CN204594937U - One utilizes acoustics spectrum analysis to identify the successional device of special-shaped parts - Google Patents
One utilizes acoustics spectrum analysis to identify the successional device of special-shaped parts Download PDFInfo
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- CN204594937U CN204594937U CN201520309492.2U CN201520309492U CN204594937U CN 204594937 U CN204594937 U CN 204594937U CN 201520309492 U CN201520309492 U CN 201520309492U CN 204594937 U CN204594937 U CN 204594937U
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Abstract
The utility model discloses one utilizes acoustics spectrum analysis to identify the successional device of special-shaped parts, comprise bucket, sound-guiding liquid body, work holder, multiple multiple degrees of freedom probe clamping device, multiple ultrasonic inspection probe, ultrasound measuring instrument, special-shaped parts are immersed in the sound-guiding liquid body in bucket, the ultrasonic signal that the multiple ultrasonic inspection probe of multiple multiple degrees of freedom probe gripping apparatus grips is launched from different directions is injected in special-shaped parts, omnibearing Ultrasonic Detection is implemented to special-shaped parts, by with standard abnormity parts contrast echo echoed signal spectrogram, the continuity of Rapid identification abnormity parts.
Description
Art
The utility model relates to a kind of the cannot-harm-detection device, particularly relates to one and utilizes acoustics spectrum analysis to identify the successional device of special-shaped parts.
Background technology
The continuity test problems of abnormity parts is one so far and detects a difficult problem, and because the surface configuration of special-shaped parts is complicated, conventional supersonic detection method coupling difficulty, cannot comprehensively detect, detection efficiency is low, easily occurs undetected.
Summary of the invention
The purpose of this utility model is the deficiency overcoming prior art, one is provided to utilize acoustics spectrum analysis to identify the successional device of special-shaped parts, adopt multiple degrees of freedom probe clamping device, by with standard abnormity parts contrast echo echoed signal spectrogram, the continuity of Rapid identification abnormity parts.
The utility model solves the technical scheme that its technical matters adopts: one utilizes acoustics spectrum analysis to identify the successional device of special-shaped parts, comprise bucket, sound-guiding liquid body, work holder, multiple multiple degrees of freedom probe clamping device, multiple ultrasonic inspection probe, ultrasound measuring instrument, it is characterized in that: in described bucket, fill sound-guiding liquid body; Described work holder is fixed on the bung of bucket; Described multiple multiple degrees of freedom probe clamping device is fixed on the inner face of bucket; Described multiple ultrasonic inspection probe is gripped by multiple multiple degrees of freedom probe clamping device; Multiple multiple degrees of freedom probe clamping device can regulate the position of multiple ultrasonic inspection probe in bucket by multiple degrees of freedom; Multiple ultrasonic inspection probe connects ultrasound measuring instrument.Utilize acoustics spectrum analysis to identify the successional method of special-shaped parts accordingly, comprise calibration process and actual measurement process,
Described calibration process is,
A. adopt work holder fixed standard abnormity parts, standard abnormity parts immerse in the sound-guiding liquid body in bucket; Described standard abnormity parts are successional intact special-shaped parts invariably;
B. regulate multiple multiple degrees of freedom probe clamping device, make multiple ultrasonic inspection probe be evenly distributed on around standard abnormity parts;
C. ultrasound measuring instrument encourages multiple ultrasonic inspection probe, multiple ultrasonic signals that multiple ultrasonic inspection probe is launched are by sound-guiding liquid body conduction Engage of standard abnormity parts, standard abnormity parts receive after multiple directions penetrate the multiple ultrasonic signals come and reflect multiple ultrasound echo signal accordingly, multiple ultrasound echo signal is received by multiple ultrasonic inspection probe and transfers to ultrasound measuring instrument, the spectrogram of multiple ultrasound echo signals of ultrasound measuring instrument display record standard abnormity parts;
Described actual measurement process is,
D. adopt work holder to fix tested special-shaped parts, guarantee that the constant bearing of tested special-shaped parts and standard abnormity parts are identical, the orientation during namely tested special-shaped parts are immersed in bucket sound-guiding liquid body is identical with the special-shaped parts orientation of standard;
E. the distribution orientation of many ultrasonic inspection probes is identical with step b;
F. ultrasound measuring instrument encourages multiple ultrasonic inspection probe, multiple ultrasonic signals that multiple ultrasonic inspection probe is launched enter tested special-shaped parts by the conduction of sound-guiding liquid body, tested special-shaped parts receive after multiple directions penetrate the multiple ultrasonic signals come and reflect multiple ultrasound echo signal accordingly, multiple ultrasound echo signal is received by multiple ultrasonic inspection probe and transfers to ultrasound measuring instrument, and the spectrogram of multiple ultrasound echo signals of tested special-shaped parts is recorded in ultrasound measuring instrument display;
G. the spectrogram of the spectrogram of multiple ultrasound echo signals of tested special-shaped parts with multiple ultrasound echo signals of the standard abnormity parts recorded in step c is analyzed: when the spectrogram of corresponding multiple ultrasound echo signals of the standard abnormity parts recorded in the spectrogram and step c of multiple ultrasound echo signals of tested special-shaped parts is identical, illustrate that tested special-shaped parts stand intact, without discontinuous, judge that tested special-shaped parts are as certified products according to this; When the spectrogram of one or more ultrasound echo signals of tested special-shaped parts is not identical with the spectrogram of corresponding one or more ultrasound echo signals of the standard abnormity parts recorded in step c, illustrate that the corresponding site of tested special-shaped parts has discontinuous, judge that tested special-shaped parts are as unacceptable product according to this.
