KR20070038594A - Device for holding the parts for ultrasonic inspection - Google Patents

Abstract

The present invention is not limited to the appearance of the various components required for the ultrasonic inspection and relates to a holding device for the ultrasonic inspection component that can extend the use range by allowing the holding of various types of components.

The present invention includes a frame consisting of a pair of base frame having a plurality of wheels and a pair of posts upright from the end of each base frame; And a first and a second holding plate installed across the posts of the frame, the first and second holding plates having a plurality of clamps and installed to be height-adjustable.

Ultrasonic Examination, Base, Frame, Post, Clamp, Holding Plate

Description

Component holding device for ultrasonic inspection {DEVICE FOR HOLDING THE PARTS FOR ULTRASONIC INSPECTION}

1 is a perspective view showing a component holding device for ultrasonic inspection according to an embodiment of the present invention.

FIG. 2 is an enlarged perspective view showing an enlarged part II of FIG. 1.

3 is an enlarged perspective view illustrating an enlarged part III of FIG. 1;

Figure 4 is a plan sectional view showing a second holding plate and its height adjustment structure of the component holding device for ultrasonic inspection of the present invention.

Brief description of symbols for the main parts of the drawings

10: frame 21: first holding plate

22: second holding plate 25: moving body

The present invention relates to a holding device for the ultrasonic inspection component, and specifically, not to be limited to the appearance of the various components required for the ultrasonic inspection, it is possible to hold the various forms of the ultrasonic inspection that can extend the use range It relates to a holding device for parts.

In general, ultrasonic flaw detection is a type of non-destructive test in which ultrasonic waves are delivered to a material to detect discontinuities on the surface or inside of the material. The purpose of the non-destructive test is to determine whether a material or part is destroyed during use. Ultrasonic flaw detection is also commonly used to detect defects, as is to accurately determine the presence, size and shape of the defect.

Ultrasonic testing is applied to a wide range of products, from iron and non-ferrous materials to ships, bridges, pressure vessels, and parts from aircraft, automobiles, railway vehicles, and machinery. Detectable defects are applied to the detection of most defects, from inherent discontinuities such as cracks, inclusions, and laminations, to discontinuities in use such as discontinuities and fatigue cracks during processing. It is also used for thickness measurement, and is often applied to inspection of chemicals and refineries.

The principle of the ultrasonic flaw detection is composed of a probe (Probe) scans the energy of the sound wave to the inspection object (走 査: Scan) and the inspected object echoes the sound wave in response thereto.

Meanwhile, after bonding a plurality of materials among aircraft components, the bonded parts are mainly detected by ultrasonic inspection to detect their bonding state, defects, pores, and corrosion.

Before the ultrasonic inspection, each component must be firmly fixed by the holding device to ensure the accurate ultrasonic inspection.

However, the conventional ultrasonic inspection holding device is manufactured to correspond to the external shape of the part individually.

For example, an aircraft component may be classified into a flat type, a simple contour type, and the like, and each holding device must be manufactured in a form corresponding to each of these types.

Therefore, the conventional ultrasonic inspection holding device has to be manufactured separately according to the external appearance of the parts, its use range is very limited, and this has a disadvantage in that it is variously cumbersome to inspect a variety of small quantities of aircraft parts.

That is, there was a drawback such as an excessive use of the inspection time as well as an increase in the manufacturing cost according to the manufacture of the individual holding device.

Accordingly, the present invention has been made in view of the above, and is not limited to the appearance of various components requiring ultrasonic inspection, and can be used to hold various types of components, thereby expanding its use range. It is an object of the present invention to provide a holding device for ultrasonic inspection to achieve a reduction in manufacturing cost and a reduction in ultrasonic inspection time.

The present invention for achieving the above object,

A frame comprising a pair of base frames having a plurality of wheels and a pair of posts upright from an end of each base frame;

And a first and a second holding plate installed across each post of the frame and having a plurality of clamps, the first and second holding plates being adjustable on the upper and lower sides of the frame.

Preferably, the weight is detachably mounted on the upper surface of each base frame.

Preferably, the height adjusting structure of the first holding plate,

A movable body movably installed along the inner hollow of each post,

A fastener selectively fitted in a plurality of fixing holes formed separately between the movable body and the post to fix the movement position of the movable body;

Both ends of the first holding plate is characterized in that detachably mounted to the upper end of each moving body.

Preferably, the first holding plate is provided with a pair of locking members integrally at both ends thereof, the mounting bracket is fixed to the upper end of each movable body, the locking member of each locking member is connected to the mounting bracket of each movable body Removably mounted by media.

Preferably, the height adjustment structure of the second holding plate,

A pair of fastening brackets are fixed to both ends of the second holding plate, and a pair of adjusting plates are provided on inner surfaces of the posts facing each other, and a plurality of fixing holes are spaced apart at predetermined intervals in each of the adjusting plates. It is characterized in that the fastening bracket of the second holding plate to the plurality of fixing holes are selectively fastened by the fastener.

Preferably, each fixing hole of the adjustment plate is characterized in that the scale is displayed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 is a view showing a holding device for the ultrasonic inspection according to an embodiment of the present invention.

As shown in FIG. 1, the ultrasonic inspection holding apparatus of the present invention includes a frame 10 and first and second holding plates 21 and 22 disposed across the frame 10.

The frame 10 has a pair of base frames 11 having a plurality of wheels 11a at the bottom and a pair of posts 12 standing upright from an end of the base frame 11.

