CN104236644A - Novel water meter with middle-through-hole movable throttling element - Google Patents

Abstract

The invention relates to a throttling type flowmeter, discloses a novel water meter with a middle-through-hole movable throttling element, and belongs to the technical field of automatic detection. The novel water meter is composed of the middle-through-hole movable throttling element (a movable venturi pipe in most occasions), a single corrugated pipe, supporting reeds, a meter case and a force sensor. The water meter has two structural styles, according to one structural style, the middle-through-hole movable throttling element is fixedly mounted in the middle of an inner cavity of the single corrugated pipe, and according to the other structural style, the shape of the middle section of the single corrugated pipe is made to the shape of the middle-through-hole movable throttling element, and the weight of the middle-through-hole movable throttling element and the weight of fixing accessories of the middle-through-hole movable throttling element are borne by the elastic supporting reeds. Compared with a differential pressure flowmeter, the advantage of a throttling device is given to full play, and the novel water meter has the advantages of being simpler in structure, lower in price, smaller in resistance loss, longer in service life, high in precision, capable of preventing blocking, wider in application range and the like, and has wide development prospects.

Description

Novel middle through-hole dynamic throttling element water meter

Technical field

The present invention relates to a kind of instrument realizing flow detection in Automatic Measurement Technique field, particularly relate to the water meter of restricting element.

Background technology

Water meter is effective metering outfit of water metering charge and using water wisely management, and wherein, small-bore residents water meter accounts for the overwhelming majority of the total consumption of water meter.While Urban water supply realizes reading the ammeter directly, also bringing registers one's residence disturbs residents, difficulty of registering one's residence and unsafe factor.For solving the problems referred to above of checking meter of registering one's residence, the Ministry of Construction releases remote transmitting water meter and the large class intellectual water meter solution of IC-card table two, and has put into effect corresponding technical standard.Although intellectual water meter is industry developing direction from now on, at present in base table technology and Automatic meter reading, also have a lot of area for improvement, what the present invention proposed is exactly one about the new departure how improving essentic-water-meter technology.At present both at home and abroad the small diameter watermeter overwhelming majority uses mechanical water meter, even the base table of the intellectual water meter such as prepayment IC-card water meter and electronic remote transmission water meter, be also almost mechanical water meter entirely.Due to mechanical water meter have that accuracy of measurement is not high, poor reliability, serviceable life are short, be subject to the defect such as pipeline water quality impact and production quality control difficulty, release the new water meter base tables such as electromagnetism water meter, jet stream water meter, Ultrasonic water meter, vortex water meter successively in industry.Compared with mechanical water meter, the existing pressure loss of above-mentioned novel base table is little, measurement range is wide, accuracy advantages of higher, also has the disadvantage that cost is much higher.Therefore, design is a kind of based on restriction device, thus price and mechanical water meter very nearly the same, more more advantageous than the mechanical water meter again essentic-water-meter of performance is exactly a very urgent job.In field of flow measurement, the development of restriction device has a longer historical progress.At the beginning of the 17th century, the research of Castries and evangelista torricelli is just for theoretical foundation established by restriction device.The twenties in 20th century, some countries of US and European almost start the experimental study carrying out large-scale restriction device simultaneously, thereby produce so far still widely used differential pressure flowmeter.But very unfortunate, the research mode of these American-European scientists because following fixation type throttle device before this, the due all advantages of restriction device do not given play to by the differential pressure flowmeter causing them to develop.Its tangible corrugated tube only proposes 1855 after the more than ten years, and Germany has just delivered the patent manufacturing corrugated tube at first, on this basis, can develop the better dynamic throttling element flowmeter of performance completely.In order to give full play to the advantage performance of restriction device in flow measurement, patent applicant have developed various new dynamic throttling element flowmeter.In the occasion that detected fluid working pressure is higher, can use " built-in middle through-hole dynamic throttling element flowmeter " (patent No. ZL201210118468.1); And in the not too high occasion of detected fluid working pressure, structure simpler " flowmeter of middle through-hole movable throttling element connected with elastic membranes or corrugated tube " (patent No. ZL201110187493.0) can be used.Above-mentioned two kinds of flowmeters all adopt the core component of dynamic throttling element as flowmeter of the middle through-hole of orifice plate, nozzle or Venturi tube profile.Compare with differential pressure flowmeter, above-mentioned flow is in respect of following advantages.First, this flowmeter does not use connecting pipe, but directly measures fluid to the thrust of dynamic throttling element, and thus structure is simpler, and price is also lower.Secondly, differential pressure flowmeter mainly uses orifice plate, and this flowmeter mainly uses dynamic Venturi tube, and thus resistance to flow is little, long service life, measuring accuracy are also higher.Again, because this flowmeter mainly uses dynamic Venturi tube, do not have connecting pipe again, anti-clogging ability is also better than differential pressure flowmeter greatly.Finally, because this flowmeter does not use connecting pipe, thus can measure pipe with small pipe diameter flow, usable range is wider.But in " flowmeter of middle through-hole movable throttling element connected with elastic membranes or corrugated tube ", respectively connecting a corrugated tube at dynamic throttling element two ends is a more difficult technique, this is because make thin-wall metal corrugated tube and dynamic throttling element be interconnected existing problems, be threaded or weld all more difficult enforcement because the wall of corrugated tube is thinner, thus have impact on the popularization of this dynamic throttling element flowmeter.Therefore, need the dynamic throttling element water meter designing a kind of new structure, overcome the difficulty that above-mentioned dynamic throttling element flowmeter runs in processing technology.The dynamic throttling element water meter of the new structure designed has the advantages that structure is simple, cost is low, various aspects of performance is excellent and be suitable for pipe with small pipe diameter flow measurement, is a kind of resultant effect preferably water meter.

