CN209198393U - Weld defect based on feature guided wave detects the time-sharing exciting system of dedicated array-type sensor - Google Patents
Weld defect based on feature guided wave detects the time-sharing exciting system of dedicated array-type sensor Download PDFInfo
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Abstract
The utility model discloses the time-sharing exciting system that a kind of weld defect based on feature guided wave detects dedicated array-type sensor, this system includes: master controller, digital analog converter, signal conditioning module, analog multichannel switch module, phase shifter group and sensor;The weld defect based on feature guided wave of the utility model detects the time-sharing exciting method of dedicated array-type sensor, the time-sharing exciting function that array-type sensor can be realized in the case where single controller generates one-channel signal makes the signal that single crystal oscillator inspires in array-type sensor be gathered into one with high s/n ratio, high-energy, the ultrasonic guided wave signals that can be propagated in weld seam medium and long distance.During this system can be applied to surface curvature unevenness, complicated big workpiece weld defect detects, have a extensive future.
Description
Technical field
The utility model relates to field of non destructive testing, and in particular to a kind of weld defect detection based on feature guided wave is dedicated
The time-sharing exciting system of array-type sensor.
Background technique
Welding is production technology common in life, is had a very important role in modern industrial production, it is very
The key technology of the manufactures such as more large scale structures such as pressure vessel, ship, ocean platform.According to statistics, in pressure vessel manufacturing, weldering
It connects workload and accounts for 30% of amount of work or more, therefore welding quality has direct shadow to architecture quality and safety and reliability
It rings.
Ultrasound detection is one of the weld seam lossless detection method being most widely used at present, with other conventional non-destructive testing skills
Art is compared, and defect very little that ultrasonic inspection method can detect, rate are fast, operation is simple and are convenient for on-site test.But it is ultrasonic
Detection method can only detect slab there are blind area, and using point-by-point scanning detection mode, efficiency is very low, cannot tie to complexity
Structure comprehensively, quickly detect.
In recent years, ultrasonic guided wave detecting develops into a kind of new method, and ultrasonic guided wave detection technology is former using ultrasonic wave
Reason, the ultrasonic wave that stimulus sensor is motivated are incident in target, and ultrasonic wave constantly reflects in the waveguide that object is formed
And scattering, it propagates ultrasonic wave along waveguide, the signal propagated then is received by receiving sensor again, can be detected and characterize
Defect, geometric properties, institutional framework and mechanical mechanics property of measured workpiece etc..The method compensates for traditional detection method detection
The deficiency of low efficiency, and examined workpiece surface and internal defect can be can be detected by single pass.Guided waves propagation
Distance is remote, is able to detect very big workpiece, and the speed detected is fast, high-efficient, therefore before ultrasonic guided wave detection technology application
Scape is wide.
Currently, novel pipeline detector based on foreign countries have already appeared by guided wave detection technology, and applied
In the In-service testing of pipeline.It was found that ultrasonic guided wave detection technology not only has efficient inspection from the research of foreign scholar
Survey ability and can realize long range In-service testing, and can also be used in for example T-type welding plate, rail, aircraft special type part and
It docks in the labyrinths such as the weld seam in welding plate, guided wave can be formed by waveguide in these labyrinths and propagate.This is to grind
Study carefully application of the guided wave in weld seam detection and provide theoretical foundation, also let us sees supersonic guide-wave and answers in weld defect detection
Bright prospects in.
Since the weld defect detection technique research based on feature guided wave is also immature, dedicated weld seam is special both at home and abroad at present
It is still less to levy Guided waves sensor, on the one hand, since welding line structure has diversity, the weld seam table of different-thickness weldment
Face curvature is different, weld width is also different, in order to increase the degree of coupling of sensor from different welding line structures, to sensor
Higher requirements are also raised for structure;On the other hand, for welding line structure, the intrinsic multi-modal and Dispersion of feature guided wave makes
Echo waveform is sufficiently complex, therefore mode is single, energy reflectivity is high guided wave signals how to be motivated to become a difficult point.