Each base frame 11 is formed by connecting a plurality of rod members in the vertical and horizontal directions, and provided with a plurality of wheels 11a at a lower side thereof, and each base frame 11 by the plurality of wheels 11a. ) Is configured to move along the guide rail 15 installed on the bottom surface.

Each post 12 is installed upright from the outer end of each base frame 11.

The first holding plate 21 is installed to be adjustable height across the upper end of the pair of posts 12, a plurality of clamps (21a) are arranged in the lower portion of the first holding plate 21 to perform ultrasonic inspection It will clamp the upper end of the part being implemented.

Preferably, the height adjusting structure of the first holding plate 21, as shown in Figure 2, the movable body 25 is installed along the inner hollow of each post 12 to be movable in the vertical direction, the movable body A plurality of fixing holes 25a and 12a are formed to correspond to each other in the 25 and the post 12, and the fixing holes 25a of the movable body 25 and the fixing holes 12a of the posts 12 coincide with each other. As the fixture 36 is fastened in the state, the elevated position of the movable body 25 is fixed, and both ends of the first holding plate 21 are detachably attached to the upper end of each movable body 25.

With this configuration, the first holding plate 21 is fixed to the movable body 25 and the post 12 after the height of the movable body 25 is properly adjusted through the inner hollow of the post 12. The adjusted height is fixed by being inserted into and fastened to the fixing holes 25a and 12a.

Preferably, the first holding plate 21 is provided with a pair of engaging members (21b) integrally at both ends thereof, the mounting bracket (25b) is fixed to the upper end of each moving body 25, the mounting bracket ( 25b) is provided with a locking groove 25c, each locking member (21b) of the first holding plate 21 is connected to the locking groove (25c) of the mounting bracket (25b) of each movable body (25) connecting pin (31) And it is detachably attached via a fastener such as a fitting bracket (32).

Both ends of the second holding plate 22 are connected to the lower end side of each post 12 so as to be height-adjustable along the post 12, and a plurality of clamps 22a are disposed on the upper surface thereof so that ultrasonic flaw detection is possible. The lower end of the part to be inspected is clamped.

Preferably, the height adjusting structure of the second holding plate 22, as shown in Figure 3 and 4, the fastening brackets 26 are fixed to both ends of the second holding plate 22, each post ( A pair of control plates 28 are provided on the mutually opposite inner surfaces of 12), and each of the control plates 28 is provided with a plurality of fixing holes 28a spaced apart by a predetermined interval (about 0.6 inches apart) in the height direction. In the plurality of fixing holes 28a, fastening brackets 26 provided at both ends of the second holding plate 22 are selectively fastened by the fasteners 29.

With this configuration, as the fastening bracket 26 of the second holding plate 22 is selectively fastened to the fixing hole 28a of the adjusting plate 28 by the fastener 29, the second holding plate 22 ) Height can be adjusted more finely.

Preferably, a weight 55 is further provided on the upper surface of each base frame 11 to prevent shaking of the first and second holding plates 21 and 22 and to facilitate attachment and detachment of components.

The operating relationship of the present invention configured as described above will be described in detail as follows.

First, the height of each of the first and second holding plates 21 and 22 is adjusted appropriately using the respective height adjusting structures.

Then, the upper and lower parts of the part to be inspected are firmly fixed using the clamps 21a and 22a of the first and second holding plates 21 and 22.

Then, an ultrasonic flaw detection is performed on a component that is firmly fixed using an ultrasonic flaw detector (not shown).

In the present invention, not only the heights of the first and second holding plates 21 and 22 can be adjusted individually, but also the heights of both ends of each of the holding plates 21 and 22 can be individually adjusted. Respond appropriately to parts with contours.

Thus, the holding device of the present invention is not limited to the external appearance of the component has the advantage of a very wide range of use.

As described above, the present invention is not limited to the size and shape of the various components required for the ultrasonic inspection, and thus it is possible to expand the scope of use by holding the components in various forms, thereby reducing the manufacturing cost and ultrasonic inspection. There is an effect that can achieve a reduction in time.

Claims (6)

A frame comprising a pair of base frames having a plurality of wheels and a pair of posts upright from an end of each base frame; Ultrasonic inspection components, which are installed across each post of the frame, include a plurality of clamps, and first and second holding plates that are individually installed to be height-adjustable on upper and lower sides of the frame. Holding device. The method of claim 1, The height adjusting structure of the first holding plate, A movable body movably installed along the inner hollow of each post; A fastener selectively fitted in a plurality of fixing holes formed in the movable body and the post to fix the movement position of the movable body; Both ends of the first holding plate is ultrasonically mounted component holding apparatus, characterized in that detachably mounted to the upper end of each moving body. The method of claim 2, The first holding plate is provided with a pair of locking members integrally at both ends thereof, the mounting bracket is fixed to the upper end of each of the movable body, the locking groove is formed on the mounting bracket, each locking member of the first holding plate The holding device for the ultrasonic inspection, characterized in that the mounting groove is detachably mounted to the engaging groove of the mounting bracket. The method according to claim 1 or 2, The height adjusting structure of the second holding plate, A pair of fastening brackets are fixed to both ends of the second holding plate, and a pair of adjustment plates are provided on inner surfaces of the posts facing each other, and a plurality of fixing holes are spaced apart from each other by predetermined intervals in the height direction. And, the bracket for fastening the second holding plate to the plurality of fixing holes is selectively fastened by fasteners. The method of claim 1, Ultrasonic inspection component holding device, characterized in that the weight is detachably mounted on the upper surface of each base frame. The method of claim 4, wherein Ultrasonic inspection component holding device, characterized in that the scale is displayed on each fixing hole of the control plate.

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