JP3606787B2 - Exhaust plug replacement device and exhaust plug replacement method for radioactive material storage container - Google Patents

Description

[0001]
The present invention is particularly useful for storing radioactive materials that can easily detect the state of the inside of the container while preventing radioactive materials from being released into the surrounding environment when storing radioactive materials such as nuclear fuel materials for a long period of time . The present invention relates to a container exhaust plug replacement device and an exhaust plug replacement method .
[0002]
[Prior art]
A container for storing radioactive materials such as nuclear fuel materials is a container for storing radioactive materials for a long period of several to several tens of years without leaking out of the container. There are two types of storage containers: dedicated storage containers that can only be transported within the office, and transport and storage containers that can be transported outside the office. Storage containers are already in practical use in Japan. Transport and storage containers have already been put to practical use in Western countries and are being studied in Japan.
[0003]
Since the storage container is manufactured for the purpose of storing radioactive materials in a sealed state for several to several tens of years, the following design requirements are included in the design.
[0004]
First, the openings other than the openings for taking in and out the radioactive substance are designed to be as small as possible. For this reason, the exhaust plug used for adjusting the internal pressure after storing the stored item is provided on the lid that closes the opening portion for storing / extracting the stored item.
[0005]
Second, a secondary lid is provided outside the opening for loading and unloading stored items, and a gas of several atmospheric pressure is sealed between the lid and the secondary lid, thereby reducing the pressure inside the container to the lid and the secondary lid. The negative pressure with respect to the atmospheric pressure between. Accordingly, even if the airtightness is lost between the opening for entering and exiting the stored item and the lid closing the opening, the radioactive gas inside the container does not leak to the outside. In this case, since the air pressure between the lid and the secondary lid is lowered, loss of airtightness can be detected by constantly measuring the air pressure between the lid and the secondary lid. .
[0006]
Third, a metal gasket is used at the sealing boundary of the opening to ensure long-term tightness. The storage container is designed on the premise that the lid cannot be opened during storage, but when it becomes necessary to observe the inside of the container and when it is necessary to drain or exhaust the inside of the container, The secondary lid and lid must be opened. At this time, since the metal gasket cannot be reused, it is necessary to use a new gasket when closing the lid again.
[0007]
On the other hand, there is a transport container as a container that cannot be stored for a long time but can be transported outside the office. The transport container is provided with a stopper for discharging gas and liquid inside the container, and an elastomer (rubber-like organic material) gasket that can be used repeatedly is used at the sealed boundary. For this reason, opening and closing of the opening can be performed relatively easily. The life of the elastomer gasket is about several years. However, in the case of a transport container, there is no problem because the radioactive material is stored for about one year at most. Further, the lid and stopper of the transport container cannot be provided with an external sealing device such as a secondary lid and an exhaust stopper cover.
[0008]
Hereinafter, examples of the storage container and the transport container in the prior art will be described in detail. Fig.5 (a) shows an example of a structure of the conventional storage container. The container has a cylindrical shape, and one bottom surface and side surface of the cylindrical body are integrated to form a container body 1. The other bottom surface is the only opening 2 of the container. The opening 2 has a lid 3 that can close the opening 2. The lid 3 is provided with an exhaust hole 4, and an exhaust plug 5 that can close the exhaust hole 4 is airtight against the outer surface of the container body. Provided. A secondary lid 6 is disposed outside the lid 3 in an airtight manner with respect to the container body 1 so as to cover the lid 3. Metal gaskets are provided between the opening 2 and the lid 3, between the exhaust hole 4 and the exhaust plug 5, and between the container body 1 and the secondary lid 6.
