NL2006914C2 - THERMAL ISOLATED CONTAINER. - Google Patents

Description

Short description: Thermally insulated container.

The present invention is directed to a thermally insulated container comprising an outer wall which is provided on the inside with layered thermal insulation material.

Transporting products that must be kept at the required temperature requires packaging material that effectively insulates the products from the environment. This packaging material must moreover be handy, and preferably occupy as little space as possible, in order to be able to transport such products as effectively as possible, for example in bulk. An example of this is the transport of frozen products in a truck, or the transport of freshly baked pizzas by a pizza courier. The space occupied by insulation material plays an important role in the efficiency of transport, and thus the costs thereof. The more packaging material, the less transport space remains for the product.

Various types of packaging forms for packaging temperature-retaining products are widely known. In many cases, the amount of insulation material in the package takes up just as much, or a significant part, of the total space. When products have to be transported at a temperature that deviates strongly from the ambient temperature, for example deep-frozen products at temperatures below -15 ° C or much lower (-40 ° C), the amount of insulating material becomes so large that, depending on the packaging method, the bulk of the available transport volume is taken up by insulating material.

In such cases, use is often made of active cooling by means of a cooling motor, air conditioning, deep-freezing cooling or the like, for example in the form of a cooling truck. For products that are to be kept warm, active heating during transport is used in such cases. As those skilled in the art will understand, the active cooling or heating of products to be kept at a temperature requires energy. It is true that in this way more products can be transported at the same time by using, for example, a refrigerated truck, but the additional costs of cooling are then added to the transport costs. At all times efficient insulation material (compact and well insulated) will, if available, be preferred over active temperature control (cooling or heating) during transport.

Summary of the invention It is the object of the present invention to provide a thermally insulated container with which in use heat exchange between the environment of the container and a product located in the container that can be kept at temperature can be effectively prevented, and wherein the total volume of insulation material is as small as possible.

These and other objects are achieved by the invention in that it provides a thermally insulated container, comprising an outer wall which is provided on the inside with layered thermal insulation material, the layered insulation material comprising one or more layers of bubble wrap and one or more layers of reflective foil, wherein each of the one or more layers of bubble wrap is provided on at least one side thereof with a plurality of air chambers, the layered thermal insulation material being located such that at least one of the layers of bubble wrap with the side provided with air chambers is adjacent to the inner side of the outer wall, wherein the outer wall is provided with one or more aeration openings.

The invention is based on the insight that the efficiency of the insulating material is much greater when the space present between the inside of the outer wall of a container and the first layer of the layered thermal insulating material is in direct connection with the environment. through the ventilation openings. After all, these aeration openings ensure that heating of the air present in this part of the container as a result of radiation heat absorbed by the outside wall from the environment is prevented, because fresh air is constantly supplied through the aeration opening and hot air is removed. This is comparable to the effect of, for example, a car parked in direct sunlight. When all the windows and openings of the car are hermetically closed, the temperature in the car rises sharply, even in such a way that a situation that is dangerous for humans or animals can arise in the car. However, when two car windows are partially opened for aeration of the interior of the car, the heating of the air in the car is much less strong, 3 and the temperature in the car cabin will remain much lower. With adequate ventilation, the car even functions as a parasol, and it is warmer outside the car in direct sunlight than inside.

In the container according to the invention use is made of this same effect so that directly outside the layered thermal insulation material, but on the inside of the outer wall of the container, the temperature is not or hardly influenced by radiation heat from outside. The layered thermal insulation material can therefore keep the product stored therein at a much more efficient temperature, because the immediately adjacent air layer 10 remains more constant in temperature.

According to an embodiment of the invention, the outer wall of the container consists of outer wall parts, and at least one of the outer wall parts is provided with the one or more aeration openings. The outer wall parts can for instance comprise side walls, a bottom and a top side of the container, and at the choice of the skilled person one or more of these outer wall parts can be provided with the aeration openings. In particular, according to an embodiment, one of the outer wall parts is a bottom part of the container, and the bottom part is provided with one or more of the aeration openings. If there is only one aeration opening, in accordance with this embodiment, this aeration opening will be provided in the bottom part. When several aeration openings are present, one or more of these aeration openings can be provided in the bottom part in accordance with this embodiment, while other aeration openings are provided in other outer wall parts of the container.

The inclusion of aeration openings in the bottom part provides an additional advantage, because with regular use of the container the aeration openings in the bottom part cannot be irradiated by, for example, direct sunlight. With regular use, the soil is hidden from view, and is not in the (sun) light.

According to a further embodiment thereof, the bottom part of the containers comprises a plurality of spacers with which the container can be placed on the ground. The spacers ensure that there is some space between the bottom of the container and the substrate, so that aeration of the aeration openings is guaranteed.

