JP5005487B2 - Transport container - Google Patents

Description

  The present invention relates to a transport container that transports a liquid contained in an air feed pipe by air.

  Many transport containers have been proposed for containing a liquid containing a radioactive substance or a pollutant inside and transporting the liquid by air-feeding it. For example, in Patent Documents 1 to 3, a cylindrical cartridge main body, a cartridge lid attached to an opening of the cartridge main body, and a cylindrical shape that can store liquid therein and are stored in the cartridge main body. There is disclosed a transport container including a jug main body and a jug lid body that is positioned so as to cover an inner peripheral surface and an outer peripheral surface of the opening of the jugg main body and is attached to the opening. The transport container having such a configuration is evacuated inside by a predetermined means using a vacuuming device, and further pierced with a syringe needle from the outside of the jug lid body into the evacuated jug body. Liquid is injected. When the transport container disclosed in Patent Documents 1 to 3 is aired through the air pipe, the liquid stored in the jug body may leak along the inner and outer peripheral surfaces of the opening of the jug body. is there. Thus, when the liquid accommodated in the jug main body leaks to the outside while the transport container is being aired through the air pipe, there is a problem that the inside of the air pipe is contaminated.

  In order to solve the above-described problems, Patent Document 4 discloses a transport container provided with a leakage preventing structure for preventing liquid leakage on the outer peripheral surface of the opening of the jug body. In Patent Document 5, an inner lid that contacts the inner peripheral surface of the opening of the jugging body and an outer lid that is disposed so as to contact the outer peripheral surface of the opening and cover the inner lid are provided. A transport container is disclosed that is configured to work and cover the opening of the jug body with a double sealed structure.

JP-A-7-167754 JP 2001-289743 A JP 2003-14592 A JP 2003-26248 A JP 2004-269038 A

  The transport containers disclosed in Patent Documents 4 and 5 described above can suppress the liquid stored in the jug body from leaking to the outside, but a transport container having a higher leakage prevention effect is desired. Yes.

  Therefore, an object of the present invention is a transport container that transports the liquid contained in the air feeding tube by air, and can sufficiently prevent the liquid contained in the inside from leaking to the outside. It is to provide a transport container.

Further, the present invention is a transport container for transporting the liquid contained in the air by feeding the inside of the air pipe,
A bottomed cylindrical cartridge body,
A cartridge lid that is detachably attached to the opening of the cartridge body;
A jug body that is formed in a bottomed cylindrical shape and contains a liquid therein, wherein the bottom is disposed on the opening side of the cartridge body and the opening is disposed on the bottom side of the cartridge body. Jug body to be accommodated,
A jug lid that is detachably attached to the opening of the jugg body,
Jug lid is
Formed in the shape of a bottomed cylinder, the top part contacts the end face of the opening of the jugging body, the side part contacts from the inside of the opening of the jugging body, and is attached to the opening of the jugging body,
On the side portion of the jug lid, a concave portion recessed from the outer peripheral surface to the inner peripheral surface side is formed over the entire circumference.
A covering portion that extends from the top of the jugging lid in the central axis direction and faces the side of the jugging lid and contacts the upper edge and outer peripheral surface of the opening of the jugging body, In cooperation with the covering portion, the opening of the jug body is configured to be sandwiched across the entire circumference in the circumferential direction from both the radially outer side and the inner side,
Having a protrusion protruding radially outward from the covering portion near the top of the jug lid,
The difference between the outer diameter of the protrusion of the jugging lid and the inner diameter of the bottom of the cartridge body is set to be larger than the difference between the outer diameter of the bottom of the jugging body and the inner diameter of the opening of the cartridge body. It is the conveyance container characterized.
In the invention, it is preferable that the jug lid is formed of silicon rubber whose type A durometer hardness is adjusted to 40 or more and 70 or less.

  Further, the invention is characterized in that a protrusion that fits into a recess formed in a side portion of the jug lid is formed on the inner peripheral surface of the opening of the jugg main body.

