shape, and it is described in Heart throttling element, the multiple peripheral throttling element and pipe under test coaxial arrangement, the inner wall of the pipe under test are equipped with ring Shape protrusion, includes entrance contraction section and iso-cross-section to also be formed between the pipe under test peripheral throttling element adjacent thereto The annular fluid passage of section is equipped with high pressure pressure on the side wall of the pipe under test close to the arrival end of the orifice union Hole is equipped with low pressure pressure port close to the outlet end of the orifice union.

Preferably, the orifice union is for being set in pipe under test, and the pipe under test is square tube shape, and it is described in Heart throttling element, the multiple peripheral throttling element and pipe under test coaxial arrangement, the inner wall of the pipe under test are equipped with ring Shape protrusion, includes entrance contraction section and iso-cross-section to also be formed between the pipe under test peripheral throttling element adjacent thereto The annular fluid passage of section is equipped with high pressure pressure on the side wall of the pipe under test close to the arrival end of the orifice union Hole is equipped with low pressure pressure port close to the outlet end of the orifice union.

Preferably, support connector is equipped in the annular fluid passage.

Preferably, the support connector is multiple, and is uniformly distributed along the circumferential direction of the annular fluid passage.

On the other hand the utility model provides a kind of rectification and flow measurement device, including：

Measurement pipe；

The orifice union, the orifice union are set in the measurement pipe；

Wherein, the center throttling element, the multiple peripheral throttling element and measurement pipe coaxial arrangement, the measurement pipe Inner wall be equipped with annular protrusion, include entrance contraction to also be formed between the measurement pipe peripheral throttling element adjacent thereto The annular fluid passage of section and iso-cross-section section, the arrival end close to the orifice union on the side wall of the measurement pipe are equipped with High pressure pressure port is equipped with low pressure pressure port close to the outlet end of the orifice union.

Preferably, the measurement pipe is cylindrical shape, and the area of the cross section of the annular fluid passage meets following formula (1), wherein the cross section perpendicular to the measurement pipe axial direction：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

r_iFor the center radius of circle of the iso-cross-section section of i-th of annular fluid passage.

Preferably, the measurement pipe is square tube shape, and the area of the cross section of the annular fluid passage meets following formula (2), wherein the cross section perpendicular to the measurement pipe axial direction：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

z_iFor the half of the catercorner length of the central rectangular of the iso-cross-section section of i-th of annular fluid passage.

Preferably, the rectification and flow measurement device further include high pressure pressure guiding pipe, low pressure pressure guiding pipe and differential pressure transmitter, One end of the high pressure pressure guiding pipe is connected to the high pressure pressure port, and the other end is connected to the high-pressure side of the differential pressure transmitter Mouthful, one end of the low pressure pressure guiding pipe is connected to the low pressure pressure port, and the other end is connected to the low pressure of the differential pressure transmitter Port.

The beneficial effects of the utility model are：Due to the squeezing action of annular fluid passage, fluid enters annular fluid Flow velocity quickening, pressure reduction, velocity flow profile are easy to be organized into the form for standard of comparison behind channel.The VELOCITY DISTRIBUTION of pipe stream Pipe stream is further adjusted, just by the state being originally layered using coaxial annular fluid passage by different levels (i.e. shorter distance ground) flow regime can quickly be standardized.

Since orifice union can make the fluid in pipe under test flow fast and stable, regular velocity flow profile is formed, From without installing required front and back straight pipe when existing flow measurement device measures, the requirement to field condition is reduced. Annular fluid passage can form pressure drop and can be used for flow measurement to generate while carrying out rectification to tube fluid state Stabilization, high s/n ratio differential pressure signal, to improve the precision and reliability of flow measurement.

Annular fluid conduit includes interconnected entrance contraction section and iso-cross-section section, when fluid stream is through throttling element, Pressure reaches maximum in front of entrance contraction section, is minimized in iso-cross-section section pressure, can form pressure drop to which generation can Differential pressure signal for flow measurement.

