KR20020086333A - Container having a structure for cooling-function therein - Google Patents

Abstract

PURPOSE: A container with a self-cooling function is provided to allow a user to drink a cool beverage always, and to maintain a cooling time of beverage within the container for a long time. CONSTITUTION: The container(10) with a self-cooling function is formed with a cool air discharge material insertion bore(11), having a certain depth, on a selected certain outer portion of the container having a liquid-phase content receiving space, and the entrance of the cool air discharge material insertion bore is provided with a cap. The cool air discharge material(30) is one of ice pieces or coolant gas.

Description

Container having a structure for cooling-function therein}

The present invention is formed by forming a structure capable of cooling the beverage in a container (liquor bottle, liquor can, beverage bottle, beverage can, bucket, kettle, etc.) filled with liquid contents (hereinafter referred to as "drink"). The present invention relates to a container having a cooling function, and more particularly, to a selected side of an outer surface of the container, a cold air discharge member filling hole having a predetermined depth facing the inside of the container is formed, and a cap at an inlet of the cold air discharge member filling hole. It relates to a container having a structure of self-cooling function provided.

The material of the container filled with the beverage is made of aluminum, glass, plastic, or the like and used in the form of a can, a bottle, a bucket, and stored for several hours in a refrigerator, which is a refrigeration facility, to cool the beverage filled therein. And when taken out from the refrigerator, the beverage is kept cold for the first time, but after a certain time the temperature of the beverage is similar to the temperature of the atmosphere to lose the cool.

Therefore, where there is a refrigeration facility such as a refrigerator, there is no difficulty in drinking by filling the beverage filled in the container, but after the trip or climbing and exercising where the outdoor, cold drink without the refrigeration facility is desperately required, the drink is cooled. There is a problem that can not be.

On the other hand, in the open air without a refrigeration facility, the soft drink may be stored in a cooling means such as an ice box, but such a cooling means is not able to maintain the cooling state of the beverage for a long time, and since such a cooling means is bulky and heavy, If you need to move, such as hiking or traveling, there are many difficulties to carry.

Therefore, in recent years, in order to solve the above problems, a lot of research has been conducted on the way to drink cold beverages at any time without a separate external refrigeration facilities, and among them, it is necessary to install a cooling means injecting refrigerant into the container Many researches have been conducted on a technique of cooling the contents inside the container by evaporating the refrigerant injected into the cooling means to the outside.

In the related arts, a method of cooling a beverage contained in a container is to charge a refrigerant into a refrigerant container of a cooling means mounted in the container, and to spray the refrigerant to the outside when necessary, in which case the refrigerant container is vaporized due to vaporization of the refrigerant gas. This is cooled and such cooling is transferred to the beverage in the container and consequently the beverage in the container.

All of the above conventional technologies are based on the premise that the refrigerant container, which is a cooling means, is installed to be integrated with the container. However, cooling vessels must be made robust to withstand high pressures (about 30 atm), and the installation of such refrigerant vessels into the vessel is not only costly to manufacture, but also robust to withstand high pressures. There is also a problem of resource waste because there is a risk of explosion during transportation or use, and the container must be disposed of together with the cooling means attached to it after one use.

In particular, the above-mentioned conventional techniques require a large amount of refrigerant to appropriately lower the beverage temperature of the container because the cooling efficiency is very low, and a large refrigerant container must be installed in the container to store such a refrigerant. In view of such points, the prior arts have a problem that is difficult to be practical.

The present invention has been made to solve the above problems in consideration of the above, by forming a cold air discharge member filling hole of a predetermined depth in the selected portion of the outer surface of the container in which the beverage is filled to fill the cold air discharge member (summer or refrigerant gas) And then the cap to keep the cold-release member is maintained for a long time, as well as to keep the beverage in the container according to the cool state for a long time, the cool drink cooled even when outdoor or without a refrigeration facility, such as when traveling or climbing It is an object of the present invention to provide a container having a structure of a self-cooling function capable of drinking alcohol.

