KR102536695B1 - Collimator for radiography - Google Patents

Abstract

A collimator for radiation transmission according to an aspect of the present invention includes a main body contacting an outer surface of a pipe and irradiating radiation to a welded portion, and a remote controller combined with the main body to control the movement of radiation to the main body, the remote controller comprising: A ball-shaped coupler may be provided at a coupling portion with the main body, and the main body may include a seating groove in which the coupler is seated at a coupling portion with the coupler.

Description

Collimator for radiography {Collimator for radiography}

The present invention relates to a collimator for radiation transmission, and more particularly, to a collimator for radiation transmission capable of improving usability.

The main purpose of radiographic inspection is to detect defects that exist in the inspected object, and this inspection objective can be achieved only when the inspection method is appropriate.

In order for this radiographic examination to proceed more precisely, an image plate must be firmly attached to the object to be inspected. The reason is that while radiation from a radiation source penetrates the object to be inspected and is irradiated to the image plate, This is because an accurate image cannot be projected on the image plate if the image plate is shaken or is separated from the object to be inspected.

Since the circumference of the cross-section of the pipe is longer than the length of the image plate, the inspection is performed while attaching the image plate to the circumference of the cross-section of the pipe several times along the welded part.

At this time, the radiation source device is positioned on the opposite side of the image plate with the pipe as the center, and the radiation source device includes a radiation source for radiating radiation and a collimator device for adjusting an irradiation angle of the radiation source according to the shape of the image plate.

A highly reliable test result can be obtained only when the inspector accurately attaches the collimator device to the object to be inspected and then performs the photographing. Since the collimator device is not firmly attached to the object to be inspected, and the fastening and disassembling process takes a lot of time, there is a problem in that the inspection time increases.

Republic of Korea Patent Registration No. 10-1341957 (2013.12.16)

The present invention has been made to solve the above problems, and an object of the present invention is to provide a collimator for radiation transmission that can be firmly attached to an object to be inspected.

A collimator for radiation transmission according to an embodiment of the present invention for achieving the above object is a body for irradiating radiation to a welded portion in contact with the outer surface of a pipe, and a remote that is combined with the body to control the movement of radiation to the body A controller may be provided, and the remote controller may include a ball-shaped coupler at a coupling portion with the main body, and the main body may include a seating groove in which the coupler is seated at a coupling portion with the coupling club. there is.

A flow prevention device fastened to the pipe and combined with the remote controller to prevent flow of the main body is further provided, and the flow prevention device includes a chain provided in a form surrounding the outer surface of the pipe, and each at both ends of the chain. It may include a pair of connecting members provided so that the chain is fixed in a form surrounding the outer surface of the pipe, and a fastening ring provided to form a ring shape perpendicular to the chain and to which the remote controller is fastened to the inside. .

Further comprising a restraining device fastened to the pipe and provided in a form surrounding the main body to restrain the main body, the restraining device having a ring shape and a fastening part fastened to the pipe, and one surface of the fastening part Provided with a restraining part for restraining both sides of the main body in contact with the pipe, wherein the fastening part is provided in a form surrounding a portion of the pipe and coupled to the restraining part, and an upper coupling ring, corresponding to the upper coupling ring A lower coupling ring provided so as to surround the remaining part of the pipe, a rotating shaft provided at one end where the upper coupling ring and the lower coupling ring are abutted to allow axis rotation with each other, and the upper coupling ring and the lower coupling ring A locking device is provided at the other end to be butted to keep the pipe wrapped around the pipe, and the restraining part is provided to face one surface of the upper coupling ring and restrains one end of the main body; A second part extending vertically from one end of the part and extending in the direction of the main body to constrain one side of the main body; A third part for restraining, a space adjustment bolt having one end buried in the first part and the other end exposed to the side of the third part, and a distance between the first part and the third part fastened to the space control bolt A gap adjusting nut for adjusting the gap, and an insertion rod provided in the third part to maintain the bonding force between the first part and the third part when the gap between the first part and the third part is widened. can

The restraining device further includes a cover part coupled to the restraining part to cover the upper part of the main body and restraining the upper part of the main body, the cover part being fastened to the restraining part to cover the upper part of the main body; A pair of fixing members are provided at both ends of the cover to maintain the state of the cover fastened to the restraining part, and the restraining part is provided to correspond to the second part and the third part, respectively. The cover has an inner end passing through the fastening groove provided in the third part and then passing through the upper portion of the main body and passing through the fastening groove provided in the second part. , It may be continuously provided at the inner end and provided with an outer end covering an upper portion of the inner end.

