KR100882781B1 - A radioisotopes disposal container in which radio exposure damage can be reduced and radioisotopes can be easily identified in stored state - Google Patents

Abstract

A radioactive waste container for radiation exposure reduction is provided to safely store the radioactive waste in the inside of the solidity tube by screwing the tube cap in the end part of the solidity tube. The radioactive waste matter container comprised a main body(101) and a cover(103). The main body stores the radioactive substance. The cover protects the top of the main body. The main body comprises the inner case(205), the outer case(201), the radioactive shielding fill(203) and a plurality of radioactive substance inlet (207). The inner case has the closed storage. The outer case protects the main body. The radioactive shielding fill is charged between the inner case and the outer case. A plurality of radioactive substance inlet is formed between the outer case and the inner case. A plurality of radioactive substance inlet is refracted to downward. Therefore, the outside leakage of the radioactive ray is shielded effectively. The radioactive substance inlet includes the solidity tube(209) for inserting the radioactive substance smoothly. The solidity tube is inserted to adhere closely to the wall of the radioactive substance inlet.

Description

A Radioisotopes Disposal Container in which Radio Exposure Damage Can Be Reduced and Radioisotopes can be easily Identified in Stored State}

The present invention relates to a radiation source storage container, and more particularly, a plurality of radiation source insertion holes refracted downward along a circumferential shape is formed on an upper portion of the cylindrical waste container, and an upper portion of the main body is covered with an iron cover. The wall is formed between the steel outer case and the steel inner case with a shielding material such as lead to shield the radiation, so that the discarded radiation source can be safely inserted by inserting it into the radiation source insertion hole. It relates to the disposal of radiation source identification and storage, which enables to safely check the condition without exposure.

Radioisotopes are widely used for research and experiments in various fields, such as the medical field for diagnosis and treatment using radiopharmaceuticals, industrial fields such as nondestructive testing, and agricultural field. In particular, non-destructive testing companies purchase sealed radioisotope (Ir-192) for radiographic inspection of steel frame welded to related steel infrastructure and related industries such as nuclear and thermal power plants, and use it for a certain period of time. If it is attenuated and becomes unusable and loses its useful value, the radioactive isotopes to be disposed of are stored in the waste bin and discarded.

In general, waste containers for radioisotopes are manufactured and used by themselves to store and discard radioactive isotopes that have become unusable, and discarded radioisotopes are not used for more than 5 years after purchase for safe storage and management. The government directs supervision to entrust it to the Korea Atomic Energy and Environmental Technology Institute to dispose of it or return it to the manufacturer. The radioisotope waste bins, which are conventionally manufactured by themselves, are usually formed in a box or cylindrical structure shielded with lead in an iron container which can be stored 100 to 150 pieces.

However, the conventional waste bin must be opened with the lid of the waste bin in order to put the new waste into the waste bin or to check the storage status of the radiation source. Workers had a problem that many exposures occurred.

The radiation source identification and storage bin according to the present invention does not completely open and discard the upper lid like a conventional waste bin when disposing of the radioactive isotope. It is to provide a source waste bin that can safely check the storage status of the stored waste.

The radiation source identification and storage bin according to the present invention includes a main body for storing the radiation source; A cover protecting an upper portion of the main body so that the radiation source stored in the main body is safely stored; It includes, and the main body and the inner case to form a storage space blocked therein; An outer case protecting the main body; A radiation shielding filler charged for shielding radiation between the inner case and the outer case; It is formed to be penetrated between the outer case and the inner case while being refracted downward to facilitate insertion and removal of the radiation source, and a plurality of refracted radiation source insertion holes that can effectively shield the external leakage of radiation;

In addition, the cover of the radiation source identification storage bin according to the present invention and the handle to facilitate the transport of the main body; A plurality of coupling terminals attached to the side of the cover for coupling with the main body; And coupling means for coupling each of the coupling terminals with the coupling terminal of the main body.

In addition, the refracted radiation source insertion hole of the radiation source identification storage bin according to the present invention is further provided with a through-hole solid tube inserted in close contact with the wall of the radiation source insertion hole for smooth insertion and removal of the radiation source,

In addition, the refracted radiation source insertion port of the radiation source identification storage bin according to the present invention, the solid tube inserted is further provided with a tube cap at the end of the solid tube inserted so that the inserted radiation source is safely stored without escaping to the outside, the The tube cap is made by being characterized by being fixed by the fixing means so as to be covered with the end of the solid tube,

In addition, the solid tube inserted into the refracted radiation source insertion hole of the radiation source identification storage bin according to the present invention is cut to a certain depth on the circumference of a certain distance from the end of the solid tube so that the inserted radiation source is not inserted more than a predetermined depth. It is further provided with the stop part formed.

The radiation source identification storage bin according to the present invention is stored in a radiation source identification storage disposal box in which the discarded radiation source is shielded with a radiation shielding material, so that the discarded radiation source can be safely stored, and even if the discarded radiation source is already stored. By inserting the radiation source into the radiation source insertion hole and tightening the tube cap, the radiation source can be easily and safely stored without exposure.The radiation source insertion port is refracted downward so that no radiation leaks to the outside. It is inserted and stored, so that even when the discarded radiation source is stored, the unique identification number can be safely checked without exposure, thereby facilitating a safety check and confirmation regarding the storage state of the discarded radiation source.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. The following examples are merely illustrated to illustrate the present invention and are not intended to limit the scope of the present invention.