[0009]
Next, a storage method, a transportation method, and a storage method for stored items using the storage container will be described. FIGS. 5B and 5C show the storage method of the stored items in the storage container and the exhaust and drainage methods during storage. First, the container is set up with the opening 2 facing up, the lid 3 is removed, and the stored item 8 is unloaded and stored from the opening 2. Thereafter, the opening 2 is closed by the lid 3, water and air remaining inside the container are discharged from the exhaust hole 4, and the exhaust hole 4 is closed by the exhaust plug 5. FIG. 6A shows a method for transporting stored items using the storage container. When transporting, the container is laid sideways and the impact absorbing cover 9 is attached to the lid and bottom of the container. Further, the secondary lid 6 is not attached during transportation. FIGS. 6B and 6C show a method for storing the stored items in the storage container. During storage, the shock absorbing cover 9 is removed and the container is placed so that the lid 3 is on top. Thereafter, the secondary lid 6 is applied over the lid 3 to cover the lid 3, and after filling the space between the lid 3 and the secondary lid 6 with high-pressure gas, the secondary lid 6 is completely sealed. In this state, the radioactive substance can be stored for a long time.
[0010]
A transport container and an example of its operation will be described. FIG. 7A shows an example of the configuration of the transport container. The container has a cylindrical shape, and one bottom surface and side surface of the cylindrical body are integrated to form a container body 1. The other bottom surface is an opening 2 for taking in and out the stored items. The opening 2 has a lid 3 that can close the opening 2. The lid 3 has an exhaust hole 4, and an exhaust plug 5 that can close the exhaust hole 4. An intake hole 12 is provided near the opening on the side of the main body, and a drain hole 13 is provided near the bottom. The intake holes 12 and the drain holes 13 are provided with plugs that can close them. Between the opening 2 and the lid 3, between the exhaust hole 4 and the exhaust plug 5, between the intake hole 12 and the plug that closes the intake hole 12, and between the drain hole 13 and the plug that closes the drain hole 13. Each is provided with an elastomer gasket.
[0011]
Next, a storage method and a transport method for stored items using the transport container will be described. FIGS. 7B and 7C show the storage method of the stored items in the transport container and the exhaust and drainage methods during storage. First, the container is set up with the opening 2 facing up, the lid 3 is removed, and the stored item 8 is unloaded and stored from the opening 2. Thereafter, the opening 2 is closed with the lid 3, and when water remains inside the container, the water is discharged from the drain hole 13. The intake hole 12 is used for intake air during drainage, and the exhaust hole 4 is used for pressure adjustment inside the container. After draining, the opening 2, the exhaust hole 4, the exhalation hole 12 and the drain hole 13 are closed. FIG.7 (d) shows the transport method of the stored article using this transport container. When transporting, the container is laid sideways and the impact absorbing cover 9 is attached to the lid and bottom of the container. A cover 10 is separately attached to the plug that is not covered with the shock absorbing cover 9. In this way, the transport container has an exhaust hole, an intake hole, and a drain hole, and a reusable elastomer gasket is used at the hermetic boundary thereof. This can be done at low cost. However, on the other hand, the shipping container has many openings and does not have means for guaranteeing long-term sealing, such as a metal gasket and a secondary lid, so that radioactive materials cannot be stored for a long time.
[0012]
[Problems to be solved by the invention]
The conventional storage container has the following problems. As described above, the storage container fills the space between the lid and the secondary lid with a gas of several atmospheres when storing the contents, so that the interior of the container is placed between the lid and the secondary lid during the storage period. A negative pressure is applied to the space to prevent leakage of radioactive gas and to detect leakage when sealing is lost. When storing items that generate little gas during storage, the pressure inside the container will not increase significantly during storage, but for items that generate gas during storage, the container will increase over time. Since the internal pressure rises, the pressure in the space between the lid and the secondary lid needs to be increased in advance. However, in this case, since it is necessary to increase the strength of the joint between the lid and the secondary lid and the container body, the cost is increased. Moreover, since the high-pressure gas is stored, the risk during storage increases.
[0013]
On the other hand, if the pressure inside the container can be measured during storage and can be reduced as necessary, the pressure between the lid and the secondary lid may be the same as that when storing an article that does not generate gas. However, when the pressure inside the container is measured and the pressure is reduced, the stopper attached to the lid needs to be opened, but in order to open the stopper, the secondary lid needs to be opened. The diameter of the secondary lid is usually about 1 to 2 m, and it takes time and labor to properly tighten the metal gasket of this size. Moreover, the cost of a metal gasket also costs.