Summary of the invention

The difficulty in manufacturing process is there is due to " flowmeter of middle through-hole movable throttling element connected with elastic membranes or corrugated tube ", be unfavorable for promoting the use of of the middle through-hole dynamic throttling element water meter of this structure, therefore, need to develop a kind of middle through-hole dynamic throttling element water meter structurally making manufacturing process simplify.

The technical scheme that the present invention adopts for its technical requirement of solution is as follows: as shown in Figure of description, and the water meter of development is a kind of novel middle through-hole dynamic throttling element water meter, is made up of middle through-hole dynamic throttling element, corrugated tube, watchcase, force snesor, novel middle through-hole dynamic throttling element water meter is single corrugated tube middle through-hole dynamic throttling element water meter, this water meter has two kinds of structural shapes, one installs a middle through-hole dynamic throttling element in the middle part of a corrugated tube inner chamber, the position standing finish of middle through-hole dynamic throttling element is arranged on the middle part of corrugated tube outside surface, the measured flux inlet end of corrugated tube one end and water meter housing is tightly connected, the measured flux endpiece of the corrugated tube other end and water meter housing is tightly connected, middle through-hole dynamic throttling element and standing finish thereof are by the load-bearing of elastic bearing reed, each supporting reed one end is fixedly connected with standing finish, the other end is fixedly connected with water meter housing, another kind is that the shape in a corrugated tube stage casing is made into middle through-hole dynamic throttling element profile, the shape standing finish of middle through-hole dynamic throttling element profile is arranged on the outside surface of this profile of corrugated tube, the measured flux inlet end of corrugated tube one end and water meter housing is tightly connected, the measured flux endpiece of the corrugated tube other end and water meter housing is tightly connected, the middle through-hole dynamic throttling element profile of corrugated tube and standing finish thereof are by the load-bearing of elastic bearing reed, each supporting reed one end is fixedly connected with standing finish, and the other end is fixedly connected with water meter housing.Supporting reed is made up of thin spring steel plate, is characterized in, the rigidity of supporting reed in the vertical direction is very large, can when without vertical direction displacement, by the weight transmitting of dynamic throttling element and standing finish thereof on watchcase housing; And it is very low to support the rigidity of reed on pipeline axial, when making dynamic throttling element have axial displacement, the bounce that supporting reed produces can be ignored relative to fluid thrust.

