CN110286157A - A kind of probe clamping device for ultrasound detection - Google Patents

Abstract

The present invention relates to ultrasound detection fields, and in particular to a kind of probe clamping device for ultrasound detection, including horizontally disposed pedestal are provided with baffle in the first end of pedestal；The first grip slipper, the second grip slipper are movably provided on the pedestal, the moving direction of first grip slipper and the second grip slipper is parallel to the line between baffle and the first grip slipper, the second grip slipper, first grip slipper is provided with the first elastomer between baffle and the second grip slipper between baffle and the first grip slipper；Further include two probes being separately mounted on the first grip slipper and the second grip slipper, clamps workpiece for measurement between two probes.The present invention has the advantages that this device, for traditional-handwork operation, the detection faces stress of workpiece, which is able to maintain, to be continued unanimously, and detection efficiency is higher.

Description

A kind of probe clamping device for ultrasound detection

Technical field

The present invention relates to ultrasound detection fields, and in particular to a kind of probe clamping device for ultrasound detection.

Background technique

Ultrasound detection is most extensive current domestic and international application, frequency of use highest and develops a kind of faster non-destructive testing skill Art.Ultrasound detection be in product manufacturing realize quality control, save material, improving technique, raise labour productivity it is important Indispensable one of means in means and plant maintenance maintenance.Ultrasonic probe is the most important of composition ultrasonic testing system One of component, but traditional technique is detected by man-hour manually hand-held transmitting probe and receiving transducer.This process It is neither reliable and stable, detection efficiency can not be improved.Scientific stability and working efficiency are detected in order to effectively improve, is changed super The limitation of man-hour manually hand-held probe operation when sound detection, it is necessary to design a kind of probe clamping device of ultrasound detection, traditional work It needs to hold probe when skill detects, then detect probe pressing on workpiece, this mode manually pressed can neither Guarantee that detection faces stress size continues unanimously, to cannot guarantee that detection faces stress is uniform in size, while the mode of both hands pressing is taken When laborious, low efficiency.

Summary of the invention

The technical problem to be solved by the present invention is in the prior art ultrasound detection when detection faces stress be not able to maintain lasting one It causes, the problem that detection efficiency is low.

In order to solve the above technical problems, the technical solution used in the present invention is: a kind of probe clip for ultrasound detection Device, including horizontally disposed pedestal are held, is provided with baffle in the first end of pedestal；

The first grip slipper, the second grip slipper, the first grip slipper and the second grip slipper are movably provided on the pedestal Moving direction be parallel to the line between baffle and the first grip slipper, the second grip slipper, first grip slipper is located at baffle Between the second grip slipper, and the first elastomer is provided between baffle and the first grip slipper；

Further include two probes being separately mounted on the first grip slipper and the second grip slipper, between two probes clamping to Survey workpiece.

One of present invention is used for the probe clamping device of ultrasound detection in practical application, piece-holder exists first Between two probes, push the second grip slipper mobile to the direction of the first grip slipper, the first elastomer generates deformation, two probes Certain pressure is applied to workpiece, then controls the second grip slipper stop motion, and ultrasound detection is carried out to workpiece, this device is opposite For traditional-handwork operation, the detection faces stress of workpiece, which is able to maintain, to be continued unanimously, and detection efficiency is higher.

Optimization, the scale for indicating chucking power size suffered by workpiece, first clamping are provided on the pedestal When being provided with the pointer for being directed toward scale, the first grip slipper and mobile the second grip slipper on seat or the second grip slipper, the first elasticity Body generates deformation, and chucking power size suffered by workpiece is demarcated according to the moving distance of the first grip slipper or the second grip slipper, and Scale is converted thereof into, when pointer is directed toward a certain scale, can intuitively show chucking power size suffered by workpiece at this time.

Optimization, it is provided with axis on first grip slipper, the second grip slipper and is parallel to the first grip slipper, the second folder The first blind hole of moving direction is held, and the first blind hole on the first grip slipper is opposite with the first blind hole on the second grip slipper sets It sets；

The second blind hole is offered on the side wall of first blind hole, and the second elastomer, second bullet are provided in the second blind hole Less than the depth of the second blind hole, the first end of the second elastomer is mounted on the hole of the second blind hole for length when property body stretches naturally Bottom, the second end of the second elastomer are equipped with clamping head, and clamping head is withstood on probe.

When in probe the first blind hole of insertion, clamping head can be depressed by probe to be retracted in the second blind hole, and the second elastomer generates Deformation, under the action of the second elastomer, probe is clamped in the first blind hole, and structure, principle are relatively simple, reliable, and is visited The assembly and disassembly of head are more convenient.

