EP1359380A2 - Liquid container - Google Patents

Abstract

The outer chamber (12) of the bottle contains a beverage or a liquid which needs to be cooled for a technical purpose. The bottle is closed with a lid (10) with a central plug (38) which fits into the wide neck of the bottle. The lid has a flat top surface (16) near the top of a cylindrical portion (44) of the same diameter as the cylindrical bottle. The bottom edge of the lid has a plastics anti-tamper seal (46) and fits on a shoulder on the bottle. The central plug has a threaded extension (40) which screws into a threaded fitting (28) screwed (26) into the top of the central chamber (18). Screwing the lid further in breaks the seal and drives a spike into the inner container, allowing the coolant to escape through a narrow channel (48) in the lid. The coolant is nitrous oxide.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention

The present invention relates to a liquid container according to the preamble of Claim 1, and in particular a liquid container for cooling and / or keeping cool a liquid such as a drink without further technical Aids.

2. State of the art

For cooling and / or keeping food or drinks cool, for example Known cooling elements that contain a cooling medium. The previously in a freezer Chilled cooling elements are used together with the food to be cooled or drinks in a cool box. Such cooling elements are also in practice known as the cold pack.

The commonly used cold packs are essentially cuboid. To achieve a more effective cooling of beverage containers such as Party barrels with beer DE 196 31 396 A1 proposes a specially designed cooling element before that the largest possible contact area between the cooling element and provides the beverage container to be cooled.

Furthermore, beverage containers are known from the prior art, which in addition to the actual container body for holding a drink a second container for have a cooling medium. For example, DE 85 26 612 U1 discloses one Liquid container which can be screwed onto a second container in a form-fitting manner, a cooling medium or a heating medium in the second container as required can be filled. In the case of DE 85 30 959 U1, the additional container is one Liquid container through a space between a double wall of the Formed liquid container, this space being closable Opening can be filled with a cooling or heating medium.

All these conventional liquid containers have in common that they are for cooling an additional technical one of the liquid contained in the liquid container Aids, such as a separate cold pack or one in a special one Additional container of the liquid container to be filled in, previously separately cooled cooling medium need.

SUMMARY OF THE INVENTION

Starting from the prior art described above conventional liquid containers is the object of the present invention, a liquid container to create one with no further technical aids in the liquid container liquid can be cooled or kept cool.

This object is achieved by a liquid container with the features of the claim 1 solved. Advantageous refinements and developments of the invention are the subject of the dependent claims.

The liquid container has a container body for receiving one to be cooled or to be kept cool liquid with an opening for filling and dispensing the Liquid; a lid for liquid-tight sealing of the opening of the container body; and a cooling tank in direct or indirect thermal contact with the Inside of the container body, the cooling tank being liquid-tight with a closure is locked on. According to the present invention is in the cooling tank of the liquid container a liquid gas is filled; there is also an opening device for optionally establishing a gas connection between the interior of the cooling tank and the Provided environment of the liquid container through which gas connection that Liquid gas can evaporate from the cooling tank.

For cooling one filled in the container body of the liquid container Liquid is a gas connection between the Made inside the cooling tank and the vicinity of the liquid container. By up to this point in time, this gas connection can do this tightly in the cooling tank Now vaporize the enclosed LPG. The one for this evaporation process required evaporation heat draws the liquefied gas from its surroundings, i.e. about direct or indirect thermal contact with the inside of the container body the liquid in the container body, whereby this liquid is cooled.

In the liquid container according to the invention, as described, which in the Liquid container existing liquid without further technical aids (such as Example separately to be pre-cooled cold packs or cooling media) cooled or kept cool be because the cooling device is fully integrated in the liquid container and can be triggered if necessary.

The liquid gas in the cooling tank is advantageously a food-compatible, ie food-grade, in particular non-toxic liquid gas, such as nitrogen oxide (N ₂ O).

The cooling tank is preferably arranged inside the container body and is fixed with it connected to this.

In a particularly advantageous embodiment of the invention, the opening device integrated into the lid of the container body, the gas connection in the form of a between the inside of the cooling tank and the surroundings of the liquid container is formed by the cover of the container body extending gas channel. For the Establishing the gas connection is the lid of the container body, for example, in a first and a second, each sealing the container body in a liquid-tight manner Lockable position, the opening device between the gas connection the inside of the cooling tank and the area around the liquid container in the second Establishes the closed position of the lid. This can be done by one at the bottom of the Cover of the container body provided tip, which the closure of the Cooling tanks pierce or pierce in the second closed position of the lid, the gas channel also extending through this tip.

