KR100418558B1 - A cooling-can include self-cooling container for the cooling of a beverage - Google Patents

Abstract

The present invention is a cooling cartridges (2, 12, 17, 20, 21) for cooling in the interior of the beverage can (1), the cooling cartridges (2, 12, 17, 20, 21) for cooling are Reagent storage tank (3, 15, 23) that can be filled with the endothermic chemicals or endothermic agent formed, and the water storage tank is installed on the top of the reagent storage tank (3, 15, 23) to store water ( 4, 11, 16, 19, 22, the through hole (7) formed in the upper portion of the water reservoir (4, 11, 16, 19, 22), and the protective plug (9) formed on one side of the through hole (7) And, the protective plug 9 is mounted to a spring (not shown) is connected to the blocking plug 8, which is blocked in the lower water passage (5, 14, 24) by the rope 10 to the bottom, It is a cooling can with a cooling cartridge for beverage cooling, which is composed of foam passages (6, 13, 18) formed on one side.

Description

Cooling cans with built-in cooling cartridges {A cooling-can include self-cooling container for the cooling of a beverage}

The present invention relates to a cooling can with a cooling cartridge for cooling beverages applicable to various beverage cans, and more specifically, to a structure for cooling a beverage by mounting a cooling cartridge for cooling the beverage in the can. The present invention relates to a cooling can containing a cooling cartridge for cooling a beverage. Generally, a cooling method for cooling a beverage may be performed by using a refrigerator or other external equipment in an indoor environment. You can't prepare, so in most cases you can freeze the ice and fill it with an ice box to cool your drink. However, in this case, there is a disadvantage that the volume of the cooling tool is large, and it is impossible to maintain the ice state for a long time. In order to solve this inconvenience, research has been conducted to develop a beverage can with a cooling device. For example, in the case of a vapor compression method using a gas refrigerant in a can cooler, the structure is simple and easy. Beverage can be cooled, but due to the environmental problems and flammability and explosion risk according to the refrigerant composition is a very difficult problem to be practical. In the case of an endothermic compound having an enthalpy of '-' value when dissolved in water, such as ammonium nitrate, the product is toxic to the human body after the reaction, or many substances cause corrosion of the container with a strong oxidizing agent. On the other hand, if a large amount is required, it is not necessary to use the above-mentioned refrigerant, but when applied to a cooling can using the heat of endothermic chemical reaction, the product is produced after the reaction, such as water and carbon dioxide. The product is considered to be a good cooling system that is relatively nontoxic to humans and the environment. However, when the beverage is cooled using the endothermic chemical reaction, the internal pressure increases rapidly with the gas and foam generated after the reaction, which makes it difficult to control the pressure. The structure of a cooling can that can solve this problem must be safe, simple, inexpensive and efficient in order to commercialize it. Therefore, carbon dioxide generated during the chemical reaction process when the beverage in the can is cooled by using the heat of endothermic reaction It is necessary to develop a structure that can effectively control the internal pressure caused by bubbles and bubbles. When continuously discharging a portion of the carbon dioxide and bubbles generated, there is a problem that the gas and foam overflows because the pressure of the gas outlet is very large.

In order to solve the above problems, in the present invention by the device capable of cooling the beverage in the can by the reaction heat of the endothermic chemical reactants by efficiently controlling the increase in the internal pressure by the gas generated during the reaction in a relatively simple structure It is a technical object of the present invention to provide a cooling can with a cooling cartridge for beverage cooling capable of cooling a beverage.

1 is a detailed view of the cooling can built in the cooling cartridge for beverage cooling of the present invention.

2 is a cross-sectional front view of a cooling cartridge structure in which a water storage tank of a reverse cone shape of the present invention is incorporated;

Figure 3 is a cross-sectional front view of a cooling cartridge structure in which the inverted cone-shaped water reservoir of the present invention is fixed to one side of a cooling cartridge.

Figure 4 is another example of a cooling can containing a cooling cartridge for beverage cooling of the present invention

5 is a cross-sectional front view of a cooling cartridge structure in which a water storage tank in the form of a comb-side surface of the present invention is fixed to one side of a cooling cartridge;

6 is a cross-sectional front view of a cooling cartridge structure in which a bubble passage pipe is installed on an upper surface of a comb surface of a water storage tank of a comb surface type of the present invention;

Explanation of symbols in the drawings

Beverage can (1), cooling cartridge (2, 12, 17, 20, 21), reagent reservoir (3, 15, 23), water reservoir (4, 11, 16, 19, 22), water passage (5, 14) , 24), foam passages (6, 13, 18), through holes (7), shut-off stoppers (8), protective stoppers (9), strings (10)

