CN2573413Y - Container with structure of containing cooling medium for cooling liquid in container - Google Patents

Abstract

The utility model discloses a container of a structure capable of holding cooling medium and cooling the liquid in the container, which is characterized in that one side of the container is provided with an inner cavity used for holding the cooling medium; the inner cavity bulges inwards in a certain depth; the position of an inlet of the inner cavity is provided with a sealing component.

Description

Container with cooling liquid structure

Technical field

The utility model relates to a kind of container with cooling liquid structure (for example: be used for the bottle of splendid attire alcoholic beverage or potable water and jar, water bottle, kettle etc.), be particularly related to a kind of container, one side of container has one to have certain depth, be used to hold the inner chamber of cooling media, and closure member of the inflow point of inner chamber configuration.

Background technology

Usually, the container that is used for carrying liquid is made by aluminium, glass or plastic material, and has a kind of jar, a kind of bottle or a kind of cylindrical shape.In order to cool off the liquid that is contained in wherein, container must be placed several hrs in the cold storage material as refrigerator one class.In the refrigerator locus, the user can take out container in refrigerator and drink liquid in the container, although the liquid in the container can keep the state of cooling at short notice, as time goes by, the temperature of liquid in containers can be identical with the temperature of surrounding environment, thereby lose its state of cooling.

Therefore, not pretty troublesome although cool off the liquid that is contained in the container as the place of refrigerator one class cold storage material in outfit, in the place that is not equipped with cold storage material,, just can not cool off the liquid that is contained in the container for example outdoor.Thereby, there is no fear of satisfying in the travelling, in the pleasure trip on foot or the user in the motion want to drink the purpose of cold drink.

In order to satisfy these users' hope in the local part that is not equipped with cold storage material, these users can store the container of splendid attire beverage in the insulation refrigeration case.But this insulation refrigeration case can not keep the state of cooling of beverage for a long time.And the insulation refrigeration casing is long-pending very big, very heavy, therefore is difficult to carry this insulation refrigeration case in pleasure trip on foot or travelling.

In order to overcome the problems referred to above, repeatedly attempted under not having the situation of extra cold storage material, cooling off the liquid that is contained in the container.In these were attempted, many researchs all were to adopt following technology to cool off the liquid that is contained in the container: be equipped with the cooling mechanism of splendid attire refrigerant in the container, and discharge cooling system conditioner from cooling mechanism, to cause the evaporation of cooling system conditioner.

Adopt the above-mentioned technology that is used for cooled containers liquid, be equipped with the cooling mechanism as refrigeration case, be full of refrigerant in the refrigeration case, refrigerant is discharged into space outerpace when being necessary.At this moment, refrigeration case is lowered the temperature by the evaporation of refrigerant, therefore contacts with liquid by the refrigeration case with cooling, makes the liquid cooling that is contained in the container.

Above-mentioned Technology Need refrigeration case is with the container forming work, and should guarantee that refrigeration case can bear high pressure (about 30 barometric pressures) in the design.The design of refrigeration case and the complete moulding of container makes its cost very high.And,, in transportation or use, will have the danger of blast if refrigeration case does not reach the high-voltage sufficient intensity of opposing.In addition, after using, will lose together, and can increase waste like this as the cooling mechanism and the container of refrigeration case.

Particularly, the cooling effectiveness of above-mentioned technology is very low, in order to reach suitable temperature, needs a large amount of refrigerants to reduce fluid temperature in the container.For a large amount of refrigerant of splendid attire, container must be installed the bigger refrigeration case of relative volume.Because these problems, conventional art is very difficult in actual use.

The utility model content

Therefore, for addressing the above problem, the purpose of this utility model provide a kind of structure with cooling liquid, can be in long-time the container of cooling liquid, this container is suitable for outdoor, the user in can giving during the journey or go hiking provides cooling liquid.

In order to finish above-mentioned purpose, the utility model provides a kind of container with cooling liquid structure, comprising: the side at container provides an inner chamber that is used to hold cooling media, and inner chamber is inwardly outstanding with certain degree of depth; And closure member of the inflow point of inner chamber configuration.