[0014]
As described above, since the storage container is designed on the premise that the container is stored without opening the lid once it has been stored, it is difficult to check the state of the container during storage. When measuring the pressure inside the container, depressurization, sampling of gas, etc. during storage, it is necessary to open the secondary lid and stopper or lid, which is costly and time consuming. On the other hand, the opening and closing of the opening of the transport container is easier than the storage container, but it does not have a metal gasket and does not have an external sealing device such as a secondary lid. Is possible.
[0015]
The present invention has been made in view of such problems, and can store radioactive materials for a long period of time, and can easily perform measurement, adjustment, gas sampling, and the like of pressure inside the container. An object of the present invention is to provide an exhaust plug replacement device and an exhaust plug replacement method for a radioactive substance storage container .
[0016]
[Means for Solving the Problems]
An exhaust plug replacement device for a radioactive substance storage container according to the first invention of the present application is provided in a container body provided with an opening for inserting contents, a lid capable of closing the opening, and the container body. and exhaust can close the vent hole plug, the storage vessel of the hermetically radioactive materials that have a and vent plug cover provided against the outer surface of the container body so as to cover the outside of the vent plug In the exhaust plug replacement device for exchanging the exhaust plug, an outer cylinder having an exhaust plug inlet / outlet that is airtightly connectable to the exhaust hole at a distal end, and an airtight seal in the outer cylinder, is advanced and retracted toward the inlet / outlet. An exhaust plug attaching / detaching tool that is movably provided and detachably connects the head of the exhaust plug, and an unused exhaust that is rotatably provided so as to be interposed in a passage area of the exhaust plug attaching / detaching tool in the outer cylinder. 1st port to place the stopper, 2nd to place the used exhaust stopper And a rotary table having a third port that allows passage of the exhaust plug attachment / detachment tool, and the exhaust port when the third port of the rotation table rotates to the passage position of the exhaust plug attachment / detachment tool. The exhaust plug attachment / detachment tool is moved to perform attachment / detachment of the exhaust plug to / from the exhaust hole, and the exhaust port attachment / detachment tool is rotated when the first port and the second port of the rotary table are rotated to the passage position of the exhaust plug attachment / detachment tool. The exhaust plug held by the is replaced.
[0017]
The space between the exhaust plug and the exhaust plug cover is filled with a gas having a pressure higher than the gas pressure inside the container body.
[0018]
Further, the storage container is preferably provided with a metal gasket between the exhaust plug and the exhaust hole, and the exhaust plug is mechanically fastened to the container body.
[0019]
And a secondary lid that is airtightly provided on the outer surface of the container body so as to cover the outside of the lid of the opening, and the container is disposed in a space between the lid and the secondary lid. It is preferable that a gas having a pressure higher than the gas pressure inside the main body is enclosed.
[0020]
According to a second aspect of the present invention, there is provided a method for replacing an exhaust plug of a storage container for a radioactive substance, the container body having an opening for inserting contents, a lid capable of closing the opening, and the container body. and exhaust can close the vent hole plug, the storage vessel of the hermetically radioactive materials that have a and vent plug cover provided against the outer surface of the container body so as to cover the outside of the vent plug In the method of exchanging the exhaust plug, an outer cylinder having an exhaust plug inlet / outlet that is airtightly connectable to the exhaust hole at the tip and having airtightness, and moving forward and backward toward the inlet / outlet in the outer cylinder An exhaust plug attaching / detaching tool that is detachably connected to the head of the exhaust plug, and an unused exhaust plug that is rotatably provided so as to be interposed in a passage area of the exhaust plug attaching / detaching tool in the outer cylinder. A first port to be placed, a second port to place a used exhaust plug, and A step of airtightly connecting the exhaust plug inlet / outlet to the exhaust port using an exhaust plug exchange device having a rotary table having a third port that allows passage of the exhaust plug attachment / detachment tool, and the rotary table The third port is rotated to the passage position of the exhaust plug attachment / detachment tool, and the exhaust plug attachment / detachment tool is moved forward to disengage the used exhaust plug from the exhaust hole, and then the exhaust plug attachment / detachment tool is retracted. A step of rotating the second port of the rotary table to a passage position of the exhaust plug attachment / detachment tool, and transferring the used exhaust plug from the exhaust plug attachment / detachment tool onto the second port; Rotating the first port to a position where the exhaust plug attachment / detachment tool passes to hold an unused exhaust plug on the exhaust plug attachment / detachment tool; passing the third port of the rotary table through the exhaust plug attachment / detachment tool; Rotate to position Characterized in that a step of mounting the unused vent plug held by advancing the vent plug detachable tool allowed to the exhaust port.
