KR200477791Y1 - ultrasonic probe - Google Patents

Abstract

The present invention relates to a probe for guiding the emission of ultrasonic waves while being formed into a cylindrical tube; A supporting ring formed in a ring structure so as to surround a part of a circumferential surface of the probe; A fixing part for fixing the probe to the supporting ring; And a contact support part which is provided at one end on the circumferential surface of the support ring and whose other end is in contact with the surface of the measurement object so that the bottom end of the probe is vertically erected on the welding part of the measurement object The ultrasonic probe unit according to the present invention is provided with an ultrasonic probe unit, which enables a probe to be installed with a precise direction toward a probe point during nondestructive inspection of a spot weld, thereby improving the reliability of the probe.

Description

[0001] Ultrasonic probe units [0002]

The present invention relates to a nondestructive inspection apparatus, and more particularly, to a nondestructive inspection system for a spot weld, which can improve the reliability of a cadmium by making it possible to carry out a probe while having an accurate direction toward a cadastral point. Unit.

In general, spot welding is a method in which a welded material is superimposed and locally supplied with electric current to melt the welded portion, thereby being used in various fields such as automobiles and home appliances.

Since such spot welding is an element related to durability, defects such as damage to spot welds and contamination of foreign materials must be precisely recognized. Therefore, conventionally, the spot weld is checked for non-destructive inspection using ultrasonic waves.

Meanwhile, in the case of portable non-destructive testing equipment which can be performed in real time in various places among non-destructive testing equipment using ultrasonic waves, the ultrasonic probe unit used therein is structured like a pen so as to be convenient to carry, As shown in Japanese Unexamined Patent Application Publication No. 10-2013-089353 and Japanese Patent Application Laid-Open No. 10-2007-044647.

However, in the conventional ultrasonic probe unit having the above-described pen structure, since the focal distance from the measurement site (spot welding site) varies depending on the angle at which the measurer tilts the probe unit or the contact height, the accuracy of the probe There is a problem that the reliability of the product is lowered.

Further, in the case of a spot to be spot-welded, it is more difficult to contact the probe unit in a state where the probe unit is vertically erected in consideration of the formation of a recess due to spot welding.

Korean Patent Laid-Open Publication No. 10-2013-089353 Korean Patent Publication No. 10-2007-044647

It is an object of the present invention to improve the reliability of a cermet by making it possible to perform a search with a precise direction toward a crossover point during a nondestructive inspection of a spot welded portion, And to provide an ultrasonic probe unit according to a new type.

According to an aspect of the present invention, there is provided an ultrasonic probe unit comprising: a transducer formed into a cylindrical tube and guiding the emission of ultrasonic waves; A supporting ring formed in a ring structure so as to surround a part of a circumferential surface of the probe; A fixing part for fixing the probe to the supporting ring; And a contact support part which is provided at one end on the circumferential surface of the support ring and whose other end is in contact with the surface of the measurement object so that the bottom end of the probe is vertically erected on the welding part of the measurement object .

Here, the probe includes a housing formed of a cylindrical tube whose bottom surface is opened, the top surface is closed, and water is filled therein to delay the spinning speed of the ultrasonic wave, and a housing detachably coupled to the top of the housing And a closure membrane which is formed of a flexible material so as to be in close contact with the measurement target site while preventing the water from leaking out of the housing while being installed to block the opened bottom face of the housing, .

Further, the fixing portion may include an operation protrusion member protruding into the support ring by a rotation operation while being screwed around the support ring, and an operation protrusion member positioned inside the support ring so that the operation protrusion member is rotatable And a sealing member having a round structure to surround the circumferential surface of the probe positioned in the support ring.

In addition, the contact support portions are provided at at least two positions symmetrical with respect to the circumferential surface of the support ring, and the contact member, which is an end portion of each contact support portion, .

In addition, the contact support portion is configured to be adjustable in height.