It includes signal that Chinese patent CN206074522U, which discloses a kind of phased array electromagnetic ultrasound method and device, the device,
The parts such as source, channel gate, hub, the acquisition of multi-channel signal conditioning device and signal and display are a kind of contactless
Supersonic detection device, can operation under high temperature environment, and solve ordinary electromagnetic ultrasonic sensor to can not achieve wide-angle oblique
The problems such as incidence detection energy conversion efficiency is low.But this device cannot lack weld seam using point by point scanning detection method
Row is trapped into quickly and effectively to detect.
Chinese patent CN103293223A discloses a kind of butt weld nondestructive detection system based on feature guided wave, this is
System is made of feature guided wave transmitting-receiving instrument, feature wave guide energy converter and host computer, need to can only be examined in weld seam one end placement sensor
Survey weld defect.But since this system uses single probe sensor, when in face of curvature different face of weld, sensing
Device is low with the weld seam degree of coupling, and the signal that inspires of excitation end sensor only has small part to be passed in weld seam, cannot effectively motivate with
Ultrasonic guided wave signals are received, influence detection effect, precision is lower.
Chinese patent CN105395218A discloses a kind of ultrasonic image-forming system and method, including control unit, excitation are single
Ultrasonic probe and Ultrasonic-B probe are combined into one by member, probe and ultrasonic signal processing unit, this system, are flowed by relevant imaging
Journey and imaging algorithm realize elasticity measurement and the measurement of B ultrasound mode.But this system is only applicable to elastogram, and be not suitable for weldering
Seam defect detection.
Utility model content
In view of the deficiencies of the prior art, the utility model proposes a kind of, and the weld defect detection based on feature guided wave is dedicated
The time-sharing exciting system of array-type sensor, solves that conventional weld defect detecting technique detection accuracy is low, bad adaptability asks
Topic.
A kind of weld defect based on feature guided wave detects the time-sharing exciting system of dedicated array-type sensor, this system packet
It includes: master controller, digital analog converter, signal conditioning module, analog multichannel switch module, phase shifter group and sensor-;
Master controller, the master controller are the cores of whole system, can generate the dedicated array of characteristics of weld seam guided wave
The pumping signal of formula sensor, and address signal and control signal can be provided, control the running of whole system;
Digital analog converter after the digital analog converter is next to master controller, can believe number caused by master controller
Number analog signal is converted in real time, provides analogue stimulus signal for system;
Signal conditioning module, the signal conditioning module are next to the output end of digital analog converter, can filter analog signal
Wave, amplification filter out the higher hamonic wave and interference signal of signal, improve the signal-to-noise ratio of signal, and improve the amplitude of signal, reach biography
The requirement of sensor pumping signal;
Time-sharing exciting mould group, the time-sharing exciting mould group include analog multichannel switch module, phase shifter group and sensor, master
If gradually gating letter according to given delay time by analog multichannel switch module first to achieve the effect that time-sharing exciting
Number access, and accurate phase shift is carried out according to the delay time on every road by phase shifter group, then one-channel signal is accessed into corresponding pass
In sensor group, time-sharing exciting is realized;
Analog multichannel switch module, the analog multichannel switch module have the function of multiple signals gating, in circuit
It is able to achieve the through and off of analog signal;
Phase shifter group, the phase shifter group have the phase shift effect of one-channel signal, and the quantity of phase shifter in sensor by pressing
The group number of electric piece group determines;
Sensor, the sensor are made of multiple groups piezoelectric patches group, in conjunction with the time-sharing exciting mould group, make piezoelectric patches group with
The signal generated between group has certain phase difference, in conjunction with signal time caused by the contact point difference of piezoelectric patches group in welded joints
Multiple one-channel signals are superimposed as the bigger guided wave signals of energy by difference.
Further, the master controller is FPGA development board, can not only provide pumping signal, can also give the simulation
Variable connector module provides the address signal and control signal of switching gate, is gradually controlled out using the delay that timer generates
The on-off of pass, to achieve the effect that time-sharing exciting.
