CN209230699U - Ultrasonic flowmeter - Google Patents
Ultrasonic flowmeter Download PDFInfo
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- CN209230699U CN209230699U CN201822179609.6U CN201822179609U CN209230699U CN 209230699 U CN209230699 U CN 209230699U CN 201822179609 U CN201822179609 U CN 201822179609U CN 209230699 U CN209230699 U CN 209230699U
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Abstract
The utility model embodiment provides a kind of ultrasonic flowmeter, and in an example, the ultrasonic flowmeter includes: flowmeter shell;The first transducer being mounted on the flowmeter shell;The regulating mechanism being mounted on the flowmeter shell;The second transducer being mounted on the regulating mechanism, the second transducer are used to receive the ultrasonic wave that the first transducer issues;The second transducer is driven to move on the first preset direction under the regulating mechanism working condition.To solve the problems, such as that the ultrasonic signal strength for causing to receive is weak, and regulating mechanism is able to drive second transducer and moves on the first preset direction since signal deviates, to timely receive the stronger ultrasonic signal of signal, measuring accuracy is improved.
Description
Technical field
The utility model relates to field of flow detection, in particular to a kind of ultrasonic flowmeter.
Background technique
Ultrasonic flowmeter is a kind of new type of flowmeter based on the work of ultrasound acoustic principle, ultrasonic wave is utilized
Spread speed with velocity of medium change and changed principle carrys out measuring medium flow velocity, obtained extensively in petrochemical industry
Using.
According to the classification of practical application, ultrasonic flowmeter can be divided into external clamping, pipeline section type, plug-in type.External clamping ultrasound
Flowmeter installation is simple, easy to use, but can be because pipe material be dredged, to lead sound bad, or corrosion is serious, lining and pipeline
Interior space has situations such as gap to cause ultrasonic signal decaying serious, can not normally measure, so producing pipeline section type hypersonic flow
Meter.Pipeline section type ultrasonic flowmeter is energy converter and measures pipe group and is integrated, but sacrifices external labeling type/external clamping ultrasonic flow rate
Meter is not required to the advantages of cutout installation, and pipeline section type ultrasonic flowmeter needs to cut pipeline to install energy converter.
For plug-type ultrasonic flowmeter between said two devices, installation does not have to cutout, is beaten on pipeline using professional tool
Energy converter is injected pipeline and realizes installation by hole, and in the duct due to energy converter, signal transmitting receives and only passes through measured medium,
And tube wall and lining are required no, measurement is advantageously.But the prior art is ignored since velocity of medium variation can cause letter
Number offset the problem of, this can reduce measuring accuracy.
Utility model content
In view of this, the utility model embodiment is designed to provide a kind of ultrasonic flowmeter, to solve the prior art
In the signal offset problem due to caused by the change in flow of testing medium, improve measuring accuracy.
In a first aspect, the utility model embodiment provides a kind of ultrasonic flowmeter, the ultrasonic flowmeter includes:
Flowmeter shell;
The first transducer being mounted on the flowmeter shell;
The regulating mechanism being mounted on the flowmeter shell;
The second transducer being mounted on the regulating mechanism, the second transducer is for receiving the first transducer
The ultrasonic wave of sending;
The second transducer is driven to move on the first preset direction under the regulating mechanism working condition.
Wherein, first transducer can emit ultrasonic wave, and the second transducer being mounted on regulating mechanism can receive
The ultrasonic wave that one energy converter is sent.During actual measurement, due to the effect of testing medium flowing, ultrasonic signal may be sent out
Raw offset, such as ultrasonic signal wave beam may downstream deviate a distance, and offset distance may be because the variation of velocity of medium
And change, it may be weaker so as to cause the signal strength of the ultrasonic wave received.Therefore, cause to receive to avoid signal from deviating
Ultrasonic signal strength it is weak, regulating mechanism is able to drive second transducer and moves on the first preset direction, to receive in time
To the stronger ultrasonic signal of signal, measuring accuracy is improved.Wherein, the first preset direction can be the extension side of ultrasonic flowmeter
To testing medium can flow in the ultrasonic flowmeter, and flow direction may be identical as the first preset direction, it is also possible to
One preset direction is opposite.
In a possible design, the regulating mechanism includes adjustable sliding block, driving motor, the flowmeter shell
It is equipped with sliding rail;
The driving motor is mounted on the flowmeter shell, and the driving motor is connect with the adjustable sliding block,
The adjustable sliding block is mounted on the sliding rail;
The second transducer is mounted on the adjustable sliding block;
The driving motor drives the adjustable sliding block to move on the sliding rail, so that the second transducer is in institute
It states and is moved on the extending direction of sliding rail.