The invention has the beneficial effects as follows, compared with differential pressure flowmeter, this water meter is the same with existing patent " flowmeter of middle through-hole movable throttling element connected with elastic membranes or corrugated tube ", has the advantages such as structure is simple, price is low, drag losses is little, long service life, precision are high, anti-clogging, applied range.And, identical with existing patent " flowmeter of middle through-hole movable throttling element connected with elastic membranes or corrugated tube ", novel middle through-hole dynamic throttling element water meter foundation be also the discharge characteristic (Throttle Principle) more basic than other water meter measuring principles such as eddy currents, jetting type, electromagnetic type, ultrasonic types, thus than their adaptability and reliability higher.Such as, when measuring condition significantly departs from allowed band, detected fluid can not and then disappear to the thrust that dynamic throttling element produces, and is that measuring error increases at most; The measuring error of the water meters such as eddy currents, jetting type, electromagnetic type, ultrasonic type is then much bigger, and the measurement function of these water meters even may be made to lose efficacy.Finally, what this water meter was better than existing patent " flowmeter of middle through-hole movable throttling element connected with elastic membranes or corrugated tube " is, because dynamic throttling element is mounted in single corrugated tube, or even directly dynamic throttling element profile is produced on single corrugated tube stage casing, the manufacturing process difficult problem not having thin-wall corrugated tube to be connected with restricting element, thus, this invention simplifies the manufacturing process of middle through-hole dynamic throttling element water meter, reduce its manufacturing cost.From above-mentioned, this water meter has pole vast potential for future development.

Accompanying drawing explanation

Fig. 1 is the structure principle chart of first embodiment of the present invention.

Fig. 2 is the principle schematic supporting reed in first embodiment.

Fig. 3 is the structure principle chart of second embodiment of the present invention.

Fig. 4 is the structure principle chart of the 3rd embodiment of the present invention.

Fig. 5 is the structure principle chart of the 4th embodiment of the present invention.

1. dynamic Venturi tube, 2. corrugated tube, 3. diplopore semi-girders in figure, 4. foil gauge, 5. watchcase lid, 6. watchcase, 7. packing washer, 8. expanding ring, 9. plain washer, 10. watchcase inlet connection, 11. watchcase discharge connections, 12. times fixing watt, on 13. fixing watt, 14. supporting reeds, 15. watchcase entrance outer tubes, 16. watchcase outlet outer tubes, 17. check nuts, 18. flexible filter media.

Embodiment

In following four embodiments, in order to reduce fluid resistance losses and prevent dirt from assembling, middle through-hole dynamic throttling element all adopts dynamic Venturi tube 1, and this is also the most frequently used dynamic throttling element of this water meter.But in some application scenario, dynamic Venturi tube 1 also can be replaced by dynamic orifice plate or dynamic nozzle, because other parts of water meter all can keep original structure form constant, therefore repeats no longer one by one.In addition, for making word simpler and clearer, in the accompanying drawing of each embodiment, part position relations specifies: be front with left side, after with right side being.

Embodiment one

In the implementation of figure 1, dynamic Venturi tube 1 is placed in the middle part of corrugated tube 2 inner chamber, the overall diameter at dynamic Venturi tube 1 two ends is slightly smaller than the overall diameter of intermediate portion, upper fixing watt 13 has with the medial surface of lower fixing watt 12 liang of end boss the shape matched with corrugated tube 2 outside surface trough, because corrugated tube is thin-walled, be easy to produce slight distortion, therefore, when mutually locking with lower fixing watt 12 for upper fixing watt 13, fixing watt inward flange outside corrugated tube 2 can block the slightly little two ends outward flange of dynamic Venturi tube 1 diameter, the mutual alignment of the middle each ripple of Venturi tube 1 and corrugated tube 2 is remained unchanged in measuring process.As can see from Figure 2, dynamic Venturi tube 1, upper fixing watt 13 supported by four supporting reeds 14 with the weight of lower fixing watt 12, supporting reed 14 has vertically to ripple, can ensure that supporting reed 14 in the vertical direction has larger rigidity, on pipeline axial, rigidity is very low again simultaneously.It is thin that the thickness supporting reed 14 should be tried one's best when meeting vertical direction rigidity, and thus when dynamic Venturi tube 1 has axial displacement, the bounce that supporting reed 14 produces is negligible relative to fluid thrust.Assemble for ease of water meter, at corrugated tube 2 through before watchcase 6, after rear through hole, before external diameter after locking is greater than watchcase 6, the expanding ring 8 of rear through-hole diameter snaps in trough place, corrugated tube 2 two ends, contact being arranged on watchcase inlet connection 10 with corrugated tube 2 two ends sealing surface with the packing washer 7 on watchcase discharge connection 11 again, finally with screw by watchcase inlet connection 10, watchcase discharge connection 11 is pressed on watchcase 6, before corrugated tube 2 two ends are just fixed on watchcase 6, rear through hole, and form a detected fluid and flow into from water meter housing inlet connection 10, then dynamic Venturi tube 1 is flowed through, the leak free flow channel flowed out by water meter housing discharge connection 11 again.When detected fluid flows through dynamic Venturi tube 1, the flow of fluid is larger, the thrust of fluid to dynamic Venturi tube 1 is also larger, dynamic Venturi tube 1 fixes gear train on watts 13 by this thrust on the flexible member diplopore semi-girder 3 of force snesor by upper again, diplopore semi-girder 3 produces the strain corresponding with thrust, make the resistance of the foil gauge 4 being attached to the positive and negative strain regions of diplopore semi-girder 3 respectively produce differential change, the differential change of this resistance exports the electric signal corresponding with thrust after the electric bridge in force snesor processes further with amplifier.In order to the needs of water meter the signal is far passed, force snesor have employed the XTR115 type two-wire system current transducer of 8 pin single-chips, and its communication is unified, without the need to laying communication cable separately again with supply line.This water meter adopts every unit to establish a summary table, the mode of operation of each household one submeter, significantly to reduce the cost of each household submeter.This water meter self does not establish power supply, is powered by above-mentioned two communications, power supply bridging line by the power supply of distant place summary table.The instantaneous water yield that water supply only measured in real time by submeter, the integrating carrying out accumulated water volume to the instantaneous water yield of each table by summary table unification are also unified to each sub-meter power supply.The intelligent summary table of usual use and simulated submeter, summary table is to each submeter time sharing power supply, and namely only when sampling to certain block submeter to read its instantaneous water yield value, just to its power supply, this had both substantially reduced summary table power supply capacity, substantially reduced again the power consumption of each piece of submeter.When submeter output is 4 ~ 20mA direct current signal, when total apparent source is 24V DC voltage, sampling time 4s, sampling switch closure time <0.02s, then every block submeter moon power consumption only 1 degree.Although this power consumption is more than the power consumption of the photoelectric direct-reading remote transmitting water meter be only just energized when reading aggregate-value, this power consumption obviously can meet the requirement of water meter economical operation, in addition it also has the possibility reduced further.In addition, due to submeter output is the direct current signal that 4 ~ 20mA lives zero point, makes intelligent summary table be easy to judge each submeter broken string and short trouble.