Further, each of described phase shifter group phase shifter is all by the first impedance matching box, a second order all-pass filter
Wave device and the second impedance matching box composition guarantee the maximization that energy transmission is realized while phase shift effect.
Further, in the second order all pass filter design have a variable resistance, can by change described in can power transformation
The resistance value of device is hindered to change the phase shift size of all-pass filter, and specifically phase-shift value is mainly by the master controller to per all the way
The delay time of signal setting generates corresponding phase shifting control pulse.
Further, variable resistance is in parallel with a Minitype resistance by digital potentiometer, when the resistance value of digital potentiometer changes
When change, the variation size of variable resistance resistance value is caused to depend not only on potentiometer, also depend on Minitype resistance, in parallel is small
The resistance value of resistance is smaller, and the influence that digital potentiometer resistance value changes to variable resistance is smaller, and the influence to phase shifter is also got over
It is small, the resolution ratio of digital potentiometer can be improved in this way, then improve the resolution ratio of phase shifter.
A kind of weld defect based on feature guided wave detects the time-sharing exciting method of dedicated array-type sensor, including following
Step:
Step (1) designs the modulating wave for generating Hanning window using Verilog language combination FPGA development board, by FPGA's
The connection of the input port of signal parallel output port and digital analog converter, the signal of generation can pass through digital analog converter will be digital
Signal is converted to analog signal, and the signal output port of digital analog converter and the input port of signal conditioning module connect, simulation
After signal entering signal conditioning module, the high frequency spurs in signal can be filtered and the tiny signal of generation can be amplified to sensing
The excitation requirement of device;
Step (2), according to the arrangement mode of piezoelectric patches group, i.e. arrangement pitch in sensor between piezoelectric patches group and group is true
The time difference of their fixed produced signals generates address letter signal and control signal, control Multipexer using FPGA development board
The on-off of switch module is able to accurately be transferred in piezoelectric patches group per signal all the way;
Step (3), is developed at the time difference between every signal all the way generated according to analog multichannel switch module using FPGA
Plate generates phase shifting control pulse, controls the change in resistance of the digital potentiometer in phase shifter, and then change the phase-shift value of phase shifter,
It can reach delay and the Phasing accurate fit between every road signal in this way;
Step (4) places stimulus sensor and receiving sensor in welded joints, and stimulus sensor is tightly attached to the one of weld seam
End, receiving sensor and stimulus sensor generate pumping signal and input and swash at a distance of 10cm using designed time-sharing exciting system
It encourages in sensor, sensor and weld seam resonance generate supersonic guide-wave, after supersonic guide-wave is constantly propagated in weld seam, received biography
Sensor receives, and by acquisition system by signal acquisition, storage, and is transferred to analysis in PC machine, processing and display, can be completed
The process of entire time-sharing exciting.
The beneficial effects of the utility model are:
(1) for the weld seam on different curvature surface, the sensor array that the utility model uses can be upper with detected weld
Surface close adhesion adapts to the demand with the weld seam on different curvature surface;
(2) signal that the piezoelectric patches group that the time-sharing exciting mould group of the utility model design simultaneously can make position different generates closes
It is concentrated at an energy, the ultrasonic guided wave signals that frequency dispersion is small, mode is single.
(3) weld defect based on feature guided wave of institute's utility model detects the time-sharing exciting system of dedicated array-type sensor
System and method can realize the time-sharing exciting function of array-type sensor in the case where single controller generates one-channel signal, make battle array
The signal that single crystal oscillator inspires in column sensor be gathered into one have high s/n ratio, high-energy, can in weld seam long distance
Ultrasonic guided wave signals from propagation.This system can be applied to surface curvature unevenness, complicated big workpiece weld defect detection
In, it has a extensive future.
