DE2244715A1 - COOLER - Google Patents

Description

Cooling container The invention relates to a cooling container, preferably in the form of a mug or drinking glass designed to contain its contents can be cooled. For this purpose it is known to double-wall the cooling container to form and the cavity between the outer shell of the container and the actual filling space forming the container part with a refrigerant such as To fill ice.

The known cooling container has the disadvantage that it is cumbersome and that its use is linked to the presence of the refrigerant is, d. H. at the place of use the cooling container has to fill its cavity for the refrigerant, a correspondingly cold substance can be reached that provides the cooling the contents of the container causes.

The invention is based on the object of creating a cooling container, which is suitably designed to generate the cold required for cooling itself is, i.e. at any location, and insofar independent of a refrigerant source, can be used.

The invention solves this problem by creating a cooling container, which is a capsule with a solid, liquid and / or gaseous pressure medium and an inflatable one connected or connectable to its outflow opening Enclosure comprises, the inner shape of which is an open or closed filling space of the container trains.

A cooling container of this type is advantageous as a so-called disposable cooling container trained, d. i.e., the contents of the capsule from which the pressure medium flows out just dimensioned so that the container contents can be cooled once.

The use of the cooling container according to the invention suggests itself especially in the food sector.

In particular, it is intended to fill in the filling space of the container Liquids such as fruit juices, beer or the like. To cool and in this way Bringing a temperature expected from soft drinks.

The filling space, which is surrounded by the inflatable cover, can be closed or open on one side. be. A closed filling space contains the from the start Container contents to be cooled. A filling space that is open on one side is then appropriate> if a chilled container is to be created, in which one is not yet Liquid cooled to drinking temperature is poured in from a warmer reservoir should be and cooled down by the container to the desired drinking temperature shall be.

In the case of the closed filling space, the cooling container serves at the same time as a vessel and as a packaging for the contents to be cooled in the vessel; in the case of the Of the lines of filling space, the cooling container merely forms a cold vessel, for example a drinking cup.

In the case of the cooling container according to the invention, the outflow of the pressure medium from a pressure-resistant capsule used in two ways: once to inflate it the shell forming the container, on the other hand to generate the necessary cold for cooling down the contents of the container. This amount of cold arises because at the relaxation of the outflowing pressure medium of the environment in the sense of an endothermic Process heat is withdrawn, according to the physical laws in the case of the expansion of gases to a pressure lower than the initial pressure Pressure.

So that the cold of the cooling container is mainly inward, i.e. too its content is exchanged, the invention proposes that the bottom and / or the outer jacket of the cooling container is made of stiff, heat-insulating material. This training not only ensures convenient handling of the cooling container as Drinking vessel; it also offers the advantage that the heat flow from the outside is inhibited, the container contents for example against the warmth of the hand of the Drinking is isolated.

The shell forming the cooling container does not need to be inflated State of not having a particular shape.

It can be made entirely of flexible or elastic material, for example, made of a thin, elastically stretchable rubber or rubber that is resistant to cold Plastic skin or a metal foil folded before inflation, preferably be formed from an aluminum foil; but it can also, as already stated, rigid wall parts include. These rigid wall parts can preferably be the outer jacket and / or form the bottom of the container; in the latter case it is for transportation of the empty container advantageous that the outer shell from in the non-inflated State of the envelope folded or nested parts consists, which are stretched when the envelope is inflated, so that they the container shape accept. Serve when the container is empty and shortened when not inflated the rigid outer wall parts at the same time as a protective cover for the thin-walled inner skin, which are arranged folded up inside the outer wall and lying on the capsule is.

The gas can flow out of the capsule by that the outflow opening is provided with a valve; there are numerous embodiments such a valve is conceivable.

For example, it can be opened or closed repeatedly.

Close or only be designed to open once; it can be done by hand, either directly with your fingers or with the aid of a Tool can be operated.

A particularly simple design of the valve is that there is a membrane blocking the outflow opening or a membrane blocking the outflow opening The plug is destroyed or removed to release the discharge opening will.

