KR102263144B1 - Coupling of wedge for ultrasonic flaw detection - Google Patents

Abstract

The present invention relates to a wedge coupling part for ultrasonic flaw detection that couples a wedge (50) and an ultrasonic flaw detection jig (10) to each other, and more specifically to a wedge coupling part for ultrasonic flaw detection comprising: a body (100); a fixing arm (200) including a first coupling protrusion (210) inserted into any one of coupling grooves (53) formed on both sides of a wedge; a movable arm (300) spaced apart from the fixing arm (200) and including a second coupling protrusion (310) inserted and coupled to the other one of the coupling grooves (53); and a coupling portion (400) for coupling the body (100) to the ultrasonic flaw detection jig (10).

Description

Wedge coupling for ultrasonic flaw detection {COUPLING OF WEDGE FOR ULTRASONIC FLAW DETECTION}

The present invention relates to a wedge coupling part for ultrasonic flaw detection that couples a wedge to which an ultrasonic probe is coupled and an ultrasonic flaw detection jig with each other, and it is possible to combine the wedge and the ultrasonic flaw detection jig with a simple operation of rotating a latch for convenience and inspection reliability It relates to a wedge joint for ultrasonic flaw detection that can increase the .

Ultrasonic flaw inspection refers to an inspection that examines the presence or absence of defects on a test object by using the acoustic properties of ultrasonic waves. As one of the ultrasonic flaw detection jigs for such ultrasonic flaw inspection, a pair of wedges to which a pair of ultrasonic probes are fixed are combined to perform an ultrasonic flaw inspection.

Conventionally, the wedge coupling part for coupling the wedge to the ultrasonic flaw detection jig is coupled with the ultrasonic flaw detection jig by inserting the coupling shaft into the 'engagement groove' formed in the wedge.

More specifically, this method can be divided into three methods.

The first method includes a pair of fixing arms for fixing the wedge from both sides, and by loosening or tightening bolts, the pair of fixing arms move left and right, and the fixing arms are coupled to the coupling groove of the wedge and fixed. At this time, since the fixed arm is separated, there is a risk that the fixed arm falls to the floor or is lost. In particular, this can be a big problem in the foreign object inflow prevention zone.

The second method is to couple the bolt-type wedge fixing shaft to the wedge coupling groove. At this time, depending on how tightly the bolt-type wedge fixing shaft is tightened, a problem occurs in that the positions of a pair of facing wedges are shifted on a horizontal line, which causes a decrease in signal sensitivity and signal omission.

The third method is to mount the wedge to the housing. At this time, the size of the transducer is determined according to the diameter or thickness of the test object, and the size of the wedge is changed accordingly. Since the housing must be separately manufactured according to the size of the wedge, there is a problem in that expandability is poor.

Korean Patent Publication No. 10-2019-0001236 (“ultrasonic transducer assembly”, 2019.01.04)

The present invention has been devised to solve the above problems, and it is possible to combine a wedge with a jig for ultrasonic flaw detection with a simple operation, and the facing transducer is always located on the same line without shifting, and it is applied to various wedges. It relates to a wedge coupling part for ultrasonic flaw detection with increased efficiency and convenience.

In order to solve the above problems, the present invention provides a body 51 extending in a first direction, a probe receiving groove 52 in which an ultrasonic transducer 11 is coupled to an intermediate portion of the body 51 in the first direction, and the In the wedge coupling part for ultrasonic flaw detection for coupling the wedge 50 including a pair of coupling grooves 53 formed on both side surfaces of the body 51 in the first direction and the ultrasonic flaw detection jig 10 to each other, the first The body 100 is formed in the form of a bar extending in the direction, one side in the second direction is fixedly coupled to one side of the body 100 in the first direction, and the other end in the second direction is formed in the form of a bar extending in the second direction. The fixing arm 200 including a first coupling protrusion 210 which protrudes to the other side in the first direction and is inserted and coupled to one of the pair of coupling grooves 53, is formed in the form of a bar extending in the second direction, One side in the second direction is movably coupled to the other side of the body 100 in the first direction to be spaced apart from the fixed arm 200 , and symmetrically to the fixed arm 200 in the second direction at the other end in the first direction A moving arm 300 including a second coupling protrusion 310 that protrudes to one side and is inserted and coupled to the other one of the coupling grooves 53, and a coupling part 400 coupling the body 100 to the ultrasonic flaw detection jig. ) can be included.