Above-mentioned two kinds utilize acoustics spectrum analysis to identify in the successional method of special-shaped parts, and ultrasound measuring instrument adopts time-sharing exciting method to encourage multiple ultrasonic inspection probe, to avoid transmitting between multiple ultrasonic inspection probe, reflection wave cross jamming; The transmitting of multiple ultrasonic inspection probe receiving mode select single-shot single receive or single-shot many receipts multiple single receive or multiple many receipts.
The beneficial effects of the utility model are, one is provided to utilize acoustics spectrum analysis to identify the successional device of special-shaped parts, comprise bucket, sound-guiding liquid body, work holder, multiple multiple degrees of freedom probe clamping device, multiple ultrasonic inspection probe, ultrasound measuring instrument, special-shaped parts are immersed in the sound-guiding liquid body in bucket, multiple multiple degrees of freedom probe clamping device controls the ultrasonic signal that multiple ultrasonic inspection probe launches from different directions and injects in special-shaped parts, omnibearing Ultrasonic Detection is implemented to special-shaped parts, by with standard abnormity parts contrast echo echoed signal spectrogram, the continuity of Rapid identification abnormity parts.
Below in conjunction with embodiment, the utility model is described in further detail, but one of the present utility model utilizes acoustics spectrum analysis to identify, and the successional device of special-shaped parts is not limited to embodiment.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is further illustrated.
Fig. 1 is a kind of device schematic diagram of the utility model embodiment.
Fig. 2 is the acoustics spectrum analysis authentication method schematic diagram of the utility model embodiment.
In figure, 1. barrel, 2. sound-guiding liquid body, 3. work holder, 4. multiple degrees of freedom probe clamping device, 5. ultrasonic inspection probe, 6. ultrasound measuring instrument, 7. standard abnormity parts, the ultrasound echo signal spectrogram of S. standard abnormity parts, the ultrasound echo signal spectrogram of the tested special-shaped parts of R..
Embodiment
In embodiment shown in Fig. 1, Fig. 2, one utilizes acoustics spectrum analysis to identify the successional device of special-shaped parts, comprise bucket 1, sound-guiding liquid body 2, work holder 3, multiple multiple degrees of freedom probe clamping device 4, multiple ultrasonic inspection probe 5, ultrasound measuring instrument 6, it is characterized in that: in described bucket 1, fill sound-guiding liquid body 2; Described work holder 3 is fixed on the bung of bucket 1; Described multiple multiple degrees of freedom probe clamping device 4 is fixed on the inner face of bucket 1; Described multiple ultrasonic inspection probe 5 is gripped by multiple multiple degrees of freedom probe clamping device 4; Multiple multiple degrees of freedom probe clamping device 4 can regulate the multiple position of ultrasonic inspection probe 5 in bucket 1 by multiple degrees of freedom; Multiple ultrasonic inspection probe 5 connects ultrasound measuring instrument 6.Utilize acoustics spectrum analysis to identify the successional method of special-shaped parts accordingly, comprise calibration process and actual measurement process,
Described calibration process is,
A. adopt work holder 3 fixed standard abnormity parts 7, standard abnormity parts 7 immerse in the sound-guiding liquid body 2 in bucket 1; Described standard abnormity parts 7 are successional intact special-shaped parts invariably;
B. regulate multiple multiple degrees of freedom probe clamping device 4, make multiple ultrasonic inspection probe 5 be evenly distributed on around standard abnormity parts 7;
C. ultrasound measuring instrument 6 encourages multiple ultrasonic inspection probe 5, multiple ultrasonic signals that multiple ultrasonic inspection probe 5 is launched conduct Engage of standard abnormity parts 7 by sound-guiding liquid body 2, standard abnormity parts 7 receive after multiple directions penetrate the multiple ultrasonic signals come and reflect multiple ultrasound echo signal accordingly, multiple ultrasound echo signal is received by multiple ultrasonic inspection probe 5 and transfers to ultrasound measuring instrument 6, and ultrasound measuring instrument 6 shows the spectrogram S of multiple ultrasound echo signals of record standard abnormity parts 7;
Described actual measurement process is,
