KR101341957B1 - Apparatus for securing collimator - Google Patents

Abstract

The present invention relates to a collimator fixing device and, more specifically, to a collimator fixing device which fixes a collimator to a pipe of which the diameter is less than predetermined diameter in a radiation transmission testing device of the pipe. The device for fixing a collimator (100) includes fixing posts (11a, 11b) of which the length can be adjusted; and a joining unit (12) which is fixed to the lower side of the fixing post (11b) and fixed to a testing object (T) to be separated. The joining unit (12) includes a joining strip (121) which surrounds the periphery of the testing object (T) and a fixing unit (122) for fixing the joining strip (121).

Description

Collimator Fixture {Apparatus for Securing Collimator}

The present invention relates to a collimator fixing device, and more particularly, to a collimator fixing device that allows the collimator to be fixed to the tube during the radiographic inspection process for a tube of a predetermined diameter or less.

Nondestructive testing is an inspection method that uses physical phenomena to investigate and judge defects in an object without damaging the object to be inspected. Radio-graphic testing (RT), which is one of the nondestructive testing methods, irradiates the specimen with radiation, and detects the defects of the specimens by irradiating the film with changes in the intensity of the transmitted radiation. The radiation penetration test has an advantage of being excellent in the defect detection capability inside the structure and easy to discriminate the kind or shape of defects through the film reading and excellent in the recordability and preservation.

X-ray films composed of emulsion-gelatin containing radioactive silver halide crystals such as silver bromide or silver chloride may be used as a film for radiographic examination.

When the diameter of the pipe to be inspected during the radiographic inspection becomes less than 88 mm or 3 and 1/2 inch, it is advantageous that the collimator is fixed to the pipe adjacent to the inspection site. In this case, when the collimator is fixed at a certain position of the pipe, the setting time can be reduced, and there is no need to install a separate device for supporting the collimator. This advantage may be required in various non-destructive testing devices in which collimators are used.

Prior art relating to the fixing of the collimator is disclosed in Japanese Patent Laid-Open No. 2001-0003115. The prior art is a method for fixing an output collimator so that the optical axis of the output collimator in the optical device coincides with the optical axis of the input collimator, the method comprising the steps of: fixing the input collimator on one side of the inner housing surface of the optical device; Mounting the output collimator to a saddle shaped structure; Positioning the mounted output collimator on the other side of the inner housing face of the optical device, and adjusting the position of the output collimator so that the optical axis coincides with the optical axis of the fixed input collimator; And welding the saddle-shaped structure with the inner housing surface of the optical device, and the saddle-shaped structure with the contact collimator of the output collimator using a laser welder. The method to do this is disclosed.

Another prior art associated with the fixing of the collimator is Utility Model Registration No. 0380954. The prior art is a support for supporting a collimator for radiographic inspection, the support panel formed with a radiation window so that the radiation from the inner source of the collimator, and the collimator formed on the front and rear end of the upper surface of the support panel so that the collimator does not move A support jig, a fixing plate for fixing both sides of the collimator, an additional fixing bolt for fixing the collimator secondarily through the fixing plate, and a top and bottom formed in the center of both sides of the lower part of the support panel and extending in the front and rear directions at the bottom. A collimator support composed of supports is disclosed.

The prior art or the known art does not disclose a device capable of fixing the collimator to a pipe or tube-shaped pipe having a circular cross section.

The present invention is to solve the problems of the prior art has the following object.

SUMMARY OF THE INVENTION An object of the present invention is to provide a collimator fixing device for fixing a collimator at a predetermined position in a pipe for radiographic inspection.

Another object of the present invention is to provide a collimator fixing device having an auxiliary device which enables the collimator to be fixed at a certain position of a pipe while at the same time enabling the determination of the film position.

According to a suitable embodiment of the present invention, the device for fixing the collimator 100 includes a fixed post (11a, 11b) adjustable length; And a fastening unit 12 coupled to the bottom of the fixing post 11b and detachably fixed to the test target T, wherein the fastening unit 12 wraps around a circumferential surface of the test target T. And a fixing unit 122 for fixing the fastening strip 121.

According to another suitable embodiment of this invention, it further contains the auxiliary unit 13 for determining the position of the film located under the test | inspection part T1 in the said test | inspection T.

According to another suitable embodiment of the invention, the fastening strip 121 consists of a backing plate 21 and a coupling unit 22 connected to the backing plate 21.

The collimator fixing device according to the present invention has the advantage that the setting time of the collimator is reduced by allowing the collimator to be fixed at an adjacent position of the inspection target site. The collimator fixing device according to the present invention has the advantage that it is possible to adjust the height appropriately according to the inspection object to facilitate the positioning of the film. In addition, the collimator fixing device according to the invention has the advantage that the radiation transmission point can be identified in advance by the auxiliary device.