Wherein, above-mentioned design gives a kind of possible implementation of regulating mechanism, is driven by driving motor adjustable
Slide block movement is saved, to drive second transducer mobile.It, can be in actual installation process as a kind of possible implementation
First sliding rail is mounted on flowmeter shell, then adjustable sliding block is mounted on the sliding rail, it then can with this by driving motor
Sliding block of adjusting connects, and features simple structure is easily installed.
In another possible design, above-mentioned sliding rail could alternatively be sliding slot, and driving motor can drive adjustable cunning
Block moves in the sliding slot, so that the adjustable sliding rail drives second transducer movement.
In a possible design, the adjustable sliding block is equipped with through-hole;
The second transducer passes through the through-hole to be inserted into the flowmeter shell.
Wherein, above-mentioned design gives a kind of specific mounting means of second transducer.It, can be in actual installation process
Adjustable sliding block is being installed and then is being put into second transducer in the through-hole and fixed;First second transducer can also be put
Enter in the through-hole and be fixed, then adjustable sliding block is installed.It can be avoided the material or pipeline shell of flowmeter shell with this
The problem that the material of body causes ultrasonic signal weak, in addition, mounting means is easy, without the installation that stops.
In a possible design, the adjustable sliding block includes the first extension, the second extension;
Adjustment hole is equipped on first extension, second extension, the flowmeter shell is equipped with and institute
State the sliding block fixation hole of adjustment hole cooperation;
It is attached between the adjustment hole, the sliding block fixation hole by fixing piece, to realize the adjustable cunning
Block is mounted on the flowmeter shell;
Wherein, length of the adjustment hole on first preset direction is greater than the diameter of the sliding block fixation hole, with
The adjustable sliding block is set to move on the extending direction of the adjustment hole.
By above-mentioned design, a kind of possible structure of adjustable sliding block is given, to avoid adjustable sliding block from being detached from stream
Meter shell, fixing piece can sequentially pass through adjustment hole, sliding block fixation hole, be installed with realizing to adjustable sliding block.It exchanges
The length requirement of knothole is to meet adjustable sliding block and can still can move on the first preset direction after mounting.
In a possible design, lead between first extension or second extension and the driving motor
Cross screw rod connection;
When the driving motor rotates, the screw rod pushes or drags the adjustable sliding block in the described first default side
It moves upwards.
By above-mentioned design, a kind of matching relationship between driving motor and adjustable sliding block is given, by that will drive
One end of adjustable sliding block is arranged in motor, and when driving motor rotates, screw rod can push or drag adjustable slide block movement.
In a possible design, the adjustable sliding block includes the first face, separate towards the flowmeter shell
Second face of the flowmeter shell;
The driving motor is gear motor, and second face is equipped with the dentalation agreed with the gear motor;
The gear motor drives the adjustable sliding block to move on first preset direction when rotating.
By above-mentioned design, another matching relationship between driving motor and adjustable sliding block is given, by that will drive
Dynamic motor is set up directly on adjustable sliding block, due to there is the meshing relation of dentalation, driving motor rotation therebetween
When, adjustable sliding block can be driven mobile, this mode can save installation space.
In a possible design, washer, the washer are equipped between the regulating mechanism and the flowmeter shell
For being sealed between the regulating mechanism and the flowmeter shell.
Wherein, design in this way can be avoided when regulating mechanism drives second transducer movement, and medium is caused to let out
Leakage or other sealing problems.
In a possible design, the ultrasonic flowmeter further includes the first fixed block, and first fixed block passes through
Fixing piece is mounted on the flowmeter shell;
Through-hole is offered on first fixed block, the first transducer passes through the through-hole to be inserted into the flowmeter
Shell.
Design in this way gives a kind of mounting means of first transducer.Due to second transducer be can be with
Regulating mechanism movement, therefore, relative motion can occur between first transducer and second transducer, first transducer can
Be it is fixed, be also possible to movement.
In a possible design, there is folder in the installation direction of the first transducer and first preset direction
Angle, so that the second transducer can receive the ultrasonic wave that the first transducer issues.
Design in this way can determine an angle before the actual measurement, can determine Jie according to this angle
The calculation of mass flow speed.
Second aspect, the utility model embodiment also provide a kind of ultrasonic flowmeter, and the ultrasonic flowmeter includes flow
Count shell and multiple groups measuring device;
Any group of measuring device include:
The first transducer being mounted on the flowmeter shell;
The regulating mechanism being mounted on the flowmeter shell;
The second transducer being mounted on the regulating mechanism, the second transducer is for receiving the first transducer
The ultrasonic wave of sending;
The second transducer is driven to move on the first preset direction under the regulating mechanism working condition.