The restraining device further includes a distance adjusting part coupled to the restraining part and provided to pass through the fastening part so as to adjust a distance between the fastening part and the restraining part, wherein the distance adjusting part has one end of the first part. A distance adjusting bolt embedded in and having the other end exposed to the other surface of the upper coupling ring, and a distance adjusting nut fastened to the distance adjusting bolt to adjust the distance between the upper coupling ring and the first portion.

According to the collimator for radiography according to the present invention, it can be firmly attached to the subject.

1 is a view showing a collimator for radiography according to an embodiment of the present invention.
Figure 2 is a view showing a flow prevention device provided in the collimator for radiation transmission shown in Figure 1;
3 is a view showing a restraining device provided in the collimator for radiation transmission shown in FIG. 2;
Figure 4 is a view showing the restraining device shown in Figure 3;
5 is a view showing a state in which a cover portion is provided in the restraining device shown in FIG. 3;
6 is a view showing a state in which a distance adjusting part is provided in the restraining device shown in FIG. 3;

Hereinafter, a collimator for radiography according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a collimator for radiation transmission according to an embodiment of the present invention.

As shown in FIG. 1, the radiographic collimator 10 according to an embodiment of the present invention is a device used to determine whether or not a welded portion of the pipe 20 is defective through a radiographic examination, and the pipe 20 A main body 11 for irradiating radiation to the welding portion in contact with the outer surface of the body 11, and a remote controller 12 coupled to the main body 11 to control the movement of radiation to the main body 11, the remote controller 12 is a main body ( 11) is provided with a ball-shaped coupler 13, and the main body 11 is provided with a seating groove 14 in which the coupler 13 is seated at the coupler 13 can do.

As the main body 11 and the remote controller 12 are coupled through the ball-shaped coupler 13 and the seating groove 14, a gap occurs in the coupling part, and accordingly, the main body 11 is removed from the remote controller 12. It can rotate at an angle of up to 45 degrees.

Therefore, uniform adhesion between the collimator for radiation transmission 10 and the welded portion of the pipe 20 can be exerted so that rapid inspection can be performed.

In addition, it is possible to exert an effect of preventing an increase in the risk of exposure to workers due to an increase in the number of inspections due to inspection defects due to non-uniform adhesion between the radiographic collimator 10 and the welded portion of the pipe 20.

Next, the flow prevention device 100 provided in the collimator 10 for radiation transmission according to an embodiment of the present invention will be described. In the following description, only parts different from those of the above-described embodiment are described in detail, and detailed descriptions of the same or extremely similar parts are omitted.

FIG. 2 is a view showing a flow prevention device provided in the collimator for radiation transmission shown in FIG. 1 .

As shown in FIGS. 1 and 2, the collimator 10 for radiation transmission according to an embodiment of the present invention is fastened to the pipe 20 and coupled with the remote controller 12 to prevent the main body 11 from moving. A flow prevention device 100 may be further provided.

Looking at the flow prevention device 100 in detail, the flow prevention device 100 is a chain 110 provided in the form of wrapping the outer surface of the pipe 20, and provided at both ends of the chain 110, respectively, to form a chain 110 A pair of connecting members 120 to be fixed in a form surrounding the outer surface of the pipe 20, and a fastening ring provided to form a ring shape perpendicular to the chain 110 and to which the remote controller 12 is fastened to the inside (130) may be provided.

The flow prevention device 100 wraps the chain 110 around the pipe 20 in a state in which the remote controller 12 is fastened to the fastening ring 130, and then couples a pair of connecting members 120 to each other to transmit radiation. The collimator 10 may be fixed to the pipe 20.

The length of the chain 110 may increase or decrease depending on the size of the pipe 20, and the connecting member 120 may be provided in various forms such as a ring shape and a detachable shape.