[0021]
Further, the storage method includes a step of measuring the gas pressure inside the container by opening the exhaust hole during storage of the radioactive substance, a step of adjusting the gas pressure inside the container, and a step of sampling the gas inside the container Can have one or more steps.
[0023]
Since the storage container of the present invention has an exhaust hole in addition to the opening for inserting the contents, the pressure inside the container can be easily measured, adjusted, and sampled. Since the hole is provided with an exhaust plug and an exhaust plug cover, the radioactive substance can be stored for a long period of time. Further, by using the exhaust plug replacement device of the present invention, it is possible to measure and adjust the pressure inside the container and sample the gas without leaking the gas inside the container to the outside.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Fig.1 (a) shows the structure of the storage container of a present Example. The container has, for example, a cylindrical shape, and one bottom surface and side surface of the cylindrical body are integrated to form a container body 1. The other bottom surface is an opening 2 for taking in and out the contents of the container. The opening 2 has a lid 3 that can close the opening 2, and outside the lid 3 is a secondary lid 6 that covers the lid 3 and is airtightly provided on the outer surface of the container body. On the other hand, there is an exhaust hole 4 on the side surface of the container body 1, and an exhaust plug 5 that can close the exhaust hole 4 is provided in the exhaust hole 4, and the container covers the exhaust plug 5 outside the exhaust plug 5. There is an exhaust plug cover 7 provided airtight to the outer surface of the main body. Metal between the opening 2 and the lid 3, between the container body 1 and the secondary lid 6, between the exhaust hole 4 and the exhaust plug 5, and between the container main body 1 and the exhaust plug cover 7. A gasket is provided.
[0025]
As for the size of the container body 1, for example, the diameter of the bottom surface is 2 m and the height is 5 m. The container body 1 and the lid 3 are each 0.3 m thick, and the outer diameters of the metal gaskets used in the lid 3, secondary lid 6, exhaust plug 5 and exhaust plug cover 7 are 1.5 m, 1.6 m, 0.1 m and 0.2 m. The main constituent material of the container body 1 and the lid 3 is, for example, steel.
[0026]
Next, a storage method, a transportation method, and a storage method for stored items using the storage container will be described. FIGS. 1B and 1C show a storage method for stored items and an exhaust method during storage in this embodiment. First, the container is set up with the opening 2 facing up, the lid 3 is removed, and the stored item 8 is unloaded and stored from the opening 2. Thereafter, the opening 2 is closed with the lid 3, the pressure inside the container is adjusted via the exhaust hole 4, and the exhaust hole 4 is closed with the exhaust plug 5. Fig.2 (a) shows the transport method of the stored article in a present Example. When transporting, the container is laid sideways and the impact absorbing cover 9 is attached to the lid and bottom of the container. When the exhaust hole 4 is not covered with the shock absorbing cover 9, another cover 10 is attached. The secondary lid 6 and the exhaust plug cover 7 are not attached during transportation. FIGS. 2B and 2C show the storage method of the stored items in this embodiment. At the time of storage, the shock absorbing cover 9 and the cover 10 are removed, and the container is arranged so that the lid 3 is on the top. Thereafter, the secondary lid 6 is applied to the outside of the lid 3 to cover the lid 3, the exhaust plug cover 7 is applied to the outside of the exhaust plug 5 to cover the exhaust plug 5, and the space between the lid 3 and the secondary lid 6 is covered. In addition, the space between the exhaust plug 5 and the exhaust plug cover 7 is filled with, for example, 3 atm of helium gas, and the secondary lid 6 and the exhaust plug cover 7 are completely sealed. In this state, the radioactive substance can be stored for a long time.
