CN110187010A - A kind of use for laboratory ultrasonic probe support and its application method - Google Patents

Abstract

The invention discloses a kind of use for laboratory ultrasonic probe supports, including probe fixing support, the probe fixing support includes pedestal, telescopic rail, sliding block and fastener, the bottom end of the telescopic rail is slidably connected with the pedestal, the sliding block is slided up and down on the telescopic rail and is capable of fixing on the telescopic rail, mounting hole is offered on the sliding block, sliding slot is offered on the side wall of the mounting hole, the fastener includes fixture block and spring, the fixture block is slidably arranged in the sliding slot, the fixture block is fixedly connected with one end of the spring, the other end of the spring is fixed on the bottom wall of the sliding slot, for installing ultrasonic probe between the fixture block and the mounting hole.The movement that the present invention keeps ultrasonic probe simple and efficient, and can guarantee that ultrasonic probe contacts well with test specimen to be measured, to improve detection accuracy.

Description

A kind of use for laboratory ultrasonic probe support and its application method

Technical field

The present invention relates to ultrasonic detection instrument technical fields, more particularly to a kind of use for laboratory ultrasonic probe support And its application method.

Background technique

Laboratory ultrasonic detection instrument is propagated in test specimen using ultrasonic wave, when ultrasonic wave encounters hole or splits When line, the direction of propagation of ultrasonic wave can change, and the probe of the ultrasonic wave receiving end after changing receives, and passes through phase The ultrasonic signal that software processing and analysis receive is closed, can be differentiated inside test specimen with the presence or absence of crackle and hole.Carry out In detection process, how probe to be fixed and contacted with test specimen well, for differentiating whether test specimen has crackle and hole very heavy It wants.Currently, probe is bundled in the fixed form of test specimen two sides by laboratory using rubber band mostly, if experimenter will be to test specimen Different location measure, need to retighten probe, this brings many inconvenience to experimenter, in addition, if fixed Probe contacted with test specimen bad, experimental measurements can also be impacted in this way.Based on this, this field is badly in need of proposing one kind Use for laboratory ultrasonic probe support.

Summary of the invention

The object of the present invention is to provide a kind of use for laboratory ultrasonic probe support and its application methods, above-mentioned existing to solve The problem of with the presence of technology, enables the movement that ultrasonic probe is simple and efficient, and can guarantee ultrasonic probe with it is to be tested Part contact is good, to improve detection accuracy.

To achieve the above object, the present invention provides following schemes:

The present invention provides a kind of use for laboratory ultrasonic probe support, including probe fixing support, the probe is fixed Bracket includes pedestal, telescopic rail, sliding block and fastener, and the bottom end of the telescopic rail is slidably connected with the pedestal level, The sliding block is slided up and down on the telescopic rail and is capable of fixing on the telescopic rail, and peace is offered on the sliding block Hole is filled, offers sliding slot on the side wall of the mounting hole, the fastener includes fixture block and spring, and the fixture block is slidably arranged in In the sliding slot, the fixture block is fixedly connected with one end of the spring, and the other end of the spring is fixed on the sliding slot On bottom wall, for installing ultrasonic probe between the fixture block and the mounting hole.

Preferably, cross recess is offered on the pedestal, the bottom end of the telescopic rail is fixedly connected with and described ten Word groove matches the crosshead shoe of sliding.

Preferably, the telescopic rail includes upper rail and lower guideway, and the lower guideway and pedestal level sliding connect It connects, the upper rail is set on the lower guideway, several first positioning holes, the lower guideway are offered on the upper rail Be equipped with guide rail spring button, the guide rail spring button can be pressed or bounce in the first positioning hole, it is described on The side of guide rail and the side of the lower guideway offer vertical through slot, and the sliding block is vertically slided in the vertical through slot Dynamic, the bottom of the vertical through slot offers several second location holes, and passing through the second location hole using bolt can incite somebody to action The sliding block is fixed in the vertical through slot.

Preferably, the upper rail and lower guideway are two, two upper rails and two lower guideway faces It is provided opposite to, the bottom end of two lower guideways is fixedly connected using lower connecting plate, and the lower connecting plate and the pedestal are horizontal Be slidably connected, the top of two upper rails is fixedly connected using upper junction plate, the sliding block two upper rails with And it is slid vertically between two lower guideways.