Further, according to the present invention, the jug main body that contains the liquid is formed in a bottomed cylindrical shape, the bottom is disposed on the opening side of the cartridge main body, and the opening is disposed on the bottom side of the cartridge main body. The cartridge is stored in the cartridge body. A jug lid is attached to the opening of the jug body. The jug lid is formed in a bottomed cylindrical shape, the top part comes into contact with the end face of the opening part of the jug body, the side part comes into contact with the inside of the opening part of the jug body, and is attached to the opening part of the jug body, A concave portion that is recessed from the outer peripheral surface to the inner peripheral surface side is formed in the side portion of the jug lid over the entire circumference. Further, the jug lid has a covering portion that extends in the central axis direction from the top of the jug lid, faces the side of the jug lid, and contacts the upper edge and the outer peripheral surface of the opening of the jugg body. The side part of the jug lid body and the covering part cooperate to sandwich the opening part of the jug body from the radially outer side and the inner side over the entire circumferential direction. Furthermore, the jug lid has a protrusion that protrudes outward in the radial direction from the covering portion near the top of the jug lid. The difference between the outer diameter of the protrusion of the jug lid and the inner diameter of the bottom of the cartridge main body is set to be greater than the difference between the outer diameter of the bottom of the jugg main body and the inner diameter of the opening of the cartridge main body. Yes. As a result, fluctuations in the position of the center of gravity due to the movement of the liquid contained in the jug body are alleviated. For this reason, it is possible to suppress a decrease in the transport stability of the transport container in the air pipe.
According to the invention, the jug lid is formed of silicon rubber whose type A durometer hardness is adjusted to 40 or more and 70 or less. A jug lid formed of silicon rubber having a type A durometer hardness of 40 or more has a sufficient elastic repulsion force, so that the outer peripheral surface of the side of the jugg lid and the inner peripheral surface of the opening of the jugg main body. Adhesion can be increased. Furthermore, since the jug lid has a sufficient elastic repulsive force, it is possible to sufficiently close the crack that occurs after the needle of the syringe is inserted into the jug lid and pulled out. In addition, since the jug lid formed of silicon rubber having a type A durometer hardness of 70 or less is deformed following the shape of the inner circumferential surface of the opening of the jug body, the outer circumferential surface of the side portion of the jugg lid body And the inner peripheral surface of the opening of the jug main body can be increased. In addition, according to the present invention, by appropriately selecting the material and shape of the jug lid, the liquid contained in the jug body can be prevented from leaking to the outside with a simple structure of a single material. Can do.

  Moreover, according to this invention, the protrusion part fitted to the recessed part formed in the side part of a jug lid body is formed in the internal peripheral surface of the opening part of a jug main body. Therefore, the jug lid is positioned and mounted on the jugg main body, and the contact state between the outer peripheral surface of the side portion of the jugg lid and the inner peripheral surface of the opening of the jugg main body can be maintained.

  FIG. 1 is a cross-sectional view showing a configuration of a transport container 100 according to the first embodiment of the present invention. FIG. 2 is a cross-sectional view showing a state when liquid is injected into the transport container 100. The transport container 100 includes a cartridge 20 and a jug 10 accommodated in the cartridge 20. The transport container 100 transports the liquid accommodated in the jug 10 by causing the inside of the air feeding tube to be inflated. In the transport container 100, the inside of the jug 10 is evacuated by a vacuum device (not shown), and a needle 30 of a syringe is pierced from the outside of a later-described jug lid 11 included in the jug 10 to supply liquid into the evacuated jug 10. It has a structure that can be injected. Here, the liquid injected into the jug 10 is, for example, concentrated nitric acid containing radioactive material, n-dodecane, TBP (Tri-Butyl Phosphate), or the like.