Description of the drawings

The utility model exemplary embodiment is described in more detail in conjunction with the accompanying drawings, the utility model it is above-mentioned And other purposes, feature and advantage will be apparent, wherein identical in the utility model exemplary embodiment Reference numeral typically represents same parts.

Fig. 1 shows the scheme of installation of existing orifice flowmeter；

Fig. 2 a and Fig. 2 b show the schematic diagram of the existing throttling set with porous channel respectively；

Fig. 3 shows the rectification of first embodiment according to the present utility model and the sectional view of flow measurement device；

Fig. 4 shows the rectification of first embodiment according to the present utility model and the side view of flow measurement device；

Fig. 5 shows the stereogram of the orifice union of first embodiment according to the present utility model；

Fig. 6 shows the sectional view of the orifice union of first embodiment according to the present utility model；

Fig. 7 shows the rectification of first embodiment according to the present utility model and the annular fluid passage of flow measurement device The sectional view of iso-cross-section section；

Fig. 8 shows the stereogram of the orifice union of second embodiment according to the present utility model；

Fig. 9 shows the sectional view of the orifice union of second embodiment according to the present utility model；

Figure 10 shows the rectification of second embodiment according to the present utility model and the annular fluid passage of flow measurement device Sectional view.

Reference sign：

101- orifice plates, 102- measure mouth, 103- steel pipes；

1- annular fluid passages, 1a- annular fluid passages, 1b- annular fluid passages, the centers 2- throttling element, the peripheries 3- section Flow part, 4- high pressure pressure ports, 5- low pressure pressure ports, 6- differential pressure transmitters, 7- computers, 8- measurement pipes, 9- support elements, 10- rings Shape protrusion.

Specific implementation mode

The utility model is more fully described below with reference to accompanying drawings.Although showing the preferred of the utility model in attached drawing Embodiment, however, it is to be appreciated that may be realized in various forms the utility model without should be limited by embodiments set forth here System.On the contrary, these embodiments are provided so that the utility model is more thorough and complete, and can be by the utility model Range is completely communicated to those skilled in the art.

Orifice union according to the utility model embodiment includes center throttling element and multiple peripheral throttling elements, multiple peripheries Throttling element is sheathed on the outside of center throttling element successively, and coaxial with center throttling element, center throttling element periphery adjacent thereto It is respectively formed annular fluid passage between peripheral throttling element between throttling element, adjacent, along the axial direction of center throttling element, ring Shape fluid channel includes interconnected entrance contraction section and iso-cross-section section.

In use, orifice union may be disposed in pipe under test, according to the shape of orifice union, pipe under test can be circle Tubular or square tube shape, and center throttling element, multiple peripheral throttling elements and pipe under test coaxial arrangement, pipe under test are adjacent thereto Annular fluid passage is also formed between peripheral throttling element, height is equipped with close to the arrival end of orifice union on the side wall of pipe under test Pressure port is pressed, low pressure pressure port is equipped with close to the outlet end of orifice union.

When carrying out flow measurement to pipe under test, perfect condition is that the flow regime in pipeline is fully developed pipe stream. Thus in actual industrial process control or trade settlement, there is strictly the front and back straight pipe that should be arranged when being installed to various flowmeters It is required that ensure that pipe stream fully develops the accuracy for ensureing to measure and reliability.However in practice, by field condition Limitation, can not usually ensure the setting of straight pipe, so various fairings come into being.In addition, in design discharge timing, It is also contemplated that it has preferable detectability, to improve flow measurement accuracy and reliability.