A particularly advantageous type of use of the cooling container according to the invention is that this is arranged inside a can, so that a cooling box arises. The cooling container serves as a cooling set to cool down the contents of the can, preferably cans with soft drinks, fruit juices, beer, Soda water or the like. Of course, within the scope of the invention, the Can itself part, e.g. B. outer jacket of the cooling container. This type of use the cooling container according to the invention requires that the cooling box with one of outside of the same actuatable, closing the outflow opening of the capsule Valve is provided. This valve can either open at the same time as the Can or can be actuated independently of it. For using the can as a so-called disposable can, it is sufficient if the valve is to open as after its one-off destroyed closure is formed.

The proposal according to the invention that the envelope in the inflated state the cooling container formed entirely or partially within the can, enables it, by the volume of the inflated envelope inside the can for the contents of the can to extend taken space beyond the can; in this case it is the Cover higher than the can surrounding it.

To keep the generated cold inside the can for as long as possible can, it is expedient that the can wall has a heat-insulating layer.

The arrangement of the cooling container inside the can can be done by that the capsule is attached to the bottom of the can, for example clipped.

Numerous variants of its subject matter are within the scope of the invention conceivable; for example, the bottom of the can can be entirely or partially covered by the capsule be educated yourself; the cooling container according to the invention can be folded up State free-floating or due to the contents of the can lying on the floor inside be arranged; furthermore, the capsule with the pressure medium can be arranged on the outside of the can be.

There are numerous closures or valves within the scope of the invention on the capsule for exposing the outlet opening for the pressure medium is conceivable. Closures that do not face outside are particularly suitable in connection with cans the can are led unlz.B. by indenting a point on the can wall, is preferred of the bottom of the can. For this it can be useful to use one of the indented To arrange the can wall in the normal position pushing back spring inside the can, to ensure that the discharge opening is fully uncovered.

Further essential details and features of the invention are the to be found in the following description and the claims. The following will be several exemplary embodiments of the invention are explained with reference to the drawing.

The technical solutions described in connection with the individual exemplary embodiments each contain inventive features. 1 shows a cross-section through a cooling container with a closed filling space in the non-inflated state, FIG. 1 a detail A according to FIG. 1, on an enlarged scale, FIG. 2 a cross-section through a cooling container with an open filling space in the non-inflated state Fig. 3 shows a cross section through a cooling container with a rigid outer wall, in the inflated state, Fig. 4 shows a cross section through a cooling container with a telescopically extendable rigid outer wall, in the inflated state, inflated state, FIG. 6 the cooling container according to FIG. 5 in the inflated state, FIG. 7 a cross section through another embodiment of the cooling container, FIG. 8 the capsule of the cooling container in an enlarged view, FIG. 9 a partial view of the capsule 8, FIG. 10 shows a view of the capsule according to FIG. 8 from below, FIG. 11 shows a cross section rch a cooling container without capsule, Fig. 12 a cooling box in cross section, The cooling container shown in cross section in FIG. 1 is formed from the shell 1 with the outer skin 2 and the inner skin 3 *, which are fastened to the bottom 4, preferably by welding or gluing. The outer skin 2 is connected in a gas-tight manner to the periphery of the base 4; the inner skin 3 is only attached to the floor surface via narrow webs 5. The inner skin 3 delimits the actual filling space of the container. As such, it has the shape of a sack. It is connected with its edge at 6 to the outer skin 2 in a gas-tight manner.

The liquid 7 filled into the container is therefore from the inner skin 3 and enclosed by the closure skin 8. The closure skin 8 is sealing with connected to the edge 6 of the outer skin 2. Between the bottom 4 and the inner skin 3 is a Capsule 9 with a pressure medium, for example liquid gas, is arranged. The capsule 9 is welded, glued or connected via a snap-in device to the floor. An edge section lo of the capsule 9 does not rest on the bottom 4. On the outside this edge section has a tear tab 11. With the tear nose 11 is the end a pressure bracket 12 firmly connected, the other end of which widens to form a plate 13 which is arranged in the interior of the base 4.

In Fig. La the tab 11 and the bracket 12 are shown enlarged. In contrast to FIG. 1, the plate 13 is supported on the upper side of the base 4 arranged.