  FIG. 3 is a cross-sectional view showing the configuration of the jug 10. The jug 10 includes a jug main body 12 and a jug lid 11. The jug body 12 is a member that contains a liquid therein, and has an opening formed in a cylindrical shape through a cylindrical portion 12b formed in a bottomed cylindrical shape and a tapered portion that is reduced in diameter above the cylindrical portion 12b. Part 12a. The jug body 12 is set to a size that can be accommodated in a cartridge body 21 to be described later. The jug body 12 is formed of a synthetic resin material, and among them, it is formed of high-density polyethylene from the viewpoint of having resistance to the liquid, radiation resistance and high tensile strength, flexural modulus, and torsional modulus. Is preferred.

  The jug lid 11 is an elastic member that is detachably attached to the opening 12 a of the jugg main body 12, and serves as a part that pierces the needle 30 of the syringe when the liquid is injected into the jugg main body 12. The jug lid body 11 is formed in a bottomed cylindrical shape and has a top portion 11a and a side portion 11b. The jug lid 11 has an apex portion 11 a that abuts against an end surface of the opening portion 12 a of the jugging body 12, and an outer peripheral surface of the side portion 11 b that abuts an inner circumferential surface of the opening portion 12 a of the jugging body 12. It is comprised so that the part 12a may be covered. At this time, the jug lid 11 seals the opening 12 a of the jugg main body 12 by an elastic repulsive force generated when the top portion 11 a and the side portion 11 b press the inner peripheral surface of the opening 12 a of the jugg main body 12. The elastic repulsive force can be adjusted by the thickness of the top portion 11a of the jug lid 11, and the elastic repulsive force can be increased by increasing the thickness of the top portion 11a. Although details will be described later, the elastic repulsive force can be adjusted also by the material constituting the jug lid 11.

  Further, the top 11 a of the jug lid 11 that abuts the end face of the opening 12 a of the jug main body 12 becomes a part that pierces the needle 30 of the syringe when the liquid is injected into the jug main body 12. An insertion portion 11 f serving as a recess, which is a portion where the needle 30 of the syringe is inserted, is formed on the outer surface in the thickness direction of the top portion 11 a of the jug lid body 11.

  Furthermore, a concave portion 11c that is recessed from the outer peripheral surface to the inner peripheral surface side is formed on the side portion 11b of the jug lid body 11 over the entire circumference. Such a concave portion 11 c formed in the side portion 11 b of the jug lid body 11 is a concave portion that does not contact the inner peripheral surface of the opening portion 12 a of the jug main body 12. Therefore, the recess 11c formed in the side portion 11b of the jug lid body 11 is configured such that the liquid accommodated in the jug body 12 causes the outer peripheral surface of the side portion 11b and the inner peripheral surface of the opening portion 12a of the jugg body 12 due to capillary action. Cut off the flow of liquid rising between. Therefore, it is possible to prevent the liquid stored in the jug main body 12 from leaking outside along the inner peripheral surface of the opening 12a of the jugg main body 12.

  Next, the area ratio of the non-contact area where the inner peripheral surface of the opening 12a faces the recess 11c of the jugging lid 11 with respect to the total area where the jugging lid 11 and the opening 12a of the jugging body 12 contact each other. In order to find a suitable range in the recess area ratio, a nitric acid leakage test was performed, and it was confirmed that the amount of nitric acid leakage decreased in a specific recess area ratio. Here, the nitric acid leakage test is a test in which the amount of nitric acid leaking from the inside of the jug 10 is measured by applying a centrifugal force while the nitric acid is contained in the jug 10.

  Further, it is preferable that the outer diameter L2 is set smaller than the inner diameter L1 of the opening 12a of the jugging body 12 at the opening side end of the side 11b of the jugging lid 11, and is formed in a shape having a curvature. . By forming the opening side end portion of the side portion 11b in this way, the jug lid body 11 can be guided and attached to the opening portion 12a of the jugging body 12.