In a further embodiment of the invention, the cooling tank is for a good thermal Contact between the liquid gas and the inside of the container body from one made of thermally conductive plastic material, and the container body is for thermal Isolation from the environment of the liquid container from a heat insulating Made of plastic material.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1

eine schematische Schnittdarstellung eines Behälterkörpers mit integriertem Kühltank eines Flüssigkeitsbehälters gemäß der vorliegenden Erfindung;

Fig. 2

eine schematische Schnittdarstellung des Behälterkörpers von Figur 1 mit eingefüllter Flüssigkeit und einem aufgeschraubten Deckel in seiner ersten Verschlussstellung;

Fig. 3

eine schematische Schnittdarstellung des Behälterkörpers von Figur 1 mit eingefüllter Flüssigkeit und dem aufgeschraubten Deckel in seiner zweiten Verschlussstellung zum Kühlen der Flüssigkeit; und

Fig. 4

eine schematische Schnittdarstellung des Behälterkörpers von Figur 1 mit eingefüllter Flüssigkeit und einem nach erfolgter Kühlung der Flüssigkeit wieder abgeschraubten Deckel zum Ausgeben der gekühlten Flüssigkeit.

The above and further advantages and features of the invention can be better understood from the following description of a preferred exemplary embodiment with reference to the accompanying drawings. In it show:

Fig. 1

is a schematic sectional view of a container body with an integrated cooling tank of a liquid container according to the present invention;

Fig. 2

a schematic sectional view of the container body of Figure 1 with filled liquid and a screwed on lid in its first closed position;

Fig. 3

a schematic sectional view of the container body of Figure 1 with filled liquid and the screwed on lid in its second closed position for cooling the liquid; and

Fig. 4

a schematic sectional view of the container body of Figure 1 with filled liquid and a screwed off after cooling the liquid again to dispense the cooled liquid.

DETAILED DESCRIPTION OF THE PRESENTLY PREFERRED EMBODIMENT

With reference to Figures 1-4, the structure and mode of operation are described below a currently preferred embodiment of a liquid container according to of the present invention explained. The liquid container is especially for Suitable for cooling or keeping drinks cool. However, the present invention is generally not limited to this application for drinks; for cooling others Liquid also has fewer restrictions on what to use Liquid gas.

As shown schematically in Figure 1, the liquid container 10 consists of a Container body 12 approximately in the form of a drinking bottle and with an opening 14 for Filling and dispensing a liquid to be cooled, such as one Beverage. The opening is provided with a cover 16 (not yet shown in FIG. 1) lockable liquid-tight; For this purpose, the opening 14 has an internal thread, for example on, into which a corresponding external thread of the cover 16 can be screwed.

A cooling tank 18 is arranged inside the container body 12. The cooling tank 18 contains a liquid gas 20, such as, for example, a liquid nitrogen oxide (N ₂ O) which is food-compatible, ie food-grade, in particular non-toxic. Instead of the N ₂ O as the liquid gas 20, other liquid gases can of course also be used, provided that they are also food-compatible if the liquid container 10 is used for drinks. The term liquefied gas is understood to mean a substance which is in the gaseous state at room temperature under normal pressure, ie whose boiling temperature is significantly below room temperature, and which has been brought into its liquid phase by appropriate excess pressure.

The cooling tank 18 is filled in a vacuum, for example under a pressure of approximately 4 bar, with the liquid N ₂ O by means of a suitable device via an opening 22 in the upper section of the cooling tank 18. The opening 22 of the cooling tank 18 is then closed liquid-tight with a corresponding closure 24. As can be seen in FIG. 1, the closure 24 has a downwardly projecting, that is to say arranged on the side facing the cooling tank 18, first threaded section 26, which can be screwed into a corresponding thread at the upper end of the cooling tank 18. Furthermore, the closure 24 is provided on the side facing away from the cooling tank 18 with a second threaded section 28, into which an opening device to be described later can be screwed.

The closure 24 of the cooling tank 18 is preferred for reasons explained later Made of plastic. The cooling tank 18 itself preferably consists of a heat-conducting one Plastic material to ensure good thermal contact with the inside of the To ensure the container body 12 of the liquid container 10. The cooling tank 18 must also be constructed to withstand the pressure of the liquid gas 20 therein.