1 is an external perspective view of a radiation source identification storage bin according to the present invention, Figure 2 is a cross-sectional view seen from the side, Figure 3 is a cross-sectional view of the radiation source is put into the disposal box, Figure 4 is a cross-sectional view seen from above.

Referring to FIG. 1, a cover 103 having a handle 105 is provided on an upper portion of the radiation source identification and storage waste bin body 101, and a cover 103 is formed at a junction between the body 101 and the cover 103. Coupling terminal 107 is formed to secure the to the main body 101, and the coupling terminal 107 protruding to the side of each of the cover 103 and the main body 101 side bolts Fix it by fastening with 109 and the nut 111.

2 and 3, the main body 101 includes an outer case 201 that protects the main body from the outside and an inner case 205 and an outer case that form a storage space blocked inside the main body 101. A radiation shielding filler 203 filled with a radiation shielding agent, such as lead, between the 201 and the inner case 205, and is formed through the through-through connection between the outer case 201 and the inner case 205, the internal storage The radiation source insertion hole 207 is refracted downward or sideward so that radiation emitted from the radiation source stored in the space is not directly leaked to the outside, and the radiation source insertion hole 207 is freely inserted into the radiation source 210. Insert a tube 209 made of copper, iron, aluminum or plastic, and the tube connecting portion 313 (see FIG. 3) connecting the tube 209 and the outer case 201 to form a screw or the like. It is formed to attach the tube cap 301 (see FIG. 3) to the end of the lance 209. In addition, the stop ball 305 of the radiation source is caught by forming a stop portion 303 in which the diameter of the predetermined section is small so that the waist is cut in the tube 209 so that the radiation source 210 inserted into the radiation source insertion hole 207 does not fall down. It is supposed to be. Referring to the left side of FIG. 2, the radiation source 210 is a source capsule 211 which is a nuclear material and a connector 215 engraved with a unique number of the nuclear material, and a wire connecting the source capsule 211 and the always connector 215. It consists of a peak tail 213 made of. A stop ball 305 (refer to FIG. 3) is formed at the connection portion between the connector 215 and the pigtail 213 so as not to be caught down by the stop 303 of the radiation source insertion hole 207. In addition, when the cover 103 is closed while the radiation source 210 is stored in the main body 101, the cover 103 is prevented from being caught by the tube cap 301. A predetermined gap 217 is placed so that the inner diameter of the main body 101 is slightly larger than the coupling diameter of the tube cap 301 in a coupled state.

Referring to FIG. 3, the coupling portion 311 of the tube 209 and the outer case 201 slightly protrudes out of the outer case 201 and protrudes out of the tube 209. The tube connecting portion 313 is formed with a fastening means by a screw thread, etc., the tube cap 301 is attached so that the radiation source 210 inserted into the tube 209 is fixed inside the tube 209.

Figure 4 is a cross-sectional view of the radiation source identification storage bin according to the present invention from the top down, a plurality of the radiation source insertion opening 207 is formed on the circumference of the main body 101 toward the central axis of the main body. Therefore, only the tube cap 301 is opened and the connector 215 of the radiation source 210 being stored is opened in order to check whether the radiation source 210 is stored in a state where only the cover 103 of the main body 101 is opened. The engraved unique number can be confirmed, there is no exposure concern for inspection, and insert another discarded radiation source 210 into another radiation source insertion hole 207, or move the stored radiation source 210 to another storage container and In this case, since only the radiation source 210 is inserted and removed, the amount of exposure can be greatly reduced, and the radiation source waste bin can be manufactured in a small size, which is convenient for carrying or transporting.

1 is an external perspective view of the radiation source identification storage bin according to the present invention,

2 is a sectional view seen from the side,

3 is a cross-sectional view of a state in which a radiation source is put into the disposal box;

4 is a sectional view from top to bottom.

<Description of the reference numerals for the main parts of the drawings>

101; Main body, 103: Cover

105: handle, 107: coupling terminal

109: bolt, 111: nut

201: outer case, 203: radiation shielding filler

205: inner case, 207: radiation source insertion opening

209: tube, 210: radiation source

211: source capsule, 213: pigtail,

215: Connect, 217: Gap

301: tube cap, 303: stop part,

305: stopball,

Claims (5)

delete delete A source for discarding a radiation source, the body for storing the radiation source; A cover protecting an upper portion of the main body so that the radiation source stored in the main body is safely stored; It includes, and the main body and the inner case to form a storage space blocked therein; An outer case protecting the main body; A radiation shielding filler charged for shielding radiation between the inner case and the outer case; It is formed to be through between the outer case and the inner case is refracted downwards, so that the insertion of the radiation source is easy to insert a plurality of refracted radiation source insertion holes that can effectively shield the external leakage of radiation; The refracted radiation source insertion hole may further include a through-hole solid tube inserted in close contact with the wall of the radiation source insertion hole for smooth insertion and removal of the radiation source. According to claim 3, The solid tube inserted into the radiation source insertion hole is further provided with a tube cap at the end of the solid tube inserted so that the inserted radiation source is safely stored without escaping to the outside, the tube cap of the solid tube Discard the identification of the radiation source, characterized in that fixed by the fixing means to be fixed at the end. The stop tube according to any one of claims 3 to 4, wherein the solid tube has a stop portion formed to have a predetermined depth on a circumference at a distance from the end of the solid tube so that the radiation source to be inserted is not inserted beyond a predetermined depth. Discard the radiation source identification and storage characterized in that it further comprises.

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