Optimization, second blind hole is offered on the side wall of each first blind hole, the head of clamping head is provided with and visits Probe is pressed on the side wall of the first blind hole by the head of the groove of head surface cooperation, clamping head, the groove on clamping head head and spy Head surface fitting, and then probe positions is kept to stablize.

Optimization, being opened up on the side wall of each first blind hole there are two axis angle is 180 ° of the second blind hole, clamping head Head be provided with the groove with detecting head surface cooperation, two clamping heads clamp probe, the groove on clamping head head and spy Head surface fitting, and then probe positions is kept to stablize.

Optimization, it is opened up on the side wall of each first blind hole there are three the second blind hole, and the axis position of three the second blind holes In in same vertical plane, the sum of any one axis and other two axis angles are greater than 180 °, and three clamping heads are by probe clip It handles, structure is relatively stable, and clamping is reliable.

Optimization, towards the edge chamfer in the first blind hole aperture, setting the inserting convenient for probe of chamfering on the clamping head Enter, it is more convenient to install.

Optimization, idler wheel is provided with below first grip slipper, the setting of idler wheel can make the first grip slipper the bottom of at It rolls, moves it more flexible, conveniently on seat.

Optimization, further include sliding block, second grip slipper is mounted on sliding block, and the sliding block is provided with dovetail groove, bottom The trapezoid block with dovetail groove cooperation is provided on seat, the channeling direction of trapezoid block is parallel to the moving direction of the second grip slipper, ladder Shape slot and trapezoid block cooperate, and can accurately be guided the mobile of the second grip slipper, keep it mobile according to desired trajectory, test Cheng Gengjia is stable, reliable.

Optimization, fixing screws are provided on the sliding block, fixing screws are screwed into sliding block and withstand on trapezoid block surface, will slide After block is moved to suitable position together with the second grip slipper, fixing screws are tightened, sliding block is fixed on trapezoid block by fixing screws, just In the expansion of test job.

The beneficial effects of the present invention are:

1. one of present invention is used for the probe clamping device of ultrasound detection in practical application, first by piece-holder Between two probes, push the second grip slipper mobile to the direction of the first grip slipper, the first elastomer generates deformation, two spies Head applies certain pressure to workpiece, then controls the second grip slipper stop motion, and carry out ultrasound detection, this device phase to workpiece For traditional-handwork operation, the detection faces stress of workpiece, which is able to maintain, to be continued unanimously, and detection efficiency is higher.

2. the first grip slipper and the second grip slipper are mobile, the first elastomer generates deformation, according to the first grip slipper or The moving distance of second grip slipper demarcates chucking power size suffered by workpiece, and converts thereof into scale, when pointer be directed toward it is a certain When scale, chucking power size suffered by workpiece at this time can be intuitively shown.

3. when in probe the first blind hole of insertion, clamping head can be depressed by probe to be retracted in the second blind hole, and the second elastomer produces Raw deformation, under the action of the second elastomer, probe is clamped in the first blind hole, and structure, principle are relatively simple, reliable, and The assembly and disassembly of probe are more convenient.

4. probe is pressed on the side wall of the first blind hole by the head of clamping head, the groove and detecting head surface on clamping head head are pasted It closes, and then probe positions is kept to stablize.

5. two clamping heads clamp probe, the groove on clamping head head is bonded with detecting head surface, and then keeps probe Stablize position.

6. three clamping heads clamp probe, structure is relatively stable, and clamping is reliable.

7. the setting of chamfering is convenient for the insertion of probe, it is more convenient to install.

8. the setting of idler wheel can be such that the first grip slipper rolls on pedestal, move it more flexible, conveniently.

9. dovetail groove and trapezoid block cooperate, the mobile of the second grip slipper can accurately be guided, make it according to pre- orbit determination Mark is mobile, and test process is more stable, reliable.

10. after sliding block is moved to suitable position together with the second grip slipper, tightening fixing screws, fixing screws consolidate sliding block It is scheduled on trapezoid block, convenient for the expansion of test job.

Detailed description of the invention

Fig. 1 is a kind of main view of the probe clamping device for ultrasound detection in the embodiment of the present invention one；

Fig. 2 is A-A cross-sectional view in Fig. 1；

Fig. 3 is B-B cross-sectional view in Fig. 1；

Fig. 4 is distribution schematic diagram of the clamping head in the first grip slipper in the embodiment of the present invention two；

Fig. 5 is distribution schematic diagram of the clamping head in the first grip slipper in the embodiment of the present invention three；

Fig. 6 is distribution schematic diagram of the clamping head in the first grip slipper in the embodiment of the present invention four；

Wherein, pedestal -1, baffle -11；

First grip slipper -2, the first blind hole -21, the second blind hole -22, the second elastomer -23, clamping head -24, idler wheel -25；

Second grip slipper -3；

First elastomer -4；

Probe -5；

Workpiece -6；

Sliding block -7, fixing screws -71.