In this way, as the radiographic collimator 10 is provided with the flow prevention device 100, the radiographic collimator 10 does not rotate or sag during inspection, and uniform and stable inspection is performed. By doing this, the effect of preventing the risk of exposure to workers from increasing due to an increase in the number of inspections due to inspection defects due to non-uniform adhesion between the welded parts of the collimator 10 and the pipe 20 for rapid inspection and radiation can be exhibited. .

Next, the restraining device 200 provided in the collimator 10 for radiation transmission according to an embodiment of the present invention will be described. In the following description, only parts different from those of the above-described embodiment are described in detail, and detailed descriptions of the same or extremely similar parts are omitted.

FIG. 3 is a view showing a restraining device provided in the collimator for radiation transmission shown in FIG. 2, and FIG. 4 is a view showing the restraining device shown in FIG.

1 to 4, the collimator 10 for radiation transmission according to an embodiment of the present invention is fastened to the pipe 20 and is provided in a form surrounding the main body 11 to restrain the main body 11. A restraining device 200 may be further provided,

Looking at the restraining device 200, the restraining device 200 is provided in a ring shape and fastened to the pipe 20, the fastening portion 210, and provided on one surface of the fastening portion 210 to contact the pipe 20 Constraining parts 220 for constraining both sides of the body 11 may be provided.

The fastening part 210 is for fixing the restraining device 200 to the pipe 20, and is provided in a form surrounding a portion of the pipe 20 to engage the upper coupling ring 211 with the restraining part 220, A lower coupling ring 212 provided to correspond with the upper coupling ring 211 and covering the remaining portion of the pipe 20, and provided at one end where the upper coupling ring 211 and the lower coupling ring 212 are buttted to each other A rotary shaft 213 for rotating the shaft and a locking device 214 provided at the other end where the upper coupling ring 211 and the lower coupling ring 212 are buttted to maintain a state wrapped around the pipe 20 may be provided. there is.

Accordingly, the restraining device 200 can be easily attached to and detached from the pipe 20, and the fastening portion 210 is provided with a plurality of various sizes so that the fastening portion 210 suitable for the size of the pipe 20 is selectively can be used

The locking device 214 may be provided in various forms such as a ring type, a screw type, a fitted type, or a detachable type.

The restraining part 220 is for substantially restraining both sides, and is provided to face one surface of the upper coupling ring 211 of the main body 11 and restrains one end of the main body 11. A first part 221, A second part 222 extending vertically from one end of the first part 221 and extending in the direction of the main body 11 to restrain one side of the main body 11, and located at the other end of the first part 221 A third part 223 provided to correspond to the second part 222 and restraining the other side of the main body 11, and one end buried in the first part 221 so that the other end is a side surface of the third part 223 A spacing adjusting bolt 224 exposed to the spacing adjusting bolt 224, a spacing adjusting nut 225 fastened to the spacing adjusting bolt 224 to adjust the spacing between the first part 221 and the third part 223, and the third part Equipped with an insertion rod 226 provided in 223 to maintain the bonding force between the first part 221 and the third part 223 when the gap between the first part 221 and the third part 223 is widened can do.

The first part 221 and the second part 222 are provided in an 'b' shape, and together with the third part 223 form a 'c' shape, the first part 221 and the second part 222 ) and the body 11 may be located in the inner space formed by the third part 223 .

The distance between the third part 223 and the first part 221 can be reduced or increased by tightening or loosening the spacing adjusting nut 225 fastened to the spacing adjusting bolt 224, so that various sizes of radiation transmission can be obtained. The collimator 10 can be easily restrained.

In addition, even if the weight of the collimator 10 for radiation transmission increases, the collimator 10 for radiation transmission can be easily restrained by the bonding force between the spacing adjusting bolt 224 and the spacing adjusting nut 225, and the insertion rod 226 At least one is provided so that the binding force is maintained even if the distance between the first part 221 and the third part 223 is widened, thereby preventing the binding force of the restraining part 220 from being lowered.

In this way, by providing the restraining device 200 to the collimator 10 for radiation transmission, a flow such as rotation or sagging of the collimator 10 for radiation transmission does not occur during inspection and uniform and stable inspection is performed. Rapid inspection and adhesion between the welded parts of the collimator 10 for radiation transmission and the pipe 20 are not uniform, so the number of inspections increases due to inspection defects due to non-uniformity, thereby preventing the risk of exposure to workers from increasing.