By above-mentioned design, it is provided with multiple groups measuring device on ultrasonic flowmeter, multichannel measurement can be carried out, it is in office
In one group of measuring device, second transducer can move on the first preset direction with regulating mechanism, receive signal with this
The biggish ultrasonic wave of intensity, improves measurement accuracy.
To enable the above objects, features, and advantages of the utility model to be clearer and more comprehensible, special embodiment below, and cooperate
Appended attached drawing, is described in detail below.
Detailed description of the invention
It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment
Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by
Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also
To obtain other relevant attached drawings according to these attached drawings.
Fig. 1 is a kind of structural schematic diagram of ultrasonic flowmeter provided by the embodiment of the utility model.
Fig. 2 is the structural schematic diagram of another ultrasonic flowmeter provided by the embodiment of the utility model.
Fig. 3 is a kind of schematic diagram of adjustable sliding block and flowmeter shell cooperation provided by the embodiment of the utility model.
Fig. 4 is the schematic diagram of adjustable sliding block provided by the embodiment of the utility model.
Fig. 5 is the schematic diagram of adjustable sliding block provided by the embodiment of the utility model and washer cooperation.
Fig. 6 is the schematic diagram of another ultrasonic flowmeter provided by the embodiment of the utility model.
Fig. 7 is the flow chart of the method provided by the embodiment of the utility model for adjusting energy converter.
Fig. 8 is the measuring principle schematic diagram of ultrasonic flowmeter provided by the embodiment of the utility model.
Icon: 10- ultrasonic flowmeter;110- flowmeter shell;111- sliding rail;112- sliding slot;Q- sliding block fixation hole;120-
First transducer;130- regulating mechanism;Sliding block is adjusted in 131-;The first extension of 1311-;The second extension of 1312-;P- is adjusted
Hole;132- driving motor;140- second transducer;150- washer;The first fixed block of 160-;20- ultrasonic flowmeter;210- flow
Count shell;220- measuring device.
Specific embodiment
Below in conjunction with attached drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear
Chu is fully described by, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole realities
Apply example.The component of the utility model embodiment being usually described and illustrated herein in the accompanying drawings can be come with a variety of different configurations
Arrangement and design.Requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below to protect
The scope of the utility model of shield, but it is merely representative of the selected embodiment of the utility model.Implementation based on the utility model
Example, those skilled in the art's every other embodiment obtained without making creative work belong to this
The range of utility model protection.
It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi
It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.Meanwhile it is practical new at this
In the description of type, term " first ", " second " etc. are only used for distinguishing description, are not understood to indicate or imply relatively important
Property.
Ultrasonic wave just carries the information of upper velocity of medium in the Propagation of flowing.Therefore the ultrasonic wave by receiving
The flow velocity of testing medium can be detected, to be converted into flow.Ultrasonic pulse passes through pipeline and reaches separately from a sensor
One sensor.When medium does not flow, ping is propagated in two directions with identical speed (velocity of sound, C).If pipeline
In medium have certain flow rate V (flow velocity be not equal to zero), then the ping along flow direction can be transmitted quicker, and against
The ping of flow direction can be transmitted more slowly.In this way, fair current transmission time can be shorter, and countercurrent time president is a little.This
In described length it is a little or it is shorter be all transmission time when not flowed with medium in comparison;According to the mode of detection, can be divided into
The different types of ultrasonic flowmeter such as propagation speed differential method, Doppler method, Noise Method and correlation method.
Applicant has found after study, and during actual measurement, ultrasonic signal can be in the effect of testing medium flowing
Under shift, the distance of offset may because of testing medium change in flow and different from, if for emit signal,
The ultrasonic transducer for receiving signal is fixed on flowmeter shell, in particular for the ultrasonic transducer of received ultrasonic signal
If position is fixed, it will lead to that the signal strength received is low, and signal-to-noise ratio is low, to reduce the measuring accuracy of flowmeter.
In view of the above problems, applicant proposes following embodiment to solve the above problems by exploring.Below with reference to attached
Figure, elaborates to the embodiment of the present application.The embodiment of the present application can also be implemented by different specific embodiments
Or application, the various details in this specification can also be carried out under without departing from spirit herein various based on different viewpoints
Modifications and changes.In the absence of conflict, the feature in following embodiment and embodiment can be combined with each other.