Preferably, several described first positioning holes and several described second location holes are spaced sets, institute It states to carve on upper rail and lower guideway and is equipped with guide rail graduation mark.

Preferably, the sliding slot is at least two, and each sliding slot is uniformly distributed around the mounting hole circumferencial direction, each described The fastener is slidably connected in sliding slot.

Preferably, the probe fixing support is two, and two probe fixing supports are arranged face-to-face, the probe Support bracket fastened both ends using be telescopically connected to bar connect.

Preferably, the both ends of the pedestal open up fluted, and described one end for being telescopically connected to bar is fixed on a bottom In the groove of seat, the other end for being telescopically connected to bar is fixed in the groove of another pedestal.

Preferably, the bar that is telescopically connected to includes front rod and rear connecting rod, the front rod and a pedestal It being fixedly connected, the rear connecting rod is fixedly connected with another pedestal, and the front rod is threaded through in the rear connecting rod, It is connected with rod spring button on the front rod, several third location holes, the company are offered on the rear connecting rod Bar spring button can be pressed or bounce in the third positioning hole.

The present invention also provides a kind of application methods of use for laboratory ultrasonic probe support, based in above technical scheme The application method of described in any item use for laboratory ultrasonic probe supports, and the following steps are included:

S1, the height for determining telescopic rail: according to the height of test specimen to be measured, the height of the telescopic rail is adjusted；

S2, the horizontal position for determining telescopic rail: level slides the telescopic rail, and it is real to determine that the telescopic rail reaches Test designated position；

S3, the position for determining sliding block: adjusting the vertical height of the sliding block, when sliding block slides into test specimen test point to be measured position It sets, the sliding block is fastened on the telescopic rail, later, the ultrasonic probe is installed；

S4, experiment test: it after the ultrasonic probe installation, opens ultrasonic detection instrument and starts ultrasonic measurement.

The present invention achieves following technical effect compared with the existing technology:

The present invention is in use, adjust the collapsing length of telescopic rail according to the height of test specimen to be measured, and by telescopic rail It is moved to suitable horizontal position, then sliding block is moved at the test point of test specimen to be measured, so as to realize ultrasonic probe Simple and efficient movement, it is mobile to install and fix ultrasonic probe afterwards in place, guarantee that ultrasonic probe is well contacted with test point, To significantly improve detection accuracy.

Detailed description of the invention

It in order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, below will be to institute in embodiment Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the invention Example, for those of ordinary skill in the art, without creative efforts, can also obtain according to these attached drawings Obtain other attached drawings.

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is the sectional view of pedestal and lower connecting plate junction；

Fig. 3 connect partial cutaway view with sliding block for fastener；

Fig. 4 is the partial enlarged view in Fig. 1 at A；

Fig. 5 is the partial enlarged view in Fig. 1 at B；

Fig. 6 is the partial enlarged view in Fig. 1 at C.

In figure: 1- pedestal；2- lower connecting plate；3- lower guideway；4- upper rail；5- sliding block；6- upper junction plate；7- fastener； 8- front rod；9- rear connecting rod；10- rod spring button；11- guide rail spring button；12- pedestal graduation mark；13- cross is sliding Block, 14- mounting hole, the vertical through slot of 15-, 16- first positioning hole, 17- second location hole, 18- fixture block, 19- spring, 20- third Location hole.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art under the premise of not making the creative labor it is obtained it is all its His embodiment, shall fall within the protection scope of the present invention.

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing and specific real Applying mode, the present invention is described in further detail.