1 illustrates an embodiment of a collimator fixing device according to the present invention.
Figure 2 illustrates an embodiment of a fastening unit applied to the collimator fixing device according to the present invention.
3 illustrates an embodiment of an auxiliary device applied to the collimator fixing device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1 illustrates an embodiment of a collimator fixing device according to the present invention.

Referring to Figure 1, the fixing device 10 for fixing the collimator 100 according to the present invention is fixed length (11a, 11b) adjustable length; And a fastening unit 12 coupled to the bottom of the fixing post 11b and detachably fixed to the test target T, wherein the fastening unit 12 wraps around a circumferential surface of the test target T. And an adjusting unit 122 for adjusting the length of the fastening strip 121.

The fixing device 10 of the collimator according to the present invention may be applied to a device for radiographic examination and may be applied to an auxiliary device for radiographic examination using a radioisotope such as, for example, iridium 192 or cobalt 60. In addition, the fixing device according to the invention can be used for fixing any collimator used in the medical or optical field through appropriate modifications as necessary. Therefore, the present invention is not limited by the use of the collimator.

The fixed posts 11a and 11b may be made of an adjustable structure, and for example, the lower end of the upper post 11b may be coupled to the lower post 11a in a sliding manner. In addition, the upper post 11b fixed by the fixing bolt 111 at a predetermined position may be fixed to the lower post 11a. The lower end of the lower post 11a may be fixed to the fastening unit 12. The fastening unit 12 may include a fastening strip 121 coupled to the periphery of the test object T, for example, a pipe or a tube, and a fastening device 122 for fixing the fastening strip 121.

The fastening unit 12 is coupled to the inspection object (T) so that the lower post (11a) is fixed to a predetermined position. The lower post 11a can be fixed to the fastening unit 12 in various ways. And the fastening unit 12 may be any fixing means capable of fixing the lower post (11a) in a predetermined position and the present invention is not limited to the embodiment shown. The upper post 11b may be coupled to the other end of the lower post 11a to be adjustable in length. The upper post 11b can be coupled to the adjustment unit 14 at one end and fixed to the unit 14 so that the auxiliary device 13 is rotatable. The adjusting unit 14 is for fixing the collimator 100 and can be made in various ways, for example the adjusting unit 14 can be made to be movable at the upper end of the upper post 11b. The radiation source can be located inside the collimator 100 and the adjustment unit 14 can be made in an open bottom structure.

The collimator 100 may be connected to the guide cable 102 by, for example, the connector 101. The radiation source may be guided to the collimator 100 by the guide cable 102 and may be fixed at a predetermined position. And it can be irradiated to the inspection site (T1) of the inspection target (T) of the radiation through the open portion below the collimator (100).

The collimator 100 may be fixed to the adjustment unit 14 or the connector 10 may be fixed, and the adjustment unit 14 may be installed to be movable in a predetermined direction at one end of the upper post 11b. In addition, the auxiliary device 13 may be installed in the adjustment unit 14. The auxiliary device 13 is for checking a position where the radiation source inside the collimator 100 is irradiated by irradiating a light source such as a laser. For this purpose, the auxiliary device 13 may include a rotation unit 132 for rotatably fixing the light irradiation unit 131 and the light irradiation unit 131 to the adjustment unit 14. The laser light source may be positioned inside the light irradiation unit 131 and the laser light source may be located at the same position as the radiation source. Because of this, the irradiation position of the radiation source can be easily confirmed by the laser light source. The projection angle of the radiation source can be confirmed by the light irradiation unit 131 to confirm the position of the radiation source. The laser light L may be irradiated onto the film P from the light irradiation unit 131 according to the first projection angle. In addition, the light irradiation unit 131 may be rotated so that the laser light L may be irradiated onto the film P along the second projection angle. In this way, the position of the film P positioned below the inspection site T1 may be confirmed. The projection angle of the radiation source means the opening angle of the inlet for the projection of the radiation formed below the collimator 100.

The collimator 100 can be fixed to the adjusting unit 14 in various ways and can be fixed to the auxiliary device 13 and the adjusting unit 14 so as to be rotatable, and the present invention is not limited to the embodiments shown.

Hereinafter, an embodiment of the fastening unit 12 according to the present invention will be described.

Figure 2 illustrates an embodiment of a fastening unit applied to the collimator fixing device according to the present invention.

