JP2021143943A - Storage container - Google Patents

Abstract

To discharge water remaining in an insertion hole for a bolt for fixing a primary lid, without reducing the strength of the bolt fastened to the primary lid.SOLUTION: A radioactive material storage container 1 has a body part 2, a primary lid 3 arranged in one end of the body part 2, and a secondary lid 4. The secondary lid 4 is arranged outside the primary lid 3. The primary lid 3 is fixed to one end of the body part 2 with a bolt 5. A washer 7 is arranged between a head part 22 and the primary lid 3 of the bolt 5. The washer 7 has a first hole 7a and a second hole 7b penetrating the washer in a radial direction in the middle of the thickness direction.SELECTED DRAWING: Figure 2

Description

The present invention relates to a radioactive substance storage container in which radioactive substances are stored.

The radioactive substance is stored in a bottomed cylindrical container body in water that can shield radiation. After closing the opening of the container body in water with the primary lid, the container body and the primary lid containing the radioactive substances are taken out from the water. After that, the primary lid is attached to the container body with bolts, water is drained from the container body, the inside of the container body is dried, and helium gas is filled. The secondary lid is attached to the container body and the space between the primary lid and the secondary lid is vacuum dried.

In the above series of steps, radioactive substances are stored in the container body in water, and the opening of the container body is closed with the primary lid, so that water enters the primary lid and the bolt insertion holes formed in the container body. Water that has entered the bolt insertion hole or the like is difficult to remove and tends to remain at the bottom of the hole or the like. Residual water may evaporate and condense between the primary and secondary lids and corrode the container, metal gasket, etc. Therefore, it is necessary to remove as much water as possible that has entered the bolt insertion holes, etc. desirable.

In the storage container of Patent Document 1, a through hole penetrating in the axial direction is formed in the primary lid tightening bolt for attaching the primary lid to the container body. The water remaining at the bottom of the bolt insertion hole is discharged from the bolt insertion hole through the through hole of the primary lid tightening bolt.

Japanese Unexamined Patent Publication No. 2002-277785

When a through hole penetrating in the axial direction is formed in the primary lid tightening bolt as in Patent Document 1, the strength of the primary lid tightening bolt is lowered. Since the tightening force of the bolt required for tightening the primary lid is determined by the design requirements, the stress generated in the bolt increases when there is a through hole, and the margin of stress of the bolt material becomes smaller than the design standard value. Alternatively, it is necessary to increase the diameter of the bolt.

An object of the present invention is to provide a radioactive substance storage container capable of discharging water or the like remaining in a bolt insertion hole to the outside without lowering the strength of the primary lid tightening bolt.

The radioactive substance storage container of the present invention has a bottomed tubular body having a storage space for storing radioactive substances, a primary lid arranged at one end of the body, and an outer side of the primary lid. A secondary lid, a bolt for attaching the primary lid to one end of the body portion, and a washer arranged between the head of the bolt and the primary lid are provided, and the washer has a thickness direction. A hole penetrating in the radial direction is formed in the middle of the hole.

According to the present invention, water or the like remaining in the bolt insertion hole can be discharged to the outside without lowering the strength of the primary lid tightening bolt.

It is sectional drawing of the radioactive material storage container which concerns on 1st Embodiment of this invention. FIG. 5 is an enlarged cross-sectional view of II of the radioactive material storage container shown in FIG. It is a top view of a washer. It is sectional drawing of the washer (cross-sectional view along line IIIB-IIIB of FIG. 3A). It is an enlarged cross-sectional view around the bolt of the radioactive material storage container which concerns on 2nd Embodiment of this invention. It is sectional drawing of the washer of the radioactive material storage container which concerns on the modification.

[First Embodiment]
As shown in FIG. 1, the radioactive material storage container 1 has a bottomed cylindrical body portion 2 and a primary lid 3 and a secondary lid 4 arranged at one end of the body portion 2. In FIG. 1, hatching showing a cross section is omitted. The radioactive material is stored in the radioactive material storage container 1. Radioactive materials are, for example, spent fuel or radioactive waste. Radioactive waste includes metal waste and plastic waste.