When being installed in pipe under test according to the orifice union of the utility model embodiment, the pipe under test of coaxial arrangement, Center throttling element and peripheral throttling element form multiple coaxial annular fluid passages.Due to the squeezing action of annular fluid passage, Fluid enters flow velocity quickening, pressure reduction after annular fluid passage, and velocity flow profile is easy to be organized into the shape for standard of comparison State.Pipe stream is further pressed difference by the state that the VELOCITY DISTRIBUTION of pipe stream is originally layered using coaxial annular fluid passage Level be adjusted, can quickly (i.e. shorter distance ground) flow regime be standardized.Since orifice union can make to wait for Fluid in test tube road flows fast and stable, forms regular velocity flow profile, from without installing existing flow measurement device Required front and back straight pipe, reduces the requirement to field condition when measurement.

In addition, annular fluid conduit includes interconnected entrance contraction section and iso-cross-section section, in entrance contraction section, ring The cross-sectional area of shape fluid channel is along the axial direction of center throttling element (after i.e. orifice union is installed in pipe under test Fluid flow direction) it is gradually reduced, in iso-cross-section section, the cross-sectional area of annular fluid passage keeps constant constant.Work as fluid When flowing through throttling element, pressure reaches maximum in front of entrance contraction section, is minimized in iso-cross-section section pressure, can form pressure Drop can be used for the differential pressure signal of flow measurement to generate.When measurement, the entering close to orifice union on the side wall of pipe under test High pressure pressure port is arranged in mouth end, and low pressure pressure port is arranged close to the outlet end of orifice union, is taken by high pressure pressure port and low pressure It presses hole to carry out pressure, and utilizes pressure sensor or differential pressure pick-up measure differences in pressure, and then can calculate and pass through pipe under test Flow.Since the rectification effect of this orifice union is good, can be stablized, the differential pressure signal of high s/n ratio, to Improve the precision and reliability of flow measurement.

In one example, the axial length of center throttling element and multiple peripheral throttling elements is equal, and axial end face is mutual Alignment includes entrance contraction section and iso-cross-section section in favor of being formed.

In one example, center throttling element is cylindricality, including the first segment and second segment being connected, along center throttling element Axial direction, the reduced diameter of the first segment of center throttling element, the second segment of center throttling element is isodiametric cylinder； Peripheral throttling element is infundibulate, including the first segment and second segment being connected, peripherally the axial direction of throttling element, periphery throttling The second segment of the reduced diameter of the first segment of part, peripheral throttling element is isodiametric cylinder.By with above-mentioned shape Center throttling element and peripheral throttling element, can form the annular fluid passage including entrance contraction section and iso-cross-section section.At this In the case of kind, when orifice union is set in pipe under test, annular protrusion is set on the inner wall of pipe under test in advance, to Also formed between pipe under test peripheral throttling element adjacent thereto includes that the annular fluid of entrance contraction section and iso-cross-section section leads to Road.The axial cross section of the annular protrusion can be that curl is trapezoidal.

In one example, the area of the cross section of annular fluid passage meets following formula (1), and wherein cross section is vertical In the axial direction of center throttling element：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

r_iFor the center radius of circle of the iso-cross-section section of i-th of annular fluid passage.

By the measuring of the numerical simulation and experimental fluid mechanics (EFD) of Fluid Mechanics Computation (CFD), work as annular flow When the area of the cross section in body channel meets above-mentioned formula (1), orifice union has best rectification effect, corresponding flow measurement Precision highest.

In one example, all annular fluid passages are (including between center throttling element peripheral throttling element adjacent thereto Annular fluid passage, the annular fluid passage between adjacent peripheral throttling element and pipe under test periphery section adjacent thereto Annular fluid passage between stream part) the area of cross section be satisfied by formula (1), wherein cross section is perpendicular to pipe under test It is axial：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

r_iFor the center radius of circle of the iso-cross-section section of i-th of annular fluid passage.

In actual use, the flow velocity in each annular fluid passage can be determined according to actual condition, for example, when being applied to When long straight pipeline and relatively smooth inner wall of the pipe, the flow velocity in each annular fluid passage is of substantially equal；When applied to long straight tube When road but larger inner wall of the pipe roughness, the flow velocity in the annular fluid passage for measuring tube hub is larger.