D. work holder 3 is adopted to fix tested special-shaped parts, guarantee that the constant bearing of tested special-shaped parts and standard abnormity parts 7 are identical, the orientation during namely tested special-shaped parts are immersed in bucket 1 sound-guiding liquid body 2 is identical with standard abnormity parts 7 orientation;
E. the distribution orientation of many ultrasonic inspection probes 5 is identical with step b;
F. ultrasound measuring instrument 6 encourages multiple ultrasonic inspection probe 5, multiple ultrasonic signals that multiple ultrasonic inspection probe 5 is launched enter tested special-shaped parts by sound-guiding liquid body 2 conduction, tested special-shaped parts receive after multiple directions penetrate the multiple ultrasonic signals come and reflect multiple ultrasound echo signal accordingly, multiple ultrasound echo signal is received by multiple ultrasonic inspection probe 5 and transfers to ultrasound measuring instrument 6, and the spectrogram R of multiple ultrasound echo signals of tested special-shaped parts is recorded in ultrasound measuring instrument 6 display;
G. the spectrogram R of multiple ultrasound echo signals of tested special-shaped parts is analyzed with the spectrogram S of multiple ultrasound echo signals of the standard abnormity parts 7 recorded in step c: when the spectrogram S of corresponding multiple ultrasound echo signals of the standard abnormity parts 7 recorded in the spectrogram R and step c of multiple ultrasound echo signals of tested special-shaped parts is identical, illustrate that tested special-shaped parts stand intact, without discontinuous, judge that tested special-shaped parts are as certified products according to this; When the spectrogram R of one or more ultrasound echo signals of tested special-shaped parts is not identical with the spectrogram S of corresponding one or more ultrasound echo signals of the standard abnormity parts 7 recorded in step c, illustrate that the corresponding site of tested special-shaped parts has discontinuous, judge that tested special-shaped parts are as unacceptable product according to this.
Above-mentioned two kinds utilize acoustics spectrum analysis to identify in the successional method of special-shaped parts, and ultrasound measuring instrument 6 adopts time-sharing exciting method to encourage multiple ultrasonic inspection probe 5, to avoid transmitting between multiple ultrasonic inspection probe 5, reflection wave cross jamming; The transmitting of multiple ultrasonic inspection probe 5 receiving mode select single-shot single receive or single-shot many receipts multiple single receive or multiple many receipts.
Above-described embodiment is only used for further illustrating one of the present utility model and utilizes acoustics spectrum analysis to identify the successional device of special-shaped parts; but the utility model is not limited to embodiment; every above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations and modification, all fall in the protection domain of technical solutions of the utility model.
Claims (1)
1. one kind utilizes acoustics spectrum analysis to identify the successional device of special-shaped parts, comprise bucket, sound-guiding liquid body, work holder, multiple multiple degrees of freedom probe clamping device, multiple ultrasonic inspection probe, ultrasound measuring instrument, it is characterized in that: in described bucket, fill sound-guiding liquid body; Described work holder is fixed on the bung of bucket; Described multiple multiple degrees of freedom probe clamping device is fixed on the inner face of bucket; Described multiple ultrasonic inspection probe is gripped by multiple multiple degrees of freedom probe clamping device; Multiple multiple degrees of freedom probe clamping device can regulate the position of multiple ultrasonic inspection probe in bucket by multiple degrees of freedom; Multiple ultrasonic inspection probe connects ultrasound measuring instrument.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104807891A (en) * | 2015-05-14 | 2015-07-29 | 爱德森(厦门)电子有限公司 | Device for identifying continuity of specially-shaped part by utilizing acoustic spectral analysis |
CN106814137A (en) * | 2017-02-28 | 2017-06-09 | 北京工业大学 | A kind of omnidirectional's motivational techniques for ultrasound tomography |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104807891A (en) * | 2015-05-14 | 2015-07-29 | 爱德森(厦门)电子有限公司 | Device for identifying continuity of specially-shaped part by utilizing acoustic spectral analysis |
CN106814137A (en) * | 2017-02-28 | 2017-06-09 | 北京工业大学 | A kind of omnidirectional's motivational techniques for ultrasound tomography |
CN106814137B (en) * | 2017-02-28 | 2020-10-30 | 北京工业大学 | Omnidirectional excitation method for ultrasonic tomography |
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