First embodiment
The present embodiment provides a kind of ultrasonic flowmeters 10, please refer to Fig. 1 or Fig. 2, which includes flowmeter
Shell 110, regulating mechanism 130, first transducer 120, second transducer 140.Wherein, shown in FIG. 1 is by first transducer
120, the structural schematic diagram that second transducer 140 is installed with transmission-type mounting means, it is shown in Fig. 2 be by first transducer 120,
The structural schematic diagram that second transducer 140 is installed with refractive mounting means.
In the present embodiment, second transducer 140 is mounted on regulating mechanism 130, and regulating mechanism 130 is mounted on flowmeter shell
On body 110, regulating mechanism 130 can drive in the operating condition second transducer 140 on the first preset direction (referring to Fig. 1,
Direction " X " in Fig. 2) movement.Wherein, the first preset direction refers to that the extending direction of the ultrasonic flowmeter 10, testing medium can
It is flowed in the ultrasonic flowmeter 10, flow direction may be identical as the first preset direction, it is also possible to the first preset direction phase
Instead.Wherein, which may be gas, it is also possible to liquid.It will be installed below by the transmission-type of gas of testing medium
It is illustrated, but is not limited thereto for mode.
First transducer 120 can be directly installed on flowmeter shell 110, can also be mounted on flow by a pedestal
It counts on shell 110.Certainly, first transducer 120 can be fixed, and be also possible to revocable (for example, as second transducer
140 are mounted in the structure that can be moved like that), as long as phase can be generated between first transducer 120 and second transducer 140
To movement.
Wherein, first transducer 120, second transducer 140 are ultrasonic transducers, and first transducer 120 can send super
Sound wave, second transducer 140 can receive ultrasonic wave transmitted by first transducer 120;It is appreciated that second transducer 140
Ultrasonic wave can also be sent, first transducer 120 can receive ultrasonic wave.In the present embodiment, sent with first transducer 120 super
Sound wave, second transducer 140 are illustrated for receiving the mode of ultrasonic wave, but are not limited thereto.
For the ease of real-time monitoring, as an implementation, first transducer 120, adjusts machine at second transducer 140
Structure 130 may be coupled in same controller (not shown), which can get two energy converters and send, receive ultrasound
The time of wave signal, and carried out that offset distance is calculated according to preset calculation formula, and according to calculated offset distance
Controlling to adjust mechanism 130 drives second transducer 140 to move.Certainly, which may be the integrated core with computing function
Piece is also possible to other existing equipment with computing capability, such as can be computer, mobile terminal etc. with calculating energy
The equipment of power.It can be connected by cable between first transducer 120, second transducer 140, regulating mechanism 130 and the controller
It connects, is also possible to wireless communication connection (if being equipped with wireless communication module on the flowmeter).In an example, the control
Device is the terminal device for having display screen, which is fixed on flowmeter shell 110 or is consolidated by a pedestal
It is scheduled on pipeline, first transducer 120, second transducer 140, regulating mechanism 130 are connect by cable with the terminal device.
As another embodiment, first transducer 120, second transducer 140, regulating mechanism 130 may be coupled to
On different controllers, if can finally obtain offset distance, and according to the offset distance being calculated to regulating mechanism 130 into
Row control, the connection type between first transducer 120, second transducer 140, regulating mechanism 130 and controller are not answered
As limitations of the present invention.
By above structure, first transducer 120 can emit ultrasonic wave, and second be mounted on regulating mechanism 130 is changed
Energy device 140 can receive the ultrasonic wave of the transmission of first transducer 120.During actual measurement, due to testing medium flowing
Effect, ultrasonic signal wave beam may deviate a distance, move to since regulating mechanism 130 is able to drive second transducer 140
Deviation post can timely receive the stronger ultrasonic signal of signal with this, improve measuring accuracy.
Please continue to refer to Fig. 1, regulating mechanism 130 includes adjustable sliding block 131, driving motor 132.In order to allow adjustable cunning
Block 131 can slide, and sliding rail 111 or sliding slot 112 can be set on flowmeter shell 110.
Second transducer 140 is mounted on the adjustable sliding block 131, and the adjustable sliding block 131 is mounted on sliding rail 111
Perhaps it is mounted on sliding slot 112 when adjustable sliding block 131 is slided on sliding rail 111 or slided in sliding slot 112, it can be with
Second transducer 140 is driven to move.
Driving motor 132 is connect with adjustable sliding block 131, and connection type can be according to driving motor 132 and adjustable cunning
The positional relationship of block 131 is varied.It, can also be with for example, driving motor 132 can be set in one end of adjustable sliding block 131
Be directly installed on adjustable sliding block 131, the side of adjustable sliding block 131 can also be set, for driving motor 132 with can
Mating connection relationship multiplicity between adjusting slider 131, should not be construed as a limitation of the present invention.
