CN104792348B - Transmission-type receiving transducer clamping device and method of adjustment - Google Patents
Transmission-type receiving transducer clamping device and method of adjustment Download PDFInfo
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- CN104792348B CN104792348B CN201510175471.0A CN201510175471A CN104792348B CN 104792348 B CN104792348 B CN 104792348B CN 201510175471 A CN201510175471 A CN 201510175471A CN 104792348 B CN104792348 B CN 104792348B
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- transmission
- receiving transducer
- type receiving
- type
- sleeve pipe
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Abstract
The present invention proposes a kind of transmission-type receiving transducer clamping device and method of adjustment, and the clamping device includes:For the pedestal for connecting transmission-type transmitting probe device, the I-shaped saddle, the upper flat seat below the I-shaped saddle, the upper bush for being fixed on the upper flat seat bottom and the lower sleeve for being movably set in the upper bush bottom that are fixed on the pedestal, the lower sleeve is rotatably connected to the sleeve pipe for housing transmission-type receiving transducer, described sleeve pipe Relative Transmission formula receiving transducer is axially movable and radial rotating, and described sleeve pipe carries out locking positioning by the first trip bolt and transmission-type receiving transducer.The present invention is realized and transmission-type receiving transducer is changed in real time and is aligned adjustment, improves the accuracy of detection and test effect of transmission-type receiving transducer.
Description
Technical field
The present invention relates to ultrasonic scanning detection technique field, more particularly to a kind of transmission-type receiving transducer clamping device and tune
Adjusting method.
Background technology
Transmission-type receiving transducer is in pure water medium, at present, is simply clamped in common transmission-type receiving transducer
In device, transmission-type receiving transducer is relative to penetrate the two-dimensional adjustment that sleeve pipe therein is only capable of carrying out axial stretching and radial rotary,
Its contraposition accuracy is difficult to ensure that;In addition, existing transmission-type receiving transducer clamping device volume is larger, to pure in scanning process
The water environment of aqueous medium easily causes larger water wave fluctuation, directly influences the accuracy of detection and test effect of transmission-type receiving transducer
Really.
The content of the invention
The purpose of the present invention is to propose to a kind of transmission-type receiving transducer clamping device and method of adjustment, it is capable of achieving to transmission-type
Adjustment is changed and be aligned to receiving transducer in real time, improves the accuracy of detection and test effect of transmission-type receiving transducer.
To reach above-mentioned purpose, the present invention proposes a kind of transmission-type receiving transducer clamping device, including:For connecting
It is the pedestal of penetrating formula transmitting probe device, the I-shaped saddle being fixed on the pedestal, the upper flat seat below the I-shaped saddle, solid
Due to the upper flat seat bottom upper bush and be movably set in the lower sleeve of the upper bush bottom, the lower sleeve is rotated and connected
The sleeve pipe for housing transmission-type receiving transducer is connected to, described sleeve pipe Relative Transmission formula receiving transducer is axially movable and radially turns
It is dynamic, and described sleeve pipe carries out locking positioning by the first trip bolt and transmission-type receiving transducer.
Further, in above-mentioned transmission-type receiving transducer clamping device, the transmission-type transmitting probe device includes saturating
The locking for penetrate formula transmitting probe, the signal source sleeve of the transmission-type transmitting probe that is screwed, clamping the signal source sleeve
Structure and the sliding seat of the locking mechanism is fixedly connected on, the sliding seat is slidably connected on the pedestal.
Further, in above-mentioned transmission-type receiving transducer clamping device, the threaded one end of the upper bush is connected to institute
Flat seat bottom is stated, the other end of the upper bush is sheathed in the lower sleeve, the other end of the upper bush is relative to trap
Cylinder is axially movable and radial rotating, and carries out locking positioning by the second trip bolt and lower sleeve.
Further, in above-mentioned transmission-type receiving transducer clamping device, one end of described sleeve pipe is sphere portion, the set
The other end of pipe is provided with the storage tank for housing transmission-type receiving transducer.
Further, in above-mentioned transmission-type receiving transducer clamping device, the bottom of the lower sleeve is embedded with can be relative
The rotating shaft for freely rotating, described sleeve pipe is threadedly coupled by sphere portion with the rotating shaft.
