NL1001720C2 - Bottle-cooler - Google Patents

Abstract

The jacket (1) is enclosed by a holder (10). It can be open to the underside and have a relatively small to opening enclosing the bottle-neck. At his pint there can be a shoulder and a cylindrical neck of smaller diameter than the bottom end. The jacket can be of nondetachable cylindrical shape and of flexible material and 2 to 4 mm, thick. The holder can have a supporting hose of flexible watertight material. A carrying handle can be included, tired round the hose opening.

Description

Bottle cooler.

The invention relates to a bottle cooler comprising a cooling jacket and a holder placed around the cooling jacket.

German Offenlegungsschrift 2328266 discloses an insulating bottle cooler comprising a heat sink pre-cooled in a refrigerator. The cooler forms a container for a bottle and is formed from an insulating material surrounded by metal or plastic for reinforcement. A separate handle 10 can be attached to the holder.

EP-0023472 describes a bottle cooler with an outer insulating container in which cooling accumulators can be placed. The accumulators are pre-cooled in a refrigerator and can be placed in the container to contain bottles with respective diameters of 0.7 L and 1 L capacity.

The drawbacks of the cooling elements described above have the drawback that they must first be pre-cooled before they can exert their cooling effect. For this it is necessary to have a refrigerator, so that such cooling elements are less suitable for applications on, for example, campsites, on the beach, or at picnics.

Also, the bottle coolers described above have a relatively complex construction and are therefore relatively expensive. Furthermore, the known bottle coolers are heavy and can therefore be transported less easily.

It is an object of the present invention to provide a bottle cooler with a relatively simple construction, which is lightweight and works without being pre-cooled in, for example, a refrigerator.

For this purpose, a bottle cooler according to the invention is characterized in that the cooling jacket comprises a cylindrical member of a water-absorbing material.

The cooling jacket can be moistened with water and then applied around the bottle. By evaporation of water from the cooling jacket, evaporation heat is extracted from the contents of the bottle, and it is cooled. The cooling jacket according to the invention can be cooled a bottle of 1.51 content within 1 hour from a temperature of 26 ° C to a temperature of 20.5 ° C, 1001720 2 at an air temperature of 26eC, a relative humidity of 50% and a wind speed of 2 m / s.

The bottle cooler according to the present invention is lightweight and can therefore easily be taken on holiday or on days out. Since the bottle cooler works without the use of an external cooling system, it can be used in very diverse places.

In an embodiment of a bottle cooler according to the invention, the cooling jacket comprises an open bottom side and an upper end face with a relatively small opening for receiving a bottle neck. The cooling jacket can be slid around this bottle from the top of a bottle. The top face of the cooling jacket covers the shoulder of the bottle, shielding it from incident sunlight in an upright position. As a result, an improved cooling is obtained than, for example, when a cylindrical cooling jacket with a completely open top is used. The cooling jacket is preferably provided with a cylindrical neck which extends at least partly along a bottle neck, in order to prevent irradiation of sunlight thereby, and to obtain the largest possible cooling surface.

The cooling jacket can be designed as a cylindrical member of a flexible material and can for instance comprise a cloth with a sponge-shaped structure.

A particularly suitable material is a material consisting mainly of wool. Wool has been found to have very good moisture-absorbing and evaporating properties and therefore a relatively high cooling capacity.

However, the cooling jacket can also be made non-flexible and can comprise a flat web of absorbent material, which is provided with fasteners with which this web can be fastened around the bottle, such as for instance a fastening cord, a Velcro tape and the like.

Preferably, the cooling jacket is formed from an elastic material and forms a closed cylinder. By stretching the elastic material, the jacket can be slid around the bottles of different diameters, without further fasteners having to be fastened.

The bottle cooler holder preferably comprises a carrying cover 1001720 3 of a flexible, waterproof material. After the cooling jacket moistened with water has been slid around the bottle, it can be transported by placing the carrying cover around the cooling jacket. Preferably, a detachable carrying handle is provided, which can be tightened around the opening of the carrying cover, so that the top wall of the cover rests tightly against the bottle neck. This prevents water from leaking from the carrying cover, and an additional insulating effect is obtained.