Compared with the profile of classical venturi tube, because dynamic Venturi tube 1 does not have pressure pipe, so the inlet cylinders section of classical venturi tube set by pressure and cylindrical throat all do not have necessity with a grain of salt, therefore dynamic Venturi tube 1 profile only has circular cone contraction section and circular cone diffuser.In addition, for shortening dynamic Venturi tube 1 length, the cone angle of circular cone contraction section is taken as 40 °, and the cone angle of circular cone diffuser is taken as 15 °.At diameter than in the scope of β=0.4 ~ 0.75, dynamic Venturi tube 1 total length is approximately 1.5 ~ 2.0 times of caliber.Because the length of dynamic Venturi tube 1 is significantly smaller than classical venturi tube, when β >0.6, its crushing is even less than classical venturi tube.When maximum flow and dynamic Venturi tube 1 bore constant, diameter is larger than β, and crushing is less, and dynamic Venturi tube 1 is also shorter, but the maximum thrust that detected fluid produces in dynamic Venturi tube 1 is also less, higher to the requirement of force snesor.The maximum thrust produced in dynamic Venturi tube 1 due to detected fluid is more much smaller than dynamic orifice plate, therefore needs the force snesor using small-range.As designed small-measuring range force transducer according to a conventional method, then the rigidity of its flexible member must be made very little, but this to cause the performance index such as the non-linear, repeated, delayed of force snesor and creep to degenerate, and does not reach the requirement of pin-point accuracy.At present, usually adopt the design proposal of the aluminium alloy diplopore cantilever beam structure flexible member of low elastic modulus solve sensitivity and rigidity this to contradiction.After adopting above-mentioned diplopore cantilever beam structure, owing to foil gauge 4 being attached to the stress raiser of diplopore semi-girder 3, even if the power acted in whole range ability on diplopore semi-girder 3 is all very little, the amount of deflection of beam is also less than a micro-numerical value all the time, but the strain of pasting the generation of foil gauge 4 place at diplopore semi-girder 3 is larger, can meet the requirement of subsequent process circuit.