In one example, center throttling element is cylindricality, and peripheral throttling element is tubular, in the axis perpendicular to center throttling element To each section on, the cross section of center throttling element is rectangle, and the cross section of peripheral throttling element is rectangular-ambulatory-plane, along centromere The axial direction of part is flowed, center throttling element includes the first entrance contraction section being connected and the first equidimension section, peripheral throttling element Including the second entrance contraction section being connected and the second equidimension section.

Wherein, along the axial direction of center throttling element, (fluid after i.e. orifice union is installed in pipe under test flows Direction), the size (long and wide) of the rectangular cross section of the first entrance contraction section of center throttling element is gradually reduced, the first equidimension The size of the rectangular cross section of section keeps constant constant.Preferably, the length of rectangular cross section and width are respectively with center throttling element Equal proportion changes centered on axis.Similar, along the axial direction of center throttling element, the second entrance contraction section of peripheral throttling element The size (length of periphery and wide and inner circumferential length and width) of rectangular-ambulatory-plane cross section be gradually reduced, the Back Word of the second equidimension section The size of shape cross section keeps constant constant.

Similar, the area of the cross section of annular fluid passage meets following formula (2), wherein the cross section perpendicular to The axial direction of center throttling element：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

z_iFor the half of the catercorner length of the central rectangular of the iso-cross-section section of i-th of annular fluid passage.

Central rectangular is the rectangle positioned at the centre position of annular fluid passage periphery and inner circumferential, the side of central rectangular with it is outer Week is equal with the distance of inner circumferential.

In one example, support connector is equipped in annular fluid passage, support connector can be supporting rod or branch Blade.Support peripheral throttling element that connector can be adjacent thereto to center throttling element, between adjacent peripheral throttling element and Pipe under test peripheral throttling element adjacent thereto is supported and connects, and the relative position between these components is kept to fix.It is excellent Selection of land, support connector is multiple, and is uniformly distributed along the circumferential direction of annular fluid passage.

The utility model embodiment also provides a kind of rectification and flow measurement device, including：

Measurement pipe；

The orifice union, orifice union are set in measurement pipe；

Wherein, center throttling element, multiple peripheral throttling elements and measurement pipe coaxial arrangement, the inner wall of measurement pipe are equipped with annular Protrusion, to also form the annular for including entrance contraction section and iso-cross-section section between measurement pipe peripheral throttling element adjacent thereto Fluid channel is equipped with high pressure pressure port on the side wall of measurement pipe close to the arrival end of orifice union, close to going out for orifice union Mouth end is equipped with low pressure pressure port.

The rectification and flow measurement device can be more convenient, accurately carry out rectification and flow measurement.In use, by rectification And flow measurement device is concatenated with pipe under test, without carrying out installation of the orifice union in pipe under test, and is conducive to The alignment for ensureing each annular fluid passage, to improve measurement accuracy.

It the measurement process and principle of the rectification and flow measurement device and was measured above with reference to described in orifice union Journey and principle are identical, and details are not described herein.

In one example, measurement pipe is cylindrical shape, and the area of the cross section of annular fluid passage meets formula (1), Axial direction of the middle cross section perpendicular to measurement pipe：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

r_iFor the center radius of circle of the iso-cross-section section of i-th of annular fluid passage.

In one example, measurement pipe is square tube shape, and the area of the cross section of annular fluid passage meets following formula (2), wherein axial direction of the cross section perpendicular to measurement pipe：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

z_iFor the half of the catercorner length of the central rectangular of the iso-cross-section section of i-th of annular fluid passage.

In one example, rectification and flow measurement device further include high pressure pressure guiding pipe, low pressure pressure guiding pipe and differential pressure transporting One end of device, high pressure pressure guiding pipe is connected to high pressure pressure port, and the other end is connected to the high pressure port of differential pressure transmitter, low pressure impulse One end of pipe is connected to low pressure pressure port, and the other end is connected to the low-pressure port of differential pressure transmitter.

