KR102011293B1 - Probe fixing device for ultrasonic test instrument - Google Patents

Abstract

The present invention relates to a probe fixating apparatus for an ultrasonic test instrument, which is used for an ultrasonic non-destructive test, and more specifically, to a probe fixating apparatus for an ultrasonic test instrument, comprising: a pair of probe fixating holders placed to be able to horizontally slide and mount a probe on an upper side of a base plate; and a sample holder mounted on an upper side of the base plate coming under and between the pair of probe fixating holders to hold a sample. The sample holder is able to slide in a widthwise direction of the base plate and move. Accordingly, the present invention is able to change the position of a measuring point through a stepwise lamination of sample holders, to keep the measuring point of the probe uniform for the sample regardless of its size, to keep the same pressurizing force on the sample for the measuring point of the probe, to be made from materials with minimized ultrasonic interference (e.g., acryl materials which are the same as those materials used in a calibration rod for an ultrasonic test instrument, or the like) and an engagement structure (e.g., a spiral engagement induction by a pipe cap, or the like), and to minimize an error in measurement due to interference by the fixating apparatus around the probe and couplant.

Description

Probe fixing device for ultrasonic test instrument

The present invention relates to a fixing device of the ultrasonic flaw detector for use in ultrasonic non-destructive testing, and more specifically, a pair of transducer fixing holder for mounting the transducer on the upper portion of the base plate is arranged to be slidable in the horizontal direction, By configuring the specimen holder for mounting the specimen on the upper part of the base plate corresponding to the pair of transducer holding holder, the measuring point of the probe for the specimen can be constantly adjusted regardless of the size of the specimen, the probe The pressing force of the specimen to the measuring point of is constant, and made of a material with minimal ultrasonic interference (ex: acrylic material of the same material as the calibration rod of the ultrasonic flaw detector) and a coupling structure (such as screw induction by pipe cap). Measurement errors due to interferences in the fixture and contact medium around the transducer can be minimized. An area on the fixing device for ultrasonic flaw detector probe.

The reliability of the measured value depends on various variables in the ultrasonic non-destructive testing. Representative interference factors include random position change of the measurement point due to the experimenter's proficiency, pressure change of the specimen applied to the probe's measurement point, target medium for the ultrasonic test and Interference between the fixing device around the transducer and the contact medium.

That is, the ultrasonic flaw detector used in the ultrasonic non-destructive inspection is very important to the contact and the consistency of the contact point of the transducer measuring point on the specimen, and recently, continuous research and development to solve this problem is progressing.

The following is a representative prior art related to the device for fixing the transducer included in the ultrasonic flaw detector.

Korean Unexamined Patent Publication No. 10-2009-0123461 relates to an ultrasonic probe holder for ultrasonic auto flaw detector, comprising: a first frame having a slider coupled to one surface of an ultrasonic probe holder body for ultrasonic auto flaw detector; A hinge unit including a second frame rotatably coupled to the other surface of the first frame, and a first support portion and a second support portion respectively coupled to one side and the other side of the second frame; A link unit configured to fasten a plurality of links to be movable in a longitudinal direction of a refraction unit and a slider rotatably coupled to ends of the first support unit and the second support unit of the hinge unit; An ultrasonic probe holder for an automatic ultrasonic flaw detector including a spring unit including an elastic portion coupled to a plurality of links is provided to act in a direction in which the tension or shrinkage direction intersects the longitudinal direction of the slider.

In addition, the prior art can increase or decrease the moving distance of the refraction wedge connected to the slider by changing the number of the link portion and the number of the elastic portion, and realized the effect of maintaining a constant contact state of the refraction wedge, Since the pressing force of the transducer's measuring point is continuously changed, there is a problem that noise of the measured value may be greatly generated. Therefore, continuous research and development is required to solve this problem.

Republic of Korea Patent Publication No. 10-2009-0123461 (2009.12.02.) Republic of Korea Patent Publication No. 10-2013-0081759 (2013.07.18.) Republic of Korea Patent Publication No. 10-1999-0050232 (1999.07.05.) Republic of Korea Patent Publication No. 10-2011-0102877 (2011.09.19.)

The present invention has been made in order to improve the problems according to the prior art of the ultrasonic probe holding device, the conventional ultrasonic probe holding device is simply located on the upper part of the specimen seated on the test bench using the specimen Because of the configuration of applying ultrasonic waves to the above, there was a problem that the measured value of the repeated experiment had a large deviation depending on the skill of the experimenter or the experiment environment;

In particular, due to interference factors such as the pressing force of the transducer measuring point on the specimen and the interference of ultrasonic waves by the fixing device around the measuring point, the measurement value was not constant during the non-destructive test using ultrasonic waves. The difficulty is to keep the interference factors constant during the repeated experiments, and the main purpose is to provide a solution.