Meanwhile, the body 100 has an inner space 110 extending in a first direction and having one side closed and the other side open, a fastening groove 120 penetrating through one side of the inner space 110, a first direction is formed in the form of a rod extending to the inner space 110, one side and the other side of which are through-coupled to the fastening groove 120 and the movable arm 300, respectively, the adjustment shaft 150, and the adjustment shaft 150 ) includes a latch 160 screwed to one side, and the movable arm 300 can move in the first direction by rotation of the latch 160 .

Meanwhile, the inner space 110 may include a sliding groove 115 extending from the other open side in the first direction into which the movable arm 300 is inserted.

Meanwhile, the moving arm 300 may include a locking portion 320 protruding from an end to both sides in the third direction to engage the moving arm 300 in the sliding groove 115 .

Meanwhile, the body 100 may further include a compression spring 170 fitted to the adjustment shaft 150 and having one end and the other end supported by one end of the body 100 and the moving arm 300 , respectively. .

On the other hand, the compression spring 170 induces torsion of the screw coupling between the adjustment shaft 150 and the latch 160 to improve the coupling force, and as the movable arm 300 is moved and compressed, the movable arm ( 300) An elastic force may be applied to the moving arm 300 in a direction opposite to the moving direction.

On the other hand, the coupling part 400 connects the body 100 and the ultrasonic flaw detection jig 50, and at least one coupling shaft 410 of a bar shape extending in the third direction, and the coupling shaft ( It is formed between the body 100 and the ultrasonic flaw detection jig 50 on 410) and includes a pressing means 420 for pressing the body 100 toward the test object in a third direction by using elasticity. can

Meanwhile, the body 100 may include a support portion 100a protruding from the coupling portion to which the coupling shaft 410 is coupled, and a central groove 100b formed in the third direction in the middle portion in the first direction. have.

According to the present invention according to the above configuration, the wedge can be coupled to the jig with only one simple operation of turning the latch, thereby having a great effect of increasing work convenience and inspection efficiency.

In addition, there is an effect that the probes facing each other are always located on the same line without shifting, and can be inspected with excellent signal sensitivity.

In addition, unless all latches of the wedge coupling part are released, the fixed arm and the movable arm that fix the wedge are not separated from the wedge coupling part, so there is little risk of loss, and it is possible to reduce safety accidents caused by lost parts even in the foreign substance inflow prevention area. .

Moreover, since the wedge coupling unit of the present invention can be applied to wedges of various sizes and designs, such as a PAUT test and a general ultrasound test, as well as a TOFD test, expandability can also be obtained.

1 and 4 are perspective views of a wedge coupling part for ultrasonic flaw detection of the present invention.
5 is an exploded view of a wedge coupling part for ultrasonic flaw detection of the present invention.
6 is a side view of a wedge coupling part for ultrasonic flaw detection of the present invention.
7 and 8 are front views of the wedge coupling part for ultrasonic flaw detection of the present invention.
9 is a perspective view of a wedge coupling portion for ultrasonic flaw detection of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and detailed description will be given. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

When a component is referred to as being “connected” or “connected” to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in between. it should be

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

Hereinafter, the technical idea of the present invention will be described in more detail with reference to the accompanying drawings. 1 is a perspective view of a wedge coupling part for ultrasonic flaw detection of the present invention. Figure 2 is shown that the wedge 50 is coupled to the wedge coupling portion for the ultrasonic flaw detection of the present invention of the present invention. 3 and 4 show that a pair of wedge coupling parts for ultrasonic flaw detection of the present invention are coupled to the ultrasonic flaw detection jig (10). 4 is an enlarged view of a portion of the wedge coupling portion coupled to the ultrasonic flaw detection jig (10). 5 is an exploded view of a wedge coupling part for ultrasonic flaw detection of the present invention. 6 is a side view of a wedge coupling part for ultrasonic flaw detection of the present invention. 7 and 8 are front views of the wedge coupling part for ultrasonic flaw detection of the present invention. 9 is a perspective view showing the rear side of the wedge coupling for ultrasonic flaw detection of the present invention.

Since the accompanying drawings are merely examples shown to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

The wedge coupling part for ultrasonic flaw detection of the present invention couples the wedge 50 and the ultrasonic flaw detection tool 10 to which the ultrasonic probe is coupled to each other. Specifically, the wedge 50, as shown in Figure 2, the body 51 extending in the first direction, the ultrasonic transducer 11 is coupled to the middle portion of the body 51 in the first direction for receiving the transducer A groove 52 and a pair of coupling grooves 53 formed on both side surfaces of the body 51 in the first direction may be included.

Meanwhile, the first direction (1), the second direction (2), and the third direction (3) are as shown in FIG. 1 .

The basic configuration of the wedge coupling part for the preferred ultrasonic flaw detection of the present invention will be described with reference to the drawings.