According to the differential pressure between high pressure port and low-pressure port, the flow by measurement pipe, such as following formula can be calculated (3) and shown in (4)：

Wherein：

q_vFor volume flow；

q_mFor mass flow；

α is discharge coefficient, is calibrated and is determined by experimental data；

ε is com-pressible factor, and when fluid is incompressible state, ε=1 passes through school when fluid is compressed state Quasi-experiment data obtain the value of ε；

D is the equivalent diameter of standard toroidal fluid channel,

ρ is measured medium density；

Δ P is differential pressure.

In one example, the both ends of measurement pipe are respectively equipped with connecting flange, can pass through connecting flange and pipe under test It is attached.

Embodiment 1

Fig. 3 and 4 show respectively sectional view according to the rectification of the utility model first embodiment and flow measurement device and Side view, Figures 5 and 6 show that the stereogram and sectional view of the orifice union according to the utility model first embodiment, Fig. 7 are aobvious respectively Show the sectional view of the annular fluid passage of the rectification and flow measurement device according to the utility model first embodiment.

Include measurement pipe according to the rectification of the utility model first embodiment and flow measurement device as shown in the figures above 8 and the orifice union in measurement pipe 8.Wherein, orifice union includes center throttling element 2 and multiple peripheral throttling elements 3.Center Throttling element 2 is cylindricality, including the first segment and second segment that are connected, along the axial direction of center throttling element, center throttling element 2 The reduced diameter of first segment, the second segment of center throttling element 2 are isodiametric cylinder, the diameter of second segment and first segment Minimum diameter is equal.Peripheral throttling element 3 is infundibulate, including the first segment and second segment being connected, peripherally the axis of throttling element 3 To direction, the second segment of the reduced diameter of the first segment of peripheral throttling element 3, peripheral throttling element 3 is isodiametric cylinder, the Two sections of diameter is equal with the minimum diameter of first segment.The side wall of peripheral throttling element 3 has certain thickness.Measurement pipe 8 is cylinder Shape, inner wall are equipped with annular protrusion 10, and the axial cross section of annular protrusion 10 is that curl is trapezoidal.

Multiple periphery throttling elements 3 are sheathed on the outside of center throttling element 2, center throttling element 2, multiple peripheral throttling elements successively 3 and measurement pipe 8 be coaxially disposed, between center throttling element peripheral throttling element adjacent thereto, between adjacent peripheral throttling element, with And be respectively formed annular fluid passage 1 between measurement pipe peripheral throttling element adjacent thereto, wherein annular fluid passage 1a near The side wall of nearly measurement pipe 8, axis of the annular fluid passage 1b near measurement pipe 8.Along the axial direction of center throttling element 2, ring Shape fluid channel 1 includes the entrance contraction section being interconnected and iso-cross-section section.It is equipped with support in each annular fluid passage 1 Connector 9, support connector 9 play fixed supporting role to center throttling element 2 and peripheral supports 3.

It is equipped with high pressure pressure port 4 close to the arrival end of orifice union on the side wall of measurement pipe 8, close to going out for orifice union Mouth end is equipped with low pressure pressure port 5.One end of high pressure pressure guiding pipe is connected to high pressure pressure port 4, and the other end is connected to differential pressure transmitter 6 High pressure port, one end of low pressure pressure guiding pipe is connected to low pressure pressure port 5, and the other end is connected to the low-pressure end of differential pressure transmitter 6 Mouthful.Difference transmitter 6 is connect with computer 7.

In the present embodiment, center throttling element 2 is equal with the axial length of multiple peripheral throttling elements 3, and center throttling element 2 It is mutually aligned with the axial end face of multiple peripheral throttling elements 3.The area of the cross section of annular fluid passage meets formula (1), public S in formula (1)_iAnd r_i(i=1,2,3) mark is in Fig. 7.

