SE447094B - THERMALLY ISOLATED CONTAINER - Google Patents

Abstract

The invention refers to a thermally insulated container, mainly intended for storing and/or transport of material which requires storing at a low temperature such as e.g. vaccine, biological matter or the like, including one storing room intended for a cooled object, which is surrounded by at least one insulating layer (3). This is achieved according to the invention thereby that the cooled object (4) is hermetically separated from the surrounding, that a phase transforming material (5) is arranged in connection to the cooled object (4) and that at at least one insulating layer (3) is arranged to surround the cooled object (4) on all sides.

Description

447,094 power outages.

With the cooling devices that exist today, it is therefore important that the transport goes as fast as possible. This means that vaccines are flown in as far as possible in developing countries and build up a network of intermediate storage stations.

This, of course, becomes expensive and requires a well-organized "cold chain".

Background Art A number of different inventions exist in the field of storage or transport containers which are intended to be kept at a low constant temperature. Thus, for example, British Patent GB 1,006,746 discloses a container for transporting materials which require cooling by means of a liquid gas.

The container comprises an insulating outer container in the inner space of which is placed a porous pouring body into which the material to be cooled in the cooling object can be inserted.

The holding body is prepared with slow-boiling liquefied gas which slowly decoctions during the release of cold. This invention is primarily intended for biological material which is to be kept at a very low temperature, well below the freezing point, and which thereby requires a liquefied gas for its cooling.

The device is furthermore designed such that the gas formed during cooking can pass out through evacuation channels. If the gas cannot be evacuated, the boiling stops and the cooling does not occur. Because only a limited amount of liquefied gas is allowed inside the inner space of the container, this container is only intended to keep the biological material cooled for a shorter period of time before new liquefied gas must be added. A significant disadvantage of this invention during longer transports is therefore that trained personnel must accompany and regularly refill the liquefied gas carried.

Another cooling container is described in German patent document 2825111 and relates to a container for cooling a measuring device for a limited time in a high temperature environment. The cooling device is primarily intended for use in 447 094 when measuring inside passage ovens and the like. and consists mainly of an inner and an outer cylinder which are placed in an insulated container. Between the inner and outer cylinder is arranged a heat storage material which communicates with the surroundings through a steam discharge pipe and a filling pipe. This inner device is in turn placed in an insulated container filled with insulating material. This invention is thus intended for very high ambient temperatures which occur, for example, in furnaces. You also have a heat storage material which, when exposed to heat, turns into steam which exits through an overpressure pipe. The device is position sensitive. i.e. it must always stand in a certain way with filling pipes and steam discharge pipes directed upwards, in order to work. Furthermore, it is only intended to maintain a certain temperature in its interior space for a short period of time. OBJECTS AND MAIN FEATURES OF THE INVENTION The object of the present invention is to demonstrate a thermally insulated container which can be used as a disposable container and which is inexpensive to manufacture. A purpose other than that the container should be insensitive and protect its contents from damage through external influences in the form of shocks and blows. A further object is that the inner space of the container should be able to be kept at a substantially constant temperature or within a certain temperature range for a long period of time. The container must use a passive system, i.e. no energy must be supplied from outside to maintain the predetermined temperature. With the help of a container according to the invention, one must in practice be independent of the time transports take. i.e. instead For air freight, it should be possible to use boat freight, which makes transport cheaper. This is achieved according to the invention in that the outer and inner casings of the container are each hermetically sealed and. that the insulating layer between the outer and inner casing of the container consists of a porous material which is under vacuum.

POOR QUALITY n * .; The invention will be described in more detail below with reference to exemplary embodiments shown in the accompanying drawings.

Fig. 1 shows a container according to the invention in cross section, Fig. 2 shows an alternative container according to the invention. Fig. 3 shows a further alternative container intended for a higher temperature range. Description of exemplary embodiments Fig. 1 shows a thermally insulated container according to the invention. It consists of an outer casing 1 of, for example, plastic. and is designed as a square box to facilitate stacking and storage. The size of the outer casing can of course be varied within wide margins, but can be approx. 50 x 50 x 50 cm. A container with these dimensions can have a transport weight of approx. 15-20 kg. An inner casing 2 is furthermore placed in the inner space of the outer casing at a certain distance from the outer casing 1. This inner casing 2 can also consist of plastic or similar material. The outer and inner casings 1.2 are designed to be diffusion-tight to reduce the pressure increase and maintain low thermal conductivity.

Between the outer and the inner casing 1.2 a space is formed, an insulating layer 3, which can suitably be filled with an insulating, porous material, for example perlite.