Next, the cover portion 230 of the restraining device 200 provided in the collimator 10 for radiation transmission according to an embodiment of the present invention will be described. In the following description, only parts different from those of the above-described embodiment are described in detail, and detailed descriptions of the same or extremely similar parts are omitted.

FIG. 5 is a view showing a state in which the restraining device shown in FIG. 3 is provided with a cover portion.

1 to 5, the restraining device 200 provided in the collimator 10 for radiation transmission according to an embodiment of the present invention is coupled to the restraining part 220 so as to cover the upper part of the main body 11. A cover portion 230 for restraining the upper portion of the main body 11 may be further provided.

Looking at the cover part 230, the cover part 230 is fastened to the restraining part 220 and is provided on both ends of the cover 231 covering the upper part of the main body 11 and the cover 231, respectively, to the restraining part ( A pair of fixing members 232 may be provided so that the state of the cover 231 fastened to 220 is maintained.

The restraining part 220 is provided to correspond to each other in the second part 222 and the third part 223 and has a fastening groove 227 to which the cover 231 is fastened, and the cover 231 is the second part 222 and the fastening groove 227 formed in the third part 223 can be passed in order to cover the upper part of the main body 11 .

One fixing member 232 of the pair of fixing members 232 is located outside the third part 223 to fix one end of the cover 231, and the other fixing member 232 is the cover ( 231 covers the upper part of the main body 11, and then is combined with the fixing member 232 located outside the third part 223 so that the cover 231 covers the upper part of the main body 11 and maintains the state. .

The inner end of the cover 231 passes through the fastening groove 227 provided in the third part 223, passes through the top of the main body 11, and passes through the fastening groove 227 provided in the second part 222. (231a) and an outer end (231b) continuously provided at the inner end (231a) to cover the upper part of the inner end (231a) to cover the upper part of the main body 11 in a double manner.

In this way, by providing the restraining device 200 to the collimator 10 for radiation transmission, a flow such as rotation or sagging of the collimator 10 for radiation transmission does not occur during inspection and uniform and stable inspection is performed. Rapid inspection and adhesion between the welded parts of the collimator 10 for radiation transmission and the pipe 20 are not uniform, so the number of inspections increases due to inspection defects due to non-uniformity, thereby preventing the risk of exposure to workers from increasing.

In one embodiment of the present invention, it has been shown that any one of the pair of fixing members 232 is located outside the third part 223, but the fixing member 232 is the second part 222 ) is located on the outer side of the cover 231 passes through the fastening groove 227 provided in the second part 222 and then passes through the upper part of the main body 11 to the fastening groove 227 provided in the third part 223 ) can be passed through.

Next, the distance adjusting part 240 of the restraining device 200 provided in the collimator 10 for radiation transmission according to an embodiment of the present invention will be described. In the following description, only parts different from those of the above-described embodiment are described in detail, and detailed descriptions of the same or extremely similar parts are omitted.

6 is a view showing a state in which a distance adjusting part is provided in the restraining device shown in FIG. 3 .

1 to 6, the restraining device 200 provided in the collimator 10 for radiation transmission according to an embodiment of the present invention is coupled to the restraining part 220 and is provided to pass through the fastening part 210. A distance adjusting portion 240 may be further provided so that the distance between the fastening portion 210 and the restraining portion 220 is adjusted.

Looking at the distance adjusting part 240, the distance adjusting part 240 has one end embedded in the first part 221 and the other end exposed to the other surface of the upper coupling ring 211, the distance adjusting bolt 241 and the distance It may be provided with a distance adjusting nut 242 that is fastened to the adjusting bolt 241 so that the distance between the upper coupling ring 211 and the first portion 221 is adjusted.

The restraining part 220 may be reduced or increased in distance from the upper coupling ring 211 by tightening or loosening the distance adjusting nut 242 fastened to the distance adjusting bolt 241 .

Therefore, since the fastening position of the fastening part 210 can be freely selected, the installation and use of the restraining part 220 can be easily performed.