Further, in above-mentioned transmission-type receiving transducer clamping device, the end in the sphere portion is by the 3rd fastening
Screw is pushed against in lower sleeve, so that described sleeve pipe carries out locking positioning with respect to lower sleeve.
Further, in above-mentioned transmission-type receiving transducer clamping device, one end of the transmission-type receiving transducer is provided with
Signal wire joint for connecting holding wire, is additionally provided with the elongated slot and wire hole for drawing the holding wire in described sleeve pipe.
Further, in above-mentioned transmission-type receiving transducer clamping device, the signal wire joint is screwed on transmission
One end of formula receiving transducer.
Separately, the present invention also provides a kind of method of adjustment of above-mentioned transmission-type receiving transducer clamping device, comprises the following steps:
Step one:By the fabrication evaluation requirement of ultrasonic scanning, the transmission-type transmitting probe that will be adapted to screws in signal source sleeve
And be held in locking mechanism so that launch site is directed downward;
Step 2:In the transmission-type receiving transducer threading that will be adapted to, the relative set of the transmission-type receiving transducer is adjusted
The position of pipe simultaneously carries out locking positioning by the first trip bolt;
Step 3:The lower sleeve is sheathed on the bottom of the upper bush, the lower sleeve is adjusted with respect to upper bush
Position simultaneously carries out locking positioning by the second trip bolt and lower sleeve so that the reception area of transmission-type receiving transducer is upward and base
Originally the launch site of transmission-type transmitting probe is aligned;
Step 4:Described sleeve pipe is carried out into radial rotating with respect to lower sleeve so that on the reception area of transmission-type receiving transducer
Plane is in level with the launch site lower plane of transmission-type transmitting probe substantially, and causes described sleeve pipe phase by the 3rd trip bolt
Locking positioning is carried out to lower sleeve;
Step 5:According to job requirement, micro-adjustment is done again with reference to the imaging effect on configuration display, repeat step two to
Step 4, it is appropriate to unclamp the first trip bolt, the second trip bolt and the 3rd trip bolt, with relative to transmission-type receiving transducer
Transmission-type transmitting probe carries out five-dimensional solid accurate adjustment, until after imaging effect meets the requirements, then to the first trip bolt,
Two trip bolts and the 3rd trip bolt are locked, and complete contraposition adjustment.
Further, in the method for adjustment of above-mentioned transmission-type receiving transducer clamping device, also wrapped after the step 5
Include:The holding wire that the signal wire joint of the transmission-type receiving transducer is connected is drawn via the elongated slot on sleeve pipe and wire hole.
Transmission-type receiving transducer clamping device of the present invention and method of adjustment realize and transmission-type receiving transducer are carried out in real time
Change and multidimensional alignment adjustment, and compact conformation, be easy to assembly and disassembly and change, be easy to cabling, improve the detection of transmission-type receiving transducer
Precision and test effect, the water environment to pure water medium only produce small water wave to fluctuate, transmission-type high-velocity scanning preferably
Job requirement.
Brief description of the drawings
Fig. 1 is the axonometric schematic diagram of transmission-type receiving transducer clamping device of the present invention;
Fig. 2 is the phantom of transmission-type receiving transducer clamping device;
Fig. 3 is the sectional view of Fig. 1 middle sleeves;
Fig. 4 is the sectional view of transmission-type receiving transducer clamping device.
Specific embodiment
The preferred embodiment that the invention will now be described in detail with reference to the accompanying drawings.
Fig. 1 to Fig. 4 is referred to, transmission-type receiving transducer clamping device of the present invention is included for connecting transmission-type transmitting probe
The pedestal 1 of device 100, the I-shaped saddle 2 being fixed on the pedestal 1, the upper flat seat 3 located at the lower section of the I-shaped saddle 2, it is fixed on
The upper bush 4 of the bottom of upper flat seat 3 and the lower sleeve 5 of the bottom of the upper bush 4 is movably set in, the lower sleeve 5 is rotated
The sleeve pipe 6 for housing transmission-type receiving transducer 200 is connected with, the Relative Transmission formula receiving transducer 200 of described sleeve pipe 6 can be moved axially
Dynamic and radial rotating, and described sleeve pipe 6 carries out locking positioning by the first trip bolt 7 with transmission-type receiving transducer 200.