By being contained in the cooling media in the inner chamber, the liquid that is contained in the container can be cooled off by actv..

Description of drawings

Above-mentioned and other purpose of the present utility model, feature and advantage can be more readily understood along with the detailed description of following respective drawings.

Fig. 1 a to Fig. 1 f is the transparent view of the various forms container that the utility model was suitable for;

Fig. 2 a to Fig. 2 f attempts for the transversal surface of container shown in Fig. 1 a to Fig. 1 f;

Fig. 3 a to Fig. 3 c is that the transversal surface of the container intracavity in the specific embodiment of the present utility model is attempted;

Fig. 4 a to Fig. 4 c is that the transversal surface of the closure member of the container in the specific embodiment of the present utility model is attempted;

Fig. 5 a to Fig. 5 c is that the transversal surface that the container in the specific embodiment of the present utility model is full of after the cooling media is attempted;

Fig. 6 is for having the decomposition diagram of the closure member of solid ice hook (ice-retaining hook) in the another one specific embodiment of the present utility model;

Fig. 7 is a transparent view that is used for to the palette (palette) of the block ice of closure member configuration shown in Figure 6;

Fig. 8 has been full of the decomposition diagram of the container of ice medium for the utility model inner chamber; And

Fig. 9 is the decomposition diagram of the container of the utility model configuration closure member, and described closure member has one and is used for injecting refrigerant gas to inner chamber, and discharges the valve of refrigerant gas from inner chamber.

Specific embodiment

The utility model further describes in detail according to the specific embodiment below the described accompanying drawing contrast.

Fig. 1 a to 1f and Fig. 2 a to 2f are that the transparent view and the transversal surface of the various forms of containers showed of the utility model attempted, in them each all comprises an inner chamber that is used to hold cooling media, with a closure member that is used for the closed inner chamber import, wherein, Fig. 1 a and 2a are the legends of a kind of bottle (a kind of beer bottle) 10a, Fig. 1 b and 2b are the legend of a kind of wine jar (a kind of beer can) 10b, Fig. 1 c and 2c are the legend of a kind of beverage bottle (a kind of soft drink bottle) 10c, Fig. 1 d and 2d are the legend of a kind of beverage can (a kind of soft drink jar) 10d, Fig. 1 e and 2e are the legend of a kind of water bottle (a kind of portable water bottle) 10e, and Fig. 1 f and 2f are the legend of a kind of kettle 10f.The legend of container 10 of the present utility model only discloses by diagram, and the utility model goes for any container that can receiving fluids.

Hereinafter the term of being mentioned " container " can be in above-mentioned fluid bottle, liquid tank, beverage bottle, beverage can, water bottle and the kettle any one.In these concrete descriptions, for the convenience of explaining, container can be regarded as the wine jar of Reference numeral for " 10 ", and the Reference numeral of inner chamber is " 11 ".

Alternative surface at container 10 disposes the inner chamber 11 that is used to hold the cooling media material, and inner chamber 11 is inwardly outstanding with certain degree of depth.Although preferably dispose an inwardly outstanding inner chamber 11 in the lower surface of container 10, in the time of necessary, two or more inner chamber 11 can be configured in the side surface or the upper surface place of container.

(V ') preferably is less than or equal to half of internal volume (V) of container 10 to the internal volume of inner chamber 11.If (V ') is greater than half of the internal volume (V) of container 10 for the internal volume of inner chamber 11, can increase the cooling effectiveness of liquid, but container just is not enough to play the part of a kind of role who holds the suitable liquid amount, and because the internal volume of receiving fluids reduces, in order to adapt to identical amount of liquid, the outer shape of container 10 must increase.