Driving motor 132 is mounted on flowmeter shell 110, such as installation can be realized by a pedestal, and for
For certain motors equipped with mounting hole, it is only necessary to which corresponding mounting hole is set on flowmeter, so that it may directly adopt fixation
Part installs motor.
Driving motor 132 can drive the adjustable sliding block 131 to move on sliding rail 111 or move in sliding slot 112,
So that the second transducer 140 being mounted on adjustable sliding block 131 can move or in cunning on the extending direction of sliding rail 111
It is moved on the extending direction of slot 112.
As a kind of possible implementation, Fig. 1 or Fig. 2 is please referred to, it, can be first by sliding rail in actual installation process
111 are mounted on flowmeter shell 110, then adjustable sliding block 131 is mounted on the sliding rail 111, then by driving motor 132
Sliding block can be adjusted with this to connect, features simple structure is easily installed.
It can be in processing stream in order to simplify the structure of entire ultrasonic flowmeter 10 as alternatively possible implementation
When meter shell 110, referring to Fig. 3, reserving sliding slot 112 directly on flowmeter shell 110, (size of sliding slot 112 can lead to
According to actual processing parameter setting), by the way that adjustable sliding block 131 to be mounted in sliding slot 112 to realize sliding, wherein in Fig. 3
Arrow indicate the installation site of adjustable sliding block 131.
In the present embodiment, Fig. 3 or Fig. 4 (Fig. 4 shows the front view of a variety of adjustable sliding blocks 131) is please referred to, is adjusted
Sliding block 131 is equipped with through-hole, and second transducer 140 can pass through the through-hole to be inserted into flowmeter shell 110, so as to form insertion
The ultrasonic flowmeter 10 of formula.In actual installation process, adjustable sliding block 131 can be installed and then by second transducer
140 are put into the through-hole and fix;Can also first second transducer 140 be put into the through-hole and is fixed, then installing can
Adjusting slider 131.Ultrasonic signal is caused to decline with the material of this material or pipeline shell that can be avoided flowmeter shell 110
Weak problem, in addition, mounting means is easy, without the installation that stops.
Wherein, it can be fixed by fixing piece between second transducer 140 and adjustable sliding block 131, to avoid
Two energy converters 140 fall off from adjustable sliding block 131, or loosening is generated in adjustable sliding block 131, to influence metering essence
Degree.
Optionally, first transducer 120 can also be inserted into flowmeter shell 110 by a through-hole, possible set at one
In meter, referring to Fig. 1, ultrasonic flowmeter 10 further includes the first fixed block 160, which is installed by fixing piece
On flowmeter shell 110;Through-hole is offered on first fixed block 160, first transducer 120 can pass through the first fixed block
Through-hole on 160 is to be inserted into flowmeter shell 110.
Since second transducer 140 can be moved with regulating mechanism 130, first transducer 120 and second
Relative motion can occur between energy converter 140, first transducer 120 can be fixed, and be also possible to movement.But the
It is fixedly connected between one energy converter 120 and the first fixed block 160, is fixed for example, by using fixing piece, avoid producing therebetween
It is raw to loosen to influence measuring accuracy.
Wherein, the fixing piece referred in structure described above, which can be but be not limited only to screw, nut, fixed pin etc., to be had
The device of fixed function.
Referring to Fig. 4, adjustable sliding block 131 includes the first extension 1311, second the 1312, first protrusion of extension, the
Two protrusions.Through-hole for installing second transducer 140 can be through first protrusion, the second protrusion.In some cases,
One protrusion, the second protrusion can be omitted, as long as can be arranged in adjustable sliding block 131 for installing second transducer 140
Through-hole, and the installation direction of the second transducer 140 is made to meet measurement angle, which may beTherefore,
In an example, there are angles for the installation direction of first transducer 120 and the first preset directionSo that second transducer 140
The ultrasonic wave of the sending of first transducer 120 can be received.By determining an angle before the actual measurement, according to this angle
Degree can determine the calculation (calculation formula can store in the controller) of velocity of medium, with the effect of media flow,
Although the angle between actual ultrasonic signal and the first preset direction may change, this can't be to first transducer
The 120 original ultrasonic direction of the launch impacts, according to original angleThe initial velocity of ultrasonic wave can be calculated, and (this is first
Beginning speed can be speed of the ultrasonic wave in quiescent atmosphere), and ultrasonic wave can be further calculated based on the initial velocity
Offset distance.