In order to achieve the above object, the present invention has a cooling cartridge (2, 12, 17, 20, 21) for cooling in the interior of the beverage can (1), the cooling cartridge (2, 12, 17, 20 and 21 are installed in the reagent reservoir (3, 15, 23) and the upper portion of the reagent reservoir (3, 15, 23) that can fill the endothermic chemicals or endothermic agent formed therein And water storage tanks 4, 11, 16, 19, 22 for storing water, through holes 7 formed on the water reservoirs 4, 11, 16, 19, 22, and the through holes 7 Protective stopper 9 formed on one side of the, and the protective stopper (9) is equipped with a spring (not shown) is blocked by the line 10 in the lower blocked by the water passage (5, 14, 24) It is connected to (8), and is a cooling can containing a cooling cartridge for beverage cooling consisting of foam passages (6, 13, 18) formed on one side of the upper side. The present invention is endothermic in the cooling cartridge for beverage cooling In order to separate chemical reactant and water, which is a reaction accelerator, a cartridge that can store water alone is made separately, so that the reaction stopper can be removed by removing a separation plug so that water and reagent can contact each other when necessary. As described above, carbon dioxide and bubbles generated when a chemical reaction starts by contacting water and a reagent are transferred to a water storage cartridge through a bubble passage made on the upper outer wall of the water storage cartridge, and then some carbon dioxide is discharged to the outside through the gas discharge pipe. The rest is moved back to the reagent storage tank in the cooling cartridge through the water passage tube of the water storage cartridge and circulated as in the beginning to maintain a smooth flow by adjusting the pressure in the cooling cartridge. In the structure of the present invention, the internal pressure due to the gas generated during the endothermic chemical reaction can be circulated inside by making a double cartridge has the greatest advantage that the effective pressure control and cooling effect can be expected. The present invention will be described below with reference to the drawings. FIG. 1 is a detailed view of a cooling can incorporating a cooling cartridge for beverage cooling according to the present invention, and FIG. 3 is a cross sectional front view of the cooling cartridge structure in which the water storage tank is refrigerated, FIG. 3 is a cross sectional front view of the cooling cartridge structure in which the inverted cone-shaped water storage tank of the present invention is fixed to one side of the cooling cartridge, and FIG. 4 is a beverage cooling of the present invention. Another example of a cooling can incorporating a cooling cartridge for cooling, FIG. 6 is a cross-sectional front view of the cooling cartridge structure in which a foam passage tube is installed on the upper surface of the comb surface of the water storage tank of the present invention, wherein the beverage can 1 and the cooling cartridge 2, 12,17,20,21), reagent reservoirs (3,15,23), water reservoirs (4,11,16,19,22), water passages (5,14,24), foam passages (6,13, 18), the through hole 7, the blocking plug 8, the protective plug 9, and the string 10 can be seen. Fig. 1 shows the structure of the present invention in three dimensions, and Figs. The cross-sectional view of the structure is shown in front, and the cooling cartridge (2) for cooling is mounted inside the beverage can (1). In the beverage can, beverages such as carbonated beverages, fruit juices, and beer can be stored. The material may be made of a suitable material such as aluminum, synthetic resin, etc. The cooling cartridges (2, 12, 17, 20, 21) for cooling are embedded in the beverage can (1). Cooling cartridges (2, 12, 17, 20, 21) is a reagent reservoir (3, 15, 23) that can be filled with an endothermic chemical reaction or endotherm formed therein, and the reagent reservoir (3) , 15, 23 are installed in the upper portion of the water reservoir (4, 11, 16, 19, 22) for storing water, and the through hole formed in the upper portion of the water reservoir (4, 11, 16, 19, 22) 7), a protective plug 9 formed at one side of the through hole 7, and the protective plug 9 is mounted with a spring (not shown) to the lower water passage (5, by the row 10) It is connected to the blocking plug (8) clogged in 14, 24, it is a cooling can containing a cooling cartridge for beverage cooling consisting of foam passages (6, 13, 18) formed on one side of the upper. The cooling cartridge 2 is composed of a water storage tank 4 for storing water therein and a reagent storage tank 3 for filling an endothermic chemical or an endothermic agent as shown in FIG. . The water in the water storage tank (4) was installed in the water passage (5) to block the water stopper (8) as a reaction starting device so that the water and the chemical reacts at the desired time. The blocking plug is made of a material that can block the water passage (5) with rubber or synthetic resin, and the water and carbon dioxide generated when the chemical reacts with the endothermic chemical reacts with the cooling cartridge ( 2) and the water storage tank (4) is moved to the water storage tank through the bubble passage (6) of the upper water storage tank and then discharged through the through hole (7) and some of the water passages at the bottom of the water storage tank (4) again Through (5) it is circulated to the cooling cartridge (2). In addition, the foam passage 6 has a barrier film 8 made of a material such as rubber, synthetic resin, plastic, etc. before the reaction, and the barrier film 6 is bursted by the pressure of carbon dioxide generated after the reaction. If the protective cap 9 installed on the upper part of the cooling can is removed, the line 10 connected to the spring installed in the upper part of the cooling device is lifted up by the action of the spring and is installed in the water passage 5. The stopper plug 8 connected to the lower end of 10) is also pushed up so that the water in the water reservoir 4 flows into the reagent reservoir 3 so that the endothermic chemical reaction is started. At this time, the generated bubbles are moved to the bubble passage to perform the endothermic chemical reaction. The lower end of the water storage tank (4) by the reverse cone shape to facilitate the flow of water so that the water is smoothly introduced into the reagent storage tank (3) during the initial reaction. In addition, since the initial reaction rate can be adjusted by changing the diameter of the water passage 5, the reaction can be stably progressed by adjusting the internal pressure generated. FIG. 3 shows that the inverted cone-shaped water storage tank of the present invention has a cooling cartridge. As a cross-sectional front view of a cooling cartridge structure fixed to one side of the water tank, the water reservoir 11 is brought into close contact with one wall of the cooling cartridge 12 to increase the distance between the water reservoir 11 and the cooling cartridge 12, It is a structure that can quickly control the speed of the bubbles generated by the reaction is moved to the water storage tank 11 through the bubble passage 13. Figure 4 is another example of a cooling can containing a cooling cartridge for cooling the beverage of the present invention As shown in the figure, the lower end of the water storage tank (16, 19, 22) in the form of the oblique surface by installing a water passage (14) at the lower end of the inclined surface of the chemical tank in a structure that allows water to flow into the reagent storage tank (15) After the reaction product foam is a structure that can flow smoothly along the lower bevel of the water storage tank 16 into the bubble passage. A cross-sectional front view of the cartridge structure, in which a water storage tank 19 in the form of a bevel is attached to one wall surface of the cooling cartridge 20, and the reaction between the water storage tank 19 and the cooling cartridge 20 on the opposite side is widened. It is a structure that makes the flow path of the foam generated in the wider to make the circulation of the bubbles faster after the reaction. Figure 6 is a cooling cartridge structure of the foam passage pipe is installed on the upper surface of the comb surface of the water storage tank of the comb surface type of the present invention. As a cross-sectional front view, the lower end comb which installs the water storage tank 22 of which the lower end part is the comb surface form inside the cooling cartridge 21, and inclines the water path 24 in the lower part of the lower end comb surface of the water storage tank 22 is combed. Bubble passage tubes 25 are installed vertically on top of the water, and the water discharged through the water passages 24 reacts with the reagents in the reagent reservoir 23, and the bubbles generated are bubble passage tubes 25. It is a structure that is moved back to the water passage 24 is made to circulate. This structure does not form a bubble passage on the outer wall of the water storage tank 22, as shown in Figure 4, 5, to the water storage tank 22 It is a structure in which the bubble passage pipe 25 is installed vertically. In the case of such a structure, since it is possible to install with a blocking plate in the form of a bevel without having to make the water storage tank 22, the internal volume of the water storage tank 22 can be widened, thereby reducing the volume of the entire cooling cartridge. The development of the circulation type self-cooler structure can be used as a device for cooling the beverage in the beverage can, and effectively controls the rapid internal pressure increase by the reaction product generated after the endothermic chemical reaction, thereby providing a safe and efficient cooling effect. It is a device that can be obtained.