The present invention is to realize the desired object as described above,

Base plate; A pair of transducer fixing holders arranged on the upper portion of the base plate so as to be slidably movable in a horizontal direction and for mounting the transducers; It is provided on top of the base plate, and disposed between the pair of transducer fixing holder and a specimen holder for mounting the specimen to provide a probe for the ultrasonic probe configured to include.

Ultrasonic flaw detector fixing device according to the present invention as described above can be easily set by adjusting the horizontal position of the transducer measuring point for the specimen mounted on the specimen holder and the pressing force of the transducer holding holder relative to the base plate Effect can be obtained;

In addition, when the support is included in the specimen holder, since the specimen can be vertically spaced apart from the base plate, it is possible to minimize the distortion of the ultrasonic wave by the base plate, thereby obtaining the effect of obtaining accurate measurement values;

In particular, when the holder holding holder and the holder cap is included in the transducer holder, since the horizontal position and the pressing force of the measuring point of the transducer with respect to the specimen can be finely adjusted, the zero point of the pair of transducers on the specimen It is possible to obtain the effect of making ultrasonic measurements with easy adjustment;

In addition, the ultrasonic flaw detector fixing device according to the present invention is composed of a material that minimizes ultrasonic interference (ex: acrylic material of the same material as the calibration rod of the ultrasonic flaw detector) and a coupling structure (such as screw induction by pipe cap) In this case, it is possible to obtain the effect that the fixing device can reproduce more accurate measured values without causing interference of the ultrasonic waves.

1 is a perspective view showing a fixing device for an ultrasonic flaw detector according to a preferred embodiment of the present invention.
Figure 2 is a partially separated perspective view showing a fixing device for the ultrasonic flaw detector according to a preferred embodiment of the present invention.
Figure 3a, 3b is a perspective view and a front view showing a sliding movement process of the transducer fixing holder of the probe for the ultrasonic flaw detector according to a preferred embodiment of the present invention.
Figure 4a, 4b is a front sectional view showing a tightening process of the holder cap for the holder of the probe for the ultrasonic flaw detector according to a preferred embodiment of the present invention.
Figure 5a, 5b is a partially separated perspective view showing a case where the holder holder is configured by the external specimen mounting holder and the inner specimen mounting holder for each specimen size of the probe for the ultrasonic flaw detector according to a preferred embodiment of the present invention.

The present invention relates to a fixing device of the ultrasonic flaw detector 40 used when measuring the physical properties of the specimen 50 using ultrasonic waves, the base plate 10; A pair of transducer fixing holders 20 arranged on the upper portion of the base plate 10 so as to be slidably movable in a horizontal direction, and for mounting the transducers 40; And a specimen holder 30 provided on the base plate 10 and disposed between the pair of probe fixing holders 20 to mount the specimen 50 therein. Relates to a device.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 5b showing an embodiment of the present invention.

First, the transducer for fixing the ultrasonic probe according to the present invention (hereinafter, referred to as “the transducer 40 fixing device”) firmly fixes the transducer 40 for transmitting and receiving ultrasonic waves toward the specimen 50. When measuring the physical property value of the specimen 50 is a device that can be accurately measured according to the characteristics of the specimen 50 changes in the ultrasonic wave transmitted back to the specimen 50.

In addition, the transducer 40 fixed by the transducer 40 fixing device according to the present invention is configured as a pair, and as shown in Figure 1 is configured to be disposed on both sides in the horizontal direction with respect to the specimen 50, respectively.

That is, the fixing device for the probe according to the present invention is composed of a base plate 10, a pair of transducer fixing holder 20 and the specimen holder (30).

Specifically, the base plate 10 is configured to support the following probe fixing holder 20 and the specimen holder 30 included in the transducer 40 fixing device, it is composed of a plate-like having a predetermined upper area. .

At this time, the base plate 10 has a lower portion is seated on the test bench, and each of the following pair of transducer fixing holders 20 are disposed on both sides in the longitudinal direction of the base plate, and the pair of transducer fixing holders 20 corresponds to each other. The upper portion is provided with a specimen holder 30 on which the specimen 50 is mounted.