The invention will be further elucidated on the basis of an exemplary embodiment, with reference to the appended drawing. In the drawing shows:

Fig. 1 shows an embodiment of a cooling jacket and a carrying cover of a bottle cooler according to the present embodiment arranged around the cooling jacket, FIG. 2 a bottle cooler according to the present invention, to which a carrying cord connects the carrying case around the bottle neck, and

Fig. 3 is a preferred embodiment of a cooling jacket according to the invention, provided with a liquid barrier.

Fig. 1 shows a cooling jacket 2 according to the present invention 20 comprising a cylindrical member 4 comprising a shoulder 5 and a neck 6. The cooling jacket 2 comprises an opening 8 on its underside. The neck 6 is provided with an opening 7, with a smaller diameter than the diameter of the bottom opening 8. The cooling jacket 2 may be formed from a sponge-shaped material, but is preferably formed from a knitted structure comprising at least 50 weight percent wool. For example, the material of the cooling jacket 2 may contain 0.003 l of water per gram and is wetted before the cooling jacket 2 is applied around the bottle 3. Submerging the cooling jacket 2 in water causes it to swell and thereby become relatively elastic with respect to the dry state. As a result, the wet cooling jacket can be fitted around the bottle 3 in a simple manner. Because water evaporates from the cooling jacket 2, the bottle 3 is cooled naturally, without the need for an external cooling device.

To illustrate the cooling effect of a cooling jacket according to the present invention, two bottles each filled with 1.5 liters of water with an initial temperature of 32 ° C were placed in an environment with an air temperature of 26 ° C, a relative humidity of 50% and a wind speed of 2 m / s. In this case, a cooling jacket according to the invention was placed around one bottle, which was formed by a knitted structure of 75% by weight of wool and 25% by weight of polyamide fiber. After 60 minutes, the contents of the bottle with the cooling jacket, which was wetted by immersion in water, had cooled to 21.5 ° C. The contents of the bottle without a cooling jacket had only cooled to 29.5 ° C after 60 minutes. The results of the test are shown in Table I.

Table I

| TIME WITH COOLING COAT WITHOUT COOLING COAT

10 15 28.0 31.5 30 25.5 31.0 45 22.5 29.5 60 21.5 29.5 15 The cooling jacket 2 may comprise a permanent cylindrical shape, but may also be designed as a flat jacket which is not shown in the drawing and which is provided with closing means.

The flat jacket can be wrapped around bottles of different diameters and can be attached around the bottle using closing means. The closing means in this case can comprise a closing cord, elastic or a Velcro.

Fig. 2 shows a carrying cover 10 placed around the bottle 3 provided with the cooling jacket 2. The carrying cover 10 is formed from, for example, a plastic material, or a laminate of a plastic material with, for example, aluminum, for further heat-insulating effect. A suitable cover is supplied by the company Emball'iso in Liergus, France. The cover 10 is waterproof, so that after cooling of the bottle 3 by evaporation from the cooling jacket 2, the bottle with the wet cooling jacket can be transported, or put down, without sand or dirt settling on the moist cooling jacket.

Fig. 2 shows that a wire clip 11, for example a carrying cord, can be tied around the neck of the bottle 3 and thus presses the carrying cover 10 around the neck in a watertight manner. With the carrying cord 11, the bottle 3 provided with the cooling jacket 2 and carrying cover 35 can be transported. In this condition, the cooling jacket 2 has a heat-insulating function, and prevents the bottle 3 from heating up again. In 1 G 0 1 7 2 0 5 instead of a carrying cord, the carrying case can also be designed as a bag with a punched-out carrying handle.