Detailed description of the invention
Fig. 1 is the time-sharing exciting system signal that a kind of weld defect based on feature guided wave detects dedicated array-type sensor
Figure;
Fig. 2 is the time-sharing exciting system structure that a kind of weld defect based on feature guided wave detects dedicated array-type sensor
Figure;
Fig. 3 is phase shifter structure figure;
Fig. 4 is second order all pass filter structure chart;
Wherein, time-sharing exciting system designed by 1-;2- host computer;3- weld seam;4- welding plate;5- acquisition system;6- is received
Sensor;7- stimulus sensor;11- master controller;12- digital analog converter;13- signal conditioning module;14- time-sharing exciting mould
Group;15- sensor;141- analog multichannel switch module;142- phase shifter group;1421~142n- phase shifter;151~15n- pressure
Electric piece group;The first impedance matching box of 14211-;14212- second order all pass filter;The second impedance matching box of 14213-;R1It is variable
Resistor;R- digital potentiometer;R0Minitype resistance.
Specific embodiment
With reference to the accompanying drawing and specific embodiment is further described the utility model, but the protection of the utility model
Range is not limited to this.
As described in Figure 2, a kind of weld defect based on feature guided wave detects the time-sharing exciting system of dedicated array-type sensor
System, specifically includes that master controller 11, digital analog converter 12, signal conditioning module 13, time-sharing exciting mould group 14 and sensor 15;
Wherein, master controller 11 is the core of whole system, can generate the dedicated array sensing of characteristics of weld seam guided wave
The pumping signal of device, and address signal and control signal can be provided, control the running of whole system;Digital analog converter 12 is immediately
After master controller, digital signal caused by master controller 11 can be converted to analog signal in real time, provide simulation for system
Pumping signal;Signal conditioning module 13 is next to the output end of digital analog converter 12, can filter analog signal, amplification, and worry removes
The higher hamonic wave and interference signal of signal, improve the signal-to-noise ratio of signal, and improve the amplitude of signal, reach sensor excitation signal
Requirement;
Time-sharing exciting mould group 14 includes analog multichannel switch module 141 and phase shifter group 142, primarily to reaching timesharing
The effect of excitation first by analog multichannel switch module gradually according to given delay time gating signal access, and passes through shifting
Phase device group 142 carries out accurate phase shift according to the delay time on every road, then one-channel signal is accessed in corresponding sensor 15, realizes
Time-sharing exciting;Analog multichannel switch module 141 has the function of multiple signals gating, is able to achieve the logical of analog signal in circuit
With it is disconnected;Phase shifter group 142 has the phase shift effect of one-channel signal, and the quantity of 1421~142n of phase shifter is by piezoelectric patches in sensor
The group number of 151~15n of group determines;Sensor is made of 151~15n of multiple groups piezoelectric patches group, 151~15n of each piezoelectric patches group
The signal of generation is identical, and the time difference generated in conjunction with time-sharing exciting mould group 14 and phase shift effect, composition one-channel signal generate access.
Using FPGA development board as master controller 11, pumping signal can be not only provided, analog multichannel switch can also be given
Module 141 provides the address signal and control signal of switching gate, and the delay generated using timer is come gradually control switch
On-off, to achieve the effect that time-sharing exciting.
As described in Figure 3,1421~142n of each of phase shifter group 142 phase shifter is by the first impedance matching box
14211, a second order all pass filter 14212 and the second impedance matching box 14213 composition guarantee to realize while phase shift effect
The maximization of energy transmission.
As described in Figure 4, design has a variable resistance R in second order all pass filter 142121, can be variable by changing
Resistor R1Resistance value change the phase shift size of all-pass filter 14212, and specific phase-shift value is mainly by master controller 11
Corresponding phase shifting control pulse is generated to the delay time per the setting of signal all the way.It is specific as follows: second order all pass filter
Transmission function isExpress the input of filter and the transitive relation of outlet chamber, wherein phase
Frequency characteristic isIndicate the phase of output signal relative to input
The variation of signal phase;Quality factor areWhich depict side frequency ingredient ability in filter separation signal, product
Prime factor Q is bigger, shows that the resolution capability of filter is higher;Intrinsic frequency isIt is that circuit is not lost
When, the resonance frequency of filter;R1 and R2 is the resistance of circuit, and C1 and C2 are capacitors, and A is the gain of filter.When only changing
Become variable resistance R1, and when other parameters are constant, the phase-frequency characteristic of second order all pass filter can be with variable resistance R1Variation
And it changes.