The tearing off of the tear tab 11 and thus the opening of the capsule 9, so that the pressure medium can flow out, takes place by external pressure application, according to. Arrow P, against the underside of the floor 4. By pressing the plate 13 together with the bottom 4 is over the bracket 12, which with the ring 14 is the tear nose 11 embraces, the tear nose 11 -at its neck 15, a weak point, separated and the outflow opening 16 for the pressure medium enclosed in the interior of the capsule 9 Approved. The outflowing gas flows between the webs 5 and fills the space 2a between the outer skin 2 and the inner skin 3. It will the stretching of the outer skin and inner skin to form a cylindrical container, its Upper side is closed by the closure skin 8, causes.

Outer skin and inner skin advantageously consist of a flexible, possibly rubber-elastic plastic material.

As a result of the pressure medium flowing out of the capsule 9 very low temperatures, it is expedient to remove the outer skin 2 and the inner skin 3 Material that does not embrittle at low temperatures, e.g. silicone rubber, to train. To improve the thermal conductivity of the inner and outer skin or the To reach surfaces delimiting the intermediate space 2a, it is advantageous to use the To coat existing parts with metal or to vaporize them. The capsule 9 and the bottom 4 can consist of a solid plastic material or of metal. In order to isolate the inflated, cooled container from the outside, it is advantageous to use the Bottom 4 and the outer skin 2 with a wall thickness that is greater than that of the inner skin 3 to train.

The container shown in Fig. 1 is in the deflated state a more or less indefinite form; it is therefore well suited for a space-saving Verpaokung. Liquids in particular can be filled in it. The closed one Inner skin 3 ensures that the liquid against all other parts of the Container, so also with respect to the capsule 9 is hermetically sealed. Here would just for a better understanding also in the filled one, not inflated State of the cooling container, the space 2a shown. Usually hugs In this case, the inner skin 3 adjoins the outer skin 2.

Fig. 2 shows, also in cross section, a cooling container in the not inflated state. The outer skin 17 of the cooling container is like an accordion folded.

Its lower end is connected to the bottom 4 in a gas-tight manner. On theirs At the top end, an inwardly folded film 18 is connected in a gas-tight manner. The upper Edge 25 of the outer skin 17 is designed as an inwardly bent collar, in order to avoid contact of the lips with the cold foil 18 while drinking. The film 18 forms the filling space of the container in the inflated state. Of the The bottom of the film 18 is attached to the top of the capsule 9. The outer skin 17 and the film 18, which in the present exemplary embodiment is preferably made of Aluminum, together form a gas-tight envelope which, when the Pressure medium is inflated from the capsule 9, the folded outer skin 17 is stretched, with the formation of a cylindrical, or in cross section angular, e.g. B. square container. The capsule 9 is at the top of the bottom 4, e.g. B. by gluing attached. The top of the bottom 4 is formed by the upwardly facing surfaces of the radial ribs formed on the bottom 19. Um the thermal conductivity of the surface of a floor made of plastic improve, it is advantageous to coat the surface with metal or to steam. If the floor is made of a composite material, it will be just below the Metal foil incorporated into the surface. That from the outlet opening 20 of the capsule 9 escaping pressure medium passes through the interior 21 of the capsule and through the channels formed between the ribs 19 in the cavity 18a between the outer skin 17 and the film 18 forming the filling space of the container pressure of the gas flowing out of the capsule, outer skin 17 and film 18 are formed of the cooling container stretched. The discharge opening 20 is opened by a Pressure against the underside of the bottom 4 in the direction of arrow F. This is the Pressure bracket 22, whose enaplate 23 is cast into the ground or in some other way is attached to the ground, moves inwards and penetrates with its inner being End of the closure of the outflow opening 20. The inner end of the bracket 22 can, for example be connected to a plug, which by the pressure in the direction of the Arrow F is torn out of its connection with the capsule wall; the inner However, the end of the pressure bracket 22 can also be designed as a needle tip that passes through the pressure in the direction of arrow F a membrane closing the outflow opening 20 pierces.

When using a cooling container, which is approximately according to the scale of the illustration 2 and when using a capsule in which pressurized gas from about 5 to 6 atmospheres of pressure is stored, it is possible through the at The amount of heat extracted from the surrounding area cools down the gas in the Container.

filled liquid by at least 60C compared to the environment to achieve. This cooling is generally sufficient for the preparation of All kinds of soft drinks. The temperature difference that is effective for cooling the container but can still be increased by changing numerous influencing factors. Included It is particularly important that the outer skin 17 of the container consists of a heat-insulating Material consists or at least has a heat-insulating coating.