After the cooling tank 18 has been filled and closed, it is placed in the container body 12 of the liquid container 10 used. The cooling tank 18 is preferred positioned centrally in the container body 12 and firmly with this in the base area connected. For this purpose, the container body 12 has webs 30 with latching lugs in the base region 32, which in a corresponding recess 34, for example in the form of a groove on the Intervene on the outside of the cooling tank 18. The webs 30 and the recess 34 are there preferably formed all around the circumference. In addition, the Web 30 with the detents 32 preferably with the lower portion of the cooling tank 18th welded using heat (e.g. hot air). This is possible because the container body is made of a plastic material.

In the liquid container 10 prepared in this way, one can now be opened through the opening 14 cooling liquid 36 can be filled, as shown in Figure 2. Then will the opening 14 of the container body 12 is liquid-tight through the lid 16 already mentioned locked. For this purpose, the cover 16 has a first threaded section 38 on, which can be screwed into the thread of the opening 14. Further has the lid 16 following the first threaded portion 38 on the Cooling tank 18 side facing a second threaded portion 40, which so is designed such that it fits into the second threaded section 28 of the closure 24 of the Cooling tanks 18 can be screwed. In particular, the second threaded section has 40 of the cover 16 has a smaller cross-sectional dimension than the first threaded section 38th

Following this second threaded portion 40 of the lid 16 is on the A tip 42 is provided on the side facing the cooling tank 18, initially in the position shown in FIG illustrated first closed position of the cover 16 on the first threaded portion 26, which closes the opening 22 of the cooling tank 18, stands up. Throughout the whole Cover 16, i.e. through the first threaded section 38, the second threaded section 40 and the tip 42, runs along its longitudinal axis a gas channel 48 which is the front End of the tip 42 connects to the surroundings of the liquid container 10, as in Figure 2 shown.

As can be clearly seen in Figure 2, both the first and the second Threaded section 38, 40 of the cover 16 even further into the corresponding threaded sections the container body 12 or the closure 24 of the cooling tank 18 screwed become. This first closed position of the cover 16 is due to the on the first threaded section 26 of the closure 24 of the cooling tank 18 tip 42 of the lid 16 is defined and is fixed by on the outside of the container body 12 Web 44, which are fixedly connected to the lid 16, secured. Fixing this Crosspieces 44 on the container body 12 are made, for example, by means of a plastic seal 46, which tears open relative to the container body 12 when the lid 16 is rotated.

The liquid container 10 shown in Figure 2 is now, i.e. with the filled in Liquid 36 and the lid 16 in its first closed position, ready for operation. Based on this, the liquid 36 can now be cooled in the liquid container 12 are, as explained below with reference to Figure 3.

In order to cool the (not necessarily precooled) liquid 36 in the To start liquid container 10, the lid 16 is broken by breaking the plastic seal 46 of the webs 42 on the container body 12 further into its second closed position screwed, as indicated by an arrow 50. Here the first turns Threaded portion 38 of the lid 16 further into the thread of the opening 14 of the container body 12 and the second threaded portion 40 of the lid 16 further into the second Threaded section 28 of the closure 24 of the cooling tank 18, so that the tip 42 of the Lid 16 pierces or pierces the closure 24 of the cooling tank 18, as in FIG 3 shown. The gas channel 48 which runs through the entire cover 16 creates thus a gas connection between the inside of the cooling tank 18 and the surroundings of the Liquid container 10. The container body 12 remains in the second closed position the lid 16 is still closed liquid-tight.

This gas connection allows the liquid gas 20 to evaporate in the cooling tank 18, such as indicated at 52, 54 in Figure 3. The one required for this evaporation process Evaporation heat draws the liquefied gas 20 from its surroundings, i.e. on the thermal contact with the inside of the container body 12 from the liquid 36 in Container body 12, whereby this liquid 36 is cooled.

The degree of cooling of the liquid 36 in this process depends on the amount of the liquid gas 20, the heat of vaporization of the liquid gas 20 (for example about 377 kJ / kg for N ₂ O), the amount of the liquid 36 to be cooled (for example water) and the thermal conductivity of the material of the cooling tank 18. In an already tried-and-tested embodiment of the liquid container 10 according to the invention, the liquid gas 20 evaporates, for example, from the cooling tank 18 within about two minutes, and only about 150 ml of N ₂ are produced for cooling about 330 ml of water as the liquid 36 to be cooled by 20 ° C. O needed as LPG 20. If necessary, the liquid 36 can even be frozen. In order to be able to maintain the temperature of the liquid 36 cooled in this way for as long as possible, the container body is preferably made of a thermally insulating plastic material.

To dispense the cooled liquid 36 from the liquid container 10, the Lid 16 simply completely unscrewed from the container body 12, as in Figure 4 shown. At the same time, the closure 24 of the cooling tank 18 also becomes unscrewed. This is possible if, for example, the second threaded section 26 of the Closure 24 is a left hand thread, and the first and second threaded portions 38, 40 of the cover 16 are each a right-hand thread. Unscrewing the closure 24 reduces the risk of injury to the user.