Wherein, the transmission-type transmitting probe device 100 includes transmission-type transmitting probe 101, be screwed the transmission
The signal source sleeve 102 of formula transmitting probe 101, the locking mechanism 103 for clamping the signal source sleeve 102 and it is fixedly connected on institute
The sliding seat 104 of locking mechanism 103 is stated, the sliding seat 104 is slidably connected on the pedestal 1.So, by the slip
Sliding up and down for 104 opposite bases 1 of seat, can drive the opposite base 1 of transmission-type transmitting probe 101 to carry out lifting focus movement, institute
The working environment for stating transmission-type transmitting probe 101 is in pure water medium.
The threaded one end of the upper bush 4 is connected to the bottom of upper flat seat 3, and the other end of the upper bush 4 is sheathed on
In the lower sleeve 5, the other end of the upper bush 4 is axially movable and radial rotating with respect to lower sleeve 5, and tight by second
Gu screw 8 carries out locking positioning with lower sleeve 5.Axially lifting is capable of achieving between i.e. described upper bush 4 and lower sleeve 5 and is radially revolved
The two-dimension adjustment for turning, and locking positioning is carried out by the second trip bolt 8.
The bottom of the lower sleeve 5 is embedded with the rotating shaft 9 that can be rotated relatively freely, and described sleeve pipe 6 is threadedly connected to described
Rotating shaft 9, therefore, described sleeve pipe 6 can carry out free rotation relative to lower sleeve 5 by rotating shaft 9 on horizontal plane and vertical plane.
One end of described sleeve pipe 6 is sphere portion 62, and the other end of described sleeve pipe 6 is provided with for housing transmission-type receiving transducer
200 storage tank 64, the sphere portion 62 is provided with screw thread(Figure is not marked), therefore, described sleeve pipe 6 by sphere portion 62 with it is described
Rotating shaft 9 is threadedly coupled, and the end in the sphere portion 62 is pushed against in lower sleeve 5 by the 3rd trip bolt 10, so that
Obtain described sleeve pipe 6 carries out locking positioning with respect to lower sleeve 5.Wherein, the transmission-type receiving transducer 200, sleeve pipe 6 and lower sleeve 6
The working environment of lower semisection be in pure water medium.
One end of the transmission-type receiving transducer 200 is provided with for connecting holding wire(It is not shown)Signal wire joint 201,
The elongated slot 66 and wire hole 68 for drawing the holding wire are additionally provided with described sleeve pipe 6, the screw thread of the signal wire joint 201 is consolidated
Due to one end of transmission-type receiving transducer 200.
Separately, the present invention also provides the method for adjustment of above-mentioned transmission-type receiving transducer clamping device, and methods described includes following
Step:
Step one:By the fabrication evaluation requirement of ultrasonic scanning, the transmission-type transmitting probe 101 of adaptation is screwed in into signal source set
Cylinder 102 is simultaneously held in locking mechanism 103 so that launch site A is directed downward;
Step 2:In the threading 6 of transmission-type receiving transducer 200 that will be adapted to, the transmission-type receiving transducer 200 is adjusted
The position of facing sleeve 6 simultaneously carries out locking positioning by the first trip bolt 7;
Wherein, the Relative Transmission formula receiving transducer 200 of described sleeve pipe 6 can carry out the two dimension tune of axial stretching and radial rotating
It is whole, and locking positioning is carried out by the first trip bolt 7.
Step 3:The lower sleeve 5 is sheathed on the bottom of the upper bush 4, the lower sleeve 5 is adjusted with respect to upper bush
4 position simultaneously carries out locking positioning by the second trip bolt 8 with lower sleeve 5 so that the reception area of transmission-type receiving transducer 200
B aligns upward and substantially the launch site A of transmission-type transmitting probe 101;
Wherein, the other end of the upper bush 4 be axially movable with respect to lower sleeve 5 and radial rotating two-dimension adjustment, and
Locking positioning is carried out with lower sleeve 5 by the second trip bolt 8.