Variable resistance R1By digital potentiometer R and a Minitype resistance R0Parallel connection, when the resistance value of digital potentiometer R changes
When, cause variable resistance R1The variation size of resistance value depends not only on potentiometer R, also depends on Minitype resistance R0, in parallel is micro-
Small resistance R0Resistance value it is smaller, digital potentiometer R resistance value change to variable resistance R1Influence it is smaller, to phase shifter 1421~
The influence of 142n is also just smaller, can improve the resolution ratio of digital potentiometer R in this way, then improves 1421~142n of phase shifter
Resolution ratio.
In order to make system achieve the effect that time-sharing exciting, carried out according to following design and experimental procedure:
Step (1) designs the modulating wave for generating Hanning window using Verilog language combination FPGA development board, by FPGA's
Signal parallel output port is connect with the input port of digital analog converter 12, and the signal of generation can pass through digital analog converter 12
Convert digital signals into analog signal, the signal output port of digital analog converter 12 and the input port of signal conditioning module 13
Connection after analog signal entering signal conditioning module 13, can filter the high frequency spurs in signal and can be by the small letter of generation
Number it is amplified to the excitation requirement of sensor;
Step (2), according to the arrangement mode of 151~15n of piezoelectric patches group, i.e., in sensor 15 151~15n of piezoelectric patches group with
Arrangement pitch between group determines the time difference of signal produced by them, generates address letter signal and control using FPGA development board
Signal controls the on-off of analog multichannel switch module 141, is able to accurately be transferred in piezoelectric patches group per signal all the way;
Step (3), utilizes FPGA at the time difference between every signal all the way generated according to analog multichannel switch module 141
Development board generates phase shifting control pulse, controls the change in resistance of the digital potentiometer R in phase shifter group 142, and then change phase shift
The phase-shift value of device group 142 can reach delay and Phasing accurate fit between every road signal in this way;
Stimulus sensor 7 and receiving sensor 6 are placed on weld seam 3, stimulus sensor 7 by step (4) as described in Figure 1
It is tightly attached to one end of weld seam, receiving sensor 6 and stimulus sensor 7 at a distance of 10cm, is produced using designed time-sharing exciting system 1
In raw pumping signal input stimulus sensor 7, sensor 7 and the resonance of weld seam 3 generate supersonic guide-wave, and supersonic guide-wave is in weld seam 3
After continuous propagation, received sensor 6 is received, and by acquisition system 5 by signal acquisition, storage, and is transferred in PC machine 2
Analysis, processing and display, can be completed the process of entire time-sharing exciting.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ",
The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot
Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art
The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or
Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.
While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that:
These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective
And modification, the scope of the utility model are defined by the claims and their equivalents.
Claims (6)
1. a kind of weld defect based on feature guided wave detects the time-sharing exciting system of dedicated array-type sensor, feature exists
In including the master controller (11), digital analog converter (12), signal conditioning module (13), time-sharing exciting mould group being sequentially connected
(14) and sensor (15);
The master controller (11) is used to generate the pumping signal of the dedicated array-type sensor of feature guided wave, and can provide address letter
Number and control signal, control the running of whole system;After the digital analog converter (12) is next to master controller, by main control
Digital signal caused by device (11) is converted to analog signal in real time, provides analogue stimulus signal for system;The signal condition
Module (13) is next to the output end of digital analog converter (12), by analog signal filtering, amplification, filter out the higher hamonic wave of signal with
Interference signal improves the signal-to-noise ratio of signal, the amplitude of signal;The time-sharing exciting mould group (14) includes analog multichannel switch module
(141) and phase shifter group (142), gradually logical according to given delay time gating signal by analog multichannel switch module (141)
Road, and accurate phase shift is carried out according to the delay time on every road by phase shifter group (142), then one-channel signal is accessed into corresponding pass
In sensor (15), time-sharing exciting is realized;The sensor (15) is made of multiple groups piezoelectric patches group, in conjunction with the time-sharing exciting mould group
(14), the signal generated between piezoelectric patches group and group is made to have certain phase difference, not in conjunction with the contact point of piezoelectric patches group in welded joints
Signal time is poor with caused by, and multiple one-channel signals are superimposed as the bigger guided wave signals of energy.