Detected fluid acts on being analyzed as follows of relation between thrust in dynamic Venturi tube 1 and measured flux: dynamic Venturi tube 1 is placed on horizontal straight tube road, like this, just only need consider static energy when the potential energy of the dynamic forward and backward fluid of Venturi tube 1 of research changes, therefore can draw according to fluid mechanics

In formula , ---the dynamic forward and backward fluid matasomatism of Venturi tube 1 static pressure thereon;

---the severe of detected fluid;

---resistance coefficient, it and dynamic Venturi tube 1 shape, fluid viscosities etc. are relevant;

---acceleration of gravity;

---fluid flows through the flow velocity of dynamic Venturi tube 1 middle through-hole.

Obviously, the effective cross section of being multiplied by dynamic Venturi tube 1 is amassed a, namely obtain detected fluid and act on thrust in dynamic Venturi tube 1 f.Dynamic Venturi tube 1 effective cross section is long-pending can be calculated as follows

In formula ---external pipe internal diameter;

---dynamic Venturi tube 1 middle through-hole diameter.

Long-pending directly the calculating by its physical dimension in the effective cross section of dynamic Venturi tube 1 is based on following consideration: the calculating of the useful area of the flexible sheet limited from edge is different, and dynamic Venturi tube 1 moves integrally, and effective cross section is long-pending need not consider edge effect.

Comprehensive above two formulas can obtain

Or

Tested volumetric flow rate can be obtained according to above formula expression formula

In above formula, after the parameters of detected fluid and dynamic Venturi tube 1 physical dimension are determined, for constant, the therefore volumetric flow rate of detected fluid with thrust fsquare root be directly proportional.But due to composition item do not obtain by theory deduction, therefore can only be determined by the method for water meter being carried out to experimental calibration value.

If dynamic Venturi tube 1 is in thrust feffect under produce displacement , then produce respectively on corrugated tube 2 with force snesor flexible member diplopore semi-girder 3 with the bounce of size, wherein .Obtained by above-mentioned

，

In formula ---the rigidity of corrugated tube 2;

---the rigidity of force snesor flexible member diplopore semi-girder 3.

Further,

In above formula, if the rigidity of corrugated tube 2 with the rigidity of diplopore semi-girder 3 for constant, then force snesor is by adjusting the mode of range, just can by measurement displacement , accurately record the size of detected fluid flow.But know after finite element analysis, when the absolute pressure change of detected fluid, the rigidity of corrugated tube 2 also a change is accordingly had , this will produce measuring error.Namely, when detected fluid flow is constant, that is to say in same thrust funder effect, the now displacement of dynamic Venturi tube 1 is , have a measuring error , bounce formula is now

The above formula left side , therefore measure relative error can be expressed as

From above formula, measuring error be reduced, can start with from following two aspects.On the one hand, be the absolute pressure of managing stable detected fluid, reduce its pressure fluctuations amplitude, namely by reducing make it right impact reduce; On the other hand, be the rigidity of Sensor Elastic Element diplopore semi-girder 3 of exerting all one's strength much larger than the rigidity of corrugated tube 2 , namely , this also can make right impact reduce.In the present embodiment, due to the axial rigidity of corrugated tube 2 smaller, make the rigidity of diplopore semi-girder 3 much larger than the rigidity of corrugated tube 2 condition ratio be easier to realize, therefore, the impact arranging corrugated tube 2 flow meter measuring error is negligible.

In addition, although water meter of the present invention is called " moving " restricting element water meter, because diplopore semi-girder has, amount of deflection is little, strain is large, and corresponding dynamic throttling element displacement is also minimum, and can think that this water meter does not have movable member, thus its reliability is also higher.

Embodiment two

In the embodiment of Fig. 3, can find out that the present embodiment is structurally substantially identical with the embodiment of Fig. 1, just do not use the dynamic Venturi tube 1 made separately as in Figure 1, but have employed single corrugated tube 2 of sectional corrugated tube shape, namely use electro-deposition, corrugated tube 2 stage casing is directly made into Venturi tube profile by the method for chemogenic deposit or welding.Because the Venturi tube profile in corrugated tube 2 stage casing is thin-walled, therefore, be made into the inside surface of lower fixing watt 12 shape matched with this Venturi tube profile by upper fixing watt 13, deform under pressure effect in detected fluid to prevent the Venturi tube profile of corrugated tube 2.Fix watts 12 also by supporting reed 14 load-bearing identical with Fig. 2 with lower, draw no longer separately at this for upper fixing watt 13.