Since the cooling is also dependent on the pressure difference when the Print medium depends, d. H. increases with increasing pressure difference, it is advantageous to the pressure in the envelope formed by the outer wall 17 and the membrane as possible to choose low. The pressure inside the sleeve should be compared to the pressure in the surrounding atmosphere just be so much greater that the pressure difference is sufficient, to keep the walls of the shell taut, so that the cooling container formed by the shell is stable.

Fig. 3 shows a further embodiment of the cooling container in cross section. This has a rigid outer wall 24 which is fastened to the floor 4. in the Inside the container is a ring-shaped one resting on the bottom 4 Pressure capsule 26 attached. The walls of the pressure capsule 26 are made of plastic. To open the pressure capsule for the outflow of the compressed gas, its ring-shaped Inner wall radially destroyed at points 27 by means of knife 28. The knife 28 is rotatably connected to the shaft 29, at the outer end of which an annular, if necessary, foldable handle 30 is non-rotatably attached. The shaft 29 is opposite the outside of the bottom 4 by means of the plate-shaped seal 31, which with the shaft 29 is rotatably connected, sealed. To the sealing effect between the Raising plate 31 and the floor 4 is the surface of the plate facing the floor 31 roughened or sticky, so that after actuation of the knife a Pull, according to arrow K, on the handle 30 is sufficient, the plate 31 sealingly on the floor 4 to hold.

Because the shaft 29 is eccentric inside the annular Capsule is arranged, the tip of the knife 28 when rotating the shaft 29 over slit open the inner wall with a longer circumferential arc. The escaping gas blows the shell 32, which is attached to the inside of the outer wall 24. To the Contact with the very cold vented gas and that into the container, d. H. in the interior 32a of the envelope 32, to make the filled liquid as intimate as possible, shows the container in its 1 f '1 1 1 ft Inside another central one finger-like bead 33, which clearly increases the size of the contact surfaces between the contents and the edge of the container. To achieve the shown in Fig. 3 Sheath shape, it is appropriate to use the thicker lines drawn sections of the Reinforce the shell wall; this is particularly true for the upper edge 34 the case, to facilitate drinking from the container.

Fig. 4 shows a cross section through a container, the shell is designed similarly to that shown in FIG. It differs from FIG. 3 however, the outer wall of the container consists of two rigid parts that can be slid into one another constructed, namely an outer part 35 and an insertable inside Part 36. Part 36 of the upper wall part of the container when it is inflated forms, has a bend 37 along its upper edge, which on the one hand the Drinking from this container is made easier and also thanks to its internal shape serves as a pressure surface for the envelope 38, so that when it is inflated the upper wall part 36 is extended. The edge portion 39 of the bottom-mounted capsule 40 is from Ground removed. On its underside, the outflow opening 41 is provided, which opened by means of the pressure bracket 22 described in more detail in connection with FIG can be.

In Figures 5 and 6, a cooling container is drawn, the outer wall 42 consists of several ring-shaped parts which can be telescoped into one another. The individual rings interlock with their bent end edges, so that their Extension position is precisely limited.

Inside the outer wall, the shell 43 is arranged, which, like 3 and 4, a central finger-like bead 44 has. The outer skin 45 of the casing 43 is welded to the base 4 along the seam 46.

The capsule 40 and the pressure bracket 22 are as in connection with Fig. 4 described, formed.

In Figures 5 and 6, the same container is in the collapsed position and shown in the extended position.

In all previously described embodiments of the cooling container this is when the pressure medium flows out of a for distribution purposes by the blowing pressure reduced form stretched into the cup-like final shape.

In contrast to this, FIG. 7 shows a cup with a defined, more rigid Outer shape, consisting of the cup side wall 47 and the bottom 4. The inside The envelope 48 provided of the cup is gas-tight along the upper edge 49 of the side wall 47 connected. The bottom of the shell is attached to the top of the capsule 40. The capsule and pressure lever 22 are designed as shown in FIGS. 3 to 6. This embodiment of the cooling container has the advantage that the shell 48 and the Capsule 40 including pressure lever 22 can be removed after use and the cup wall available as an ordinary container for further use.