Specific embodiment

The present invention is described in detail below in conjunction with attached drawing.

In the description of the present invention, it should be noted that the instructions such as term " on ", "lower", "left", "right", "horizontal" Orientation or positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of the description present invention and simplification is retouched It states, rather than the device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, Therefore it is not considered as limiting the invention.In addition, term " first ", " second " etc. are used for description purposes only, and cannot manage Solution is indication or suggestion relative importance.

Embodiment one:

As shown in Figure 1, a kind of probe clamping device for ultrasound detection, including horizontally disposed pedestal 1, first clamp The 2, second grip slipper 3 of seat, the first elastomer 4, probe 5, workpiece 6, sliding block 7.

Comprehensive reference Fig. 1-3, the upper surface of the pedestal 1 are plane, and the global shape of pedestal 1 is cuboid, pedestal 1 Baffle 11 is provided in first end, the plate that baffle 11 is vertically arranged is weldingly fixed on the left end of pedestal 1, the plate of baffle 11 Face the right side.

It is controlled on the pedestal 1 and is movably provided with the first grip slipper 2, the second grip slipper 3, first grip slipper 2, Second grip slipper 3 is the cylindrical body of axis in left-right direction, is provided with axis on first grip slipper 2, the second grip slipper 3 Line is parallel to the first blind hole 21 of the first grip slipper 2,3 moving direction of the second grip slipper, i.e. the axis of the first blind hole 21 is along left and right Direction, and the first blind hole 21 on the first grip slipper 2 is oppositely arranged with the first blind hole 21 on the second grip slipper 3, i.e., the first folder The first blind hole 21 for holding seat 2 is open to the right, and the first blind hole 21 opening of the second grip slipper 3 is to the left.

Second blind hole 22 there are four being opened up on the side wall of first blind hole 21, and four the second blind holes 22 are in the first blind hole 21 It is uniformly distributed on side wall, the axis of four the second blind holes 22 is each perpendicular to the axis of the first blind hole 21.

The second elastomer 23 is provided in second blind hole 22, in the present embodiment the second elastomer 23 be spring, described second Less than the depth of the second blind hole 22, the first end of the second elastomer 23 passes through bolt and nut for length when elastomer 23 stretches naturally It is mounted on the bottom hole of the second blind hole 22, the second end of the second elastomer 23 is equipped with clamping head 24, and whole clamping head 24 is in cylinder Body, clamping head 24 are withstood on probe 5, towards the edge chamfer in 21 aperture of the first blind hole, first folder on the clamping head 24 Hold seat 2, a probe 5 be respectively installed in second grip slipper 3, clamp workpiece for measurement 6 between two probes 5, probe 5 and workpiece 6 it Between be coated with couplant.

As shown in Figure 1, 2, the lower section of first grip slipper 2 is provided with idler wheel 25.

It as shown in Figure 1,3, further include sliding block 7, second grip slipper 3 is mounted on the top of sliding block 7, the sliding block 7 Lower part is provided with dovetail groove, and the right end of pedestal 1 is provided with the trapezoid block with dovetail groove cooperation, and the channeling direction of trapezoid block is parallel to The moving direction of second grip slipper 3, the i.e. channeling direction of trapezoid block in left-right direction, as shown in Figure 1,3, are set on the sliding block 7 Fixing screws 71 are equipped with, fixing screws 71 are screwed into sliding block 7 and withstand on trapezoid block surface.

The moving direction of first grip slipper 2 and the second grip slipper 3 is parallel to baffle 11 and the first grip slipper 2, second clamps Line between seat 3, i.e. the first grip slipper 2 and the second grip slipper 3 can move left and right, and first grip slipper 2 is located at baffle 11 and second between grip slipper 3, and the first elastomer 4 is provided between baffle 11 and the first grip slipper 2, and in the present embodiment One elastomer 4 is that both ends are connected to the spring on baffle 11 and the first grip slipper 2.

As shown in Figure 1, 2, the scale for indicating chucking power size suffered by workpiece 6, institute are provided with before the pedestal 1 State the pointer for being provided on the first grip slipper 2 and being directed toward scale.

Embodiment two:

The difference between this embodiment and the first embodiment lies in:

As shown in figure 4, offering second blind hole 22 on the side wall of each first blind hole 21, the head of clamping head 24 is set It is equipped with the groove with 5 surface engagements of probe.

Embodiment three:

The difference between this embodiment and the first embodiment lies in:

As shown in figure 5, opened up on the side wall of each first blind hole 21 there are two the second blind hole 22 that axis angle is 180 °, The head of clamping head 24 is provided with the groove with 5 surface engagements of probe.