[0027]
3A and 3B show a method for adjusting the internal pressure of the container during storage in the storage container of this embodiment. The container is moved into the management area and arranged so that the exhaust hole 4 faces upward. The exhaust plug cover 7 is removed, and the exhaust plug replacement device 11 is mounted on the exhaust hole 4. The exhaust plug 5 and the metal gasket associated therewith are removed from the exhaust hole 4 using the exhaust plug changer 11, the pressure inside the container is measured, and the gas inside the container is exhausted as necessary. Thereafter, another exhaust plug 5a fitted with a new metal gasket is installed in the exhaust hole 4, the exhaust plug replacement device 11 is removed, the exhaust plug 5a is covered with the exhaust plug cover 7, and the exhaust plug 5a and the exhaust plug cover 7 For example, is filled with helium gas of 3 atm. In the series of operations described above, by using the exhaust plug replacement device 11, the exhaust plugs 5 and 5a can be attached and detached without leaking radioactive material inside the container to the periphery. FIGS. 3C and 3D show the storage method in this storage container. Move the container to the storage area, stand the container with the lid 3 facing up and continue to store. When opening and closing the exhaust plug cover 7 and the exhaust plug 5, it is necessary to use a new metal gasket every time. However, the outer diameters of the gaskets of the exhaust plug cover 7 and the exhaust plug 5 are 0.2 m and 0.1 m, respectively. Compared with the large metal gasket of the secondary lid 6 or the lid 3, the handling is much easier and the cost is lower.
[0028]
Thus, if the storage container of the present invention is used, the pressure inside the container can be measured and adjusted easily without opening the secondary lid and lid of the opening. In addition, this storage container has an exhaust plug and an exhaust plug cover in the exhaust hole, and the space between the exhaust plug and the exhaust plug cover is filled with a gas having a higher pressure than the inside of the container. It can be prevented and monitored and can be stored for a long time.
[0029]
FIG. 4A is a cross-sectional view showing an example of the configuration of the exhaust plug replacement device 11, and FIG. 4B is an enlarged perspective view showing the rotary table 24. FIG. 4 (a) shows that the exhaust plug changer 11 is connected to the exhaust hole 4 provided in the main body 1 of the storage container, and the exhaust plug 5 that has closed the exhaust hole 4 is removed from the exhaust hole 4. The state of is shown. As shown in FIG. 4A, the exhaust plug changer 11 is covered with an outer cylinder 21 having airtightness. An exhaust plug inlet / outlet port 29 is provided at the tip of the outer cylinder 21 so that the exhaust plugs 5 and 5a can be taken in and out and can be hermetically connected to the exhaust hole 4 of the storage container. Further, an exhaust plug attachment / detachment tool 23 is provided in the outer cylinder 21 so as to be movable forward and backward toward the exhaust plug inlet / outlet port 29 and detachably connects the heads of the exhaust plugs 5 and 5a. Further, the rotary table 24 provided in the outer cylinder 21 is used by being pulled out from the first port 26 and the exhaust hole 4 on which the replacement exhaust plug 5a on which a new metal gasket (not shown) is previously mounted is placed. A second port 27 for mounting the exhaust plug 5 and a metal gasket (not shown) associated therewith and a third port 28 allowing passage of the exhaust plug attaching / detaching tool 23 are provided. The rotary table 24 is rotatable around the center thereof, and any one of the first port 26, the second port 27, and the third port 28 can be disposed on the movement path of the exhaust plug attachment / detachment tool 23. As a result, the exhaust plug 5 that the exhaust plug attaching / detaching tool 23 has been pulled out from the exhaust hole 4 is placed on the first port 26, and the exhaust plug attaching / detaching tool 23 is attached with the replacement exhaust plug 5a placed on the second port. In addition, the exhaust plug attaching / detaching tool 23 can pass through the third port 28 and reach the exhaust hole 4. The exhaust hole 4 is provided perpendicular to the surface of the main body 1 of the storage container and is connected to the exhaust plug changer 11 and to the bottom part of the storage container (see FIG. (Not shown) and a side hole portion that continues to the center.