2. the timesharing that a kind of weld defect based on feature guided wave according to claim 1 detects dedicated array-type sensor
Excitation system, which is characterized in that
The analog multichannel switch module (141) gates with multiple signals, is able to achieve the through and off of analog signal in circuit;
The phase shifter group (142) has the phase shift effect of one-channel signal, including multiple phase shifters, and quantity is by piezoelectric patches in sensor
The group number of group determines.
3. the timesharing that a kind of weld defect based on feature guided wave according to claim 1 detects dedicated array-type sensor
Excitation system, which is characterized in that the master controller (11) specifically further includes providing to the analog multichannel switch module (141)
The address signal and control signal of switching gate, using the delay that timer generates come the on-off of gradually control switch, to realize
Time-sharing exciting.
4. a kind of weld defect based on feature guided wave according to claim 1 or 2 detects dedicated array-type sensor
Time-sharing exciting system, which is characterized in that each of described phase shifter group (142) phase shifter is all by the first impedance matching box
(14211), a second order all pass filter (14212) and the second impedance matching box (14213) are composed in series, and guarantee phase shift effect
While realize energy transmission maximization.
5. the timesharing that a kind of weld defect based on feature guided wave according to claim 4 detects dedicated array-type sensor
Excitation system, which is characterized in that design has a variable resistance (R in the second order all pass filter (14212)1), pass through
Change the variable resistance (R1) resistance value change the phase shift size of second order all pass filter (14212), and specific phase
Shifting value generates corresponding phase shifting control pulse to the delay time per the setting of signal all the way mainly by the master controller (11).
6. the timesharing that a kind of weld defect based on feature guided wave according to claim 5 detects dedicated array-type sensor
Excitation system, which is characterized in that variable resistance (R1) by digital potentiometer (R) and a Minitype resistance (R0) composition in parallel, when
When the resistance value of digital potentiometer (R) changes, cause variable resistance (R1) the variation size of resistance value depends not only on potentiometer
(R), Minitype resistance (R is also depended on0), Minitype resistance (R in parallel0) resistance value it is smaller, digital potentiometer (R) resistance value change pair
Variable resistance (R1) influence it is smaller, influence to phase shifter is also just smaller.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109298080A (en) * | 2018-10-31 | 2019-02-01 | 江苏大学 | Weld defect based on feature guided wave detects the time-sharing exciting system and method for dedicated array-type sensor |
CN110618200A (en) * | 2019-08-28 | 2019-12-27 | 江苏大学 | Flexible probe of welding seam defect detection array sensor based on characteristic guided waves |
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2018
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109298080A (en) * | 2018-10-31 | 2019-02-01 | 江苏大学 | Weld defect based on feature guided wave detects the time-sharing exciting system and method for dedicated array-type sensor |
CN109298080B (en) * | 2018-10-31 | 2023-12-15 | 江苏大学 | Time-sharing excitation system and method of special array sensor for weld defect detection based on characteristic guided wave |
CN110618200A (en) * | 2019-08-28 | 2019-12-27 | 江苏大学 | Flexible probe of welding seam defect detection array sensor based on characteristic guided waves |
CN110618200B (en) * | 2019-08-28 | 2022-04-26 | 江苏大学 | Flexible probe of welding seam defect detection array sensor based on characteristic guided waves |
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