As described above, the ultrasonic probe unit of the present invention has the effect that accurate measurement can be performed since the probe can always be vertically erected from the surface of the measurement object regardless of the carelessness of the user.

Further, in the ultrasonic probe unit of the present invention, the housing constituting the probe is stably fixed in the support ring, and the contact member provided on each contact support part prevents slippage during measurement, .

1 is a front view showing an ultrasonic probe unit according to a preferred embodiment of the present invention;
2 is a cross-sectional view illustrating an internal structure of an ultrasonic probe unit according to a preferred embodiment of the present invention
FIG. 3 is a cross-sectional view of the ultrasonic probe unit according to a preferred embodiment of the present invention,
FIG. 4 is a state diagram illustrating a height adjustment state of the contact support portion of the ultrasonic probe unit according to a preferred embodiment of the present invention; FIG.

Hereinafter, a preferred embodiment of the ultrasonic probe unit of the present invention will be described with reference to FIGS. 1 to 4 attached hereto.

FIG. 1 is a front view illustrating an ultrasonic probe unit according to a preferred embodiment of the present invention, and FIG. 2 is a cross-sectional view illustrating an internal structure of an ultrasonic probe unit according to a preferred embodiment of the present invention.

As shown in these drawings, the ultrasonic probe unit according to an embodiment of the present invention includes a probe 100, a support ring 200, a fixing unit 300, and a contact support unit 400 The tip of the transducer 100 can be positioned while maintaining the precise directional and accurate separation distance from the measurement target portion (spot welding portion) 20 of the surface of the measurement object 10 will be.

This will be described in more detail below for each configuration.

First, the transducer 100 generates ultrasonic waves to perform a substantial nondestructive inspection.

In this embodiment of the present invention, it is shown that the transducer 100 includes the housing 110, the handle 120, and the closing membrane 130.

2, the housing 100 is formed with a cylindrical tube whose bottom is opened and the top surface thereof is closed and water is filled therein to delay the spinning speed of the ultrasonic waves.

In addition, the handle 200 is a cylindrical tube that is detachably coupled to the upper end of the housing 110 as a portion that the user grasps for use. At this time, the lower end of the handle 120 is threadedly coupled with the upper end of the housing 110, so that the handle 120 can be removed from the housing as needed (e.g., during maintenance, ) To be freely detachable.

In addition, the closing membrane 130 is installed to block the open bottom of the housing 110, and prevents the water from leaking out of the housing 110. In particular, the closure membrane 130 is formed of a membrane of a flexible material, and is formed into a convex rounded structure toward the center, so that the closure membrane 130 can be closely adhered to the measurement target portion of the recessed shape.

An ultrasonic transducer 140 for scanning an ultrasonic wave into the housing 110 is provided in the handle 120 of each part of the transducer 100. The ultrasonic transducer 140 140 are configured to be positioned within the housing 110 through the upper surface of the housing 110 so as to smoothly scan the ultrasonic wave into the housing 110.

Of course, the ultrasonic transducer 140 may be entirely installed in the housing 110.

Next, the support ring 200 is a portion that can hold the transducer 100 and maintain a vertical state.

The support ring 200 is formed in a ring structure to surround a part of the circumferential surface of the probe 100.

In particular, the support ring 200 is preferably positioned to surround the circumference of the housing 110 among the transducers 100. Considering that the housing 110 is located at the lowermost part of the probe 100 and a substantial ultrasonic scan is performed, the support ring 200 grasps the housing 110, So that it is further improved.

The fixing unit 300 includes a manipulation protrusion member 310 and a contact member 320 to fix the probe 100 to the support ring 200. [

Here, the operation protruding member 310 is formed so as to protrude into the support ring 200 by being rotated while being screwed around the support ring 200. At this time, the outer end of the operation protruding member 310 may be formed to be operated using a tool (e.g., a wrench) or manually operated by a user. For the convenience of use, .