  The jug lid 11 extends from the top 11 a of the jugg lid 11 in the central axis direction, faces the side 11 b of the jug lid 11, and contacts the upper edge and the outer peripheral surface of the opening 12 a of the jug main body 12. It is preferable to have the covering portion 11d. At this time, the jug lid body 11 is configured such that the side portion 11b of the jug lid body 11 and the covering portion 11d cooperate to open the opening portion 12a of the jug body 12 from both the radially outer side and the inner side in the circumferential direction. It is comprised so that it may be clamped over the circumference. The effect of forming the covering portion 11d can be confirmed by a nitric acid leakage test.

  The amount of nitric acid leakage is less when the jug lid body 11 having the covering portion 11d is used than when the one having no covering portion 11d is used. This is because the jug lid 11 has the covering portion 11d, and the side 11b of the jugging lid 11 and the covering portion 11d cooperate to hold the opening 12a of the jugging body 12. This is because the adhesion between the outer peripheral surface of the side portion 11b of the lid 11 and the inner peripheral surface of the opening 12a of the jugging body 12 is increased. Therefore, it is possible to prevent the liquid stored in the jug main body 12 from leaking outside along the inner peripheral surface of the opening 12a of the jugg main body 12.

  Moreover, it is preferable that the jug lid body 11 has the protrusion part 11e which protrudes radially outward from the coating | coated part 11d near the top part 11a of the jug lid body 11. FIG. As described above, the jug lid 11 having the protrusion 11e can suppress the jug 10 accommodated in the cartridge 20 from moving more than necessary in the radial direction. Therefore, when injecting the liquid into the jug main body 12, it is prevented from being largely displaced with respect to the central axis, and the needle 30 of the syringe is pierced into the insertion part 11f formed on the top part 11a of the jug lid 11, and the liquid is injected. Can be injected.

  Examples of the material constituting the jug lid 11 include elastic silicon rubber, chloroprene rubber, and butyl rubber. Among these, silicone rubber is preferable, and millable silicone rubber having polyalkylalkenylsiloxane, polyalkylsiloxane, and polyalkylphenylalkoxysiloxane as a structural unit is particularly preferable. Since the surface of the jug lid 11 made of silicon rubber has an appropriate viscosity, it adheres appropriately to the inner peripheral surface of the opening 12a of the jugg main body 12. Therefore, it is possible to suppress the liquid stored in the jug body 12 from leaking to the outside.

  The hardness of the silicone rubber is preferably 40 or more and 70 or less, particularly preferably 45 or more and 55 or less, as a type A durometer hardness. Since the jug lid 11 formed of silicon rubber having a type A durometer hardness of 40 or more has a sufficient elastic repulsion force, the outer peripheral surface of the side portion 11b of the jugg lid 11 and the opening 12a of the jugg main body 12 are formed. The adhesion with the inner peripheral surface can be increased. Furthermore, it is possible to sufficiently close a crack that occurs after the needle 30 of the syringe is inserted into the top 11a of the jug lid 11 and pulled out. Further, the jug lid 11 formed of silicon rubber having a type A durometer hardness of 70 or less is deformed following the shape of the inner peripheral surface of the opening 12a of the jug main body 12. The adhesion between the outer peripheral surface of the portion 11b and the inner peripheral surface of the opening 12a of the jugging body 12 can be increased. The hardness of the rubber can be adjusted by the composition ratio of the rubber and the amount of additives such as silica that reinforce the rubber. The type A durometer hardness is a hardness defined in JISK6253.

  Moreover, it is preferable that the jug lid body 11 has a low iron content. Such a jug lid 11 having a low iron content can be obtained by selecting a raw material having a low iron content and performing a cleaning process with pure water or the like. Further, it is possible to prevent iron from being mixed in from the equipment used when manufacturing the jug lid 11 and the indoor environment, and to obtain the jug lid 11 having a low iron content.