To increase the insulating ability of the insulation material, this space is vacuum pumped. This can be achieved, for example, by using crosslinked polyethylene. To achieve this, it is required that after packing the material, the cooling object 4, which is to be transported or stored, the outer and the inner casing, e.g. with a plastic weld.

In the middle space of the inner box-shaped casing 1 there is material. the cooling object, placed to be stored and / or transported at a constant temperature. The material which may, for example, consist of a daily ration vaccine, i.e. ca. 1-2 kg can be enclosed in an additional box of plastic or similar material or simply enclosed in shrink film T (see fig. 2). The space between the package 6,7 of the cooling object and Pool: QUALITXf 447 094 the inside of the inner casing 2 is filled with a phase-changing material 5 which can be, for example, salt or ice of distilled water. If ice is used as a phase-changing material, e.g. vaccines of the above amount are kept refrigerated for a very long time. Calculations and practical tests have shown that the cooling object can be kept at just over 0 degrees C for 180 days. When the Phase Transforming material has completely passed to its other. "warm". Phase, on the other hand, increases the temperature in the container rapidly.

In the insulated container according to the invention, there is no need to discharge gas or the like when the phase-converting material does not change to gaseous form. This has the essential advantage that no "cooling bridges" in the form of pipes or the like need be arranged through which connections with the ambient heat can easily be conveyed to the interior of the container.

Because the cooling object is enclosed by a Phase-transforming material in the form of ice water or salt, shocks and blows are absorbed efficiently, whereby the cooling object is well mechanically protected during transport.

Fig. 2 shows an alternative embodiment according to the invention. On the one hand, it can be seen here how the cooling object 4 is only ear-wrapped with shrink film 7 and placed in the inner space 5 of the inner casing 2. Another significant difference is the insulation which is arranged in the space between the outer and inner casing 1.2 of the container. Instead of using a porous insulating material, a number of layers of foil 8 have been applied here. It is still important that the covers 1.2 are diffusion-tight and even here vacuum can prevail. To further reduce the heat conductivity, an advantage of using the foil layer is that better protection against e.g. radiation.

Then in some cases there is a need to protect the cooling object from freezing. crystallize, the container according to the invention can be designed in a manner shown in Figure 3. In this case, the inner space of the container has been divided into two chambers 9.10 by means of a partition wall 12, the first chamber 9 containing the phase-changing material and the second chamber 1D constituting POOR QUALITY 447. 094 ß Storage space for the cooling object 4. The phase-changing material 5 can in this case consist of ice of distilled ice maintains a temperature of 0 degrees C. in the storage space 10 directly adjacent to the storage space 10 to obtain a slightly higher temperature than the insulation layer 3, the phase-converting material will. This is due to the inherently small amount of heat which, after all, penetrates the outer insulating kit 3. The slightly higher temperature prevailing in 10 in this type of packaging can move quite sufficiently the storage space of a few tenths of a degree above U which is to Store vaccine at a temperature that does not risk crystallization. i.e. destroy, the vaccine.

By designing the partition wall 12 with different insulation capacities, the temperature in the storage space 10 can be regulated to the desired level. The insulating capacity of the partition wall 12 thereby determines the temperature difference between the storage space 10 and the phase-converting material 5.

To the extent that the container risks being exposed To direct sunlight or other heat radiation, it is suitable to apply a reflective layer 11 on the outer surface of the container, e.g. in the form of a metal foil (see Fig.3).

The invention is of course not limited to the embodiments described above, but a number of alternative embodiments are possible within the scope of protection of the claims.

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Claims (2)

447 094 PATENT CLAIMS 1. Thermally insulated container. mainly intended for storage and / or transport of refrigerated objects such as vaccines. biological material or the like. which require storage at a substantially constant temperature or within a narrow temperature range for an extended period of time. for example up to 180 days. and comprising an outer and an inner casing (1.2) and at least one insulating layer (3) arranged therebetween. wherein in a storage space inside the inner casing is arranged a phase-changing material (5), e.g. ice, adjacent to the cooling object (4). It is known that the outer and inner casings of the container (1.2) are each hermetically sealed and. that the insulating layer (3) between the outer and inner casing (1,2) of the container consists of a porous material which is under vacuum. Thermally insulated container according to claim 1, characterized in that the insulating layer (3) comprises a plurality of layers of diffusion-tight foil (8). A thermally insulated container according to claim 1 or 2, characterized in that a partition wall (12) with a certain insulating ability is arranged between the phase-changing material (5) and the cooling object (4) and that the cooling object (4) is only partially enclosed by the phase-changing material (5) in order to provide a temperature difference between the cooling object (4) and the phase-changing material (5). mon QUALITY