First, as shown in FIGS. 1 and 2 , the body 100 is formed in the form of a bar extending in the first direction, and is formed in the form of a bar extending in the second direction, so that one side of the body 100 is formed in the form of a bar extending in the second direction. A fixing arm including a first coupling protrusion 210 fixedly coupled to one side in the first direction, protruding from the other end in the second direction to the other side in the first direction, and inserted and coupled to one of the pair of coupling grooves 53 ( 200), is formed in the form of a bar extending in the second direction so that one side in the second direction is movably coupled to the other side of the body 100 in the first direction to be spaced apart from the fixed arm 200, and the fixed arm ( 200) and a moving arm 300 including a second coupling protrusion 310 protruding from the other end in the second direction to one side in the first direction and inserted and coupled to the other one of the coupling grooves 53, and the body ( 100) may include a coupling unit 400 for coupling the ultrasonic flaw detection jig.

As shown in FIG. 2 , the first and second coupling protrusions are respectively fitted into the coupling grooves 53 to stably fix both sides of the wedge 50 . In addition, when the depth of the engaging groove 53 of the wedge 50 and the protruding heights of the first and second engaging projections coincide with each other, the pair of ultrasonic transducers 11 facing each other do not shift and are always on the same line It has the effect of being able to inspect with excellent signal sensitivity.

On the other hand, the body 100, as shown in Figure 5, extending in the first direction, one side is closed and the other side is open inner space 110, the fastening formed through one side of the inner space (110) The groove 120 is formed in the form of a rod extending in the first direction and is disposed in the inner space 110 , and one side and the other side are through-coupled to the fastening groove 120 and the moving arm 300 , respectively. ), and a latch 160 screwed to one side of the adjustment shaft 150 , and the movable arm 300 may move in the first direction by rotation of the latch 160 .

Meanwhile, the inner space 110 may include a sliding groove 115 extending from the other open side in the first direction into which the movable arm 300 is inserted.

As shown in FIG. 5 , one side of the adjustment shaft 150 passes through the fastening groove 120 , and a thread is formed on one side protruding through the inner space 110 to the outside of the inner space 110 , so that the latch 160 . ) and may be screwed. The adjustment shaft 150 rotates and moves in the first direction in response to the rotational movement of the latch 16 , and as the adjustment shaft 150 moves in the first direction, it is coupled to the other side of the adjustment shaft 150 . or the penetrating movable arm 300 may move in the first direction. As the moving arm 300 moves in the first direction, the first and second coupling protrusions 210 and 310 may be inserted into the coupling groove 53 of the wedge 50 to be fixed or separated.

On the other hand, as shown in FIG. 9 , the moving arm 300 protrudes from one end of the second direction to both sides in the third direction to engage the moving arm 300 in the sliding groove 115 . may include.

With this configuration, the moving arm 300 is stably fixed to the sliding groove 115 of the body 100, and the moving arm is movable in the same line in the first direction, so that the second coupling protrusion 310 is the wedge 50. ) can be inserted into the coupling groove 53 without error.

On the other hand, as shown in FIGS. 7 and 8 , the body 100 is fitted to the adjustment shaft 150 and has one end and the other end of the compression body 100 supported by one end and the movable arm 300 , respectively. A spring 170 may be further included.

On the other hand, the compression spring 170 may serve as a spring washer to improve the coupling force by inducing torsion of the screw coupling between the adjustment shaft 150 and the latch 160 . Accordingly, as the moving arm 300 moves toward one side in the first direction and is compressed, an elastic force may be applied to the moving arm 300 toward the other side in the first direction opposite to the moving direction of the moving arm 300 .

8A shows that the compression spring 170 is compressed by moving the moving arm 300 toward one side in the first direction. In addition, FIG. 8b shows that the moving arm 300 moves toward the other side in the first direction and the spring washer 170 is relaxed.

With this configuration, the control shaft 150 and the latch 160 have an effect of increasing durability by preventing rotational loosening in which the screw coupling is loosened due to minute vibrations generated during ultrasonic flaw inspection.

On the other hand, the coupling part 400, as shown in FIGS. 1, 6 and 7, connects the body 100 and the ultrasonic flaw detection jig 10, and at least one of the rod-shaped extensions in the third direction is fitted between the body 100 and the ultrasonic flaw detection tool 10 on the coupling shaft 410 of the coupling shaft 410, and uses the elasticity to move the body 100 toward the test body, that is, It may include a pressing means 420 for pressing one side in the third direction.

The pressing means 420 may be an elastic body, and more preferably a spring.