In addition, the transducer fixing holder 20 is arranged on the upper portion of the base plate 10 so as to be slidably movable in a horizontal direction, and a pair of configurations for mounting the transducer 40, the transducer for transmitting and receiving ultrasonic waves 40 is a structure which fixes a position to both sides of the test piece 50 centering on the test piece 50, respectively.

That is, the transducer fixing holder 20 is composed of a pair, each transducer fixing holder 20 is arranged to be movable in the horizontal direction on both sides in the longitudinal direction of the base plate 10, the specimen ( According to the size of 50), the distance between the pair of transducer fixing holders 20 is configured to be properly adjusted.

At this time, the transducer 40 is generally composed of a measuring point 42 in a pointed state in which one side of the longitudinal direction of the ultrasonic wave is transmitted and received, as shown in Figure 2, the other side is fitted or tightened to the transducer fixing holder 20 It is comprised including 41. Hereinafter, the form and operation principle of the transducer 40 in the present invention will be replaced by a known technique.

In addition, the transducer fixing holder 20 may be positioned on the base plate 10 by changing the horizontal position of the transducer 40 measuring point 42 corresponding to the size of the specimen 40 of the configuration of the probe 40. It may be configured in various forms, and preferably, on the upper portion of the base plate 10, a pair of rails 11 having a length in the same direction as the base plate 10 and symmetrically spaced apart from each other It is configured to be provided, the probe holding holder 20 is a rail block (21) which is embedded in both ends of the pair of rails (11); A support 22 provided on an upper portion of the rail block 21; And a fixing holder 23 provided on the support 22 and having a hollow 24 for injecting the probe 40 therein.

That is, the transducer fixing holder 20 having the above-described configuration may be configured such that the rail block 21 of the transducer fixing holder 20 is inserted into the rail 11 provided on the base plate 10. It can be slidably moved in the longitudinal direction.

Specifically, the pair of rails 11 has a length in the same direction as the base plate 10, forms a state symmetrically spaced apart from each other and is provided on the upper portion of the base plate 10.

At this time, it will be apparent that the rail 11 has a rail groove formed in the longitudinal direction of the rail 11 to allow the rail block 21 of the probe fixing holder 20 to be inserted therein.

In addition, the transducer fixing holder 20 includes a rail block 21, a support 22, and a fixing holder 23. The rail block 21 has a length in the width direction of the base plate 10. Both ends of the rail grooves formed in each of the pair of rails 11 are configured to be slidably movable, and a support 22 having a predetermined height is provided at the center of the rail block 21. Do it.

In this case, one or more tightening bolts 25 are provided at a predetermined portion of the rail block 21, and the tightening force of the tightening bolts 25 is applied to the upper portion or the rail 11 of the base plate 10, and thus, the base plate. It is preferable that the position of the transducer fixing holder 20 and the rail block 21, which are slid and moved at 10, may be maintained at a fixed state at all times during the non-destructive test.

In addition, the fixing holder 23 is provided in the upper portion of the support 22, the hollow 24 for incorporating a portion of the transducer 40 (preferably corresponds to the body 41 of the transducer 40) is It is configured to be formed in the horizontal direction.

At this time, the body 41 of the transducer 40 is embedded in the hollow 24 of the fixed holder 23, the measuring point 42 disposed on one side of the body 41 is exposed to the outside of the fixed holder 23 And configured to face toward the specimen 50.

In addition, the fixing holder 23 of the probe 40 with respect to the specimen 50 by adjusting only the position of the rail block 21 of the fixing holder 23 relative to the rail 11 provided in the base plate 10 The position of the transducer 40 relative to the fixed holder 23 may be finely adjusted after the position of the rail block 21 relative to the rail 11 is adjusted macroscopically to a predetermined position. By adjusting the pressure, the pressing force of the transducer 40 measuring point 42 with respect to the specimen 50 may be adjusted more accurately.

That is, the fixing holder 23 is a tubular holder (23a) having a length in the horizontal direction, the hollow 24 in which the transducer 40 is inserted; A holder cap 23b screwed to one end of the holder 23a corresponding to the longitudinal end of the base plate 10; and a holder cap 23b for one end of the holder 23a. It can be configured to adjust the horizontal position of the transducer 40 in accordance with the tightening degree of.

Specifically, the fixed holder 23 of the above configuration includes a holder 23a and a holder cap 23b, and the holder 23a has a hollow 24 in which the probe 40 is inserted in a horizontal direction. It consists of a tubular form formed with.

At this time, the holder 23a has a state in which a lower portion is fastened to the upper portion of the support 22 to be fixed to the support 22, and a sliding movement degree of the rail block 21 with respect to the rail 11. According to the macroscopic horizontal position relative to the specimen (50).