As shown in figs 1 to 6: present embodiments providing a kind of use for laboratory ultrasonic probe support, including the fixed branch of probe Frame, probe fixing support include pedestal 1, telescopic rail, sliding block 5 and fastener 7, and the bottom end of telescopic rail and the sliding of pedestal 1 connect It connects, pedestal 1 is equipped with pedestal graduation mark 12, is used to indicate the movement of telescopic rail, offers cross recess on pedestal 1, stretches The bottom end of guide rail is fixedly connected with the crosshead shoe 13 for the sliding that matches with cross recess, can guarantee that telescopic rail is sliding in cross It is freely moved horizontally in slot, moreover it is possible to prevent telescopic rail from falling off from cross chute.Sliding block 5 slided up and down on telescopic rail and It is capable of fixing on telescopic rail, mounting hole 14 is offered on sliding block 5, sliding slot, fastener 7 are offered on the side wall of mounting hole 14 Including fixture block 18 and spring 19, fixture block 18 is slidably arranged in sliding slot, and fixture block 18 is fixedly connected with one end of spring 19, spring 19 The other end be fixed on the bottom wall of sliding slot, it is specific such as Fig. 3 for installing ultrasonic probe between fixture block 18 and mounting hole 14 Shown, a block can also be arranged in the bottom of sliding slot, and block is fixed on the cell wall of sliding slot, and the other end of spring 19 is fixed on On block, so as to which ultrasonic probe to be fixed in mounting hole 14, and ultrasonic probe is clamped admittedly using fastener 7 It is fixed, realize that ultrasonic probe contacts the accuracy for being well conducive to improve experimental measurements with test specimen to be measured.Preferably, sliding Slot is at least two, and each sliding slot is uniformly distributed around 14 circumferencial direction of mounting hole, and a fastener 7 is slidably connected in each sliding slot, With 14 coaxial line of mounting hole after installing ultrasonic probe, the quick installation of ultrasonic probe is realized.

Specifically, telescopic rail includes upper rail 4 and lower guideway 3, lower guideway 3 is slidably connected with pedestal 1,4 sets of upper rail It is located on lower guideway 3,4 lower part of upper rail is hollow structure, and lower guideway 3 is threaded through in upper rail 4, and is opened up on upper rail 4 There are several first positioning holes 16, lower guideway 3 is equipped with guide rail spring button 11, and guide rail spring button 11 can be in the first positioning It is pressed or bounces in hole 16, when needing to adjust telescopic rail extended length, press 3 spring of lower guideway, 19 button, led in pulling Rail 4 and lower guideway 3, after reaching and needing length, guide rail spring button 11 is bounced from first positioning hole 16, by upper rail 4 and under 3 length of guide rail (height) is fixed.The side of upper rail 4 and the side of lower guideway 3 offer vertical through slot 15, and sliding block 5 is perpendicular It is slided into through slot 15, the bottom of vertical through slot 15 offers several second location holes 17, passes through the second positioning using bolt Sliding block 5 can be fixed in vertical through slot 15 by hole 17, further to adjust 5 height of sliding block after the adjustment of telescopic rail height, Make ultrasonic probe closer to test point, that is, meet ultrasonic probe and well contacted with test point, to improve the accuracy of measurement. Preferably, upper rail 4 and lower guideway 3 are two, and two upper rails 4 and two lower guideways 3 are arranged face-to-face, are led under two The bottom end of rail 3 is fixedly connected using lower connecting plate 2, is carved on lower connecting plate 2 and is equipped with alignment graduation mark, is used for and pedestal graduation mark 12 Alignment, lower connecting plate 2 is slidably connected with pedestal 1, and the top of two upper rails 4 is fixedly connected using upper junction plate 6, specifically on Threaded hole is offered on guide rail 4, upper junction plate 6 passes through threaded hole using bolt and is fixed together two upper rails 4, sliding Block 5 slides between two upper rails 4 and two lower guideways 3, specifically as shown in Figure 1, leading under two upper rails 4 and two The opposition setting of rail 3 or so, and respective vertical through slot 15 is made to be located inside, sliding block 5 carries out upper downslide between vertical through slot 15 It is dynamic.

Preferably, several first positioning holes 16 and several second location holes 17 are spaced set, upper rail 4 And it is carved on lower guideway 3 and is equipped with guide rail graduation mark, and the guide rail graduation mark on upper rail 4 and first positioning hole 16 1 are a pair of It answers, and the guide rail graduation mark on upper rail 4 was located in the horizontal plane of 16 axis of first positioning hole, and two neighboring first positioning Spacing between hole 16 is unit sizes, such as 1mm, 1cm etc., to facilitate being precisely controlled for rail length, it can accurate Ground moving telescopic guide rail realizes the measurement of test specimen different location to be measured, the time required to can saving experiment measurement, improves experiment effect Rate.