[0030]
Next, the operation of the exhaust plug replacement device 11 will be described. A replacement exhaust plug 5a fitted with a new metal gasket is set in the first port 26 in advance, and the exhaust plug inlet / outlet port 29 is connected to the exhaust hole 4 of the storage container. After the connection, the head of the exhaust plug 5 closing the exhaust hole 4 is grasped by the exhaust plug attachment / detachment tool 23, and the exhaust plug 5 and the metal gasket attached thereto are connected to the exhaust plug inlet / outlet 29 and the third port 28. The rotary table 24 is passed through and pulled out, and the rotary table 24 is rotated and placed in the second port 27. Thereafter, the internal pressure of the storage container is measured, the internal pressure is adjusted, and the internal gas is sampled. Next, the rotary table 24 is rotated, the replacement exhaust plug 5a set in the first port 26 is grasped by the exhaust plug attachment / detachment tool 23, the rotation table 24 is rotated again, and the replacement exhaust plug 5a is moved to the third position. The port 28 and the exhaust plug inlet / outlet port 29 are passed through and set in the exhaust hole 4. Finally, the exhaust plug replacement device 11 is removed from the storage container, and the replacement of the exhaust plug 5 is completed.
[0031]
Thus, by using this exhaust plug replacement device 11, the exhaust plug can be opened and closed without leaking the radioactive substance inside the container to the outside.
[0032]
In the present embodiment, an example of a storage container having a cylindrical shape is shown, but the shape of the storage container of the present invention is not particularly limited, and may be any shape such as a rectangular tube. Furthermore, in the present embodiment, an example of a container mainly made of steel was shown. However, the material constituting the storage container of the present invention is a radiation shielding property, air tightness, strength and corrosion resistance withstanding long-term storage. As long as it has, it is not particularly limited to steel. In addition, the storage container of the present invention includes both a storage-only container that can only be transported within the office and a transport / storage container that can be transported outside the office.
[0033]
In the present embodiment, the case where the stored item is stored in the atmosphere is shown, but the stored item can be stored in water. In this case, a drain plug may be provided on the lid of the main opening. It is also possible to devise the design of the exhaust plug replacement device and observe the state inside the container by observation means such as a fiberscope.
[0034]
【The invention's effect】
As previously mentioned, according to the present invention, the storage container for radioactive materials, the exhaust hole for discharging gas and liquid separately in the container and the opening for accommodating the stored item is provided, the exhaust hole the occluding the vent plug. Thus for detachable from the exhaust hole by the vent plug removable tool, with it is possible to store the radioactive material long term, etc. conveniently measurement and adjustment of the pressure inside the vessel Ru can be done. In addition, according to the present invention, the pressure inside the container can be adjusted as necessary, so that the internal pressure can be kept low even in the case where stored items that generate gas are stored, and the cost of the container can be reduced. Can be improved.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a structure of a storage container, a storage method for stored items, and a method for exhausting internal gas in an embodiment of the present invention. (A) Structure (b) Storage method for stored items (c) Exhaust method FIG. 2 is a cross-sectional view showing a transport method and a storage method for a storage container in an embodiment of the present invention. (A) Transportation method (b) Storage preparation method (c) Storage method FIG. 3 is a cross-sectional view showing an internal pressure adjusting method and a storage method of a storage container in an embodiment of the present invention. (A) Pressure adjustment preparation method (b) Pressure adjustment method (c) Storage preparation method (d) Storage method FIG. 4 (a) is a cross-sectional view showing an example of the configuration of the exhaust plug replacement device in the embodiment of the present invention (B) is an enlarged perspective view of the rotary table 24.