Step 4:Described sleeve pipe 6 is carried out into radial rotating with respect to lower sleeve 5 so that the reception of transmission-type receiving transducer 200
Plane and the launch site A lower planes of transmission-type transmitting probe 101 are in level substantially on area B, and are made by the 3rd trip bolt 10
Obtain described sleeve pipe 6 carries out locking positioning with respect to lower sleeve 5;
Step 5:According to job requirement, micro-adjustment is done again with reference to the imaging effect on configuration display, repeat step two to
Step 4, it is appropriate to unclamp the first trip bolt 7, the second trip bolt 8 and the 3rd trip bolt 10, with to transmission-type receiving transducer
200 Relative Transmission formula transmitting probes 101 carry out five-dimensional solid accurate adjustment, until after imaging effect meets the requirements, then to first
Trip bolt 7, the second trip bolt 8 and the 3rd trip bolt 10 are locked, and complete contraposition adjustment.
Also include after the step 5:The signal that the signal wire joint 201 of the transmission-type receiving transducer 200 is connected
Line is drawn via the elongated slot 66 and wire hole 68 on sleeve pipe 6.
Compared to prior art, transmission-type receiving transducer clamping device of the present invention and method of adjustment realize and transmission-type are connect
Receive probe to be changed in real time and multidimensional alignment adjustment, and compact conformation, be easy to assembly and disassembly and change, be easy to cabling, improve transmission-type
The accuracy of detection and test effect of receiving transducer, the water environment to pure water medium only produces small water wave to fluctuate, preferably
Penetrate the job requirement of formula high-velocity scanning.
Here description of the invention and application are illustrative, are not wishing to limit the scope of the invention to above-described embodiment
In.The deformation and change of embodiments disclosed herein are possible, real for those skilled in the art
The replacement and equivalent various parts for applying example are known.It should be appreciated by the person skilled in the art that not departing from the present invention
Spirit or essential characteristics in the case of, the present invention can in other forms, structure, arrangement, ratio, and with other components,
Material and part are realized.In the case where scope and spirit of the present invention are not departed from, embodiments disclosed herein can be entered
Other deformations of row and change.
Claims (7)
1. a kind of transmission-type receiving transducer clamping device, it is characterised in that including:For connecting transmission-type transmitting probe device
Pedestal, the I-shaped saddle being fixed on the pedestal, the upper flat seat below the I-shaped saddle, it is fixed on the upper flat seat bottom
Upper bush and be movably set in the lower sleeve of the upper bush bottom, the lower sleeve is rotatably connected to for housing transmission-type
The sleeve pipe of receiving transducer, described sleeve pipe Relative Transmission formula receiving transducer is axially movable and radial rotating, and described sleeve pipe passes through
First trip bolt carries out locking positioning with transmission-type receiving transducer;
One end of described sleeve pipe is sphere portion, and the other end of described sleeve pipe is provided with for housing the accommodating of transmission-type receiving transducer
Groove;
The bottom of the lower sleeve is embedded with the rotating shaft that can be rotated relatively freely, and described sleeve pipe is entered by sphere portion with the rotating shaft
Row threaded connection;
One end of the transmission-type receiving transducer is provided with the signal wire joint for connecting holding wire, and use is additionally provided with described sleeve pipe
In the elongated slot and wire hole of drawing the holding wire.
2. transmission-type receiving transducer clamping device according to claim 1, it is characterised in that the transmission-type transmitting probe
Device includes transmission-type transmitting probe, the signal source sleeve of the transmission-type transmitting probe that is screwed, clamps the signal source
The locking mechanism of sleeve and the sliding seat of the locking mechanism is fixedly connected on, the sliding seat is slidably connected to the pedestal
On.
3. transmission-type receiving transducer clamping device according to claim 2, it is characterised in that one end spiral shell of the upper bush
Line is connected to the upper flat seat bottom, and the other end of the upper bush is sheathed in the lower sleeve, the upper bush it is another
The relative lower sleeve in end is axially movable and radial rotating, and carries out locking positioning by the second trip bolt and lower sleeve.