In addition, the holder cap (23b) is screwed to one end of the holder 23a corresponding to the longitudinal end of the base plate 10, the probe 40 embedded in the hollow 24 of the holder (23a) (The body 41 of the probe) is adjusted to adjust the position and the pressing force of the measuring point 42 of the transducer 40 with respect to the specimen 50 more finely.

Specifically, the holder cap 23b is configured to be fastened to one end of the holder 23a of the longitudinal end of the base plate 10 corresponding to the opposite side of the specimen 50 on the basis of the holder 23a, the holder The inside of the cap 23b has a configuration in which a screw groove corresponding to the screw line formed at one end of the holder 23a is formed. When the holder cap 23b is rotated in the direction of the specimen 50, the holder cap 23b One end of the body 41 of the transducer 40 in contact with the inner end of the c) is pushed toward the specimen 50 so that the transducer 40 can be horizontally moved toward the specimen 50; Contrary to the above, when the holder cap 23b is rotated in the opposite direction of the specimen 50, the inner end of the holder cap 23b and one end of the body 41 of the probe 40 are spaced apart to form a space. The ruler may horizontally move the transducer 40 in a direction opposite to the specimen 50 as much as the width of the separation space.

That is, the holder cap (23b) of the above configuration by adjusting the horizontal position of the transducer 40 in accordance with the tightening degree to the holder (23a) and the horizontal position of the measuring point 42 of the transducer 40 relative to the specimen 50 and When the horizontal position and the pressing force of the test piece 50 are finely adjusted as described above, the transducers embedded in the hollows 24 of the pair of fixed holders 23 are exerted. The effect of allowing the same pressing force for the specimen 50 to be set for each 40 can also be realized.

In addition, the specimen holder 30 is provided on the base plate 10, and is disposed between the pair of transducer fixing holder 20 to mount the specimen 50.

At this time, the specimen holder 30 is preferably made of the same material as the outer casing of the transducer 40 so that the distortion of the ultrasonic wave transmitted and received from the transducer 40 is minimized.

In addition, the specimen holder 30 may be configured in various forms if the specimen 50 can be stably mounted between the pair of transducers 40 supported by the pair of transducer fixing holders 20, Preferably the support 31 provided on the base plate 10; It may be configured to include; a specimen mounting holder 32 is provided on the support 31, the specimen mounting hole 33 is formed on the upper portion of the specimen mounting hole 33 to the inner portion of the lower portion of the specimen 50.

That is, the specimen holder 30 of the configuration includes a support 31 and a specimen holder holder 32, the support 31 is fastened to the upper portion of the base plate 10, the upper portion is mounted specimen It is configured to be fastened to the lower portion of the holder (32).

At this time, the lower portion of the support 31, the upper portion of the base plate 10 and the upper portion of the support 31 and the lower portion of the specimen mounting holder 32 may be configured to be fastened in a fixed position mutually, the transducer Sliding movement and fixed in the left and right directions to adjust the left and right directions (corresponding to the width direction of the base plate 10) of the specimen 50 with respect to the measuring point 42 of 40 may be configured to be fastened in a fixed state have.

In addition, the specimen mounting holder 32 is provided on the upper portion of the support 31, the specimen mounting hole 33 for the inner part of the lower portion of the specimen 50 is formed in the configuration, the specimen having a variety of forms Specimen mounting hole 33 that can be stably seated 50 is configured to be formed on the top.

That is, the specimen mounting hole 33 formed in the upper portion of the specimen mounting holder 32 of the configuration may be mounted to the specimen 50 by inserting the specimen 50 manufactured to a predetermined size therein; Both sidewalls of the specimen mounting holder 32 in the lateral direction protrude upwards from the center portion of the specimen mounting holder 32 such that the specimen 50 mounting hole is formed in the middle portion of the specimen mounting holder 32 and tested. The lower portion of the specimen 50 may be configured to be supported by both sidewalls of the specimen mounting holder 32 protruding upward as described above.

In connection with the above, the specimen mounting holder 32 is a plurality of specimen mounting holder 32 is interposed in the stack so as to stably mount the specimen 50 of various sizes, a plurality of specimen mounting holder 32 The specimen 50 may be configured to be mounted on the specimen mounting hole 33 of the specimen mounting holder 32 located in the most.