1A to 1F are bottom perspective views showing examples of various types of containers according to the present invention;

2A to 2F are cross-sectional views of the container of FIGS. 1A to 1F;

3A to 3C are cross-sectional views showing an example of the internal structure of the cold air discharge member filling hole according to the present invention;

4a to 4c are exploded cross-sectional views showing examples of caps of different states coupled to the cold air discharge member filling hole according to the present invention;

5A to 5C are cross-sectional views showing an example of a state in which a cold air discharge member is filled in a cold air discharge member filling hole according to the present invention;

6 is an exploded view for explaining a process of freezing the ice in the cap of the state different from the cap of Figs. 5a to 5c and coupling to the cold air discharge member filling hole,

7 is a perspective view of a pallet for freezing ice in the cap of FIG.

8 is an exploded perspective view of a part of the extract for explaining the state using the ice container in the cold air discharge member filling hole according to the present invention,

9 is an exploded perspective view showing a part of the extract for explaining the state of using the refrigerant gas in the cold air discharge member filling hole according to the present invention.

※ Explanation of symbols on main parts of drawing ※

10 to 10f: container 11 to 11f: cold air discharge member filling hole

12a: the inner circumferential surface of the hole is planar

12b: the inner circumferential surface of the hole is wrinkled

12c: the inner circumferential surface of the hole is in a wave form

20a to 20c: Cap 21: Internal seal

22, 24, 25: threaded part 23: outer sealed part

30: cold air discharge member 40: pallet

41: Ice Hole 42: Cap

43: Ice Ring 50: Ice Bucket

51: cap

V: Internal space size of the container

V ': Size of cold air discharge member filling hole

The present invention forms a hole for filling the cold air or refrigerant gas, which is a cold air discharge member in the container containing the beverage, and by filling the cold air discharge member in this way, the cold air discharged therefrom is delivered to the inside of the container to drink the beverage contained in the container. It is to be cooled, the characteristic technical configuration, the outer surface of the container formed with a space filled with the liquid contents therein is formed on the selected side of the cold air discharge member filling hole having a predetermined depth toward the inside of the container and the cold air discharge A cap is provided at the entrance of the member filling hole.

Referring to the accompanying drawings, the container having a structure of the self-cooling function of the present invention having the features as described above in more detail as follows.

1A to 1F and FIGS. 2A to 2F illustrate various types of containers according to the present invention, and a cap for opening and closing a cold air discharging member filling hole formed in the container and an inlet of the cold air discharging member filling hole. 2A shows an example of a liquor bottle (beer bottle) 10a, and FIGS. 1B and 2B show an example of a liquor can (beer can) 10b, and FIGS. 1C and 2C show a beverage bottle ( An example of a soft drink bottle) 10c is shown, and FIGS. 1D and 2D show an example of a beverage can (soft drink can) 10d, and FIGS. 1E and 2E are buckets (portable water bottles) 10e. 1F and FIG. 2F show an example of the kettle 10f, all of which show only one example of the container 10 in which the cold air discharge member filling hole 11 is formed. In any case, any type of container can be used as long as the liquid contents can be filled.

The container described below means all of the liquor bottles, liquor cans, beverage bottles, beverage cans, buckets, kettles, and the like described above. For convenience of description, the container is selected as a liquor can and the reference numeral (10) is used. The cold air discharge member filling hole 11 will be described.

The cold air discharge member filling hole 11 is formed at a predetermined depth to face the inside of the container 10 on one side of the outer surface of the container 10, and the cold air discharge member filling hole formed in the container 10 ( The most preferable position of 11) is to form one from the bottom of the container 10 toward the inside of the container, and may be used by forming one or two or more on the side or the top of the container 10 as necessary. .

In addition, the internal space size (volume) V ′ of the cold air discharge member filling hole 11 is preferably less than 1/2 of the internal space size (volume) V of the container 10. The reason is that the cooling efficiency of the beverage may be good when the internal space size V ′ of the cold air discharge member filling hole 11 is greater than 1/2 of the internal space size V of the container 10, but the beverage is filled. Since the inner space of the container 10 is small, the use as a beverage container is inefficient, and there is a problem in that the container 10 needs to be made large in order to fill the amount of drink as much as the reference value.