According to a preferred embodiment of the invention, the outer wall is provided with at least two aeration openings for creating an air circulation on the inner side of the outer wall, between the at least one of the layers of bubble wrap and the inner side. In particular, if the outer wall is provided with two aeration openings, an air circulation can be established from one aeration opening to the other aeration opening, so that any hot air present is effectively removed. Of course, several outer wall parts of the container can be provided with two aeration openings, so that good air circulation can be achieved anywhere in the container.

According to a further embodiment of the invention, the outer wall is made of an optically impermeable material. Furthermore, on a side facing outwards, the outer wall may even be wholly or partly provided with reflective material. The use of optically impermeable or even reflective material on the outer wall ensures that the direct radiation energy can be repelled through the container, so that the temperature on the inside of the outer wall is less sensitive to radiation. The temperature on the inside of the outer wall therefore remains even more constant, and the container is better able to keep the product stored therein at the right temperature.

The layered thermal insulation material of the thermally insulated container consists, according to an embodiment, of a plurality of layers of bubble wrap and a plurality of layers of reflective foil, wherein one or more layers of bubble wrap is located between each two layers of reflective foil. The multiple layers of reflective foil are well able to effectively prevent heat transfer through reflection. Heat transfer through conduction is perfectly retained by several layers of bubble wrap. Heat transfer as a result of convection is effectively prevented by the successive different layers of foil (bubble wrap and reflective foil).

The film used can be made from any suitable material. The reflective foil can for instance be an aluminum foil, but use can also be made of a polyethylene terephthalate (PET) foil for both the reflective foil and the bubble wrap. For the specific material choice of the film, many different alternatives are available to the person skilled in the art, and it is within the skill of the average person skilled in the art to make a suitable material choice based on this description.

According to a further preferred embodiment of the invention, the at least one layer of bubble wrap which is adjacent to the inside of the outside wall with the side provided with air chambers, is unfixed (or not connected, loose) against the inside of the outside wall. Not only does connecting the bubble wrap to the outer wall provide an (unnecessary) heat bridge for conductive heat transfer, but releasing the bubble wrap against the inside of the outer wall benefits the air circulation because the studs are predominantly but not everywhere directly against the inside will abut.

According to a further embodiment of the invention, the layers of bubble film and reflective film of the layered thermal insulation material are mutually separate from each other.

According to a further embodiment of the invention, at least one of the layers of reflective film of the layered thermal insulation material is facing the outer wall with the reflective side. Of course, it is also possible for several or all layers of reflective foil to be situated with the reflective side facing the outer wall. Such a location of the reflective foil ensures a good shielding of the inside of the container from radiant heat from the environment. In particular when products are to be kept cold, such as, for example, frozen foods, this embodiment provides an effective container for keeping the product at the right temperature.

According to a further embodiment, at least one of the layers of reflective foil of the layered thermal insulation material is situated with a reflective side away from the outer wall, for reflecting radiant heat to the inside of the container. It is precisely when the container 30 is used for, for example, keeping a product that is located in the container warm, that it is important to reflect back the radiant heat of the product to be kept warm, so that the product does not cool down. The person skilled in the art will recognize the advantages of this.

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According to yet a further embodiment of the invention, at least one of the layers of reflective film of the layered thermal insulation material is facing the outer wall, and at least one of the layers of reflective film of the layered thermal insulation material is having a reflective surface. facing away from the outside wall, for reflecting radiant heat to the inside of the container. In this embodiment, the thermally insulated container (reasoning from the container) comprises both layers that reflect inwards and layers that reflect outwards.

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Brief description of the figures

The invention will be explained below with reference to a few specific embodiments thereof with reference to the accompanying drawings, in which: figure 1 shows an embodiment of the present invention; Figure 2 shows in cross-section an embodiment of the present invention in cross-section; Figure 3 shows the operating principle on which the present invention is based; and figures 4A-4C show close-ups of cross-sections of outer walls and insulating layers of embodiments of the thermally insulated container according to the invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS Figure 1 shows a thermal insulation box 1 consisting of an outer wall 3. The outer wall 3 consists of a plurality of outer wall parts, such as part or bottom 7 and side walls 5 and 6, as well as cover 8. In one of the outer walls being side wall 5, there are two aeration holes 10 and 11 for aerating the space between the inside of the outer wall (not visible) and the outer layer of the layered thermal insulation material (not visible).

