CN205301249U - Tandem supersonic wave inspection equipment and support thereof - Google Patents

Abstract

The utility model discloses a serial -type supersonic wave inspection equipment's support. This support is used for centre gripping ultrasonic wave receiving probe (100) and ultrasonic emission probe (200), support (400) are including linear guide (410) and two grip slipper (420), wherein: two grip slipper (420) are used for centre gripping ultrasonic emission probe (200) and ultrasonic wave receiving probe (100) respectively, grip slipper (420) have first recess (421), linear guide (410) are worn to locate in first recess (421), and can slide at ultrasonic wave receiving probe (100) and ultrasonic emission probe (200) co -linear direction for linear guide (410). Above -mentioned scheme can be solved and adjust two lower problems of efficiency that the ultrasonic transducer position exists in the work of detecting a flaw. The utility model discloses still disclose a serial -type supersonic wave inspection equipment.

Description

Tandem ultrasonic test equipment and support thereof

Technical field

This utility model relates to inspection technique field, particularly relates to a kind of tandem ultrasonic test equipment and support thereof.

Background technology

The workpiece welded by slab part is less due to the groove gradient, therefore easily produces to be perpendicular to the defect risk of face of weld near melt run. In order to improve the ex factory pass rate of workpiece, and underproof workpiece being reprocessed, above-mentioned workpiece is generally implemented flaw detection by manufacturer. At present, non destructive detection mothod is commonplace defect inspection method, is generally completed by tandem ultrasonic test equipment. So-called tandem ultrasonic test equipment includes two ultrasound probes, respectively ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200, as shown in Figure 1.

Refer to Fig. 1, center acoustic beam in order to realize two ultrasound probes is in the plane perpendicular with weld seam, to ensure that ultrasound wave receiving transducer 100 is in the reflection echo position of ultrasonic emitting probe 200 simultaneously, flaw detection operation needs two ultrasound probes to be in same straight line on workpiece, and both relative positions are once adjust and needing afterwards to remain unchanged. Meet above-mentioned requirements could realize the defect 300 in workpiece is realized detection. At present, operator changes the position of two ultrasound probes to guarantee that both are in same straight line and distance between the two usually by manual adjustments. But adjust again after regulating two ultrasound probe conllinear in the process of both distances, be easier to destroy the collinear position relation of two ultrasound probes. It will be apparent that this collinear relationship needing again to correct two ultrasound probes. Visible, there is inefficient problem in this adjustment mode.

In sum, how to solve to regulate the inefficient problem existing for two ultrasound probe positions in flaw detection work, be current those skilled in the art technical problems urgently to be resolved hurrily.

Utility model content

This utility model discloses the support of a kind of tandem ultrasonic test equipment, to solve to regulate the inefficient problem existing for two ultrasound probe positions in flaw detection work.

For solving above-mentioned technical problem, this utility model is disclosed directly below technical scheme:

The support of tandem ultrasonic test equipment, pops one's head in for clamping ultrasonic receiving transducer and ultrasonic emitting;Described support includes line slideway and two grip slippers; Wherein:

Two described grip slippers are respectively used to clamp described ultrasonic emitting probe and described ultrasound wave receiving transducer;

Described grip slipper has the first groove; Described first groove is arranged in described line slideway and the direction slip of conllinear of can popping one's head at described ultrasound wave receiving transducer and described ultrasonic emitting relative to described line slideway.

Preferably, in above-mentioned support, described support is additionally provided with connector, and described connector is for being fixed on workpiece by described support.

Preferably, in above-mentioned support, the sidewall of described first groove is provided with the first fastening bolt to compress described line slideway side on the other side.

Preferably, in above-mentioned support, the both sides of the edge of described first groove notch are provided with the end face location laminating of upper limit portion, described upper limit portion and described line slideway.

Preferably, in above-mentioned support, described upper limit portion is provided with the second fastening bolt to compress described line slideway end face on the other side.

Preferably, in above-mentioned support, described grip slipper has the second groove;

Described second groove is used for holding described ultrasonic emitting probe or described ultrasound wave receiving transducer; The both sides sidewall of described second groove is provided with connecting bolt;

Described connecting bolt, through the sidewall of described second groove, is located by connecting with the hole, location of sidewall corresponding with described ultrasonic emitting probe or described ultrasound wave receiving transducer;

Described ultrasonic emitting probe and described ultrasound wave receiving transducer for the bottom surface of absorption surface outside stretch in the notch of described second groove.