Embodiment three

In the embodiment of fig. 4, can find out that the present embodiment is structurally substantially identical with the embodiment of Fig. 3, just the two ends of corrugated tube 2 are not fix with expanding ring 8, but directly fix with watchcase 6 inlet tube and outlet.For fixing needs, the mating shapes of the shape that single corrugated tube 2 two ends are made and watchcase 6 inlet tube and outlet.Because the diameter of corrugated tube 2 two ends holding flange is greater than watchcase 6 inlet tube or outlet latus rectum, for the needs of the mutual fit on of each parts, watchcase 6 is combined by the two parts be separated up and down.When water meter and watchcase entrance outer tube 15, watchcase export outer tube 16 linked together by the check nut 17 having added packing washer 7 time, just define a detected fluid to flow into from watchcase entrance outer tube 15, then the venturi profile in single corrugated tube 2 stage casing is flowed through, the more leak free flow channel flowed out by watchcase outlet outer tube 16.

Embodiment four

Fig. 5 is one to be prevented from cutting off the water or keep in repair the rear embodiment of the dirty Impurity deposition of pipeline at corrugated tube 2 place, can find out that the present embodiment is structurally identical with the embodiment of Fig. 1, just be greater than in the space of the accessibility each single ripple of fluid to be measured of inside diameter of bel at the inner chamber of single corrugated tube 2 except stage casing, be filled with flexible filter medium 18, the filtering layer that formation one is circular in each single ripple, filtering layer can be followed the elastic of corrugated tube 2 and be done corresponding axial stretching, ensures that fluid only has and could pass in and out above-mentioned each single ripple space through each filtering layer.Flexible filter medium 18 can use spongy filter medium or fibrous filter media, and its flexibility refers to this filter medium under very little External Force Acting, just can change the shape of oneself by designing requirement.Because diplopore semi-girder 3 just can produce very large strain under very little amount of deflection, therefore, move moving forward and backward of Venturi tube profile very little in measuring process, the flow passing in and out above-mentioned each single ripple gap is also just very little.The through hole bore of each single ripple inner circle annular filter layer of corrugated tube 2 is identical with corrugated tube 2 bore simultaneously, there is automatic cleaning action on the surface of flowing to filtering layer through hole of fluid, so flexible filter medium 18 makes the corrugated tube 2 flexible cycle of losing efficacy just very long because of blocking, can Long-Time Service and need not changing.

The foregoing is only the several preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.Such as, in four embodiments, single corrugated tube 2 two ends and being tightly connected of water meter housing 6 entry and exit are all adopt mechanical connection mode, but at least can also have welded seal connected mode.Therefore, protection scope of the present invention should be as the criterion with scope described in claims.

Claims (2)

1. a novel middle through-hole dynamic throttling element water meter, by middle through-hole dynamic throttling element 1, corrugated tube 2, watchcase 6, force snesor forms, it is characterized in that: novel middle through-hole dynamic throttling element water meter is single corrugated tube middle through-hole dynamic throttling element water meter, in this water meter, the dynamic throttling element 1 of a middle through-hole is installed in the middle part of corrugated tube 2 inner chamber, the position standing finish 12 of middle through-hole dynamic throttling element, 13 middle parts being arranged on corrugated tube 2 outside surface, the measured flux inlet end of corrugated tube 2 one end and water meter housing 6 is tightly connected, the measured flux endpiece of corrugated tube 2 other end and water meter housing 6 is tightly connected, middle through-hole dynamic throttling element 1 and standing finish 12 thereof, 13 by elastic bearing reed 14 load-bearing, each supporting reed 14 one end and standing finish 12, 13 are fixedly connected with, the other end is fixedly connected with water meter housing 6.

2. a novel middle through-hole dynamic throttling element water meter, by corrugated tube 2, watchcase 6, force snesor forms, it is characterized in that: novel middle through-hole dynamic throttling element water meter is single corrugated tube middle through-hole dynamic throttling element water meter, in this water meter, the shape in corrugated tube 2 stage casing is made into middle through-hole dynamic throttling element profile, the shape standing finish 12 of middle through-hole dynamic throttling element profile, 13 are arranged on the outside surface of this profile of corrugated tube 2, the measured flux inlet end of corrugated tube 2 one end and water meter housing 6 is tightly connected, the measured flux endpiece of corrugated tube 2 other end and water meter housing 6 is tightly connected, the middle through-hole dynamic throttling element profile of corrugated tube 2 and standing finish 12 thereof, 13 by elastic bearing reed 14 load-bearing, each supporting reed 14 one end and standing finish 12, 13 are fixedly connected with, the other end is fixedly connected with water meter housing 6.