  As shown in FIG. 1, the cartridge 20 includes a cartridge main body 21 and a cartridge lid 22. The cartridge main body 21 and the cartridge lid 22 are made of synthetic resin, preferably made of high-density polyethylene, like the above-described jug main body 12.

  The cartridge main body 21 is formed in a bottomed cylindrical shape, the bottom of the jugging main body 12 is disposed on the opening side of the cartridge main body 21, and the opening 12a of the jugging main body is disposed on the bottom side of the cartridge main body 21. The jug 10 is accommodated. The length of the cartridge body 21 in the central axis direction is about 70 mm as an example, and the outer diameter is about 20 to 30 mm as an example. A circular hole 21 c that communicates with the opening 12 a of the jug main body 12 is formed at the bottom of the cartridge main body 21. The hole 21c serves as a guide hole through which the needle passes when the needle 30 of the syringe is inserted into the top 11a of the jug lid 11 to inject liquid. A locking portion 21 d is formed at a position along the outer peripheral edge of the opening of the cartridge body 21. Further, conveyance guide portions 21 a and 21 b that bulge outward in the radial direction are formed at required positions on the opening side and the bottom side of the cartridge body 21. When the transport container 100 is pneumatically fed through the pneumatic tube, the conveyance guide portions 21a and 21b slide along the inner wall surface of the pneumatic tube.

  The cartridge lid 22 is a member that is detachably attached to the opening of the cartridge body 21. The cartridge lid body 22 is formed in a substantially dish shape, and an upright portion is provided on the outer periphery of the dish shape, and an engaging portion 21d of the cartridge main body 21 is engaged with an inner periphery of the upright portion. A stepped portion 22a is formed.

  FIG. 4 is a cross-sectional view illustrating a state where the transport container 100 is transported by being transported through the air pipe 40. The transport container 100 is air-fed so that the transport guide portions 21 a and 21 b provided on the cartridge body 21 are along the inner wall surface of the air-feed tube 40. The pneumatic tube 40 is made of metal and has an inner diameter of about 30 mm. Moreover, the conveyance speed by which the conveyance container 100 is air-fed in the pneumatic tube 40 is about 10-20 m / sec. The transport container 100 is configured such that portions other than the transport guide portions 21a and 21b do not come into contact with the inner wall surface of the air feed tube 40 when passing through a corner where the radius of curvature of the air feed tube 40 is the minimum value (about 660 mmR). Has been.

  Further, in the transport container 100, the difference Δd1 between the outer diameter D1 of the protrusion 11e of the jugging lid 11 and the inner diameter D2 of the bottom of the cartridge main body 21 is such that the outer diameter D3 of the bottom of the jugging main body 12 and the opening of the cartridge main body 21. It is preferably set to be larger than the difference Δd2 from the inner diameter D4. By configuring the transport container 100 in this way, fluctuations in the position of the center of gravity due to the movement of the liquid stored in the jug 10 are alleviated. For this reason, it is possible to suppress a decrease in the conveyance stability of the conveyance container 100 in the air pipe 40.

  FIG. 5 is a cross-sectional view showing a state when the jug 10 accommodated in the cartridge 20 is taken out. The jug 10 is taken out from the cartridge 20 in the transport container 100 that has been transported in the air feed tube 40. When the jug 10 is taken out from the cartridge 20, the cartridge lid 22 that engages with the cartridge main body 21 is removed and opened with a special jig called a tongue. The tongue 50 is a pinching tool that is configured such that two members open and close and can hold an object. In the transport container 100, the arrangement position of the transport guide portion 21b provided on the opening side of the cartridge main body 21 is set so that the cartridge lid 22 can be easily removed by the tongue 50.

  Further, the jug 10 taken out from the cartridge 20 is moved to a desired position by holding the opening 12a of the jug main body 12 by the tongue 50. The jug lid body 11 has the covering portion 11d that contacts and covers the outer peripheral surface of the opening portion 12a of the jugging body 12, so that when the opening portion 12a is sandwiched by the tongue 50, the tongue 50 comes into contact with the covering portion 11d. It will be. Therefore, it is possible to prevent the tongue 50 from coming into direct contact with the opening 12 a of the jug main body 12 and prevent the opening 12 a from being contaminated by the tongue 50.