The contact member 320 is a portion that presses the probe 100 so that the probe 100 can be closely fixed to the support ring 200 according to the operation of the operation protrusion member 310.

The contact member 320 is positioned inside the support ring 200 and has an end portion through which the support ring 200 is rotatably installed among the operation and projecting members 310. That is, when the operation protrusion member 310 is inserted and moved by the user's operation, the contact member 320 is moved by receiving the moving force to press the circumferential surface of the probe 100, So that it can be fixed inside.

3 and 4, the contact member 320 is formed of a plate member of a round structure so as to surround the circumferential surface of the probe 100, and only a specific portion of the probe 100 It is possible to prevent the surface of the probe 100 from being damaged due to pressurization and to provide a uniform grip and a uniform grip on a wider range of the probe 100 due to the dispersion of the pressing force caused by surface contact with the circumferential surface of the probe 100 So that it can be maintained in a stable fixed state.

Particularly, the receiving groove 210 is formed on the inner circumferential surface of the supporting ring 200 and the supporting member 200 is accommodated in the receiving groove 210, So that it is possible to support the probe 100 of the size.

In addition, in the embodiment of the present invention, it is further provided that the contact pad 330 is further provided on the contact surface with the probe 100, which is the inner wall surface of the contact member 320.

In other words, the provision of the contact pads 330 prevents the transducer 100 from being slid while protecting the surface of the transducer 100 more securely, thereby maintaining the transducer 100 in a more stable state.

Meanwhile, it is more preferable that the fixing portions 300 are provided in a plurality of two or more and are provided at mutually symmetrical portions, respectively, but the illustration thereof will be omitted.

Next, the contact support part 400 is a part for supporting the bottom end of the probe 100 so as to be vertically erected on the spot welding part 11 of the measurement object 10.

One end of the contact support part 400 is formed on the circumferential surface of the support ring 200 and the other end of the contact support part 400 is formed to contact the surface of the measurement object 10 while extending downward.

Particularly, in the embodiment of the present invention, it is proposed that the contact support portion 400 is configured to be adjustable in height. That is, the depth and width of the concave portion 12 formed on the surface of the measurement object 10 are different from each other depending on the thickness of the measurement object 10, the width of the spot welding portion 11, It is possible to adjust the height of the contact support part 400 in consideration of the difference in the protrusion height of the closure film 130 constituting the probe 100 according to the size of the probe 130. Therefore, 11) The liver is always kept at a constant spacing or can be brought into a precisely contacted state.

For this purpose, in the embodiment of the present invention, the contact support part 400 is formed of two or more pipe bodies overlapping each other, and the length of the protrusion distance is adjustable.

That is, the contact support part 400 is constructed in a telescopic structure as shown in FIG. 6 to allow free expansion and contraction.

Of course, although not shown, a portion of the contact support portion 400, which is provided on the support ring 200, is configured to be movable downward from the support ring 200, so that the height of the contact support portion 400 can be adjusted You may.

In addition, in the embodiment of the present invention, it is further provided that a contact member 410 made of a rubber material is further provided at a portion contacting the surface of the measurement object 10, which is an end of the contact support portion 400. [

That is, through the additional provision of the contact member 410, it is possible to prevent the occurrence of the flow such as slippage of the contact support member 400 when the contact support member 400 is placed on the surface of the measurement object 10, So that the measurement defects caused by the defects can be minimized.

The contact support part 400 may be provided at least two or more of the circumferential surfaces of the support ring 200 so as to be stably mounted on the surface of the measurement object 10, This is as shown.

Hereinafter, the non-destructive inspection process of the spot welded portion 11 using the ultrasonic probe unit according to the embodiment of the present invention will be described in detail as follows.

First, the housing 110 constituting the probe 100 through the probe 1000 to be used for the support ring 200 is positioned in the support ring 200. This is the same as the structure shown in FIG. 3 same.