Preferably, probe fixing support is two, and two probe fixing supports are arranged face-to-face, the two of probe fixing support End using bar connection is telescopically connected to, using pedestal graduation mark 12 and guide rail graduation mark, can first adjust the fixed branch of a probe The horizontal position of the sliding block 5 of frame and height adjust the fixed branch of another probe then further according to the adjusting of adjusted sliding block 5 The sliding block 5 of frame is at corresponding graduation position.Specifically, the both ends of pedestal 1 open up fluted, it is telescopically connected to one end of bar It is fixed in the groove of a pedestal 1, the other end for being telescopically connected to bar is fixed in the groove of another pedestal 1.It is telescopically connected to bar packet Front rod 8 and rear connecting rod 9 are included, front rod 8 is fixedly connected with a pedestal 1, rear connecting rod 9 and the fixed company of another pedestal 1 It connects, front rod 8 is threaded through in rear connecting rod 9, and rod spring button 10 is connected on front rod 8, is opened up on rear connecting rod 9 There are several third location holes 20, rod spring button 10 can be pressed or bounce in third location hole 20, according to be measured The width of test specimen, adjusts the collapsing length of front rod 8 and rear connecting rod 9, and the identical upper rail 4 of specific method and lower guideway 3 are long The adjusting of degree.To which the present embodiment can be by neatly adjusting telescopic rail and being telescopically connected to bar, to meet different dimensions The ultrasonic measurement of test specimen to be measured, and the present embodiment dismounting is simple, it is easy to operate, it can be convenient detachable maintaining, save experiment people The operating time of member improves working efficiency.

The application method for the use for laboratory ultrasonic probe support that technical solution based on above embodiments carries out, including with Lower step:

S1, the height for determining telescopic rail: according to the height of test specimen to be measured, the height of telescopic rail is adjusted；Specifically, root According to the height of test specimen to be measured, a telescopic rail height is adjusted, 3 spring of lower guideway, 19 button is pressed, upper rail 4 is adjusted, When upper junction plate 6 is slightly above height of specimen, guide rail spring button 11 is bounced, the position of fixed upper rail 4；

S2, the horizontal position for determining telescopic rail: horizontal sliding extension guide rail determines that telescopic rail reaches experiment specific bit It sets, if the alignment graduation mark on lower connecting plate 2 is aligned with pedestal graduation mark 12, it may be determined that the horizontal position of guide rail；

S3, the position for determining sliding block 5: the vertical height of adjusting slider 5, when sliding block 5 slides into test specimen test point to be measured position, Sliding block 5 is fastened on telescopic rail using bolt, is installed ultrasonic probe (transmitting terminal)；

S4, adjusting as a result, adjusting one again according to the instruction of pedestal graduation mark 12, guide rail graduation mark referring to step S1~S3 A probe fixing support is installed ultrasonic probe (receiving end)；

S5, experiment test: it after ultrasonic probe installation, opens ultrasonic detection instrument and starts ultrasonic measurement.

It, can be with it should be noted that when above-mentioned application method is based on including a probe fixing support in embodiment Respectively place a probe fixing support at the both ends of test specimen to be measured, with for installing ultrasonic probe transmitting terminal and receiving end, And each self-sustaining is well contacted with test specimen to be measured.And two, and two probe fixing supports are set in probe fixing support Using when being telescopically connected to bar and connecting, a step need to be also added before experiment test (S5), i.e., according to test specimen to be measured Width presses rod spring button 10, adjusts rear connecting rod 9, so that two ultrasonic probes all just contact measured test specimens, this When, rod spring button 10 is bounced to the length of fixed front rod 8 and rear connecting rod 9.

Apply that a specific example illustrates the principle and implementation of the invention in this specification, above embodiments Explanation be merely used to help understand method and its core concept of the invention；At the same time, for those skilled in the art, According to the thought of the present invention, there will be changes in the specific implementation manner and application range.In conclusion in this specification Appearance should not be construed as limiting the invention.