Preferably, in above-mentioned support, the sidewall laminating that the both sides inwall of described second groove is popped one's head in corresponding with described ultrasound wave receiving transducer or described ultrasonic emitting respectively.

Preferably, in above-mentioned support, the both sides inwall of described second groove is popped one's head in described ultrasound wave receiving transducer or described ultrasonic emitting respectively and is formed gap between corresponding sidewall;

Under the lateral wall fit-state of the nut of described connecting bolt and described second groove, described ultrasound wave receiving transducer and described ultrasonic emitting probe conllinear.

Preferably, in above-mentioned support, described line slideway is provided with the lightening hole of multiple Discrete Distribution along its length.

Based on support disclosed in this utility model, this utility model is also disclosed a kind of tandem ultrasonic test equipment. Disclosed tandem ultrasonic test equipment includes ultrasound wave receiving transducer, ultrasonic emitting probe and as above support described in any one; Wherein:

Described support is popped one's head in clamp with ultrasound wave receiving transducer and ultrasonic emitting and is coordinated.

Disclosed in this utility model, the support of tandem ultrasonic test equipment has the advantages that

In the support of tandem ultrasonic test equipment disclosed in this utility model, line slideway ensures that two grip slippers can extend along direction and move, and is respectively used to clamping ultrasonic receiving transducer and ultrasonic emitting probe due to two grip slippers. Therefore two grip slippers move along the bearing of trend of line slideway and can ensure that ultrasound wave receiving transducer and under the premise of ultrasonic emitting probe conllinear, adjust both distances. In the process that the spacing of ultrasound wave receiving transducer and ultrasonic emitting probe regulates, without influence on both collinear relationships. Therefore, the support of tandem ultrasonic test equipment disclosed in this utility model can solve to regulate the inefficient problem existing for two ultrasound probe positions in flaw detection work.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme in this utility model embodiment or background technology, the required accompanying drawing used in embodiment or background technology description will be briefly described below, apparently, for those of ordinary skills, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the detection schematic diagram of a kind of tandem ultrasonic test equipment;

Fig. 2 is the detection schematic diagram of tandem ultrasonic test equipment disclosed in this utility model embodiment;

Fig. 3 is the plan structure schematic diagram of tandem ultrasonic test equipment shown in Fig. 2;

Fig. 4 is the left view of Fig. 2, and its medium-height trestle is in section view state.

Description of reference numerals:

100-ultrasound wave receiving transducer, 200-ultrasonic emitting probe, 300-defect, 400-support, 410-line slideway, 411-lightening hole, 420-grip slipper, 421-the first groove, 422-the second groove, 423-gap, 430-second fastens bolt, 440-first fastens bolt, 450-connecting bolt, 500-workpiece.

Detailed description of the invention

In order to make those skilled in the art be more fully understood that the technical scheme in this utility model, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is only a part of embodiment of the present utility model, rather than whole embodiments. Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under the premise not making creative work, all should belong to the scope of this utility model protection.

Refer to Fig. 2-4, this utility model embodiment discloses the support 400 of a kind of tandem ultrasonic test equipment. Disclosed support 400 is for clamping ultrasonic receiving transducer 100 and ultrasonic emitting probe 200. Support 400 includes line slideway 410 and two grip slippers 420.

Line slideway 410 is elongate structure, and the contour shape of each cross section of line slideway 410 is identical. Concrete, line slideway 410 can be the cuboid rod member of flat. In order to reduce the labor intensity of staff, it is preferred that line slideway 410 is provided with lightening hole 411. Concrete, line slideway 410 is provided with the lightening hole 411 of multiple Discrete Distribution along its length, as shown in Figure 3.

The structure of two grip slippers 420 is identical, is respectively used to the identical ultrasonic emitting probe 200 of clamp structure and ultrasound wave receiving transducer 100. Grip slipper 420 has the first groove 421, and the first groove 421 is arranged in line slideway 410 and the direction slip of 200 conllinear of can popping one's head at ultrasound wave receiving transducer 100 and ultrasonic emitting along line slideway 410.

In the support 400 of tandem ultrasonic test equipment disclosed in this utility model embodiment, line slideway 410 ensures that two grip slippers 420 can extend along direction and slide, and is respectively used to clamping ultrasonic receiving transducer 100 and ultrasonic emitting probe 200 due to two grip slippers 420. Therefore two grip slippers 420 slide along the bearing of trend of line slideway 410 can ensure that ultrasound wave receiving transducer 100 and ultrasonic emitting pop one's head in 200 conllinear premise under, adjust both distances. In the process that the spacing of ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200 regulates, without influence on both collinear relationships. Therefore, the support 400 of tandem ultrasonic test equipment disclosed in this utility model embodiment can solve to regulate the inefficient problem existing for two ultrasound probe positions in flaw detection work.