In addition, the minimum size V 'of the internal space of the cold air discharge member filling hole 11 should be 1/10 or more of the size of the internal space V of the container 10. The reason is that if the minimum size of the cold air discharge member filling hole 11 is less than 1/10 of the internal space size V of the container 10, the amount of filling of the cold air discharge member, which is either ice or refrigerant gas, is too small. Therefore, there is a problem in that the amount of cold air discharged accordingly is not able to effectively cool the beverage in the container 10. On the other hand, the internal space size (V) of the container 10 means the size obtained by subtracting the internal space size (V ') of the cold air discharge member filling hole 11, it is expressed as follows.

V = V-V '

V: Internal space size of the container

V ': Size of cold air discharge member filling hole

In addition, as the internal structure of the cold air discharge member filling hole 11, as shown in Figs. 3a to 3c, the inner circumferential surface is used as a planar state (12a) (Fig. 3a), or wrinkles are formed at dense intervals ( 12b) (FIG. 3B) or wave form 12C (FIG. 3C), for maximizing the discharge area of cold air to cool the beverage contained in the interior space of the container 10. This is to improve the efficiency. However, the cold air discharging member for discharging the cold air uses either cold or refrigerant gas, which is most easily used.

In addition, the shape of the cap blocking the cold air discharge member filling hole 11 filled with the cold air discharge member is largely divided into three types as shown in Figs. 4a to 4c, first of all, as shown in Fig. 4a. It is a cap 20a which consists of the inner sealing part 21 which blocks the inlet of the filling hole 11, and the outer sealing part 23 which wraps the bottom part of the container 10, and the inner sealing part 21 of the cap 20a. Is formed in the outer circumferential surface of the screw portion 22 is screwed in the form of being inserted into the inlet of the cold air discharge member filling hole 11, the outer sealing portion 23 is screwed to surround a portion of the bottom of the container 10 The thread part 24 is formed in the inner peripheral surface.

However, respective threaded portions are formed on the inner circumferential surface of the inlet of the cold air discharge member filling hole 11 to which the screw portions 22 and 24 of the inner and outer sealed portions 21 and 23 are coupled, and the outer circumferential surface of the bottom of the container 10. It is.

Secondly, as shown in FIG. 4B, the cap 20b is formed with a threaded portion 25 that prevents only the inlet of the cold air discharge member filling hole 11 by screwing, and thirdly, the cold air discharge member filling hole 11 as shown in FIG. 4C. ) Is a cap 20c that is forcibly fitted at the entrance. Meanwhile, the inlet of the cold air discharge member filling hole 11 of the container 10 to which the cap 20b of FIG. 4B is coupled has a screw portion formed on an inner circumferential surface thereof, and the container 10 to which the cap 20c of FIG. 4C is coupled. The inlet of the cold air discharge member filling hole 11 may be a cylinder in which nothing is formed.

The action of the container having the structure of the self-cooling function of the present invention having the above configuration as shown in Figure 5a and 5c, the cold air discharge member in the cold air discharge member filling hole 11 formed on one side of the container 10 When the ice cap 30c is closed and the cap 20c is closed, the filled ice is melted and the surrounding temperature is taken away, and the beverage contained in the container 10 can be cooled or the cooling state can be maintained for a long time due to such an effect. Will be. However, when the ice is filled, it must have the structure of the cap so that the water generated by melting the ice does not flow out.

On the other hand, in the case of directly filling the ice as described above, the ice may be broken into small pieces and filled in the cold air discharge member filling hole 11, but in this case, there is a concern that the cooling efficiency is somewhat reduced because empty spaces are left between the pieces of ice. There is. Therefore, in order to maximize the cooling efficiency, it is preferable to fill the ice having the same shape and size as the cold air discharge member filling hole 11 as shown in FIG.