Simultaneously, (V ') must be more than or equal to 1/10 of the internal volume (V) of container 10 for the internal volume of inner chamber 11.If (V ') is less than 1/10 of the internal volume (V) of container 10 for the internal volume of inner chamber 11, because (V ') reduces the internal volume of inner chamber 11, can cause amount minimizing, the liquid in the so just impossible actv. cooled containers 10 as the cooling media material of ice or refrigerant gas.The internal volume of container 10 (V) can be by there not being inner chamber 11 the internal volume of original container 10 (V ") deducts the internal volume of cavity 11, and (V ') calculates.That is to say:

V＝V“-V‘

Wherein, V: the internal volume of container 10,

V ": there is not the internal volume of the original container 10 of inner chamber 11,

V ': the internal volume of inner chamber 11

Shown in Fig. 3 a to 3c, the inner chamber 11 that holds the cooling media material form and have a kind of smooth body of wall (Fig. 3 a), the cylindrical shape of a kind of multiple-grooved body of wall (Fig. 3 b) or a kind of wave body of wall (Fig. 3 c), therefore by increasing the face area that contacts with the cooling media material, improve the cooling effectiveness of internal tank volume (V) institute carrying liquid.Cooling media can be ice or refrigerant gas, preferably adopts ice as cooling media in the use.

As shown in Figs. 4a-c, the closure member of inner chamber 11 can be divided into three types.

The concrete manifestation of first kind closure member is shown in Fig. 4 a: cap shape closure member 20a has comprised an inner seal member 21 that engages with inner chamber 11 and an external sealing part 23 that engages with the outside face of container 10 low bottoms.The female thread portion 22 that the outside face configuration inlet part a kind of and inner chamber 11 of the inner seal member 21 of cap shape closure member 20a engages, the inside face with external sealing part 23 of female thread portion 24 engages with the outside face of container 10 low bottoms.

Also can dispose threaded portion 22 and 24 corresponding threaded portions with inner seal member 21 and external sealing part 23 at the outside face of the inside face of inner chamber 11 and container 10.

The concrete manifestation of the second class closure member is shown in Fig. 4 b: a kind of plug shape member 20b with threaded portion 25 that only is used for closed cavity 11 inlet part.The inside face of the inlet part of inner chamber 11 is provided with corresponding threaded portion with the threaded portion 25 of plug shape member 20b.

The concrete manifestation of the 3rd class closure member is shown in Fig. 4 c: a kind of plug shape member 20c that is forced to fill in inner chamber 11 inflow points.Opposite with the container 10 shown in Fig. 4 b, the inside face of inner chamber 11 inflow points is smooth, does not have threaded portion.

Following being described in detail of container with cooling liquid structure.

Shown in Fig. 5 a to 5c: in the inner chamber 11 that container 10 side surfaces form, be full of ice, then by the closure member 20c sealing of plug shape as cooling media 30.When the ice that has been full of inner chamber 11 begins to melt, its meeting draw heat from liquid on every side, thereby the temperature of liquid in the reduction container 10, and in long-time, keep the state of cooling.At this moment, the inner chamber 11 of container 10 is full of ice, so container 10 must be installed a closure member to avoid the leakage of frozen water.

The ice that inner chamber 11 is full of can be the borneol after water ice smashes.At this moment, the air gap that exists between the borneol can reduce cooling effectiveness.Therefore as shown in Figure 6, for the maximum cooling effectiveness that obtains icing, be preferably in and load the corresponding columned monoblock ice of shape with it in the inner chamber 11.

As shown in Figure 7: be full of water in a plurality of ice chamber by configuration on palette 40, chilled water then, the columned monoblock ice that preparation and inner chamber 11 are identical shaped.At this moment, the solid ice hook 43 of cap 42 submerges in the water of cavity 41, is chilled in the ice.Thereby the user can insert inner chamber 11 with the cap 42 with monoblock ice easily, and is full of inner chamber 11.Container of the present utility model can reach cooling performance by the various types of feed of being mentioned above being not only.

As shown in Figure 8: if adopt the cylindrical shell 50 that has been full of ice, with regard to the cap 51 that does not need to provide extra again, because cylindrical shell 50 has the cap 51 of oneself.At this moment, be full of after the water of q.s in cylindrical shell 51, water is frozen into ice.Thereby the cylindrical shell 50 that has ice is filled in inner chamber 11.Although because the existence of cap 51, the frozen water in the cylindrical shell 50 can not leak, and makes that this embodiment is very convenient, owing to needing the extra cylindrical shell 50 of preparation to increase the cost of product.