Figure 2 shows a thermal insulation box according to the present invention in cross section. Figure 2 shows the bottom 7 and 7 side wall 6, as well as side wall 13 and cover 8. On the inside of the outer walls of the thermally insulated container according to the present invention (insulation box) is the layered thermal insulation material consisting of a plurality of layers bubble film 17, 19, 23, 26 and a plurality of layers of reflective film 18, 20, 24 and 27. In the thermally insulated container there is a product 15 which must be kept at a temperature far below freezing point. The bottom 7 of the thermally insulated container comprises two aeration openings 37 and 38 through which air can circulate from one opening to the other opening between the studs of the outer layer of bubble wrap 17. This circulation principle is shown below in Figure 3. The reflective layers 18 20, 24 and 27 reflect heat radiation back towards the outer wall as schematically shown with arrows 40. The cover 8 is also provided with layered thermal insulation material 30, consisting of, for example, bubble foil layer 33 and reflective foil layer 34.

Figure 3 illustrates the operating principle of the present invention, wherein air circulation takes place from opening 37 to opening 38. The air circulation is shown schematically with the aid of air flows which flow between the stud 43 of the bubble wrap. The air streams 45 and 46 flow from aeration opening 38 to aeration opening 37, and the air flows 48 and 47 flow from aeration opening 37 to aeration opening 38.

Figures 4A to 4C illustrate three close-ups of cross-sections of the outer wall of the thermally insulated container including the insulating layers. The openings in the outer wall part are not shown in Figs. 4A to 4C, and Figs. 4A to 4C only serve to illustrate different variants of the previously described embodiments, the insulating layers being arranged in other sequences or in an alternative manner are placed without deviating from the inventive idea. In accordance with the inventive idea, the outer layer of bubble wrap, i.e. the bubble wrap which is directly adjacent to the outer wall, is located with the studs or air chambers in the direction of the outer wall. This can also be seen, for example, in Figs. 4A to 4C, wherein each of the layers 53, 62 and 73 of Fig. 4A, Fig. 4B and Fig. 4C are adjacent the outer wall 50, 60 respectively with the sides provided with studs or air chambers. and 70 such that the studs face the outer wall.

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In the layered insulating material in a container according to the invention, such as for example shown in close-up in figures 4A to 4C, for the purpose of the efficacy of the reflective layers, a layer structure will preferably be chosen in which immediately adjacent and opposite a 5 reflective side of a reflective layer, a side of a layer of bubble wrap provided with studs or air chambers. The reason for this is that in this way it can be guaranteed that the contact surface between the reflective side of the reflective foil and the bubble wrap is as small as possible. For a good reflective effect, there is preferably no contact between the reflective side and a subsequent layer. When the studded side is placed opposite the reflective side of the adjacent reflective layer, a good reflective effect is thus obtained: the studs also act as spacers. The reflective effect is optimal with a gap of at least 4 millimeters, but this is practically not possible everywhere and is therefore not an essential requirement. Despite the above technical preference for mutual orientation of the layers in light of the operation of the reflective layers, the person skilled in the art will understand that also embodiments in which this technical preference is not taken into account can fall within the scope of protection of the claims provided that the principle of invention as described herein and as defined in the claims.

In the embodiment shown in Fig. 4A, in the direction from outside to inside the outer wall 50, the outer layer of bubble wrap 53, a further layer of bubble wrap 54, a reflective layer 55 whose reflective side faces the studded side are located successively. Layer 54, a reflective layer 56 and a further layer of bubble wrap 57 (wherein layers 56 and 57 are mutually oriented in the same way as layers 54 and 55). The studs or air chambers of the bubble film layers 55 and 57 are positioned so that the studded side faces the outer wall and the reflective sides of layers 54 and 56. This variant is, for example, well able to keep radiant heat within the container.

In the embodiment of Figure 4B, a close-up of a cross-section of an outer wall of a thermally insulated container is shown. The thermally insulated container shown is consecutively formed from outside to inside 9 by the outer wall 60, the outer bubble film layer 62, bubble film layer 63 whose studs face the reflective side of reflective foil 64, bubble foil layer 65 and a layer of reflective foil 66. The the studded side of the bubble wrap layer 65 faces the reflective side of reflective layer 66. This variant, for example, is well able to keep radiant heat outside the container.

According to a further embodiment shown in Fig. 4C, the thermally insulated container is successively formed in the direction from the outside to the inside by outer wall 70 and outer bubble film layer 73, reflective layer 74, bubble film layers 75 and 76 which are provided with studded sides towards the reflective sides of reflective layers 74 and 79 are facing, reflective layer 79, bubble wrap layers 80 and 81 facing with the studded sides to the reflective sides of reflective layers 79 and 84, reflective layer 84, bubble wrap layer 85 with the studded side of layer 85 faces the outer wall 70 and a further reflective layer of reflective foil 84, reflective layer 86, bubble wrap layer 88 with the studded side of bubble wrap layer 88 facing a reflective side of layer 86, bubble wrap layer 89, and reflective layer 90 Reflective layers 79 and 84 are in these s specific embodiment, reflecting on both sides, and thus a good reflection of radiant heat in two directions is obtained.