It should be noted that due to can be transmittance mounting means between first transducer 120 and second transducer 140
(please referring to Fig. 1), is also possible to refractive mounting means (please referring to Fig. 2), and mounting means according to actual needs can be set
A variety of adjustable sliding blocks 131, in order to meet the energy converter of different installation, the through-hole direction of these adjustable sliding blocks 131 can
Can difference, therefore measurement angle may be different.
Referring to Fig. 4, being equipped with adjusting on the first extension 1311, the second extension 1312 for sliding block 131 is adjusted
Hole P, flowmeter shell 110 are equipped with the sliding block fixation hole Q cooperated with adjustment hole P.If passing through sliding rail 111 or sliding slot 112
Adjustable sliding block 131 is installed, then sliding block fixation hole Q can be located on sliding rail 111 or in sliding slot 112.
It can be attached by fixing piece between above-mentioned adjustment hole P, sliding block fixation hole Q, to realize adjustable sliding block
131 are mounted on flowmeter shell 110.The fixing piece, which can be but be not limited only to screw, nut, fixed pin etc., has fixed make
Device.
Wherein, in order to enable adjustable sliding block 131 to move on the first preset direction, adjustment hole P is first default at this
Length on direction can be greater than the diameter of sliding block fixation hole Q, and the activity surplus of adjustable sliding block 131 can be reserved with this.
This structure can be detached from flowmeter shell 110 to avoid adjustable sliding block 131, and fixing piece can sequentially pass through adjusting
Hole P, sliding block fixation hole Q install adjustable sliding block 131 with realizing.Length requirement to adjustment hole P is in order to which meet can
Adjusting slider 131 can still can move on the first preset direction after mounting.
The matching relationship between driving motor 132 and adjustable sliding block 131 is explained below.
In one embodiment, driving motor 132 can be set in one end of adjustable sliding block 131.First extension
It 1311 or second can be connected by screw rod between extension 1312 and driving motor 132.When driving motor 132 rotates, silk
Bar can push or drag adjustable sliding block 131 and move on the first preset direction.
In another embodiment, driving motor 132 can be arranged directly on adjustable sliding block 131.Wherein, adjustable
Section sliding block 131 includes the first face towards flowmeter shell 110, the second face far from flowmeter shell 110.
Driving motor 132 can be gear motor, which is equipped with the dentalation agreed with gear motor, due to
Therebetween there are the meshing relations of dentalation, adjustable sliding block 131 can be driven pre- first when gear motor rotation
It is moved on set direction.Wherein, this embodiment can save installation space.
In another embodiment, driving motor 132 be can be set in the side of adjustable sliding block 131.Driving motor 132
It can be connect by link mechanism between adjustable sliding block 131, when driving motor 132 rotates, link mechanism can be driven
Adjustable sliding block 131 moves on the first preset direction.
In the present embodiment, in order to avoid causing dielectric leakage when regulating mechanism 130 drives second transducer 140 to move
Or other sealing problems, washer 150 is equipped between regulating mechanism 130 and flowmeter shell 110, which is used for
Be sealed between regulating mechanism 130 and flowmeter shell 110, as seen from Figure 5 be adjusted sliding block 131, washer 150 and
Matching relationship between fixing piece.
Optionally, graduation mark can be set in the regulating mechanism 130 in the present embodiment and 110 junction of flowmeter shell, leads to
Crossing the graduation mark can reflect out the moving distance of adjustable sliding block 131.For example, being tested to the ultrasonic flowmeter 10
When, according to graduation mark readings, it can detecte whether regulating mechanism 130 can work normally.
Optionally, for above-mentioned adjustable sliding block 131, flowmeter shell 110, the first fixed block 160, tooling can be passed through
Structure is processed to obtain integrally formed adjustable module, integrally formed flowmeter shell 110, integrally formed first
Fixed block 160.Integrated formed structure is more stable, can reduce since discrete topology splices bring noise problem.
Optionally, above-mentioned flowmeter shell 110 can be cast steel casting, when casting flowmeter shell 110, Ke Yitong
When cast 111/ sliding slot 112 of sliding rail.
By above structure enable to the energy converter for received ultrasonic signal according to the offset distance of ultrasonic wave into
Row movement reduces since signal offset bring influences, improves the acoustic signals intensity received, and then improve metering essence
Degree.
Second embodiment
A kind of ultrasonic flowmeter 20 is present embodiments provided, referring to Fig. 6, the ultrasonic flowmeter 20 in the present embodiment includes
Flowmeter shell 210 and multiple groups measuring device 220.Wherein, any group of measuring device 220 includes first transducer, adjusts machine
Structure, second transducer.
