WO2010143958A2 - Cooler for a glass, can, bottle or mug - Google Patents

Abstract

The invention relates to a cooler for at least a container for drinks, such as a glass, a mug, or a bottle, comprising an enclosed body with an outer wall that encloses a volume, the enclosed body at least comprising a cup-shaped recess, wherein the outer wall at location of the bottom of the cup- shaped recess is formed from heat-conducting material and the other part of the outer wall is mainly formed from heat- insulating material, wherein the enclosed volume is filled with a material with a large heat capacity.

Description

Cooler for a glass, can, bottle or mug

The invention relates to a cooler for a container for drinks such as a glass, can, mug or a bottle, comprising a closed body with an outer wall that encloses a space, the enclosed body at least comprising one cup-shaped recess. For wine bottles, coolers are known, that comprise an enclosed body wherein a wall encloses a gas-filled space and the enclosed body comprises a recess in the shape of a bottle, in which a bottle can be placed. The air in the space in which the bottle can be placed can be cooled by the cold bottle that is placed therein and the insulating properties of the cooler, that in fact forms a double-walled envelope with an insulating layer of gas in between, prevents that the surrounding of the bottle heats up to quickly.

Also such wine coolers are known in which instead of gas the enclosed space comprises a liquid, so that if the cooler for instance has been placed for some time in a refridgerator, it not only has an insulating but also an actively cooling effect.

Such coolers are suited to keep a wine bottle cool for a limited period of time and usually this is sufficient for the purpose, being to keep a bottle of wine cool during part of a meal. Also such coolers are exclusively suitable for bottles and not for other drink containers as for example glasses or mugs. It is an aim of the invention to provide a cooler that in addition to the positive properties of the coolers mentioned above, also can keep a container of containers of drinks cool for a longer period of time and is also suited as well for glasses, mugs as bottles.

This aim is accomplished by a cooler according to claim 1. With such a cooler the enclosed space is filled with the material with a large heat capacity and the outer wall outside the cup-shaped recess is mainly formed from heat-insulating material. This means that when the content of an enclosed space, for example by a stay in the freezer, has been cooled down strongly, it can take up a large amount of heat. This can take place specifically because the outer wall at the location of the bottom of the cup-shaped recess is formed from heat-conducting (cold conducting) material and a mug or glass or bottle with a drink that has been placed on this bottom can be period of time. With this it is an advantage that exclusive with the part of the cooler that is part of the cup-shaped recess for a container to be cooled and in particular the part that is in contact with the container to be cooled, transfers the heat. Because the other part of the outer wall is formed from insulating material, the cooling capacity is used exclusively for the drink in the container that is to be cooled. The cold air is trapped in the heat-conducting recess by its depth and insulation. A regular and long lasting cooling of the drink in the container to be cooled is ensured by the considerable cooling capacity on one hand and the regular distribution of the material with the large heat capacity that is responsible for the cooling, over the circumference of the cup-shaped recess on the other hand. The cold- or heat-transferring capacity can be increased when at least a part of the wall of the cup-shaped recess adjacent to the bottom is also formed from heat-conducting material.

In a preferred embodiment the material with large heat capacity that is in the enclosed space mainly comprises water. Not only water with possibly materials dissolved therein, but also water containing gels and such materials can be considered. Water is a material that is cheap and commonly available and has a large heat capacity. A most preferred embodiment is formed by a material with a large heat capacity that consists of a gel that is formed by mixing cellulosegum and water in a weight ratio between 2% and 3% cellulosegum and 98% to 97% water. The gel that is thus formed can be enclosed in a enclosed space without special sealing. A favourable material for the heat conducting material is for example aluminium or stainless steel or aluminium alloys. These materials have excellent heat conducting properties and are suitable in a humid surrounding. They can be kept clean easily and do not rust.

A useful material for the heat insulating material of the wall is expanded polystyrene. It can be constructively favourable to form the wall from expanded polystyrene with on one side or on both sides covered with a thin layer of another.. material for instance. For example on the outside with a layer of a material that makes the handling of the cooler more pleasant, and on the inside a material that is impermeable for the mate- πax wiin ±arge neat capacity tnat is on t

In a favourable embodiment of the invention the total volume of the material with large heat capacity is about 30% larger than the volume of the cup-shaped recess. This provides a relatively large amount of the material with large heat capacity, so that during several hours the cooler can have a cooling effect for the container of drinks placed in the cup-shaped recess.

The cooler according to the invention can be equipped with one recess of with more recesses. When the cooler is equipped with more recesses, more glasses and the like can be placed in the cooler at the same time. This makes the cooler according to the invention especially suited for use outdoors, such as on terraces, campsites, on board of pleasure crafts et- cetera. The invention will now be explained with the description of some examples of preferred embodiments of a cooler according to the invention, with reference to the attached drawing, in which:

Fig. 1 shows a cross section of a first embodiment; and Fig. 2 shows a top view of a second embodiment of a cooler according to the invention.