When the user operates the operation protrusion member 310 constituting the fixing part 300 to move the operation protrusion member 310 to be inserted into the support ring 200, the inside of the operation protrusion member 310 The contact member 320 coupled to the end is moved together with the movement of the operation projection member 310.

Therefore, the housing 110 of the probe 100 positioned inside the support ring 200 is gradually fixed to the inner wall surface of the support ring 200 while being pressed by the contact member 320. At this time, the housing 110 distributes the pressing force by the contact pad 330 provided on the round block structure of the contact member 320 and the inner wall surface of the contact member 320, It is possible to prevent the damage caused by the provision of the support ring 200 and to stably fix the support ring 200 on the inner wall surface thereof.

When the coupling between the support ring 200 and the probe 100 is completed, the contact distance of the closure membrane 130, which is the end of the probe 100, is adjusted by adjusting the height of the contact support 400.

The ultrasonic probe unit thus completed is connected to the ultrasonic wave measuring part (spot welding part) 12, which is the concave part 12 on the surface of the measurement object 10, The ultrasonic measurement may be performed while being positioned adjacent to the ultrasonic probe 11.

At this time, when the ultrasonic probe unit is placed on the surface of the measurement object 10, each contact support unit 400 constituting the ultrasonic wave probe unit is placed on the surface of the measurement object 10, So as to be vertically erected from the surface of the base 10.

Particularly, considering that the contact member 410 made of a rubber material is provided at the lower end of each of the contact supporting parts 400, the part to be placed on the surface of the measurement object 10 is prevented from being generated due to slippage during measurement, Accurate measurement can be made.

As a result, the ultrasonic probe unit of the present invention allows the probe 100 to always be vertically erected from the surface of the measurement object 10 regardless of the carelessness of the user, thereby enabling accurate measurement.

The ultrasonic probe unit of the present invention is configured such that the housing 110 constituting the probe 100 is stably fixed within the support ring 200 and the contact member 410 provided on each contact support unit 400 is fixed, It is possible to prevent slippage during measurement and obtain more accurate measurement results.

10. Measuring object 11. Spot welding part
12. Concave 100. Transducer
110. Housing 120. Handle
130. Closing membrane 140. Ultrasonic transducer
200. Support ring 210. Retaining groove
300. Fixing part 310. Operation protrusion member
320. Adhesive member 330. Contact pad
400. Contact support 410. Contact member

Claims (5)

An ultrasound probe unit for nondestructive inspection of a spot welded portion of a measurement object formed by spot welding two planes overlapped with each other,
A housing which is formed of a cylindrical tube and guides a radiation of the ultrasonic wave, the bottom of which is opened, the upper surface of which is closed and the inside thereof is filled with water for delaying the spinning speed of the ultrasonic wave, And a cover member provided on the bottom surface of the housing so as to prevent water from leaking out of the housing while being in close contact with a recess formed by the spot welding portion of the surface of the measurement object, A probe comprising a closed membrane formed of a material having flexibility;
A supporting ring formed in a ring structure to surround a part of the circumferential surface of the housing constituting the probe and supporting the probe so as to be perpendicular to the surface of the measurement object;
A fixing part for fixing the housing constituting the probe to the supporting ring;
And a contact support unit having one end connected to the support ring and the other end contacting with a surface of the measurement object and being adjustable in height while supporting the bottom end of the probe so as to be vertically erected on the surface of the measurement object. And an ultrasonic probe unit. delete The method according to claim 1,
The fixed portion
An operation protrusion member protruding into the support ring by a rotation operation while being screwed around the support ring,
Wherein the manipulation protrusion member is disposed inside the support ring so as to be rotatable and has a rounded structure so as to surround the circumferential surface of the probe located in the support ring. The method according to claim 1,
Wherein the contact support portions are provided in at least two or more portions of the circumferential surface of the support ring that are symmetrical to each other,
Wherein a portion of the contact supporting portion, which is an end of the contact supporting portion, is in contact with the object to be measured, further comprising a contact member made of a rubber material. delete

Images