  FIG. 6 is a cross-sectional view illustrating a configuration of the transport container 200 according to the second embodiment of the present invention. The transport container 200 has the same configuration as that of the transport container 100 described above except that the protrusion 62c is formed on the inner peripheral surface of the opening 62a of the jug main body 62, and the same reference numerals are used for corresponding portions. A description thereof will be omitted. The protruding portion 62 c is formed so as to protrude radially outward from the inner peripheral surface of the opening 62 a of the jug main body 62 and to be fitted to the concave portion 11 c provided on the side portion 11 b of the jugging lid 11. In the transport container 200 having such a protrusion 62 c, the jugging lid 11 is positioned and attached to the jugging body 62, and the inside of the outer peripheral surface of the side part 11 b of the jugging lid 11 and the opening 62 a of the jugging body 62. The contact state with the peripheral surface can be maintained. Moreover, since the protrusion part 62c and the recessed part 11c fit, when the conveyance container 200 is air-fed in the air feed tube 40, it can prevent that the jugg lid body 11 remove | deviates from the jugg main body 62 easily. .

It is sectional drawing which shows the structure of the conveyance container 100 in 1st Embodiment of this invention. FIG. 6 is a cross-sectional view showing a state when liquid is injected into the transport container 100. 2 is a cross-sectional view showing a configuration of a jug 10. FIG. It is sectional drawing which shows a mode that the conveyance container 100 is conveyed by the inside of the pneumatic tube 40. FIG. 6 is a cross-sectional view showing a state when the jug 10 accommodated in the cartridge 20 is taken out. It is sectional drawing which shows the structure of the conveyance container 200 in 2nd Embodiment of this invention.

Explanation of symbols

10 Jug 11 Jug Lid 12 Jug Main Body 20 Cartridge 21 Cartridge Main Body 22 Cartridge Lid 100,200 Transport Container

Claims (3)

A transport container that transports the liquid contained in the air feed pipe by air.
A bottomed cylindrical cartridge body,
A cartridge lid that is detachably attached to the opening of the cartridge body;
A jug body that is formed in a bottomed cylindrical shape and contains a liquid therein, wherein the bottom is disposed on the opening side of the cartridge body and the opening is disposed on the bottom side of the cartridge body. Jug body to be accommodated,
A jug lid that is detachably attached to the opening of the jugg body,
Jug lid is
Formed in the shape of a bottomed cylinder, the top part contacts the end face of the opening of the jugging body, the side part contacts from the inside of the opening of the jugging body, and is attached to the opening of the jugging body,
On the side portion of the jug lid, a concave portion recessed from the outer peripheral surface to the inner peripheral surface side is formed over the entire circumference.
A covering portion that extends from the top of the jugging lid in the central axis direction and faces the side of the jugging lid and contacts the upper edge and outer peripheral surface of the opening of the jugging body, In cooperation with the covering portion, the opening of the jug body is configured to be sandwiched across the entire circumference in the circumferential direction from both the radially outer side and the inner side,
Having a protrusion protruding radially outward from the covering portion near the top of the jug lid,
The difference between the outer diameter of the protrusion of the jugging lid and the inner diameter of the bottom of the cartridge body is set to be larger than the difference between the outer diameter of the bottom of the jugging body and the inner diameter of the opening of the cartridge body. A characteristic transport container. The transport container according to claim 1, wherein the jug lid is formed of silicon rubber whose type A durometer hardness is adjusted to 40 or more and 70 or less. The inner peripheral surface of the opening of the jug body, carrying container according to claim 1 or 2, characterized in that the protrusion of the recess and the fitting to be formed on the side of the jug lid is formed.

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