KR870000720A - Radiation protection container - Google Patents

Abstract

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Description

Radiation protection container

Since this is an open matter, no full text was included.

1 is an exploded perspective view of a radiation protective container.

2 is a partially enlarged view of the radiation protection container head.

3 is a perspective view of an insert.

* Explanation of symbols for main parts of the drawings

1: jacket 2: bottom

3: port 4: cover

5A: Matrix 5B: Mold Body

7: internal space 8: nuclear material

10: sealing surface 11: insertion shoulder

12: stop member 13: span block

15: sealing ring 16: sealing groove

18: hydraulic cylinder 20: wall

21: thread

Claims (16)

A radiation protective container consisting of an inner port used for transporting and storing radioactive material (eg nuclear fuel rods, radioactive waste, etc.) and for the safety of the material and a shielding enclosure surrounding it, the port (3) being the minimum required for shielding. Consists of a rigid and hermetic steel workpiece that meets the mechanical requirements in the event of an accident with a wall thickness that meets the requirements, and the shell (5) is destroyed, deformed, thermally conductive and contains hydrogen containing energy. Radiation protective container, characterized in that consisting of. The radiation protective container according to claim 1, wherein the port (3) consists of an integrally molded injection molded body, and the shell (5) consists of a composite material formed of metal and plastic. 3. The casing 5 according to claim 2, wherein the casing 5 forms a matrix 5A made of a low melting metal or a low melting alloy (e.g., copper and tin, copper and antimony, lead and antimony, copper and lead alloy, etc.) A radiation protective container, characterized in that it is inserted into a molded body (5B) made of plastic having a decomposition point exceeding the melting point of the alloy. The heat load according to any one of claims 1 to 3, wherein the outer shell is composed of a mineral workpiece (concrete), in which a metal body having improved thermal conductivity and radiation shielding property is injected, and a mixing ratio of metal and concrete from the radioactive material. Or a radiation protective container adapted to a radiation load. The radiation protective container according to claim 1 or 4, wherein the casing (5) is provided with a corrugated appearance (6) made of metal. The upper end of the port (3) is provided with an annular insertion shoulder (11) for forming a sealing surface (10) for the lid (4), and for insertion from the insertion shoulder. Radiation protective container, characterized in that the support (12) of the closing member extends, and the gushpan block (13) is arranged on the outer surface of the closing cover (4). The surface of the insertion support (12) and the span block (13) facing each other are formed in the shape of a wedge shape in which the reverse rotation rotates, and the sealing surface (10) of the insertion shoulder (11) is closed. ) Is provided with a rotating nut (14) for inserting, and the sealing surface of the nut and the cover part is provided with a centrally sealed groove (16) having a limited range. 8. Radiation protective container according to claim 7, characterized in that the sealing member (15) is made of a provisional metal and a volume exceeding the volume of the nut (14) formed in the insert shoulder (11) is provided. 9. Radiation protective container according to any one of claims 6 to 8, characterized in that a support (17) is provided for attaching a hydraulic cylinder (18) which acts tangentially to the port and the cover. 10. The cap according to any one of claims 1 to 9, wherein a port is provided with a cap surrounding the cover, and a cap is provided with a measuring sensor for capturing the gas generated in the container, the indicator or alarm being positioned externally. Radiation protective container, characterized in that connected to the device. The radiation protective container according to any one of claims 1 to 10, wherein the port (3) has a star-shaped cross section, and an insertion basket for subdividing the space of the container into a plurality of threads is provided. 12. The outer space according to claim 11, wherein the insertion basket is formed of a plate-shaped core body (8) which separates the inner space (7) from the outer space in the container space, and is supported on the container wall from the right side and formed in the room. A radioactive protective container, characterized in that the radial wall pellets (9) for subdividing. 13. A radiation protective container according to claim 11 or 12, characterized in that the ends of the pellets (9) are coupled to the outer wall to form a closed container chamber. 14. A method of manufacturing a radiation protective container according to any one of claims 1 to 13, wherein the port 3 is cast into an integral upright form by injection molding, and then a casing composed of a metal matrix filled with plastic material is cast. Characterized in that. 15. The material according to claim 14, wherein the molding material coated with the insulating material is filled into the mold in an amount sufficient to form the shell portion, injected at a high rotational speed, solidified by cooling to a temperature slightly below the melting point and attached to the mold wall. Is reduced to the number of revolutions falling, and the bottom of the container is formed stepwise or stratified by replenishing the material and then radially injecting the star material. 14. A method of manufacturing a radiation protective container according to any one of claims 1 to 13, wherein the pot is provided at an interval corresponding to a thickness of a sleeve 19 having an upward casting inlet and a thickness, that is, a thickness of a casing 5 prepared in advance. An outer plate 6 surrounding (3) is provided, and the space enclosed between the outer plate 6 and the port 3 is densely filled with the plastic material 5B and the metal 5A so that the plastic material does not move. Or casting to an alloy. ※ Note: The disclosure is based on the initial application.