A space 2S in which radioactive substances are stored is formed in the body portion 2. The body 2 is made of metal. Shielding layers 11 and 12 that shield radiation are arranged on the outside of the body portion 2.

The primary lid 3 is attached to one end of the body portion 2 by a bolt 5. The primary lid 3 is made of metal. The secondary lid 4 is attached to one end of the body portion 2 by a bolt 6. The secondary lid 4 is arranged on the outside of the primary lid 3. The outside of the primary lid 3 is opposite to the space 2S with respect to the primary lid 3.

FIG. 2 shows the periphery of the bolt 5 of FIG. FIG. 2 is an enlarged view of FIG. 1 II. As shown in FIG. 2, the shaft portion 21 of the bolt 5 is arranged in the bolt insertion hole 30. The bolt insertion hole 30 is a hole communicating with the primary lid 3 and the body portion 2.

The head portion 22 of the bolt 5 is arranged in the space M between the primary lid 3 and the secondary lid 4. A washer 7 is arranged between the head portion 22 of the bolt 5 and the primary lid 3.

The washer 7 is annular as shown in FIG. 3A. As shown in FIG. 3B, the washer 7 is formed with a first hole 7a and a second hole 7b penetrating in the radial direction. The first hole 7a and the second hole 7b are formed in the middle of the washer 7 in the thickness direction. The "thickness direction of the washer 7" is a direction orthogonal to the radial direction of the washer 7, and one end surface (upper end surface in FIG. 3B) 7x and the other end surface (in FIG. 3B) in the thickness direction. Lower end surface) The direction orthogonal to 7y. "In the middle of the washer 7 in the thickness direction" is between one end surface 7x and the other end surface 7y of the washer 7 in the thickness direction of the washer 7. "Between one end face 7x of the washer 7 and the other end face 7y" does not include one end face 7x of the washer 7 and the other end face 7y.

The first hole 7a and the second hole 7b are formed in the vicinity of the central Ct in the thickness direction of the washer 7. The first hole 7a and the second hole 7b are formed at the same position in the thickness direction of the washer 7, but may be formed at different positions in the thickness direction of the washer 7.

As shown in FIG. 3A, the first hole 7a and the second hole 7b face each other in the radial direction. The first hole 7a and the second hole 7b are separated by half a circumference in the circumferential direction of the washer 7. The first hole 7a is formed at a position where the second hole 7b is rotated 180 degrees around the center C of the annular washer 7.

In the present invention, "a plurality of holes formed in the middle of the washer thickness direction and penetrating in the radial direction are separated in the circumferential direction of the washer" means that the plurality of holes are in the washer thickness direction. It means that they are separated in the circumferential direction of the washer regardless of whether they are formed in the same position. In the present invention, "a plurality of holes formed in the middle of the washer thickness direction and penetrating in the radial direction are separated in the circumferential direction of the washer" are formed at the same position in the washer thickness direction. It may mean that the plurality of holes are separated in the circumferential direction of the washer, and it may mean that the plurality of holes formed at different positions in the thickness direction of the washer are separated in the circumferential direction of the washer. be.

As shown in FIG. 3B, a first chamfered portion 7h and a second chamfered portion 7i are formed on the inner peripheral surface of the washer 7. The first chamfered portion 7h is a portion chamfered so that the inner diameter becomes smaller as it approaches the center Ct in the thickness direction from one end (upper end in FIG. 3B) 7u in the thickness direction. The second chamfered portion 7i is a portion chamfered so that the inner diameter becomes smaller as it approaches the center Ct in the thickness direction from the other end (lower end in FIG. 3B) 7l in the thickness direction.