FIG. 5 is a cross-sectional view showing an example of a structure of a conventional storage container and a storage method, exhaust method, and drainage method of stored items. (A) Structure (b) Storage method of stored item (c) Exhaust and drainage method FIG. 6 is a cross-sectional view showing an example of a conventional storage container transport method and storage method. (A) Transportation method (b) Storage preparation method (c) Storage method FIG. 7 is a cross-sectional view showing an example of the structure of a conventional transport container and the storage method, exhaust method, drainage method and transport method of stored items. . (A) Structure (b) Storage method (c) Exhaust and drainage method (d) Transportation method [Explanation of symbols]
DESCRIPTION OF SYMBOLS 1; Main body 2; Opening part 3; Lid 4; Exhaust hole 5; Exhaust plug 5a; Replacement exhaust plug 6; Secondary lid 7; Exhaust plug cover 8; Exchanger 12; intake hole 13; drainage hole 21; outer cylinder 23; exhaust plug attachment / detachment tool 24; rotary table 25; rotary shaft 26; first port 27; second port 28;

Claims (7)

A container main body having an opening for inserting contents, a lid capable of closing the opening, an exhaust plug capable of closing an exhaust hole provided in the container main body, and covering the outside of the exhaust plug hermetically the outer surface vent plug exchange apparatus for exchanging said vent plug in the storage container for radioactive materials that have a and vent plug cover provided hermetically with respect to said container body, said exhaust hole to the tip An airtight outer cylinder having a connectable exhaust plug inlet and outlet, and an exhaust plug that is detachably connected to the head of the exhaust plug provided in the outer cylinder so as to move forward and backward toward the inlet / outlet A detachable tool, a first port on which an unused exhaust plug is placed, which is rotatably provided so as to be interposed in a passage area of the exhaust plug detachable tool in the outer cylinder, and a first port on which a used exhaust plug is placed. 2 ports and a third port that allows passage of the exhaust plug attachment / detachment tool A rotary table, and when the third port of the rotary table is rotated to the passage position of the exhaust plug attachment / detachment tool, the exhaust plug attachment / detachment tool moves to perform attachment / detachment of the exhaust plug to / from the exhaust hole, A radioactive substance storage container characterized in that when the first port and the second port of the rotary table are rotated to the passage position of the exhaust plug attachment / detachment tool, the exhaust plug held by the exhaust plug attachment / detachment tool is replaced. Exhaust plug changer. The radioactive gas according to claim 1, wherein the storage container is filled with a gas having a pressure higher than a gas pressure inside the container body in a space between the exhaust plug and the exhaust plug cover . Exhaust plug changer for material storage container . The storage container is provided with a metal gasket between the exhaust plug and the exhaust hole, and the exhaust plug is mechanically fastened to the container main body. An exhaust plug changer for a radioactive material storage container as described. The said storage container has a secondary lid provided airtight with respect to the outer surface of the said container main body so that the outer side of the said lid | cover of the said opening part may be covered. The exhaust plug changer for a radioactive substance storage container according to item 1. The radioactive substance according to claim 4 , wherein the storage container is filled with a gas having a pressure higher than a gas pressure inside the container body in a space between the lid and the secondary lid. Exhaust plug replacement device for storage containers . A container main body having an opening for inserting contents, a lid capable of closing the opening, an exhaust plug capable of closing an exhaust hole provided in the container main body, and covering the outside of the exhaust plug a method of replacing the vent plug in the storage container for hermetically provided radioactive materials that have a and vent plug covers were against the outer surface of the container body, hermetically connected to the exhaust hole in the tip An outer cylinder having a possible exhaust plug inlet / outlet and having airtightness, and an exhaust plug attachment / detachment tool that is movably moved toward and away from the inlet / outlet in the outer cylinder and detachably connects the head of the exhaust plug A first port on which an unused exhaust plug is placed so as to be rotatable so as to be interposed in a passage area of the exhaust plug attachment / detachment tool in the outer cylinder, a second port on which a used exhaust plug is placed, and A rotary table provided with a third port that allows passage of the exhaust plug attachment / detachment tool. A step of airtightly connecting the exhaust plug inlet / outlet to the exhaust port, and rotating the third port of the rotary table to the passage position of the exhaust plug attachment / detachment tool. A step of moving the exhaust plug attachment / detachment tool to disengage the used exhaust plug from the exhaust hole and then retracting the exhaust plug attachment / detachment tool; and Rotating the used exhaust plug from the exhaust plug attaching device onto the second port; rotating the first port of the rotary table to the passing position of the exhaust plug attaching device; A step of holding an unused exhaust plug on the exhaust plug attaching / detaching tool; The exhaust plug Vent plug replace a storage container for radioactive material, characterized in that a step of mounting the air outlet. A step of measuring a gas pressure inside the storage container after removing a used exhaust plug from the exhaust hole , a step of adjusting a gas pressure inside the storage container, and a gas inside the storage container The method for replacing an exhaust plug of a radioactive substance storage container according to claim 6, wherein one or more of the steps of sampling are performed.

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