First transducer can be directly embedded on flowmeter shell 210, can also be installed by a firm banking
On flowmeter shell 210.
Second transducer is mounted on regulating mechanism, and regulating mechanism is mounted on flowmeter shell 210.Second transducer can
To receive the ultrasonic wave of first transducer sending.
Wherein, regulating mechanism can drive in the operating condition second transducer to move on the first preset direction.This
One preset direction may be the forward flow direction of testing medium, it is also possible to the reverse flow direction of testing medium.
The other details of ultrasonic flowmeter 20 described in the present embodiment, please further refer to described in previous embodiment
The associated description of ultrasonic flowmeter 10 (please referring to Fig. 1-Fig. 5), details are not described herein.
By above-mentioned design, it is provided with multiple groups measuring device 220 on the ultrasonic flowmeter of the present embodiment 20, can carry out
Multichannel measurement, in any group of measuring device 220, second transducer can transport on the first preset direction with regulating mechanism
It is dynamic, the biggish ultrasonic wave of signal strength is received with this, improves measurement accuracy.
3rd embodiment
Present embodiments provide it is a kind of adjust energy converter method, applied to previous embodiment provide ultrasonic flowmeter,
The ultrasonic flowmeter includes regulating mechanism, if ultrasonic transducer is mounted on the regulating mechanism, which can band
Dynamic ultrasonic transducer movement.Close ultrasonic flowmeter, regulating mechanism, first transducer, the second transducing mentioned in this present embodiment
The other details of device, please further refer to the associated description in previous embodiment, details are not described herein.
Referring to Fig. 7, the method includes the steps S310- step S340.Below in conjunction with working principle pair described in Fig. 8
Method described in Fig. 7 carries out specific explanations.Wherein, A, B in Fig. 8 respectively indicate two ultrasonic transducers.
Step S310: the instantaneous velocity of testing medium is calculated.
The instantaneous velocity of testing medium can be measured according to following calculation formula (1):
Wherein, v indicates that the instantaneous velocity of the testing medium, L indicate the distance between first transducer and second transducer,Indicate the angle between the line and testing medium flow direction of two energy converters, tABIndicate ultrasonic wave from first transducer
Reach time used in second transducer, tBAThe time used in first transducer is reached from second transducer for ultrasonic wave.Wherein,
First transducer, second transducer are all ultrasonic transducers.
Step S320: according to the instantaneous velocity, the offset distance of ultrasonic wave is calculated.
Offset distance can be calculated according to following calculation formula (2):
Wherein, v0Indicate spread speed of the ultrasonic wave in static testing medium.It can be true after obtaining offset distance
Determine the deviation post of ultrasonic wave.
Step S330: according to the offset distance being calculated, driving signal is sent so that energy converter to regulating mechanism
It is mobile.
Regulating mechanism can drive ultrasonic transducer mobile after receiving the driving signal, and mobile distance deviates
Distance, mobile target position are the deviation posts of ultrasonic wave.
Step S340: the instantaneous velocity under current time is calculated again according to formula (1), wherein first transducer, second
The distance between energy converter is updated to L', and value is
During measuring testing medium, the position of ultrasonic transducer is adjusted by the above method property of can adapt to, is connect
The biggish ultrasonic wave of signal strength is received, measurement accuracy is improved.It can by constantly updating the distance between two energy converters
Carry out real-time measurement.
The offset distance being calculated in the method can be used as the ultrasonic flowmeter of previous embodiment in measurement process
In movement foundation.
It is appreciated that the present embodiment only illustrates to adjust the principle of energy converter by taking one group of transmission-type mounting means as an example, this
Field technical staff can be in conjunction with specific mounting means (such as can be refractive or multiple reflections installation etc.) and to this reality
It applies the equation in example and makees adaptability change, to obtain suitable offset distance.
In conclusion ultrasonic flowmeter provided by the utility model can be driven by regulating mechanism for receiving ultrasonic wave
Ultrasonic transducer movement, signal offset problem caused by being able to solve due to media flow.A whole set of features simple structure, is easy to
Realize installation, cost is relatively low, has good market value.
In the description of the present invention, it should be noted that term " on ", "lower", " in ", "inner", the instruction such as "outside"
Orientation or positional relationship be based on the orientation or positional relationship shown in the drawings or the utility model product use when it is usual
The orientation or positional relationship put, is merely for convenience of describing the present invention and simplifying the description, rather than indication or suggestion institute
The device or element of finger must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this reality
With novel limitation.In addition, term " first ", " second " etc. are only used for distinguishing description, it is not understood to indicate or imply phase
To importance.In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set
Set ", " installation ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection;It can be machine
Tool connection, is also possible to be electrically connected;It can be directly connected, it can also be indirectly connected through an intermediary.For this field
For those of ordinary skill, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.
Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to
In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation
Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be wanted with right
Subject to the protection scope asked.It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once
It is defined in a certain Xiang Yi attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.
Claims (10)
1. a kind of ultrasonic flowmeter, which is characterized in that the ultrasonic flowmeter includes:
Flowmeter shell;
The first transducer being mounted on the flowmeter shell;
The regulating mechanism being mounted on the flowmeter shell;
The second transducer being mounted on the regulating mechanism, the second transducer are issued for receiving the first transducer
Ultrasonic wave;
The second transducer is driven to move on the first preset direction under the regulating mechanism working condition.
2. ultrasonic flowmeter as described in claim 1, which is characterized in that the regulating mechanism includes adjustable sliding block, driving
Motor, the flowmeter shell are equipped with sliding rail;
The driving motor is mounted on the flowmeter shell, and the driving motor is connect with the adjustable sliding block, described
Adjustable sliding block is mounted on the sliding rail;
The second transducer is mounted on the adjustable sliding block;
The driving motor drives the adjustable sliding block to move on the sliding rail, so that the second transducer is in the cunning
It is moved on the extending direction of rail.
3. ultrasonic flowmeter as claimed in claim 2, which is characterized in that the adjustable sliding block is equipped with through-hole;
The second transducer passes through the through-hole to be inserted into the flowmeter shell.
4. ultrasonic flowmeter as claimed in claim 2, which is characterized in that the adjustable sliding block includes the first extension, the
Two extensions;
Adjustment hole is equipped on first extension, second extension, the flowmeter shell is equipped with and the tune
The sliding block fixation hole of knothole cooperation;
It is attached between the adjustment hole, the sliding block fixation hole by fixing piece, is pacified the adjustable sliding block with realizing
On the flowmeter shell;
Wherein, length of the adjustment hole on first preset direction is greater than the diameter of the sliding block fixation hole, so that institute
Stating adjustable sliding block can move on the extending direction of the adjustment hole.
5. ultrasonic flowmeter as claimed in claim 4, which is characterized in that first extension or second extension with
It is connected between the driving motor by screw rod;
When the driving motor rotates, the screw rod pushes or drags the adjustable sliding block on first preset direction
Movement.
6. ultrasonic flowmeter as claimed in claim 2, which is characterized in that the adjustable sliding block includes towards the flowmeter
First face of shell, the second face far from the flowmeter shell;
The driving motor is gear motor, and second face is equipped with the dentalation agreed with the gear motor;
The gear motor drives the adjustable sliding block to move on first preset direction when rotating.
7. ultrasonic flowmeter as described in claim 1, which is characterized in that between the regulating mechanism and the flowmeter shell
Equipped with washer, the washer between the regulating mechanism and the flowmeter shell for being sealed.
8. ultrasonic flowmeter as described in claim 1, which is characterized in that the ultrasonic flowmeter further includes the first fixed block,
First fixed block is mounted on the flowmeter shell by fixing piece;
Through-hole is offered on first fixed block, the first transducer passes through the through-hole to be inserted into the flowmeter shell
Body.
9. ultrasonic flowmeter as described in claim 1, which is characterized in that the installation direction of the first transducer and described the
There are angles for one preset direction, so that the second transducer can receive the ultrasonic wave that the first transducer issues.
10. a kind of ultrasonic flowmeter, which is characterized in that the ultrasonic flowmeter includes flowmeter shell and multiple groups measurement dress
It sets;
Any group of measuring device include:
The first transducer being mounted on the flowmeter shell;
The regulating mechanism being mounted on the flowmeter shell;
The second transducer being mounted on the regulating mechanism, the second transducer are issued for receiving the first transducer
Ultrasonic wave;
The second transducer is driven to move on the first preset direction under the regulating mechanism working condition.
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CN201822179609.6U CN209230699U (en) | 2018-12-24 | 2018-12-24 | Ultrasonic flowmeter |
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CN201822179609.6U CN209230699U (en) | 2018-12-24 | 2018-12-24 | Ultrasonic flowmeter |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109341794A (en) * | 2018-12-24 | 2019-02-15 | 南京光声超构材料研究院有限公司 | Ultrasonic flowmeter and the method for adjusting energy converter |
-
2018
- 2018-12-24 CN CN201822179609.6U patent/CN209230699U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109341794A (en) * | 2018-12-24 | 2019-02-15 | 南京光声超构材料研究院有限公司 | Ultrasonic flowmeter and the method for adjusting energy converter |
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