In the above, the collimator for radiation transmission according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art who understand the spirit of the present invention can easily suggest other embodiments by adding, changing, deleting, adding, etc., components within the scope of the same spirit, but it can be said that this also falls within the spirit of the present invention. will be.

10: collimator for radiography 20: pipe
11: body 12: remote controller
13: coupler 14: seating groove
100: flow prevention device 110: chain
120: connecting member 130: fastening ring
200: restraint device 210: fastening part
211: upper coupling ring 212: lower coupling ring
213: rotation axis 214: locking device
220: restraining part 221: first part
222 second part 223 third part
224: spacing adjustment bolt 225: spacing adjustment nut
226: insertion rod 227: fastening groove
230: cover part 231: cover
231a: inner end 231b: outer end
232: fixing member 240: distance adjustment part
241: distance adjustment bolt 242: distance adjustment nut

Claims (5)

A body in contact with the outer surface of the pipe to irradiate radiation to the welded portion;
A remote controller combined with the main body to control radiation movement to the main body is provided;
The remote controller has a ball-shaped coupler at a coupling part with the main body,
The main body has a seating groove in which the coupler is seated at a coupling portion with the coupler,
A flow prevention device fastened to the pipe and combined with the remote controller to prevent flow of the main body is further provided, and the flow prevention device includes a chain provided in a form surrounding the outer surface of the pipe, and each at both ends of the chain. A pair of connecting members provided so that the chain is fixed in a form surrounding the outer surface of the pipe, and a fastening ring provided to form a ring shape perpendicular to the chain and to which the remote controller is fastened to the inside,
Further comprising a restraining device fastened to the pipe and provided in a form surrounding the main body to restrain the main body, the restraining device having a ring shape and a fastening part fastened to the pipe, and one surface of the fastening part Provided with a restraining part for restraining both sides of the main body in contact with the pipe, wherein the fastening part is provided in a form surrounding a portion of the pipe and coupled to the restraining part, and an upper coupling ring, corresponding to the upper coupling ring A lower coupling ring provided so as to surround the remaining part of the pipe, a rotating shaft provided at one end where the upper coupling ring and the lower coupling ring are abutted to allow axis rotation with each other, and the upper coupling ring and the lower coupling ring A locking device is provided at the other end to be butted to maintain a state wrapped around the pipe, and the restraining part is provided to face one surface of the upper coupling ring and restrains one end of the main body; A second part extending vertically from one end of the part and extending in the direction of the main body to restrain one side of the main body, and being located at the other end of the first part and provided to correspond to the second part, A third portion that constrains the side surface, a spacing adjusting bolt having one end buried in the first portion and the other end exposed to the side surface of the third portion, and a spacing adjusting bolt fastened to the first portion and the third portion by being fastened to the spacing adjusting bolt A gap adjusting nut for adjusting the gap between the gaps, and an insertion rod provided in the third part to maintain the bonding force between the first part and the third part when the gap between the first part and the third part is widened. A collimator for radiography, characterized in that it is provided.
delete delete According to claim 1,
The restraining device further includes a cover portion coupled to the restraining portion to cover the upper portion of the main body and restraining the upper portion of the main body,
The cover part includes a cover fastened to the restraining part and covering the upper part of the main body, and a pair of fixing members provided at both ends of the cover to maintain the state of the cover fastened to the restraining part,
The restraining part is provided to correspond to each other in the second part and the third part and has a fastening groove to which the cover is fastened,
The cover has an inner end passing through the fastening groove provided in the third part and then passing through the upper portion of the main body and passing through the fastening groove provided in the second part, and is continuously provided at the inner end, so that the inner end A collimator for radiography, characterized in that it has an outer end covering the top of the.
According to claim 4,
The restraining device further includes a distance adjusting part coupled to the restraining part and provided to pass through the fastening part so as to adjust a distance between the fastening part and the restraining part,
The distance adjusting part includes a distance adjusting bolt having one end buried in the first part and the other end exposed to the other surface of the upper coupling ring, and fastened to the distance adjusting bolt to adjust the distance between the upper coupling ring and the first portion. A collimator for radiography, characterized in that it is provided with a distance adjusting nut to be.

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