Fig. 1 shows an example of a cooler 1 according to the invention that is suited for cooling or for keeping cool of a glass or mug and that comprises a recess 10, in which the glass or mug fits. Cooler 1 comprises a closed body of which the outer wall outside the cup-shaped recess is formed by a wall 2, that mainly comprises a layer of expanded polystyrene and wherein the outer wall of the body further comprises wall 4 and bottom 5 of the cup-shaped recess. Wall 4 and bottom 5 have been manufac- tured by extrusion from a 1 mm thick aluminium plate, such that the bottom has a thickness of 1 mm and the wall has a thickness of approximately 0.5 mm. The walls of the body enclose a volume 3 that is filled with a material with large heat capacity, in this case a gel, in which water has been absorbed. The gel is formed by a mixture of cellulosegum and water preferably in a weight ratio from between 2% and 3% cellulosegum and 98% to 97% water. This gel is environmentally friendly and because of the constitution of almost a solid material, no specific sealing of the enclosed volume is required. The outer wall 2 of polystyrene has been closed of on the outside by a plastic foil / and on the be able to manufacture the cooler simply and economically, it has been prepared from two parts that have been glued by means of a water resistant glue that has been placed on the connecting surfaces 6 of the two halves. The cup-shaped recess has a flat aluminium bottom 5 and connecting to that a cylindrical aluminium side wall 4. Aluminium side wall 4 has been connected to the other part 2 of the outer wall by means of a rubber sealing 9. By placing cooler 1 during a certain amount of time in the freezer, via the aluminium wall 4 and bottom 5, the content of volume 3 cools down to a low temperature. In use in recess 10 a glass of mug containing a drink can now be placed. By heat conduction of the aluminium wall 4 and bottom 5 the glass or mug will be kept cool because the water containing gel in volume 3 having a low temperature and a large heat capacity, can absorb a lot of heat. This means that a glass, can or glasses containing drinks can be kept cool for a long period of time.

Fig. 2 shows a plan view of a cooler 1 according to another embodiment of the invention and comprising more, in this case four, recesses 10. Such a cooler is suitable for simultaneously keeping cool four glasses.

It will be clear that the invention can have many embodiments both concerning use of materials, shape as well as number of recesses, and with that positions for glasses or cups of bottles to be cooled. In addition the cooler according to the invention is not only suited for keeping drinks cool, but can also be used for keeping drinks warm. To this end the cooler should not be placed in a cool area for a certain period of time, but the content of volume 3 must be heated up, for example by placing it for some time in a warm environment.

Claims

1. Cooler (1) for at least one container for drinks, such as a glass, a mug, or a bottle, comprising an enclosed body with an outer wall (2) that encloses a volume (3), the enclosed body at least comprising a cup-shaped recess (10) with a bottom (5) and a wall (4) connecting to the bottom (5) that together with the bottom (5) separates the cup-shaped recess (10) from the enclosed volume (3) and at the end away from the bottom (5) is connected to the outer wall (2), characterized in that the bottom (5) of the cup-shaped recess (10) is formed of heat conducted material and the outer wall <2) is mainly formed from heat-insulating material, the enclosed volume (3) having been filled with a material with large heat capacity, and the total volume (3) of the material with a large heat capacity being at least 30% larger than the volume of the cup-shaped recess (10), and wherein the enclosed volume (3) at the location of the wall (4) and the bottom (5) of the cup-shaped recess (10) accommodates a layer of the material with large heat capacity, the thickness of this layer being at 10% of a diameter of the cup- shaped recess (10) .

2. Cooler (1) according to claim 1, characterized in that at least a part of the wall (4) of the cup-shaped recess (10) that connects to the bottom (5) is also formed of a heat- conducting material.

3. Cooler (1) according to claim 1 or 2, characterized in that the material with large heat capacity mainly comprises water.

4. Cooler (1) according to claim 3, characterized in that the material with large heat capacity comprises a gel that is formed by mixing cellulosegum and water.

5. Cooler (1) according to claim 4, characterized in that the mixture of cellulosegum and water has a weight ratio between 2% and 3% of cellulosegum and 98% to 97% of water.

6. Cooler (1) for a glass or cup according to one of the claims 1 to 5, characterized in that the heat conducting material is chosen from the group that comprises: aluminium, stainless steel, an aluminium alloy.

7. Cooler (1) for a glass or a cup according to one of the claims 1 to 6, characterized in that the heat-insulating material comprises expanded polystyrene.

8. Cooler (1) for a glass or a cup according to one of the claims 1 to 7, characterized in that the heat conducting material has a thickness of at least 0.5 mm.