In order to ensure ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200 stability that linearly guide rail 410 slides, preferably, support 400 is also provided with connector, and connector is concrete for support 400 is fixed on workpiece 500., connector is removable connector, for instance fixture.

When ultrasound wave receiving transducer 100 and ultrasonic emitting are popped one's head in after the distance between 200 determines, in order to ensure the stability of both position relationships, cause ultrasound wave receiving transducer 100 or the movement of ultrasonic emitting probe 200 reducing external interference. Preferably, the sidewall of the first groove 421 is provided with the first fastening bolt 440. The screw-in of the first fastening bolt 440 can compress line slideway 410 side on the other side. Visible, the first fastening bolt 440 can realize grip slipper 420 and be connected with the fixing of line slideway 410.

In such cases, the one in ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200 can be fixed with line slideway 410 by operator by the first fastening bolt 440, and individually adjustment another one determines distance between the two. For the ease of the adjustment of ultrasound wave receiving transducer 100 and the spacing of ultrasonic emitting probe 200, line slideway 410 can be provided with the length scale of the spacing for indicating ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200. Certainly, this needs the one in ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200 to be fixed on the zero graduation line position of length scale, another one relative rectilinear guide rail 410 slides, and determines the distance between ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200 by reading the corresponding scale of glider. Visible, the program can make the distance adjustment between ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200 become more quick, simple.

The shape of cross section of the first groove 421 is suitable with the shape of cross section of line slideway 410. Such as the cross section of the first groove 421 is rectangle, and the shape of cross section of line slideway 410 is rectangle, as shown in Figure 4. First groove 421 has notch. In order to improve the stability of fixing connection, it is preferred that the both sides of the edge of the first groove 421 notch are provided with upper limit portion, to avoid grip slipper 420 to come off from line slideway 410. Being more highly preferred to, the end face location laminating of upper limit portion and line slideway 410, to play better positioning action. In like manner, upper limit portion can also arrange the second fastening bolt 430 to compress line slideway 410 end face on the other side. Visible, upper limit portion and the second fastening bolt 430 can improve the fixing stability being connected between grip slipper 420 with line slideway 410 further.

Connected mode between grip slipper 420 and ultrasonic emitting probe 200 or ultrasound wave receiving transducer 100 has multiple, and this is not limited as by this utility model embodiment. In a kind of specific embodiment, grip slipper 420 has the second groove 422, and the second groove 422 is used for holding ultrasonic emitting probe 200 or ultrasound wave receiving transducer 100, and the sidewall of the second groove 422 both sides all can be provided with connecting bolt 450. Connecting bolt 450, through the sidewall of the second groove 422, is located by connecting with the hole, location of 200 corresponding sidewalls of popping one's head in ultrasound wave receiving transducer 100 or ultrasonic emitting. Ultrasonic emitting probe 200 is used for the notch of all outer the second groove 422 stretching in corresponding grip slipper 420 in bottom surface contacted with workpiece 500 with ultrasound wave receiving transducer 100, to guarantee ultrasonic emitting probe 200 and ultrasound wave receiving transducer 100 normal operation.

Concrete, the both sides inwall of the second groove 422 can be popped one's head in ultrasound wave receiving transducer 100 or ultrasonic emitting 200 corresponding sidewall laminatings respectively. When ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200 are respectively mounted in the second groove 422 of corresponding grip slipper 420 and can ensure both conllinear.

Referring again to Fig. 4, the both sides inwall of the second groove 422 is popped one's head in ultrasound wave receiving transducer 100 or ultrasonic emitting respectively and is formed gap 423 between 200 corresponding sidewalls. The nut of connecting bolt 450 and the lateral wall of the second groove 422 are under the fit-state of location, and ultrasound wave receiving transducer 100 and ultrasonic emitting are popped one's head in 200 conllinear. Based on this kind of structure, in the assembling process of tandem ultrasonic test equipment, operator have only to screw into connecting bolt 450 end and can ensure that ultrasound wave receiving transducer 100 is fixed with ultrasonic emitting probe 200, and ensure both conllinear. Said structure has easy to operate, the advantage that packaging efficiency is higher.