Preferably, the cooling jacket is formed by a knitted structure with at least 50 wt. Of wool. To illustrate the relatively great cooling effect of a cooling jacket in which wool is incorporated, a comparative test was carried out in which uniform cooling jackets of different materials were wetted with water to their maximum absorption capacity and placed around a 1.5 liter bottle. The air temperature in the test was 26 ° C, the temperature of the water to be cooled in the bottles was also 26 ° C. The wind speed around the bottles with the cooling jackets was 2 m / s and the relative humidity was 50%. One bottle was fitted with a "Spontex" cooling jacket, Spontex being a foam absorbent material as available from Spontex NL 15 B.V.

Table 2 shows that with cooling jackets in which wool as the main component is used, the strongest cooling was obtained after 60 minutes, the cooling jacket with cooling to 75 ° C causing cooling to 19 ° C. The theoretical minimum temperature that can be reached by evaporation is 18.5 ° C.

Table II

TIME SPONTEX FELT 75% WOOL / 65% WOOL 0 (min) 25% 35%

POLYAMIDE POLYAMIDE

25 0 26.0 26.0 26.0 26.0 15 23.5 24.0 23.5 24.0 30 22.5 23.0 22.0 22.5 45 22.0 22.0 21.0 21.5 60 21.5 21.5 20.5 21.0 30 90 21.0 21.0 19.0 20.0

Figure 3 shows a preferred embodiment of a cooling jacket according to the present invention. The upper part 13 and the lower part 14 of the cooling jacket hereby consist of a knitted 1 0 o 1 7 2 0 6 structure such as, for example, wool. A liquid barrier 12 is included between the sections 13 and 14. The liquid barrier 12 consists of wool knitted or crocheted with relatively large meshes. This prevents liquid from transferring from the upper part 13 under the influence of gravity to the lower part 14 and accumulating there. Due to the relatively large meshes of the liquid barrier 12, the liquid is slowed down, but can still penetrate slightly to the upper edge of the lower part 14, which adjoins the underside of the liquid barrier 12. This prevents the upper part 14 adjacent to the liquid barrier 12 dries out.

Instead of a knitted structure with relatively wide meshes, the liquid barrier 12 can also be formed by a material that does not differ in pore size of the parts 13 and 14, but is impregnated, for example, with a moisture-resistant material, such as, for example, silicone. Alternatively, the liquid barrier 12 may be formed of a material other than, for example, the material of the upper and lower parts 13 and 14. Here, the parts 13 and 14 may for instance be designed as 20 separate parts, for example of a fibrous structure, and the part 12 may be formed by, for example, a plastic film.

1001720

Claims (10)

Bottle cooler comprising a cooling jacket and a container placed around the cooling jacket, characterized in that the cooling jacket comprises a cylindrical member of a water-absorbing material. Bottle cooler according to claim 1, characterized in that the cooling jacket has an open bottom side and an upper end face with a relatively small opening for receiving a bottle neck. 3. Bottle cooler according to claim 2, characterized in that the top end face comprises a shoulder and a cylindrical neck with a diameter smaller than the diameter of the open bottom. Bottle cooler according to any one of the preceding claims, characterized in that the cooling jacket has a non-detachable cylindrical shape and is formed from a flexible material. Bottle cooler according to one of the preceding claims, characterized in that the thickness of the cooling jacket is between 2 and 4 mm. Bottle cooler according to any one of the preceding claims, characterized in that the holder comprises a carrying cover of a flexible, waterproof material. Bottle cooler according to claim 6, characterized in that the holder comprises a carrying handle which can be tightened around the opening of the cover. Bottle cooler according to any one of the preceding claims, characterized in that the cooling jacket comprises at least 50% by weight, preferably at least 75% by weight, of wool. Bottle cooler according to any one of the preceding claims, characterized in that the cooling jacket is formed from a fibrous material, wherein an upper half of the cooling jacket is provided with a liquid barrier extending along the periphery of the cooling jacket 30. Bottle cooler according to claim 9, characterized in that the liquid barrier is formed by a fibrous material with relatively large pores compared to the pores of the fibrous material from above and below the liquid barrier parts of the cooling jacket. 1001720