CZ2010406A3 - Device to maintain container stable position - Google Patents

Abstract

The present invention relates to a device for maintaining a stable position of a container (4) for transporting fragile or changing position of sensitive cargo comprising a container with an outer cubic surface (1) and an inner spherical surface (2) and a carrier (3) of a container (4) provided with casting means (6), wherein the container carriers (3) have the shape of a spherical cap and are provided with six casting means (6), which are sliding elements, at the circumference, and the top of the spherical cap (3) of the container (4) is fitted with a stabilizing weight (5).

Description

Device for maintaining the stable position of the container

Technical field

The present invention relates to a device that is able to keep a container transported in a package permanently in the same, desired position, even if the package is handled in any way.

BACKGROUND OF THE INVENTION

International and essentially intercontinental exchange of transplant grafts of hematopoietic tissue, particularly cord blood, is extremely sensitive to compliance with technical rules during transport. Tissue samples travel at -196 ° C in special containers of Dewar dry shipper containers. In these containers, liquid nitrogen is not loosely but absorbed in the ceramic sponge and thus safely protected from accidental spillage. All Dewar vessels - essentially metal thermos - are fully functional only in the vertical position, with the throat up. During their normal Kargo air transport, these containers are placed in robust, rigid and properly labeled boxes in accordance with airline regulations. In particular, the emphasis is on the need to maintain a permanently vertical position. Putting the box on its side immediately results in a significant leak of liquid nitrogen vapors. If the box gets even upside down, the nitrogen escapes in a few tens of minutes. A data logger is placed in the box in accordance with international rules and requirements, which continuously senses and records the temperature inside the Dewar vessel and the temperature in the outer packaging in the transport box. Under standard conditions, the system is demonstrably able to maintain the correct temperature for 10 to 12 days.

In order to increase the likelihood of proper transport conditions, not only in transplant grafts, but also in other fields where it is necessary to maintain the transported material in a predetermined position, it is necessary to create a device that can maintain a stable position of the container even when handling the packaging (eg a box) in which the container is stored.

Japanese patent application JP 2005-138896 proposes a device consisting of two hollow spheres, wherein the smaller sphere (container) is inserted in a larger sphere and its mobility on the inner wall of the larger sphere is ensured by three casting means positioned relatively close to the themselves, which is provided with a smaller ball. This arrangement exhibits a number of drawbacks, for example, the spherical shape of the outer shell is not suitable for handling the entire device; furthermore, in a very sharp movement during handling, the casting means may not keep in contact with the inner wall surface; about myself. It is also unclear how the closing of the smaller ball is designed so that it does not cause problems in its movement in the package.

The present invention aims to overcome the shortcomings of the prior art.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The present invention relates to an apparatus for maintaining a stable position of a container comprising a container with an inner spherical surface and a container carrier provided with casting means, characterized in that the outer shape of the container is cubic, container carrier is spherical canopy and circumferentially spaced provided with six steering means, which are sliding elements, and the top of the spherical canopy of the container carrier is provided with a stabilizing weight.

In a preferred embodiment of the invention, the container carrier has the following dimensions with respect to the inner spherical surface of the package: diameter of the spherical cap = 1.5 times the radius of the inner spherical surface of the package; radius of spherical cap = radius of inner spherical surface of the package minus 15 mm.

Preferably, the space between the outer cubic surface of the shell and the inner spherical surface of the shell may be filled with polyurethane mounting foam and / or polystyrene segments to increase mechanical strength and durability.

The shape of the spherical canopy facilitates access and fastening of the container, eliminating the problem of closing a smaller ball from JP 2005-138896. The use of six sliding elements as far apart as possible, i.e. around the periphery of the spherical canopy, then increases the stability of the container carrier and minimizes the possibility of tipping during heavy handling of the package. Furthermore, the stabilizing weight ensures maximum eccentricity of the center of gravity of the container carrier-container assembly, allowing a quick and reliable reaction to the change of position of the outer shell. The cubic outer shape of the package facilitates handling, holding and storing of the package. In addition, the preferred embodiment provides the dimensions of the carrier which further increase and ensure its stability and rapidity of response to the handling of the package, since they allow for accurate copying of the shape of the outer ball and a large pitch of the sliding elements.

The packaging is detachably divided into two halves, preferably horizontally, which allows insertion of the container carrier and the container. The container is fixed to the container carrier.

The function of the device according to the present invention ensures that in any manipulation, such as tilting or inverting the outer packaging. The inner content remains in a stable, predetermined position.

BRIEF DESCRIPTION OF THE DRAWINGS

Giant. 1 shows the outer cubic and inner spherical surfaces of the transport container.

Giant. 2 shows a view of the construction of the device with inserted container, A plan view, B side view.

DETAILED DESCRIPTION OF THE INVENTION

The invention is illustrated in more detail by means of the drawings.

Giant. 1 shows the outer cubic surface 7 and the inner spherical surface 2 of the package. The structure of the device is shown in Fig. 2 in plan view (A) and side view (B). The inner spherical surface 2 is made of laminate and its inner surface must be accurate and smooth. The space between the spherical surface 2 and the cubic surface 1 is filled with conventional polyurethane mounting foam. A container carrier 3 is arranged in the container. The spherical carrier 3 is circumferentially provided with six Alwayse® spherical plain bearing elements 6 and the apex of this spherical bearing is provided with a stabilizing weight 5 increasing the eccentricity of the center of gravity of the content and contributing to maintaining a stable position. A container 4, which in this example is a Dewar dry shipper, is fixed to the carrier 3. In a given arrangement, the container 4 is held in a vertical position and the described arrangement is suitable, for example, for transporting transplantation grafts of hematopoietic tissue.

. 4 '

In any manipulation, rotation or overturning of the outer wrapper, the carrier 3 together with the container 4 fixed thereon is moved by sliding elements 6 on the spherical surface 2 so that the container 4 does not rotate or tip over. The weight 5 increases the eccentricity of the center of gravity of the carrier 3 and container 4.

Industrial applicability

The apparatus of the present invention can be used to transport position-sensitive and fragile objects.

Claims (5)

PATENT CLAIMS A device for maintaining a stable position of a container (4), comprising a container with an inner spherical surface (2) and a container (3) container (4) provided with casting means (6), characterized in that the outer shape envelops the cubic (1) (3) the container (4) has the shape of a spherical cap and is circumferentially provided at six intervals with six casting means (6) which are sliding elements, and the top of the spherical cap of the carrier (3) of the container (4) is provided with stabilizing weight (5) . Device according to claim 1, characterized in that the container carrier (3) has the following dimensions with respect to the inner spherical surface (2) of the container: the diameter of the spherical canopy is 1.5 times the radius of the inner spherical surface of the container; the radius of the spherical cap is equal to the radius of the inner spherical surface of the package minus 15 mm. Device according to claim 1, characterized in that the space between the outer cubic surface (1) of the package and the inner spherical surface (2) of the package is filled with polyurethane mounting foam and / or polystyrene segments. Device according to claim 1, characterized in that the packaging is detachably divided into two halves, preferably horizontally. Device according to claim 1, characterized in that the container (4) is resiliently fixed to the support (3).