RU2503072C1 - Package set for storage and transportation of item with radioactive substance - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: device comprises an external container and an inner container, in which an item with a radioactive substance is arranged. The external container comprises a base and a cap, having a layer structure, and a ring damper connected to each other by fastening elements; an item with a radioactive substance is placed in a tight capsule installed in the inner container, between which there is a damping layer, comprising at least two location beds, at the same time the upper location bed has a spring element to press the capsule to the lower location bed, and the capsule has a nozzle for its filling with an inert gas. The layer structure of the outer container includes outer and inner metal shells with a layer of metal tiles enclosed between them and made in the form of rectangular segments of the cylinder.

EFFECT: increased resistance of a protective container to emergency factors of high intensity that occur during an accident with vehicles, for instance, an aircraft, in order to preserve the transported cargo.

10 cl, 1 dwg

Description

Transport packaging set (TUK) refers to the field of protective equipment when working with radioactive substances, in particular, to devices for long-term storage and transportation of highly radioactive materials, including by air.

Known transport packaging for storage and transportation of flat sources of ionizing radiation (p. RF No. 26863, publ. 12/20/2002), including protective packaging and a sealed protective container for storing and transporting flat, including open sources of ionizing radiation. The hermetic protective container is made of corrosion-resistant steel in the form of two flat disks that are sealed through a gasket made of annealed copper with bolts tightened through a dynamometer with a controlled force, and an annular cassette is installed inside the protective container, consisting of three elements: a lower ring, on which it is laid and an intermediate ring with holes is mounted to accommodate flat sources of ionizing radiation, and the upper ring, by which the sources are fixed in the nests by tightening the upper and the lower rings with special screws that do not extend beyond the dimensions of the cassette after the screed, the container is installed inside the transport container and fixed with gaskets made of non-combustible material.

The disadvantage of this packaging is the lack of a fitting with a valve in the rings of the inner container, which does not allow to bleed off the gas that appears during radioactive decay; the insecurity of the fasteners of the inner container, which does not ensure their integrity during emergency impacts; the presence of sharp ribs and the thickness variation of the walls of the inner container, which reduces its strength under shock; the absence of damping elements in gaskets made of non-combustible material of the transport container, which should ensure vibration resistance of the structure during transportation.

As a prototype, a container system for transportation and storage of highly radioactive materials was selected (item RF No. 2298242, published April 27, 2007), which includes an external container covering at least one internal container in which the radioactive material is located. The inner container is spring-loaded in the outer container, on the inner surface of the side, on the lid and the bottom of which spring elements directed towards the inner space of the outer container are located.

The disadvantage of this container system is the presence of spring elements in the external container, working in all directions, which leads to their low resonant frequency with high stiffness of the spring elements.

The objective of the invention is to provide a packaging set to enable long-term storage and transportation of highly radioactive substances, including by air.

The technical result is to increase the resistance of the protective container to emergency factors of high intensity that occur during an accident of vehicles (for example, an airplane), in order to preserve the transported cargo.

The problem is solved in that in the packaging kit for transporting and storing the product with the radioactive substance containing the external container, the internal container in which the product is located with the radioactive substance, the external container consists of a base and a cap having a layered structure, and an annular damper connected between themselves fasteners; the product with the radioactive substance is placed in a sealed capsule installed in the inner container, between which there is a damping layer consisting of at least two lodgements, while the upper lodgement has a spring element for pressing the capsule to the lower lodgement, and the capsule has a nozzle for filling its inert gas. The layered structure of the outer container includes the outer and inner metal shells with a layer of metal tiles enclosed between them, which are made in the form of rectangular segments of the cylinder. The annular damper has a pipe section, while the fasteners pass through the center of stiffness of the pipe section. The inner container contains a housing and a lid made of wood, lined with stainless steel, while the housing has a recess in which the lid is placed. An airtight metal vessel with a flange, sandwiched between the body and the lid of the inner container with fasteners, is closely mounted in the housing of the inner container. In the walls of the inner container, rods are made radially made of a material of high thermal conductivity, pressed against the walls of the inner metal vessel using a female closed ring and nuts located outside the inner container body. Each lodgement has a mountain-shaped closed pipe resting on a large generatrix on a disk, to which damping elements are attached along the perimeter by the lateral surface in the form of straight cylindrical pipes connected to each other along the lateral generatrix, connected by the upper end to the mountain-shaped pipe, and to the ring at the lower end having an inner diameter equal to the diameter of the capsule, while the disk, ring and cylindrical pipes form an inner cylindrical cavity in the tool tray. The surface of the disk facing the end of the capsule has a spherical shape, like the counter surface of the capsule, while the radii of the spheres of the disk and capsule are equal. The capsule is a hermetically connected case and a lid, the thickness of which is selected from the condition that the radioactive substance does not exit under emergency conditions. The capsule fitting has a valve that seals the capsule cavity with a metal gasket.

The package, which includes an external durable container, including a cap and a base, interconnected by means of fasteners and an annular damping element, ensures the strength of the joint and the joint is not opened during emergency impacts. An annular damper of the necessary rigidity installed between the flanges of the base and the cap makes it possible to increase the flexibility of the flange joint during emergency actions and thereby ensure that the junction of the external container is not opened.

The package also includes an internal damping container rigidly fixed to the external container. Both the outer and inner containers are designed to absorb energy during impacts.

The aforementioned shape of the surfaces of the discs of the lodgements and capsules allows the capsule to be rotated during emergency impacts without losing its integrity and tightness.

The spring elements available in the upper lodgement provide the necessary force for pressing the capsule in the inner vessel of the damping container and the vibration resistance of the structure during transport vibration.