In use, rectification and flow measurement device are concatenated with pipe under test, when fluid flow to the device from pipe under test, by In the barrier effect of orifice union, higher pressure is generated in the arrival end of orifice union, by measurement pipe side wall High pressure is transferred to the high pressure port of differential pressure transmitter by high pressure pressure port and pressure guiding pipe；Due to the barrier effect of throttling element, fluid It can only pass through from annular fluid passage, be minimized in iso-cross-section section pressure, pass through the low pressure on measurement pipe side wall Low pressure is transferred to the low-pressure port of differential pressure transmitter by pressure port and pressure guiding pipe；Differential pressure transmitter is by high-voltage signal and low-voltage signal Computer is passed to, corresponding flow is calculated according to formula (3) or (4) by computer.

Embodiment 2

Fig. 8 and Fig. 9 shows the stereogram and sectional view of the orifice union of second embodiment according to the present utility model respectively. Second embodiment and first embodiment difference lies in measurement pipe, center throttling element and the peripheral shape of throttling element are different, and In order to ensure that fluid smooth flow, center throttling element and periphery throttling element carry out rounded corner processing respectively, to which annular fluid is logical The cross section in road is fillet rectangular-ambulatory-plane.

In the present embodiment, center throttling element is cylindricality, and peripheral throttling element is tubular, in the axis perpendicular to center throttling element To each section on, the cross section of center throttling element is round rectangle, and the cross section of peripheral throttling element is fillet rectangular-ambulatory-plane, Along the axial direction of center throttling element, center throttling element includes the first entrance contraction section being connected and the first equidimension section, outside It includes the second entrance contraction section being connected and the second equidimension section to enclose throttling element.In the present embodiment, measurement pipe, periphery throttling The area for the cross section that part, center throttling element are formed by annular fluid passage meets above formula (2).In this case, It, can be to z at application formula (2)_iValue be adjusted, according to shown in Figure 10 determine z_iValue, with improve calculate it is accurate Property.

Each embodiment of the utility model is described above, above description is exemplary, and non-exclusive, and And it is also not necessarily limited to disclosed each embodiment.Without departing from the scope and spirit of illustrated each embodiment, for Many modifications and changes will be apparent from for those skilled in the art.

Claims (13)

1. a kind of orifice union, which is characterized in that including center throttling element and multiple peripheral throttling elements, the multiple periphery throttling Part is sheathed on the outside of the center throttling element successively, and coaxial with the center throttling element, the center throttling element and its phase It is respectively formed annular fluid passage between adjacent peripheral throttling element, between adjacent peripheral throttling element, along the center throttling element Axial direction, the annular fluid passage includes interconnected entrance contraction section and iso-cross-section section.

2. orifice union according to claim 1, which is characterized in that the center throttling element and the multiple periphery throttling The axial length of part is equal, and axial end face is mutually aligned.

3. orifice union according to claim 2, which is characterized in that the center throttling element is cylindricality, including is connected First segment and second segment, along the axial direction of the center throttling element, the diameter of the first segment of the center throttling element is gradual It reduces, the second segment of the center throttling element is isodiametric cylinder；The periphery throttling element is infundibulate, including be connected First segment and second segment, along the axial direction of the peripheral throttling element, the diameter of the first segment of the periphery throttling element gradually contracts Small, the second segment of the periphery throttling element is isodiametric cylinder.

4. orifice union according to claim 3, which is characterized in that the area of the cross section of the annular fluid passage is full Sufficient following formula (1), wherein axial direction of the cross section perpendicular to the center throttling element：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

r_iFor the center radius of circle of the iso-cross-section section of i-th of annular fluid passage.

5. orifice union according to claim 1, which is characterized in that the center throttling element is cylindricality, the periphery section Stream part is tubular, on each axial section perpendicular to the center throttling element, the cross section of the center throttling element Cross section for rectangle, the periphery throttling element is rectangular-ambulatory-plane, along the axial direction of the center throttling element, the center throttling Part includes the first entrance contraction section being connected and the first equidimension section, and the periphery throttling element includes the second entrance being connected Contraction section and the second equidimension section.