As described above, the present invention is a device capable of cooling a beverage in a can due to the heat of reaction of the endothermic chemical reactant, thereby cooling the beverage by efficiently controlling the increase in internal pressure caused by the gas generated during the reaction in a relatively simple structure. It is effective.

Claims (8)

In a cooling can containing a cooling cartridge for beverage cooling, Cooling cooling cartridges 2, 12, 17, 20, and 21 are embedded in the beverage can 1, and the cooling cooling cartridges 2, 12, 17, 20, and 21 are endothermic chemicals formed therein. Reagent storage tanks (3, 15, 23) that can be filled with the reaction chemicals or the heat absorbing agent, and the water storage tank (4, 11) installed on the upper portion of the reagent storage tanks (3, 15, 23) , 16, 19, 22, the through hole (7) formed in the upper portion of the water reservoir (4, 11, 16, 19, 22), the protective plug (9) formed on one side of the through hole (7), The protective plug 9 is mounted with a spring (not shown) and connected to the blocking plug 8 which is blocked by the row 10 of the lower water passage 5, 14, 24 by a row 10, Cooling cans containing a cooling cartridge for beverage cooling, characterized in that consisting of foam passages (6, 13, 18) formed on one side of the upper portion. 2. The cooling can of claim 1, wherein a lower portion of the water storage tanks 4 and 11 has one or more foam passages on an upper surface of the water storage tank in the form of an inverted cone of the inclined surface. . The cooling can of claim 1, wherein a lower portion of the water storage tanks (4, 11, 16, 19, 22) is formed in the form of inclined surfaces. The cooling can according to any one of claims 2 to 3, wherein the water storage tanks (16, 19, 22) are mounted on one wall surface of the cooling cartridge. The lower portion of the water reservoir 22 is installed in the interior of the cooling cartridge 21 in the form of the inclined surface, the water passage 24 formed in the lower portion of the lower surface of the water storage tank 22, the lower end portion Cooling cans containing a cooling cartridge for cooling the beverage, characterized in that it consists of a foam passage pipe 25 formed vertically on the inclined slope of the upper surface. delete delete delete