A special feature of the embodiment shown in Figure 4C is that the inner reflective layer 90 is also provided with two aeration openings 95 and 96. The operation of these aeration openings 95 and 96 and the underlying layer of bubble wrap 89 is in fact identical to the operation of the outer wall 70 with the bubble wrap layer 73 which is provided with ventilation openings (not shown in Figure 4C). The aeration openings 95 and 96 ensure that no heat air can be trapped between the reflective layer 90 and the bubble wrap layer 89 so that no hot spot is created in the insulation layer. The temperature in this inner layer can in this way be kept sufficiently constant to provide a very good insulating effect of the thermally insulated container.

The invention is not limited only to the embodiments shown and described. Notwithstanding what has been described above, the layer structure of insulation layers, and the specific mutual orientation and placement of each of the layers, insofar as this is not prescribed by the scope of the independent claim (s) below, may deviate from that in Figures 1-5 3 and 4A-4C. The specific composition, sequence and orientation can be adjusted at the discretion of the skilled person insofar as not prescribed by the independent main claim below.

Those skilled in the art will understand that the invention is not limited to an embodiment with two aeration openings which are manufactured in one and the same outer wall part. According to further embodiments, aeration openings are located in other side walls, top walls or a bottom of a container. Furthermore, it is possible to design the container with one, two, three, four, five or more ventilation openings, but the person skilled in the art should realize that embodiments with two or more ventilation openings prove to be better insulated than an embodiment with only one ventilation opening. The person skilled in the art will further understand that a suboptimal situation is moreover obtained when the number of aeration openings is very large.

Ventilation openings are used in the invention as described herein. The person skilled in the art will understand, in accordance with another embodiment, that the outer wall itself can be made slightly air-permeable in a manner other than indicated here, for example by perforating or manufacturing (part of) the outer wall from a cloth or woven material that can let air through.

It will be understood by those skilled in the art that the invention described herein may be practiced in a manner other than that specifically indicated herein, in light of the description given. The scope of protection will only be limited by the following claims.

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Claims (13)

A thermally insulated container, comprising an outer wall which is provided on the inside with layered thermal insulation material, the layered insulation material comprising one or more layers of bubble wrap and one or more layers of reflective foil, wherein each of the one or more layers of bubble wrap on at least one side thereof is provided with a plurality of air chambers, the layered thermal insulation material being located such that at least one of the layers of bubble wrap with the air-chambered side is adjacent to the inner side of the outer wall, the outer wall being provided with one or more aeration openings. A thermally insulated container according to claim 1, wherein the outer wall of the container consists of outer wall parts, wherein at least one of the outer wall parts is provided with the one or more ventilation openings. A thermally insulated container according to claim 2, wherein the outer wall parts comprise a bottom part of the container, wherein the bottom part is provided with one or more of the aeration openings. A thermally insulated container according to claim 3, wherein the bottom part of the container is provided on the outside with spacers. 5. A thermally insulated container according to any one of the preceding claims, wherein the outer wall is provided with at least two aeration openings for creating an air circulation on the inner side of the outer wall, between the at least one of the layers of bubble wrap and the inner side. A thermally insulated container according to any one of the preceding claims, wherein the outer wall is made of an optically impermeable material. 7. Thermally insulated container according to any one of the preceding claims, wherein the outer wall is wholly or partly provided with reflective material on an outward facing side. A thermally insulated container according to any one of the preceding claims, wherein the laminated thermal insulation material comprises a plurality of layers of bubble wrap and a plurality of layers of reflective foil, wherein one or more layers of bubble wrap is located between each two layers of reflective foil. 9. Thermally insulated container as claimed in any of the foregoing claims, wherein the at least one layer of bubble wrap which lies adjacent the inner side of the outer wall with the side provided with air chambers, lies unfixed against the inner side of the outer wall. A thermally insulated container according to any one of the preceding claims, wherein the layers of bubble wrap and reflective foil of the layered thermal insulation material are mutually separate from each other. 11. A thermally insulated container according to any one of the preceding claims, wherein at least one of the layers of reflective film of the layered thermal insulation material is situated with a reflective side facing the outer wall. 12. Thermally insulated container as claimed in any of the foregoing claims, wherein at least one of the layers of reflective foil of the layered thermal insulation material is situated with a reflective side away from the outer wall for reflecting radiant heat to the inside of the container. 13. Thermally insulated container as claimed in any of the foregoing claims, wherein at least one of the layers of reflective film of the layered thermal insulation material has its reflective side facing the outer wall, and wherein at least one of the layers of reflective film of the layered thermal insulating material with a reflective side facing away from the outer wall. 25