The radioactive material is stored in the radioactive material storage container 1 (see FIG. 1) by the following method.
In water, the radioactive substance is stored in the body portion 2, and the opening of the body portion 2 is closed by the primary lid 3. The body 2 and the primary lid 3 containing the radioactive material are taken out from the water, and the primary lid 3 is attached to the body 2 by bolts 5. The inside of the body 2 is drained, the inside of the body 2 is dried, and the inside of the body 2 is filled with helium gas. The secondary lid 4 is arranged on the outside of the primary lid 3, and the secondary lid 4 is attached to the body portion 2 by bolts 6. The space M surrounded by the primary lid 3, the secondary lid 4, and the body portion 2 is vacuum-dried (see FIG. 2).

When the space M is vacuum-dried, as shown in the enlarged view of FIG. 2, the water or the like remaining in the bolt insertion hole 30 rises, and the bolt is inserted through the first hole 7a and the second hole 7b of the washer 7. It is discharged from the hole 30.

As described above, the water or the like remaining in the bolt insertion hole 30 can be efficiently discharged from the bolt insertion hole 30. In the present embodiment, the strength of the bolt 5 does not decrease because the water or the like remaining in the bolt insertion hole 30 can be discharged without forming a hole penetrating the bolt 5 in the axial direction.
From the above, water or the like remaining in the bolt insertion hole 30 can be discharged to the outside from the bolt insertion hole 30 without lowering the strength of the bolt 5.

Further, when the primary lid 3 is attached to the body portion 2 (see FIGS. 1 and 2), the end face of the washer 7 (one end face 7x shown in FIG. 3B) may be deformed by tightening the bolt 5. However, as shown in FIG. 3B, the first hole 7a and the second hole 7b of the washer 7 are formed in the middle of the thickness direction, in other words, between one end surface 7x and the other end surface 7y of the washer 7. Therefore, even if the end face (one end face 7x) of the bolt 5 is deformed, the first hole 7a and the second hole 7b are not closed. Therefore, a passage through which water or the like passes is secured.

Further, as shown in FIG. 3B, since a plurality of holes (first hole 7a, second hole 7b) are formed in the washer 7, even if one of the holes is blocked by water or the like, the other hole is formed. Water or the like in the bolt insertion hole 30 can be discharged from the bolt insertion hole 30.

Further, as shown in FIG. 3B, the first chamfered portion 7h is formed by chamfering one end portion (upper end portion in FIG. 3B) of the inner peripheral surface of the washer 7. The second chamfered portion 7i is formed by chamfering the other end of the inner peripheral surface of the washer 7 (the lower end portion in FIG. 3B).
As shown in the enlarged view of FIG. 2, the first chamfered portion 7h is arranged along the corner portion 5k of the head portion 22 of the bolt 5 and the shaft portion 21. Although the corner portion 5k is rounded, the first chamfered portion 7h can be aligned with the rounded corner portion 5k. As a result, the washer 7 is less likely to be deformed when the bolt 5 is tightened.
Further, even when the washer 7 is attached closer to one side in the radial direction, the washer 7 and the primary lid 3 are surely in contact with each other without the washer 7 being hooked on the bolt hole of the primary lid 3.
Further, since chamfered portions (first chamfered portion 7h, second chamfered portion 7i) are formed at both ends of the inner peripheral surface of the washer 7 in the thickness direction, even if the front and back of the washer 7 are reversed, The above-mentioned effects can be obtained. Therefore, when the primary lid 3 is attached to the body portion 2 by the bolt 5, it is not necessary to consider the front and back sides of the washer 7.

[Second Embodiment]
Next, the second embodiment of the present invention will be described with reference to FIG. The difference between the second embodiment and the first embodiment is that powdery particles are attached to the shaft portion 21 of the bolt 5. The same reference numerals are used for the same configurations as those in the first embodiment described above, and the description thereof will be omitted as appropriate.

As shown in the enlarged view of FIG. 4, in the bolt insertion hole 30, powdery particles 110 are present around the shaft portion 21 of the bolt 5. The powdery particles 110 ensure that a gap G is formed in the bolt insertion hole 30 around the shaft portion 21 of the bolt 5. The powdery particles are solid. The powdery particles are powders. The powdery particles do not include lumpy particles and particles larger than powder (granule, etc.) formed by solidifying the powder. The powdery particles are preferably particles that do not corrode the metal. The powdery particles are, for example, graphite powder and molybdenum disulfide, but are not limited thereto.