As shown in Figure 9: the inner chamber 11 of the utility model container 10 also can be full of refrigerant gas.At this moment, the import of inner chamber 11 can be disposed the stopper 62 that has valve 61, can inject refrigerating gas or discharge refrigerating gas from inner chamber 11 to inner chamber 11 by valve 61.Thereby by discharging refrigerating gas from inner chamber 11, the liquid in the container 10 can be cooled because of the reduction of the internal temperature of inner chamber 11.More particularly, valve 61 links to each other with the afterbody of spiral fashion capillary tub 63.The diameter of spiral fashion capillary tub 63 is very little, is rolled into spiral fashion, and is placed in the inner chamber 11.Therefore, when valve 61 was opened, the refrigerant gas that is compressed in the inner chamber 11 by high pressure discharged by spiral fashion capillary tub 63.In dispose procedure, refrigerant gas draw heat the liquid around the spiral fashion capillary tub 63 when volume enlarges.As a result, the liquid that is contained in the container 10 cools off by the refrigerant gas that release is compressed in the inner chamber 11.At this moment, cylindrical diameter is preferably limited by spiral fashion capillary tub 63, thereby the spiral fashion capillary tub is positioned near the inside face of inner chamber 11 or its.The stopper 62 and container 10 global formations that have valve 61, perhaps with container 10 moulding respectively, thereby stopper 62 engages with inner chamber 11 imports of container 10, with unlatching or close inner chamber 11.Shape when the shape of stopper 62 is preferably closed and opened with inner chamber 11 is identical.At this moment, stopper 62 must guarantee the leak tightness of air in the inner chamber 11.

According to content described above, the utility model provides a kind of container with inner chamber, can fill the cooling media of picture ice or refrigerant gas and so on therein.Therefore, the liquid in the inner chamber can be cooled by cooling media, and the liquid in the container can keep its state of cooling in long-time.As a result, the user can drink the liquid of cooling in the time period of a prolongation.Although container is preferably made of aluminum, it also can be made by other materials as glass and plastics and so on outside the aluminium.

Although for the purpose of this utility model is described, adopt specific embodiment to be described in the above, it all is possible being based on various improvement of the present utility model, increase and substituting, and can not depart from scope claimed in the utility model claims.

Claims (10)

1. container with cooling liquid structure comprises:

Side at container provides an inner chamber that is used to hold cooling media, and inner chamber is inwardly outstanding with certain degree of depth; And

Closure member of inflow point's configuration of inner chamber.

2. container according to claim 1, the internal volume that it is characterized in that described inner chamber are less than or equal to half of internal volume of described container.

3. container according to claim 1, the cooling media that it is characterized in that filling described inner chamber can be ice or refrigerant gas.

4. container according to claim 1 is characterized in that described inner chamber is configured in the lower surface of described container, and projects upwards.

5. container according to claim 1, the inside face that it is characterized in that described inner chamber is a groove shape or wavy.

6. container according to claim 1, it is characterized in that described closure member is furnished with a valve, inject cooling media and discharge cooling media to described inner chamber by described valve from described inner chamber, and the spiral fashion capillary tub is positioned at described inner chamber, ending place is connected with described valve, and have the described closure member of described valve and described integral container moulding or with described container respectively moulding to close or to open described inner chamber.

7. container according to claim 1 is characterized in that described closure member is made up of the enclose inside parts, and closing the import of described inner chamber, and the outside packaged unit of closure member engages with the outside face of the low bottom of described container.

8. container according to claim 1 is characterized in that described closure member engages with described inner chamber by the threaded portion that is configured in described closure member and described inner chamber, perhaps described closure member is forced to fill in the described inner chamber.

9. container according to claim 1 is characterized in that the fixation hooks with certain-length of internal surface configurations at described closure member.

10. container according to claim 1 is characterized in that described container can be any one in bottle, wine jar, beverage can, water bottle and the kettle.

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