Referring to FIG. 2, the fastening unit 12 may include a fastening strip 121 and a fixing unit 122 formed at an end of the fastening strip 121. The fastening strip 121 is a part that is coupled to the inspection object such as a pipe while connecting the support plate 21, the coupling unit 22 connected to the support plate 21, and the coupling unit 22 and the fixing unit 122. The length adjustment can be made with the adjustment strip 23.

The backing plate 21 is for fixing the lower side of the lower post described above may include a post coupling portion 211. The post engagement portion 211 may be, for example, a hollow cylindrical shape and integrally formed with the backing plate 21. The supporting plate 21 has a function of a cradle of the lower post.

Coupling unit 22 is to allow the fastening unit 12 to be fixed to the pipe may be a plate shape made of a material such as metal or plastic, for example. If necessary, the coupling unit 22 may be made of an elastic upper layer 221 made of a lower elastic layer 222 and a rigid material. The supporting plate 21 and the connection unit 22 may be connected to the expansion unit 221. The stretching unit 221 may be made of a material such as, for example, silicone, synthetic fiber, synthetic rubber, or synthetic resin, and may be made of a material having a bending or bending property. The coupling unit 22 supports and the expansion unit 221 allows it to be secured along the circumferential surface of the tubular pipe. A plurality of coupling units 22 and expansion units 221 may be arranged in number or length.

The adjusting strip 23 can be connected to the coupling unit 22.

The adjusting strip 23 may be connected with the fixing unit 122 so that the length can be appropriately adjusted according to the diameter of the pipe, and may be made of a strip or strip structure of a material such as synthetic fiber or rubber, for example.

The fastening unit 122 may comprise fastening or fastening means of various structures such as, for example, buckles, clamps or fastening units, and preferably may have a structure capable of adjusting the length of the adjusting strip 23.

The fastening unit 12 shown allows the lower post to be fixed at a predetermined position of the pipe regardless of the diameter of the pipe to be inspected or the structure of the circumferential surface. The fastening unit 12 having various structures can be applied to the fixing device according to the present invention, and the present invention is not limited to the embodiment shown.

3 illustrates an embodiment of an auxiliary device applied to the collimator fixing device according to the present invention.

3, the adjustment unit 14 is a hollow semi-cylindrical fixed body 141, a moving means 142 coupled to the fixed body 141 and a movement adjusting unit coupled to the upper post ( 144).

The fixing body 141 may have various structures and a collimator or a connector may be fixed therein. Although not shown in FIG. 3, an open portion corresponding to the projection inlet of the radiation source of the collimator may be formed in the fixing body 141. On the other hand, the auxiliary device may be fixed to the side of the fixing body 141 to be rotatable.

The moving means 142 may be formed at various positions of the fixing body 141 and is not necessarily formed below. The moving means 142 may be, for example, such as a rack gear, but is not limited thereto. The movement adjusting unit 144 for movement of the movement means 142 may be installed above the upper post and may be, for example, a gear such as a pinion.

The movement means 142 and the movement adjustment unit 144 are for the adjustment unit 14 to be moved by a certain length in the longitudinal direction of the pipe.

The fixed body 141, the movement means 142 and the movement control unit 144 may have a variety of structures and the present invention is not limited to the embodiments shown.

The collimator fixing device according to the present invention has the advantage that the setting time of the collimator is reduced by allowing the collimator to be fixed at an adjacent position of the inspection target site. The collimator fixing device according to the present invention has the advantage that it is possible to adjust the height appropriately according to the inspection object to facilitate the positioning of the film. In addition, the collimator fixing device according to the invention has the advantage that the radiation transmission point can be identified in advance by the auxiliary device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

100: collimator 101: connector 102: guide cable
10: fixing device 11a: lower post
11b: upper post 12: fastening unit
13: Auxiliary Equipment 14: Adjustment Unit
21: support plate 22: coupling unit
23: adjustable strip
111: fixing bolt 121: fastening strip
122: fixed unit 131: light irradiation unit
141: fixed body 142: moving means
144: movement control unit 211: post coupling site
221 expansion unit

Claims (3)

In the device for fixing the collimator 100,
Fixed posts (11a, 11b) adjustable in length;
A fastening unit 12 coupled to the bottom of the fixed post 11b and fixed to the test target T so as to be detachable from the fixed post 11b; And
And an auxiliary device 13 for determining the position of the film located below the inspection site T1 in the inspection object T,
The fastening unit 12 is a collimator fixing device including a fastening strip (121) surrounding the circumferential surface of the inspection object (T) and a fastening unit (122) for fixing the fastening strip (121). delete The collimator fixing device according to claim 1, wherein the fastening strip (121) consists of a backing plate (21) and a coupling unit (22) connected to the backing plate (21).

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