Based on the support 400 of tandem ultrasonic test equipment disclosed in this utility model embodiment, this utility model embodiment is also disclosed a kind of tandem ultrasonic test equipment. Disclosed tandem ultrasonic test equipment includes ultrasound wave receiving transducer 100, ultrasonic emitting probe 200 and support 400; Wherein: described support 400 coordinates with ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200.

In tandem ultrasonic test equipment disclosed in the present embodiment, the matching relationship that connects of support 400 and ultrasound wave receiving transducer 100 and ultrasonic emitting probe 200 is referred to the description in foregoing embodiments, and this does not repeat.

Herein, what each preferred version only emphasis described is different from other scheme, as long as each preferred version does not conflict, can combination in any, the embodiment formed after combination is also within category disclosed in this specification, considering that text is succinct, the embodiment with regard to no longer combination being formed individually describes herein.

The above is only detailed description of the invention of the present utility model, makes to skilled artisans appreciate that or realize this utility model. The multiple amendment of these embodiments be will be apparent to one skilled in the art, and generic principles defined herein when without departing from spirit or scope of the present utility model, can realize in other embodiments. Therefore, this utility model is not intended to be limited to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty.

The above is only detailed description of the invention of the present utility model; it should be pointed out that, for those skilled in the art, under the premise without departing from this utility model principle; can also making some improvements and modifications, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (10)

1. the support of tandem ultrasonic test equipment, pops one's head in (200) for clamping ultrasonic receiving transducer (100) and ultrasonic emitting; It is characterized in that, described support (400) includes line slideway (410) and two grip slippers (420); Wherein:

Two described grip slippers (420) are respectively used to clamp described ultrasonic emitting probe (200) and described ultrasound wave receiving transducer (100);

Described grip slipper (420) has the first groove (421); Described first groove (421) is arranged in described line slideway (410) and the direction slip of (200) conllinear of can popping one's head in described ultrasound wave receiving transducer (100) and described ultrasonic emitting relative to described line slideway (410).

2. support according to claim 1, it is characterised in that described support (400) is additionally provided with connector, described connector is for being fixed on workpiece (500) by described support (400).

3. support according to claim 1, it is characterised in that the sidewall of described first groove (421) is provided with the first fastening bolt (440) to compress described line slideway (410) side on the other side.

4. support according to claim 3, it is characterised in that the both sides of the edge of described first groove (421) notch are provided with the end face location laminating of upper limit portion, described upper limit portion and described line slideway (410).

5. support according to claim 4, it is characterised in that described upper limit portion is provided with the second fastening bolt (430) to compress described line slideway (410) end face on the other side.

6. support according to claim 1, it is characterised in that described grip slipper (420) has the second groove (422);

Described second groove (422) is used for holding described ultrasonic emitting probe (200) or described ultrasound wave receiving transducer (100); The both sides sidewall of described second groove (422) is provided with connecting bolt (450);

Described connecting bolt (450), through the sidewall of described second groove (422), is located by connecting with the hole, location of sidewall corresponding with described ultrasonic emitting probe (200) or described ultrasound wave receiving transducer (100);

Described ultrasonic emitting probe (200) is used for stretching in outside the bottom surface contacted with workpiece (500) notch of described second groove (422) with described ultrasound wave receiving transducer (100).

7. support according to claim 6, it is characterized in that, the sidewall laminating that the both sides inwall of described second groove (422) is corresponding with described ultrasound wave receiving transducer (100) or described ultrasonic emitting probe (200) respectively.

8. support according to claim 6, it is characterized in that, between the sidewall that the both sides inwall of described second groove (422) is corresponding with described ultrasound wave receiving transducer (100) or described ultrasonic emitting probe (200) respectively, form gap (423);

Under the lateral wall fit-state of the nut of described connecting bolt (450) and described second groove (422), described ultrasound wave receiving transducer (100) and described ultrasonic emitting probe (200) conllinear.

9. the support according to any one in claim 1-8, it is characterised in that described line slideway (410) is provided with the lightening hole (411) of multiple Discrete Distribution along its length.

10. tandem ultrasonic test equipment, pops one's head in (200) including ultrasound wave receiving transducer (100) and ultrasonic emitting; It is characterized in that, also include the support (400) as described in any one in claim 1-9; Wherein:

Described support (400) coordinates with ultrasound wave receiving transducer (100) and ultrasonic emitting probe (200) clamping.