It is shown that the wedge coupling portion for the ultrasonic flaw detection is coupled to the ultrasonic flaw detection jig 10 by the coupling portion 400 in FIGS. 2 and 3 .

With this configuration, by bonding the wedge 50 to the ultrasonic flaw detection jig 10 and simultaneously pressing the body 100 toward the inspection object, the ultrasonic probe 11 coupled to the body is brought into close contact with the inspection object to increase inspection efficiency. There is an effect that can be improved.

On the other hand, the body 100, as shown in Figures 1, 2 and 7, the support portion (100a) formed to protrude from the coupling portion to which the coupling shaft 410 is coupled, and a third in the middle portion in the first direction. It may include a central groove (100b) formed in the direction.

With this configuration, the coupling shaft 410 of the coupling part 400 is stably coupled to the body 100 to increase durability, and the angle of the ultrasonic probe 11 by the central groove 100b is adjusted. When changing, or when detaching the wedge to which the ultrasonic transducer 11 is coupled, it can be easily made without interference.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

10: ultrasonic flaw detection jig
11: ultrasonic transducer
50: wedge
51: body
52: probe receiving groove
53: coupling groove
100: body
100a: support
100b: central groove
110: inner space
115: sliding groove
120: fastening groove
150: control shaft
160: latch
170: compression spring
200: fixed arm
210: first coupling protrusion
300: mobile arm
310: second coupling protrusion
320: locking part
400: coupling part
410: coupling shaft
420: means of pressing

Claims (7)

The body 51 extending in the first direction, the probe receiving groove 52 to which the ultrasonic probe 11 is coupled to the middle part of the body 51 in the first direction, is formed on both sides of the body 51 in the first direction In the wedge coupling portion for ultrasonic flaw detection for coupling the wedge 50 and the ultrasonic flaw detection jig 10 including a pair of coupling grooves 53 to be coupled to each other,
a body 100 formed in a bar shape extending in a first direction;
It is formed in the form of a bar extending in the second direction, one side in the second direction is fixedly coupled to one side in the first direction of the body 100, and the other end in the second direction protrudes to the other side in the first direction, and a pair of the coupling groove a fixing arm 200 including a first coupling protrusion 210 that is inserted and coupled to one of (53);
It is formed in the form of a bar extending in the second direction so that one side in the second direction is movably coupled to the other side of the body 100 in the first direction to be spaced apart from the fixed arm 200 , and the fixed arm 200 and a moving arm 300 including a second coupling protrusion 310 symmetrically protruding from the other end in the second direction to one side in the first direction and inserted into the other one of the coupling grooves 53; and
Including; a coupling part 400 for coupling the body 100 to the ultrasonic flaw detection jig 10;
The body 100,
an inner space 110 extending in a first direction and having one side closed and the other side open;
a fastening groove 120 formed through one side of the inner space 110;
an adjustment shaft 150 formed in the form of a rod extending in the first direction and disposed in the inner space 110 and having one side and the other side coupled through the fastening groove 120 and the moving arm 300, respectively;
a latch 160 screwed to one side of the adjustment shaft 150 protruding through the fastening groove 120 to the outside; and
and a compression spring 170 fitted to the adjustment shaft 150 and having one end and the other end supported by one end of the body 100 and the moving arm 300, respectively,
The inner space 110 extends in the first direction from the other open side and includes a sliding groove 115 into which the movable arm 300 is inserted.
The adjustment shaft 150 has a screw thread formed on one side protruding to the outside through the fastening groove 120,
The movable arm 300 is moved in the first direction by the rotation of the latch 160 .
Wedge coupling for ultrasonic flaw detection, characterized in that.
delete delete According to claim 1, wherein the movable arm 300,
A locking part 320 protruding from an end to both sides in the third direction and engaging the movable arm 300 in the sliding groove 115;
Wedge coupling for ultrasonic flaw detection, characterized in that.
delete According to claim 1, wherein the coupling portion 400,
At least one coupling shaft 410 in the shape of a rod connecting the body 100 and the ultrasonic flaw detection jig 10 and extending in a third direction; and
A pressing means 420 formed between the body 100 and the ultrasonic flaw detection fixture 10 on the coupling shaft 410 and pressing the body 100 in a third direction by using elasticity; includes; to do
Wedge coupling for ultrasonic flaw detection, characterized in that.
7. The method of claim 6,
The body 100,
a support portion 100a protruding from the coupling portion to which the coupling shaft 410 is coupled; and
Containing a central groove (100b) formed in the third direction in the middle portion in the first direction
Wedge coupling for ultrasonic flaw detection, characterized in that.

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