Example IV:

The difference between this embodiment and the first embodiment lies in:

As shown in fig. 6, opening up on the side wall of each first blind hole 21, there are three the second blind holes 22, and three the second blind holes 22 Axis be located in same vertical plane, the sum of any one axis and other two axis angles be greater than 180 °, in the present embodiment Three the second blind holes 22 are uniformly distributed on the side wall of the first blind hole 21, and two axis angles of any one axis and other are 120°。

Working principle:

One of present invention is used for the probe clamping device of ultrasound detection in practical application, first by two probes 5 It is inserted into the first blind hole 21 of the first grip slipper 2 and the second grip slipper 3 respectively, clamping head 24 clamps probe 5, then by work Part 6 is clamped between two probes 5, pushes the second grip slipper 3 mobile to the direction of the first grip slipper 2, the first elastomer 4 generates Deformation, two probes, 5 pairs of workpiece 6 apply certain pressure, when the pointer of the first grip slipper 2 is directed toward the scale of predetermined chucking power, Fixing screws 71 are tightened, sliding block 7 is fixed on pedestal 1, then control 3 stop motion of the second grip slipper, workpiece 6 is surpassed Sound detection, for traditional-handwork operation, the detection faces stress of workpiece 6 is able to maintain to be continued unanimously this device, and is detected Efficiency is higher.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within mind and principle.

Claims (10)

1. a kind of probe clamping device for ultrasound detection, it is characterised in that: including horizontally disposed pedestal (1), pedestal (1) First end on be provided with baffle (11)；

The first grip slipper (2), the second grip slipper (3), the first grip slipper (2) and are movably provided on the pedestal (1) The moving direction of two grip slippers (3) is parallel to the line between baffle (11) and the first grip slipper (2), the second grip slipper (3), institute It states the first grip slipper (2) to be located between baffle (11) and the second grip slipper (3), and between baffle (11) and the first grip slipper (2) It is provided with the first elastomer (4)；

Further include two probes (5) being separately mounted on the first grip slipper (2) and the second grip slipper (3), two probes (5) it Between clamp workpiece for measurement (6).

2. a kind of probe clamping device for ultrasound detection according to claim 1, it is characterised in that: the pedestal (1) scale for indicating chucking power size suffered by workpiece (6), first grip slipper (2) or the second clamping are provided on The pointer for being directed toward scale is provided on seat (3).

3. a kind of probe clamping device for ultrasound detection according to claim 1, it is characterised in that: first folder Seat (2) is held, axis is provided on the second grip slipper (3) and is parallel to the first grip slipper (2), the second grip slipper (3) moving direction The first blind hole (21), and the first blind hole (21) on the first blind hole (21) on the first grip slipper (2) and the second grip slipper (3) It is oppositely arranged；

It is offered on the side wall of first blind hole (21) the second blind hole (22), the second blind hole is provided with the second elastomer in (22) (23), depth of the length less than the second blind hole (22) when second elastomer (23) is stretched naturally, the second elastomer (23) First end be mounted on the bottom holes of the second blind hole (22), the second end of the second elastomer (23) is equipped with clamping head (24), is clamped Head (24) is withstood on probe (5).

4. a kind of probe clamping device for ultrasound detection according to claim 3, it is characterised in that: each first is blind Second blind hole (22) is offered on the side wall in hole (21), the head of clamping head (24) is provided with and probe (5) surface engagement Groove.

5. a kind of probe clamping device for ultrasound detection according to claim 3, it is characterised in that: each first is blind Being opened up on the side wall in hole (21) there are two axis angle is 180 ° of the second blind hole (22), the head of clamping head (24) be provided with The groove of (5) surface engagement of popping one's head in.

6. a kind of probe clamping device for ultrasound detection according to claim 3, it is characterised in that: each first is blind There are three opening up on the side wall in hole (21) the second blind hole (22), and the axis of three the second blind holes (22) is located at same vertical plane Interior, the sum of any one axis and other two axis angles are greater than 180 °.

7. according to a kind of described in any item probe clamping devices for ultrasound detection of claim 3-6, it is characterised in that: institute State the edge chamfer on clamping head (24) towards the first blind hole (21) aperture.

8. a kind of probe clamping device for ultrasound detection according to claim 1, it is characterised in that: first folder It holds and is provided with idler wheel (25) below seat (2).

9. a kind of probe clamping device for ultrasound detection according to claim 1, it is characterised in that: further include sliding block (7), second grip slipper (3) is mounted on sliding block (7), and the sliding block (7) is provided with dovetail groove, and pedestal is provided on (1) With the trapezoid block of dovetail groove cooperation, the channeling direction of trapezoid block is parallel to the moving direction of the second grip slipper (3).

10. a kind of probe clamping device for ultrasound detection according to claim 9, it is characterised in that: the sliding block (7) it is provided on fixing screws (71), fixing screws (71) are screwed into sliding block (7) and withstand on trapezoid block surface.