4. transmission-type receiving transducer clamping device according to claim 1, it is characterised in that the end in the sphere portion leads to
Cross the 3rd trip bolt to push against in lower sleeve, so that described sleeve pipe carries out locking positioning with respect to lower sleeve.
5. transmission-type receiving transducer clamping device according to claim 1, it is characterised in that the signal wire joint screw thread
It is fixed on one end of transmission-type receiving transducer.
6. a kind of method of adjustment of transmission-type receiving transducer clamping device as described in any one of claim 1 ~ 5, its feature exists
In the described method comprises the following steps:
Step one:By the fabrication evaluation requirement of ultrasonic scanning, the transmission-type transmitting probe of adaptation is screwed in into signal source sleeve and is pressed from both sides
It is held in locking mechanism so that launch site is directed downward;
Step 2:In the transmission-type receiving transducer threading that will be adapted to, the transmission-type receiving transducer facing sleeve is adjusted
Position simultaneously carries out locking positioning by the first trip bolt;
Step 3:The lower sleeve is sheathed on the bottom of the upper bush, position of the lower sleeve with respect to upper bush is adjusted
And locking positioning is carried out by the second trip bolt and lower sleeve so that the reception area of transmission-type receiving transducer is upward and substantially right
The launch site of regular transmission formula transmitting probe;
Step 4:Described sleeve pipe is carried out into radial rotating with respect to lower sleeve so that plane on the reception area of transmission-type receiving transducer
Substantially it is in level with the launch site lower plane of transmission-type transmitting probe, and under causing described sleeve pipe relatively by the 3rd trip bolt
Sleeve carries out locking positioning;
Step 5:According to job requirement, micro-adjustment, repeat step two to step are done again with reference to the imaging effect on configuration display
Four, it is appropriate to unclamp the first trip bolt, the second trip bolt and the 3rd trip bolt, with to transmission-type receiving transducer Relative Transmission
Formula transmitting probe carries out five-dimensional solid accurate adjustment, until after imaging effect meets the requirements, then to the first trip bolt, second tight
Gu screw and the 3rd trip bolt are locked, contraposition adjustment is completed.
7. the method for adjustment of transmission-type receiving transducer clamping device according to claim 6, it is characterised in that the step
Also include after five:By the signal wire joint of the transmission-type receiving transducer connect holding wire is via the elongated slot on sleeve pipe and goes out
String holes is drawn.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510175471.0A CN104792348B (en) | 2015-04-14 | 2015-04-14 | Transmission-type receiving transducer clamping device and method of adjustment |
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CN201510175471.0A CN104792348B (en) | 2015-04-14 | 2015-04-14 | Transmission-type receiving transducer clamping device and method of adjustment |
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CN104792348A CN104792348A (en) | 2015-07-22 |
CN104792348B true CN104792348B (en) | 2017-05-31 |
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CN201510175471.0A Expired - Fee Related CN104792348B (en) | 2015-04-14 | 2015-04-14 | Transmission-type receiving transducer clamping device and method of adjustment |
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Families Citing this family (2)
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CN107179354B (en) * | 2017-04-19 | 2023-10-03 | 中国科学院声学研究所 | Horizontal rotation scanning device and adjusting method |
CN107024544B (en) * | 2017-04-21 | 2023-06-02 | 中国科学院声学研究所 | Ultrasonic probe device and adjusting method |
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JP4465285B2 (en) * | 2005-02-16 | 2010-05-19 | 株式会社トヨックス | Ferrule clamp |
CN201443670U (en) * | 2009-07-28 | 2010-04-28 | 吴尚哲 | Display bracket |
CN102563309A (en) * | 2011-12-06 | 2012-07-11 | 叶振宇 | Height-adjustable television holder |
CN103063245B (en) * | 2012-12-31 | 2016-04-27 | 中国电子科技集团公司第四十五研究所 | The pinch seal structure of transmission-type receiving transducer and method of adjustment |
CN103353048B (en) * | 2013-07-08 | 2016-08-24 | 中国电子科技集团公司第四十五研究所 | Transmission-type probe clip locking structure and separate type double transmission formula probe clip locking structure |
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