The water or the like remaining in the bolt insertion hole 30 is sucked up into the gap G by vacuum drying as shown in the enlarged view of FIG. The sucked water is discharged through the first hole 7a and the second hole 7b of the washer 7.

As described above, according to the radioactive material storage container of the second embodiment, like the radioactive material storage container 1 of the first embodiment, water and the like remaining in the bolt insertion hole 30 without lowering the strength of the bolt 5. Can be discharged to the outside. Further, since the water or the like remaining in the bolt insertion hole 30 is sucked up into the gap S by vacuum drying, the water or the like is easily discharged from the bolt insertion hole 30.

Although the embodiments of the present invention have been described above with reference to the drawings, it should be considered that the specific configuration is not limited to these embodiments. The scope of the present invention is shown by the scope of claims rather than the above description, and includes all modifications within the meaning and scope equivalent to the scope of claims.

For example, in the first and second embodiments, as shown in FIGS. 3A and 3B, the washer 7 has two holes (first hole 7a,) penetrating in the radial direction in the middle of the thickness direction. The second hole 7b) is formed. However, only one hole penetrating in the radial direction in the middle of the thickness direction of the washer may be formed in the washer, or three or more holes may be formed in the washer. The number of holes is not limited, but two is preferable.

Further, in the first embodiment and the second embodiment, as shown in FIG. 3A, two holes (first hole 7a and second hole 7b) penetrating in the radial direction are formed in the middle of the thickness direction of the washer 7. , The washer 7 is separated by half a circumference in the circumferential direction. However, the distance between the holes does not have to be half the circumference in the circumferential direction of the washer 7.

Further, in the first embodiment and the second embodiment, as shown in FIG. 3B, the first hole 7a and the second hole 7b are formed in the vicinity of the central Ct in the thickness direction of the washer 7. However, the first hole 7a and the second hole 7b do not have to be formed in the vicinity of the central Ct in the thickness direction of the washer 7. The hole penetrating in the radial direction of the washer may be formed at any position as long as it is in the middle of the thickness direction.

Further, in the first embodiment and the second embodiment, as shown in FIG. 3B, a first chamfered portion 7h is formed at one end in the thickness direction on the inner peripheral surface of the washer 7, and the first chamfered portion 7h is formed in the thickness direction. A second chamfered portion 7i is formed at the other end portion of the above. In other words, both ends in the thickness direction are chamfered on the inner peripheral surface of the washer 7. However, the inner peripheral surface of the washer 7 does not have to be chamfered. Further, as shown in FIG. 5, a chamfered portion 207i may be formed on the inner peripheral surface of the washer 207 only at one end in the thickness direction.

1,301 Radioactive material storage container 2 Body 2S Space 3 Primary lid 4,304 Secondary lid 5,6 Bolt 7 Washer 7a 1st hole 7b 2nd hole 7h 1st chamfered part 7i 2nd chamfered part 7x One end face 7y The other end face 8A, 208A Circumferential side surface 8B, 208B One end face 8C, 208C The other end face 21 Shaft 22 Head 30 Bolt insertion hole 110 Particle 310 Outer container 311 Container body S Gap

Claims (4)

A bottomed cylindrical body with a storage space for storing radioactive materials,
A primary lid arranged at one end of the body and
With the secondary lid arranged on the outside of the primary lid,
A bolt that attaches the primary lid to one end of the body,
A washer arranged between the head of the bolt and the primary lid is provided.
A storage container characterized in that a hole penetrating in the radial direction is formed in the washer in the middle in the thickness direction. The storage container according to claim 1, wherein powdery particles are present around the shaft portion of the bolt. A plurality of the holes are formed in the washer,
The storage container according to claim 1 or 2, wherein the plurality of holes are separated from each other in the circumferential direction of the washer. The one according to any one of claims 1 to 3, wherein the inner peripheral surface of the washer is chamfered so that the inner diameter becomes smaller as it approaches the center in the thickness direction from one end in the thickness direction. Storage container.

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