Claims (10)

1. a kind of use for laboratory ultrasonic probe support, it is characterised in that: including probe fixing support, the probe fixing support Including pedestal, telescopic rail, sliding block and fastener, the bottom end of the telescopic rail is slidably connected with the pedestal level, described Sliding block is slided up and down on the telescopic rail and is capable of fixing on the telescopic rail, and installation is offered on the sliding block Hole offers sliding slot on the side wall of the mounting hole, and the fastener includes fixture block and spring, and the fixture block is slidably arranged in institute It states in sliding slot, the fixture block is fixedly connected with one end of the spring, and the other end of the spring is fixed on the bottom of the sliding slot On wall, for installing ultrasonic probe between the fixture block and the mounting hole.

2. use for laboratory ultrasonic probe support according to claim 1, it is characterised in that: offer ten on the pedestal Word groove, the bottom end of the telescopic rail are fixedly connected with the crosshead shoe for the sliding that matches with the cross recess.

3. use for laboratory ultrasonic probe support according to claim 1, it is characterised in that: the telescopic rail includes upper Guide rail and lower guideway, the lower guideway are slidably connected with the pedestal level, and the upper rail is set on the lower guideway, institute It states and offers several first positioning holes on upper rail, the lower guideway is equipped with guide rail spring button, and the guide rail spring is pressed Button can be pressed or bounce in the first positioning hole, and the side of the side of the upper rail and the lower guideway opens up Have vertical through slot, the sliding block slides vertically in the vertical through slot, the bottom of the vertical through slot offer several Two location holes, passing through the second location hole using bolt can be fixed on the sliding block in the vertical through slot.

4. use for laboratory ultrasonic probe support according to claim 3, it is characterised in that: the upper rail and lower guideway It is two, two upper rails and two lower guideways are arranged face-to-face, and the bottom end of two lower guideways utilizes Lower connecting plate is fixedly connected, and the lower connecting plate is slidably connected with the pedestal level, and the top of two upper rails utilizes Upper junction plate is fixedly connected, and the sliding block slides vertically between two upper rails and two lower guideways.

5. use for laboratory ultrasonic probe support according to claim 3, it is characterised in that: several described first positioning Hole and several described second location holes are spaced sets, carve on the upper rail and lower guideway and are equipped with guide rail quarter Spend line.

6. use for laboratory ultrasonic probe support according to claim 1, it is characterised in that: the sliding slot is at least two A, each sliding slot is uniformly distributed around the mounting hole circumferencial direction, and the fastening is slidably connected in each sliding slot Part.

7. use for laboratory ultrasonic probe support according to claim 1, it is characterised in that: the probe fixing support is Two, two probe fixing supports are arranged face-to-face, the both ends of the probe fixing support using be telescopically connected to bar connect It connects.

8. use for laboratory ultrasonic probe support according to claim 7, it is characterised in that: open at the both ends of the pedestal Equipped with groove, described one end for being telescopically connected to bar is fixed in the groove of a pedestal, described to be telescopically connected to the another of bar One end is fixed in the groove of another pedestal.

9. use for laboratory ultrasonic probe support according to claim 7, it is characterised in that: the bar that is telescopically connected to includes Front rod and rear connecting rod, the front rod are fixedly connected with a pedestal, the rear connecting rod and another bottom Seat is fixedly connected, and the front rod is threaded through in the rear connecting rod, and rod spring button is connected on the front rod, Several third location holes are offered on the rear connecting rod, the rod spring button can be in the third positioning hole quilt It presses or bounces.

10. a kind of application method of use for laboratory ultrasonic probe support, it is characterised in that: based on any one of claim 1~9 The application method of the use for laboratory ultrasonic probe support, and the following steps are included:

S1, the height for determining telescopic rail: according to the height of test specimen to be measured, the height of the telescopic rail is adjusted；

S2, the horizontal position for determining telescopic rail: level slides the telescopic rail, determines that the telescopic rail reaches experiment and refers to Positioning is set；

S3, the position for determining sliding block: adjusting the vertical height of the sliding block, will when sliding block slides into test specimen test point to be measured position The sliding block is fastened on the telescopic rail, later, installs the ultrasonic probe；

S4, experiment test: it after the ultrasonic probe installation, opens ultrasonic detection instrument and starts ultrasonic measurement.