As can be seen in FIG. 4, there is the possibility that the liquid 36 in the Container body 12 now also flows into the cooling tank 18, especially when tilting of the container body 12 for pouring the liquid 36 through the opening 14. This is but harmless even with beverages 36, provided that a food-compatible liquid gas is used 20 is used. It is even harmless here if the liquid container 10 even before the liquid 36 is completely cooled, i.e. if there is anything else Liquid gas 20 in the cooling potion 18 is opened.

As shown in Figures 1-4, the container body 12 has outside in the bottom area additionally a paragraph 56. The inverted cover 16 can be placed on this shoulder 56 after opening the liquid container 10 are advantageously plugged on, when the liquid 36 is poured from the container body 12. Of course the lid 16 can also be screwed onto the container body 12 again, if all of the liquid 36 has not been removed.

While the present invention above based on a preferred embodiment has been explained in detail, the invention is not limited to this alone. Rather, those skilled in the art can make various modifications and modifications to it make without the scope of the invention as it is attached Claims is defined to leave.

For example, the cooling tank does not necessarily have to be arranged centrally in the container body. It is even conceivable to arrange the cooling tank outside the container body around its circumference. Furthermore, the present invention is not limited solely to N ₂ O as liquid gas for the cooling tank.

All materials of the container body, the lid, the cooling tank and the Closure are preferably recyclable plastic materials.

LIST OF REFERENCE NUMBERS

10

liquid container

12

container body

14

Opening from 12

16

cover

18

water cooler

20

Liquefied petroleum gas (N ₂ O)

22

Opening from 18

24

shutter

26

first thread section of 24

28

second threaded section of 24

30

Stege

32

locking lugs

34

recess

36

liquid

38

first thread section of 16

40

second threaded section of 16

42

Top of 16

44

Dock at 16

46

Plastikplombierung

48

gas channel

50

arrow

52

evaporation

54

evaporation

56

paragraph

Claims (12)

Liquid container (10) with a container body (12) for receiving a liquid to be cooled (36) with an opening (14) for filling and dispensing the liquid; a lid (16) for sealing the opening (14) of the container body (12) in a liquid-tight manner; and a cooling tank (18) in direct or indirect thermal contact with the inside of the container body (12), the cooling tank being closed in a liquid-tight manner with a closure (24), characterized in that a liquid gas (20) is filled in the cooling tank (18); and
that an opening device (42) is provided for selectively establishing a gas connection (48) between the interior of the cooling tank (18) and the surroundings of the liquid container (10), through which gas connection (48) the liquid gas (20) from the cooling tank (18) can evaporate. Liquid container according to claim 1,
characterized in that the liquid gas (20) is a food-compatible liquid gas. Liquid container according to claim 2,
characterized in that the liquid gas (20) is nitrogen oxide (N ₂ O). Liquid container according to one of claims 1 to 3,
characterized in that the cooling tank (18) is arranged inside the container body (12). Liquid container according to one of claims 1 to 4,
characterized in that the cooling tank (18) is fixed to the container body (12). Liquid container according to one of claims 1 to 5,
characterized in that the opening device (42) is integrated in the lid (16) of the container body (12). Liquid container according to claim 6,
characterized in that the gas connection (48) is a gas channel extending between the inside of the cooling tank (18) and the surroundings of the liquid container (10) through the cover (16) of the container body (12). Liquid container according to claim 6 or 7,
characterized in that the lid (16) of the container body (12) can be brought into a first, closed position, closing the container body in a liquid-tight manner, and into a second, closed position, closing the container body in a liquid-tight manner, the opening device (42) establishing the gas connection (48) between the interior of the cooling tank and the area surrounding the liquid container in the second closed position of the lid. Liquid container according to claim 9,
characterized in that the lid (16) of the container body (12) has on its underside a tip (42) which pierces the closure (24) of the cooling tank (18) in the second closed position of the lid (16), the gas connection (48) also extends through this tip (42). Liquid container according to one of claims 1 to 9,
characterized in that the cooling tank (18) is made of a thermally conductive plastic material. Liquid container according to one of claims 1 to 10,
characterized in that the container body (12) is made of a heat insulating plastic material. Liquid container according to one of claims 1 to 11,
characterized in that the lid (16) of the container body (12) has a screw thread which can be screwed into a corresponding screw thread at the opening (14) of the container body.

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