6. orifice union according to claim 5, which is characterized in that the area of the cross section of the annular fluid passage is full Sufficient following formula (2), wherein axial direction of the cross section perpendicular to the center throttling element：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

z_iFor the half of the catercorner length of the central rectangular of the iso-cross-section section of i-th of annular fluid passage.

7. orifice union according to claim 3, which is characterized in that the orifice union is for being set to pipe under test Interior, the pipe under test is cylindrical shape, and the center throttling element, the multiple peripheral throttling element and the pipe under test are coaxial Setting, the inner wall of the pipe under test are equipped with annular protrusion, to the pipe under test peripheral throttling element adjacent thereto it Between also formed include entrance contraction section and iso-cross-section section annular fluid passage, the close institute on the side wall of the pipe under test The arrival end for stating orifice union is equipped with high pressure pressure port, and low pressure pressure port is equipped with close to the outlet end of the orifice union.

8. orifice union according to claim 5, which is characterized in that the orifice union is for being set to pipe under test Interior, the pipe under test is square tube shape, and the center throttling element, the multiple peripheral throttling element and the pipe under test are coaxial Setting, the inner wall of the pipe under test are equipped with annular protrusion, to the pipe under test peripheral throttling element adjacent thereto it Between also formed include entrance contraction section and iso-cross-section section annular fluid passage, the close institute on the side wall of the pipe under test The arrival end for stating orifice union is equipped with high pressure pressure port, and low pressure pressure port is equipped with close to the outlet end of the orifice union.

9. orifice union according to claim 1, which is characterized in that be equipped with support connection in the annular fluid passage Part.

10. a kind of rectification and flow measurement device, which is characterized in that including：

Measurement pipe；

According to the orifice union described in any one of claim 1-3 and 5, the orifice union is set in the measurement pipe；

Wherein, the center throttling element, the multiple peripheral throttling element and measurement pipe coaxial arrangement, the measurement pipe it is interior Wall is equipped with annular protrusion, to also formed between the measurement pipe peripheral throttling element adjacent thereto include entrance contraction section with The annular fluid passage of iso-cross-section section is equipped with high pressure on the side wall of the measurement pipe close to the arrival end of the orifice union Pressure port is equipped with low pressure pressure port close to the outlet end of the orifice union.

11. rectification according to claim 10 and flow measurement device, which is characterized in that the measurement pipe is cylindrical shape, The area of the cross section of the annular fluid passage meets following formula (1), wherein the cross section is perpendicular to the measurement pipe Axial direction：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

r_iFor the center radius of circle of the iso-cross-section section of i-th of annular fluid passage.

12. rectification according to claim 10 and flow measurement device, which is characterized in that the measurement pipe is square tube shape, The area of the cross section of the annular fluid passage meets following formula (2), wherein the cross section is perpendicular to the measurement pipe Axial direction：

Wherein, i=1 ... N, N are the quantity of annular fluid passage；

S_iFor the area of the cross section of the iso-cross-section section of i-th of annular fluid passage；

l_iFor the axial length of i-th of annular fluid passage；

v_iFor the flow velocity of the iso-cross-section section in i-th of annular fluid passage；

z_iFor the half of the catercorner length of the central rectangular of the iso-cross-section section of i-th of annular fluid passage.

13. rectification according to claim 10 and flow measurement device, which is characterized in that further include high pressure pressure guiding pipe, low Pressure pressure guiding pipe and differential pressure transmitter, one end of the high pressure pressure guiding pipe are connected to the high pressure pressure port, and the other end is connected to institute The high pressure port of differential pressure transmitter is stated, one end of the low pressure pressure guiding pipe is connected to the low pressure pressure port, and the other end is connected to The low-pressure port of the differential pressure transmitter.