In FIG. shows a longitudinal section of a packaging set for transporting and storing a product with a radioactive substance.

TUK includes an external durable container 1, an internal damping container 2, a damping layer 3, and an airtight capsule 4.

The outer strong container 1 of a cylindrical shape consists of a base 5 and a cap 6 having a layered structure including an outer 7 and an inner 8 shell with strong tiles 9 enclosed between them, located in one layer. On the end surfaces of the base 5 and the cap 6 on the outside there are stiffeners 10, providing structural strength.

The base 5 and the cap 6 have flanges 11, which are connected using bolts and nuts fixed to the base 5. Between the flanges 11, an annular damper 12 of the necessary rigidity is installed, which makes it possible to increase the flexibility of the connection of the flanges 11 under emergency conditions and thereby ensure non-disclosure of the junction of the external container.

The inner damping container 2 has a casing 13, a lid 14 and a cylindrical vessel 15 clamped between them. The casing 13 and the lid 14 include an outer shell 16 of stainless steel and a damping layer 17 of wood impregnated with a bio-flame retardant. The housing 13 and the cover 14 are interconnected by screws. The stainless steel vessel 15 also has a housing 18 and a lid 19 connected by screws. In the lid 19 of the cylindrical vessel 15 there is a fitting 20, for which the vessel 15 can be lifted and through which it can be filled with an inert gas. In the fitting 20 there is a valve 21, sealed with a metal gasket 22.

The inner damping container 2 has a heat sink device including several rods 23 with high thermal conductivity passing through the damping layer 3 and pressed against the walls of the cylindrical vessel 15 using the female ring 24 and special nuts 25 located outside the housing of the damping container 2.

The cylindrical damping layer 3 consists of an upper and lower lodgement having the same design.

The upper lodgement includes a damping element in the form of a closed mountain pipe 26, connected by a large generatrix to the disk 27, to which damping elements are attached along the perimeter along the side surface in the form of straight cylindrical pipes 28 interconnected along the lateral generatrix, connected by the upper end to the toroidal pipe 26, and the lateral surface at the lower end - to the ring 29, having an inner diameter equal to the diameter of the capsule 4. The disk 27, ring 29 and cylindrical pipes 28 form an internal cavity in de of the cylinder into which the upper part of the capsule 4 is placed. The surface of the disk 27 facing the end of the capsule 4 has a spherical surface. The counter surface of the capsule 4 also has a spherical shape.

The lower lodgement has a similar design. The surface of the lower lodgement disc facing the capsule and the mating end surface of the capsule also have a spherical shape. The specified shape of the surfaces of the discs of the cradles and capsules allows the capsule to turn during emergency impacts without losing its integrity and tightness.

The upper lodgement has spring elements 30, providing the necessary pressing force of the capsule 4 in the inner vessel of the damping container 2.

The design of the capsule 4 includes a housing 31 and a lid 32 connected by screws. Between the housing 31 and the lid 32 having a sealing element, there is a metal seal 33. In the lid 32 of the capsule 4 there is a fitting 34 through which it can be filled with inert gas. The fitting 34 has a valve 35 sealed with a metal gasket 36.

The thickness of the housing 31 and the cover 32 of the capsule 4 ensures the safety of the product installed in the capsule (not shown in Fig.) For all regulated emergency actions on the transport packaging with the product that meets the requirements for air transportation.

The external strong container 1 has four eyes on the side surface for lifting the transport packaging set and securing the TUK in the vehicle.

Claims (10)

1. A packaging set for storing and transporting a product with a radioactive substance, comprising an external container, an internal container in which the product with a radioactive substance is located, characterized in that the external container consists of a base and a cap having a layered structure and an annular damper connected between themselves fasteners; the product with the radioactive substance is placed in a sealed capsule installed in the inner container, between which there is a damping layer consisting of at least two lodgements, while the upper lodgement has a spring element for pressing the capsule to the lower lodgement, and the capsule has a nozzle for filling its inert gas. 2. The kit according to claim 1, characterized in that the layered structure of the external container includes an outer and inner metal shell with a layer of metal tiles enclosed between them, which are made in the form of rectangular segments of the cylinder. 3. The kit according to claim 1, characterized in that the annular damper has a pipe section, while the fasteners pass through the center of stiffness of the pipe section. 4. The kit according to claim 1, characterized in that the inner container comprises a housing and a lid made of wood, lined with stainless steel, and the housing has a recess in which the lid is placed. 5. The kit according to claim 4, characterized in that a sealed metal vessel with a flange, sandwiched between the body and the lid of the inner container by means of fasteners, is closely mounted in the housing of the inner container. 6. The kit according to claim 1, characterized in that in the walls of the inner container there are radially mounted rods made of high thermal conductivity material, pressed against the walls of the inner metal vessel by means of a female ring and nuts located outside the inner container body. 7. The kit according to claim 1, characterized in that each lodgement has a mountainous closed pipe resting on a large generatrix on a disk to which damping elements are attached along the perimeter along the side surface in the form of straight cylindrical pipes connected to each other along the side generatrix connected to the upper end a mountain-shaped tube, and a side surface at the lower end to a ring having an inner diameter equal to the diameter of the capsule, while the disk, ring and cylindrical pipes form an inner cylindrical lodgement cavity. 8. The kit according to claim 7, characterized in that the surface of the disk facing the end of the capsule has a spherical shape, like the counter surface of the capsule, while the radii of the spheres of the disk and capsule are equal. 9. The kit according to claim 1, characterized in that the capsule is a hermetically connected housing and a lid, the thickness of which is selected from the condition that the radioactive substance does not exit under emergency influences. 10. The kit according to claim 1, characterized in that the capsule fitting has a valve that seals the capsule cavity with a metal gasket.