In order to form ice having the same shape and size as the cold air discharge member filling hole 11, as shown in FIG. 7, ice is filled with a pallet 40 in which a plurality of ice holes 41 are formed, and then frozen. You can use At this time, since the ice ring 43 of the cap 42 is frozen together with water by inserting the cap 42 having the ice ring 43 formed therein into the ice hole 41, the cap 42 having the ice in this state is formed. What is necessary is just to insert into the cold air | gas discharge member filling hole 11 of the container 10. FIG. Of course, in addition to this method, by filling the cold air discharge member filling hole 11 in a variety of other ways can enjoy the effects of the present invention to some extent.

And, as shown in Figure 8, when using the ice bucket 50 filled with ice, there is no need to use a separate cap because the ice bucket cap 51 in the ice bucket itself. In this case, after filling the ice container 50 with an appropriate amount of water and freezing it, it may be used by inserting it into the cold air discharge member filling hole 11 of the container 10. This method is convenient because there is no fear that water generated as ice is thawed out, but there is a problem of cost increase by separately manufacturing the ice container 50.

In addition, the present invention forms a valve 61 for injecting and discharging the refrigerant gas in the cap 60 formed at the inlet of the cold air discharge member filling hole 11, as shown in Figure 9 to inject and discharge the refrigerant gas By means of the above method, the beverage in the container 10 is cooled, provided that the cap 60 in which the valve 61 is formed is integrally formed with the container 10 or can be opened and closed from the inlet of the cold air discharge member filling hole 11. It may be used to form, preferably open and close, and should be kept airtight when the cap is closed. When the refrigerant gas is discharged, the beverage in the container is cooled because the temperature of (−) is maintained.

As described above, the container of the present invention fills the ice in the cold air discharge member filling hole and closes the lid so that the cold air discharged from the ice is transferred to the beverage contained in the container and cooled, thereby allowing the beverage to be cooled. Of course, the cooling time in the container can also be maintained for a long time as the cold air lasts as long as the time remaining in the cold air discharge member filling hole, and the container is mainly applied to a container made of aluminum cans, but is not limited thereto. There is a unique effect that can be applied to glass or plastic bottles.

Claims (10)

An outer surface of the container having a space filled with the liquid contents therein is formed in the selected side of the cold air discharge member filling hole of a predetermined depth toward the inside of the container is formed, characterized in that the cap is provided at the inlet of the cold air discharge member filling hole Container with self-cooling structure. The container having a self-cooling structure according to claim 1, wherein an internal space size of the cold air discharge member filling hole is less than 1/2 of an internal space size of the container into which the liquid contents are filled. The container having a self-cooling structure according to claim 1, wherein the cold air discharge member filled in the cold air discharge member filling hole is any one of ice and refrigerant gas. The container having a self-cooling structure according to claim 1, wherein the position of the cold air discharge member filling hole is formed to face upward from the center of the bottom of the container. The container having a self-cooling structure of claim 1, wherein an inner surface of the cold air discharge member filling hole is formed with wrinkles or irregularities. According to claim 1, wherein the cap formed at the inlet of the cold air discharge member filling hole is formed with a valve for injecting and discharging the refrigerant gas, the cap is formed integrally with the container or opened and closed from the inlet of the cold air discharge member filling hole A container having a structure of a self-cooling function, characterized in that installed possible. The self-cooling function of claim 1, wherein the cap for opening and closing the cold air discharging member filling hole includes an inner sealing part for blocking the cold air discharging member filling hole and an outer sealing part coupled to the outer peripheral surface of the bottom of the container. Container with structure. The container having a self-cooling structure according to claim 1, wherein the coupling means of the cold air discharging member filling hole and the cap is one of screwing or an interference fit between the cap and the cold air discharging member filling hole. The container having a self-cooling structure according to claim 1, wherein a ring having a predetermined length is formed on a surface of the cap facing the cold air discharge member filling hole. The container having a self-cooling structure according to claim 1, wherein the container having a space filled with the liquid contents is any one of a liquor bottle, a liquor can, a beverage bottle, a beverage can, a bucket, and a kettle.