EP0499881A2 - Bottle cooler - Google Patents

Abstract

The bottle cooler has a housing formed from a bottom piece (1) and a jacket (2) which can be separated therefrom. The cooling element ring is formed from cooling ring segments (3). The bearer (5) of these elements consists of a support (6) holding the segments and a U-shaped spring element (7). In its unstressed position, the spring element holds the cooling ring segments obliquely in such a way that they bound an upwardly widening conical receptacle space 4. When a bottle is introduced, the cooling ring segments are inevitably placed axially parallel and rest against the body of the bottle. The radially possible spring path of the spring elements allows bottles of different diameters to be introduced, the cooling ring segments always resting against the body of the bottle and thus guaranteeing satisfactory cooling. <IMAGE>

Description

The subject matter of the invention is a bottle cooler with a container consisting of a bottom piece and a cylindrical jacket releasably fixed thereon, in which a cooling element ring is arranged, which delimits a bottle receiving space. Known bottle coolers of this type have the disadvantage that the bottle receiving space having a predetermined diameter cannot be adapted to the different bottle sizes; such that the cooling effect is only optimal when the cooling element ring lies against the bottle body, such a bottle cooler is only ideal for a single bottle size.

This disadvantage is avoided in the bottle cooler according to the invention in that the cooling element ring is formed from a plurality of cooling ring segments, each of which is held by a resilient, radially outwardly resilient support which is fixed in a displaceably fixed manner on the bottom part of the container. Each carrier expediently consists of a support carrying the cooling ring segment and a spring element engaging on one end on the base piece and on the other end on the support. This spring element expediently has a U-shape, the web of which is fastened to the middle part of the support projecting upward above the base piece, while the two downwardly projecting spring legs engage in holding slots in the base piece. In a preferred embodiment, the spring legs lead at an acute angle downward away from the support resting on the back of the cooling ring segment, such that the cooling element ring encloses an upwardly widening cone space when the spring elements are relaxed. This significantly facilitates the introduction of the bottle to be cooled into the bottle receiving space. As soon as the bottle hits the narrowed lower part of the cooling element ring, the supports and thus the cooling ring segments are pressed into an axially parallel position, which lies against the bottle. In order to ensure that the cooling ring segments fit perfectly on bottles of relatively different sizes, the arrangement is such that when the smallest possible bottle is inserted, only the webs of the spring elements are elastically deformed in relation to the legs of the latter in order to eliminate the conicity of the cooling element ring, while the When the larger or the largest possible bottle is inserted, the spring legs themselves are resiliently bent radially outwards in relation to their ends fixed in the base piece (at most until they rest against the outer jacket).

Fig. 1

den Flaschenkühler im Axialschnitt, links ein Kühlringsegment bei entlastetem Federelement und rechts ein Kühlringsegment bei eingeführter Flasche, und

Fig. 2

eine Aussenansicht eines Kühlringsegmentes mit Träger bei abgenommenem Gehäusemantel und eingesetzter Flasche.

An embodiment of the invention is described below with reference to the drawing; shows:

Fig. 1

the bottle cooler in axial section, on the left a cooling ring segment with the spring element relieved and on the right a cooling ring segment with the bottle inserted, and

Fig. 2

an external view of a cooling ring segment with carrier with the housing shell removed and the bottle inserted.

In the drawing, 1 is a plate-shaped base piece, on which a cylindrical jacket with a crimped upper edge is removably fixed. In this housing, which is open at the top and formed by parts 1 and 2, a plurality (advantageously three or four) of cooling ring segments 3 are arranged which delimit the bottle receiving space 4 in the container. Each cooling ring segment 3 is fastened to a carrier 5 in such a way that it has its longitudinal central axis counter to spring action in an axial plane is both rotatable to a limited extent and radially outward to a limited extent. This carrier 5 consists of a support 6 supporting the cooling ring segment 3 and a U-shaped spring element 7. The web 7a of this spring element 7 is firmly connected in the middle part of the support 6 to the latter, while the two downwardly projecting legs 7b of the spring element with their Engage the ends in the holding slots 8 in the base piece 1. These spring legs 7b are slightly bent outwards relative to the web 7a.

As can be seen in FIG. 1 on the left, the spring element 7 holds the support 6 and thus the cooling ring segment held by the latter in the relaxed state in such a position that the cooling segment ring formed by the segments 3 forms an upwardly widening conical receiving ring 4. The inside diameter of this space in the area of the spring element webs 7a determines the diameter of the smallest bottle 9 for which this bottle cooler is suitable; this can be seen on the right in FIG. 1. If this smallest bottle is inserted into the receiving space 4, it pivots the cooling ring segments into their axially parallel position, the cooling segment ring being brought to bear on the bottle body. If a somewhat larger bottle is introduced, the spring legs 7b are additionally bent radially outwards, while the cooling ring segments 3 also abut the bottle body here. As can easily be seen from the right in FIG. 1, the spring legs 7b can be pressed close to the inner wall of the housing shell 2, as a result of which the largest possible diameter of the bottle suitable for cooling in this bottle cooler is fixed. This creates a bottle cooler that is suitable for perfectly cooling bottles of different diameters. The relaxed spring elements 7 thanks to the inclined position Cooling ring segments 3 relatively large insertion diameter of the receiving space 4 also considerably facilitates the insertion of the larger bottles to be cooled, after which the cooling ring segments inevitably pivot into their axially parallel position, which lies close to the bottle body.

Claims (4)

Bottle cooler with a container consisting of a bottom piece and a detachably fixed cylindrical jacket, in which a cooling element ring is arranged, which delimits a bottle receiving space, characterized in that the cooling element ring is formed from a plurality of cooling ring segments (3), each of which is sprung by a radially limited spring outward resilient, on the bottom piece (1) of the container fixedly fixed carrier (5) are held. Bottle cooler according to claim 1, characterized in that each carrier (5) consists of a support (6) supporting the cooling ring segment (3) and a spring element (7) engaging on one end on the base piece (1) and on the other end on the support (6). Bottle cooler according to claim 2, characterized in that the spring element has a U-shape, the web (7a) of which is attached to the central part of the support (6) which projects upwards above the base (1), while the two spring legs (7b) projecting downwards ) engage in holding slots (8) in the base piece (1). Bottle cooler according to claim 3, characterized in that the spring legs (7b) lead at an acute angle downward away from the support (6) resting on the back of the cooling ring segment (3), in such a way that when the spring elements (7) are relaxed, the cooling element ring widens upwards Encloses the conical space (4).

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