8 to lo a capsule 50 is shown, the tear nose 51 is severed by means of the knife 52 with the cutting edge 53 sloping upwards can be. The knife 52 is at its other end by means of the plate 54 on the ground 4 of the otherwise not shown container, duGh pour or molding or attached by gluing.

As can be seen from FIG. 10, the capsule itself has a circular shape Cross-section. Your area 5-5, removed from the floor 4 in the built-in area, where the Tear nose 56 is provided, has approximately the shape of a circular section.

The bottom 4 is advantageously in the area around the plate 54 of the knife 53 designed to be particularly soft. In the case of a floor made of hardenable plastic this can be achieved, for example, in that said area of the floor a larger amount of plasticizer is added than when the the rest of the soil is the case. The area mentioned can therefore be pushed in very easily, from which a very good mobility of the knife 52 or, according to FIG. 7, of the pressure bracket 22 results.

Fig. 11 shows a modified cooling container insofar as the Capsule with the pressure medium is not arranged in its interior, but on the Check valve 57 indicated in the bottom of the container wall can be connected from the outside is. In addition, the cooling container according to FIG. 11 has a very simple structure: it comprises a rigid, thermally insulated container wall 58 and one disposed inside it inflatable envelope 59. So that the flexible envelope 59 also has the desired container shape assumes when inflated, it can be in several places, e.g. B. at 60 with be connected to the container wall.

Fig. 12 shows a cooling box 61, inside of which a cooling container 62, the structure of which corresponds to that according to FIG. 7, is arranged. The cooling box 61 can be a very common tin can, as is the case with food cans usually used to be. The contents 63 of the can are essentially through the interior of the cooling container 62 formed by the flexible inner skin 64. This plays it does not matter whether the contents inside the cooling container are locked, for example by a cover membrane (not shown) or whether the content is also between the cooling container and wall of the ühldose 61 arrives. It is essential that the tear wire 65, its inner End is connected to the tear tab 66 on the capsule 67, gas and liquid-tight passed through both the bottom 4 of the container 62 and the bottom 68 of the can is. This is achieved for example by the fact that the tear wire 65 in a rubber-elastic skin 70, which with the inner surface of the cooling container 62 and is glued or welded to the wall of the capsule 67, vulcanized is. The outer end of the tear wire 65 has a handle 69 which is in the bottom of the can is arranged sunk.

- patent claims -

Claims (12)

Claims P ühl container, which has a capsule (9, 26, 40, 50, 67) with a solid, liquid and / or gaseous pressure medium and another Outflow opening connected or connectable inflatable envelope (1; 17, 18; 32; 38; 43; 48; 59; 64), the inner shape of which is open or closed Forms the filling space of the container. 2. Cooling container according to claim 1, characterized in that the Cover in the inflated state a defined, the filling space of the container forming Has internal shape. 3. Eühlbehälters according to claim 1 or 2, characterized in that its bottom (4) and / or its outer casing (2; 17; 24; 35, 36; 42; 47; 58) made of rigid, Insulating material exist. 4. Cooling container according to claim 3, characterized in that the Outer jacket made of folded or interlocked in the non-inflated state of the envelope arranged parts (17; 35, 36; 42), which stretched when the envelope is inflated will. 5. Eühlbehälters according to claim 1, characterized in that the Outflow opening is provided with a valve. 6. Cooling container according to one of claims 1 to 5, characterized in that that the valve has a membrane blocking the outflow opening or a membrane that closes it The plug is destroyed or removed to release the discharge opening will. 7. Cooling container according to one of claims 1 to 6, characterized in that that the inflatable shell made of a thin, elastically stretchable, resistant to cold Rubber or plastic skin. 8. Yiinl container according to one of claims 1 to 6, characterized in that that the shell is preferably made of a metal foil folded before inflation an aluminum foil. 9. Cool box with liquid content, especially for a refreshing drink Beverage, inside which a cooling container according to claims 1 to 8 is arranged is, with one actuatable from outside the can (61), the outflow opening of the Capsule (67) closing valve (65, 69, 70). 10. Cooling box according to claim 9, characterized in that the shell in the inflated state the cooling container wholly or partially within the can trains. 11. Cooling box according to claim 9 or 10, characterized in that the can wall has a heat insulating layer. 12. Cooling box according to one of claims 9 to 11, characterized in, that the capsule is attached to the bottom of the can.