In more detail, the specimen mounting holder 32 is an external specimen mounting holder (32a) provided on the upper portion of the support (31); And one or more inner specimen mounting holders 32b inserted into the specimen mounting holes 33a of the outer specimen mounting holder 32, wherein the specimen mounting holes 33b of the inner specimen mounting holders 32b are It may be configured to have a smaller size than the specimen mounting hole 33 of the external specimen mounting holder (32a).

That is, the outer specimen mounting holder 32a of the plurality of specimen mounting holders 32 has a configuration in which a lower portion is fastened to the upper portion of the support 31, so that the entire specimen holder 30 is supported on the support 31. At the same time, the specimen 50 of a relatively large size can be fixed and mounted in the specimen mounting hole 33a of the external specimen mounting holder 32a.

In addition, the inner specimen mounting holder (32b) is embedded in the specimen mounting hole (33a) of the outer specimen mounting holder 32, the size smaller than the specimen mounting hole (33a) of the outer specimen mounting holder (32) Specimen mounting hole (33b) is formed on the upper, it is a configuration to stably mount the specimen 50 of a smaller size than the outer specimen mounting holder (32).

At this time, the inner specimen mounting holder 32b is composed of a plurality of, the plurality of inner specimen mounting holder 32b has a coupling relationship between the outer specimen mounting holder 32a and the inner specimen mounting holder 32b and mutually It is possible to configure the laminate.

In relation to the above, when the specimen holder 30 includes the support 31 and the specimen holder holder 32 as described above, the specimen 31 is mounted on the specimen holder holder ( Since 50 may be spaced apart from the base plate 10 at a predetermined interval, the effects of the ultrasonic waves transmitted and received from the transducer 40 to the base plate 10 may interfere with the base plate 10 to minimize the distortion of the measurement. It can also be used.

The above has been described with reference to a preferred embodiment of the present invention, but is not limited to the above embodiment, the person having ordinary skill in the art to which the present invention pertains through the above embodiments without departing from the gist of the present invention Can be implemented in a variety of changes.

10: base plate 11: rail
20: probe fixing holder 21: rail block
22: support 23: fixed holder
23a: Holder 23b: Holder Cap
24: hollow 25: tightening bolt
30: specimen holder 31: support
32: specimen mounting holder 32a: external specimen mounting holder
32b: internal specimen mounting holder 33: specimen mounting hole
33a: specimen mounting hole 33b: specimen mounting hole
40: transducer 41: body of the transducer
42: measuring point of probe 50: specimen

Claims (5)

Base plate 10; A pair of transducer fixing holders 20 arranged on the upper portion of the base plate 10 so as to be slidably movable in a horizontal direction, and for mounting the transducers 40; And a specimen holder 30 provided on the base plate 10 and disposed between the pair of transducer fixing holders 20 to mount the specimen 50 thereon.
In the upper portion of the base plate 10,
It is configured to have a pair of rails 11 having a length in the same direction as the base plate 10 and symmetrically spaced from each other,
The transducer fixing holder 20,
A rail block 21 into which a part of both ends is embedded in the pair of rail blocks 21; A support 22 provided on an upper portion of the rail block 21; And a fixed holder 23 provided on the support 22 and having a hollow 24 for injecting the probe 40 therein.
The fixed holder 23,
A hollow holder (23a) having a length in the horizontal direction in which the hollow (24) for injecting the probe (40) is formed; And a holder cap 23b screwed to one end of the holder 23a corresponding to the longitudinal end of the base plate 10.
Ultrasonic flaw detector fixing device characterized in that the horizontal position of the transducer 40 is adjusted to be adjusted according to the tightening degree of the holder cap (23b) with respect to one end of the holder (23a).
delete delete delete Base plate 10; A pair of transducer fixing holders 20 arranged on the upper portion of the base plate 10 so as to be slidably movable in a horizontal direction, and for mounting the transducers 40; And a specimen holder 30 provided on the base plate 10 and disposed between the pair of transducer fixing holders 20 to mount the specimen 50 thereon.
The specimen holder 30,
A support 31 provided on an upper portion of the base plate 10;
And a specimen mounting holder 32 provided at an upper portion of the support 31 and having a specimen mounting hole 33 formed therein for seating a lower portion of the specimen 50 inwardly.
The specimen mounting holder 32,
An outer specimen holder 32a provided at an upper portion of the support 31; And at least one inner specimen mounting holder 32b inserted into the specimen mounting hole 33a of the outer specimen mounting holder 32a.
The specimen mounting hole (33b) of the inner specimen mounting holder (32b) is an ultrasonic flaw detector fixing device characterized in that it is configured to have a smaller size than the specimen mounting hole (33) of the outer specimen mounting holder (32a).

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