KR100821169B1 - Cooling pack unit - Google Patents

Abstract

A cooling pack unit is provided to allow easy handling for users, and to cool products to be cooled rapidly by including a first pack and a second pack. A cooling pack unit(100) comprises a first pack(200) and a second pack(400). The first pack includes predetermined reactive liquid, first heat absorbing material reacting with the reactive liquid and generating heat absorbing reaction, and a reactive liquid bag(210) separating the reactive liquid with respect to the first heat absorbing material. The second pack is disposed so as to allow heat transfer to the first pack.

Description

Cooling Pack Unit {COOLING PACK UNIT}

1 is a perspective view showing the configuration of a conventional cooling pack unit,

2 is a perspective view showing the configuration of a cooling pack unit according to a first embodiment of the present invention;

3 is a partial perspective view of a cooling pack unit according to a first embodiment of the present invention;

4 is a cross-sectional view of a cooling pack unit according to a first embodiment of the present invention;

5 is a cross-sectional view of a cooling pack unit according to a second embodiment of the present invention;

6 is a perspective view of a cooling pack unit according to a third embodiment of the present invention;

7 is a cross-sectional view of a cooling pack unit according to a third embodiment of the present invention;

8 is a partial perspective view of a cooling pack unit according to a third embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: cooling pack unit 200: the first pack

210: reaction liquid bag 220: endothermic material bag

240: outflow hole

300: third pack 320: heat absorbing material bag

340: inlet hole 400: the second pack

The present invention relates to a cooling pack unit, and more particularly, to a cooling pack unit having an improved structure to cool a product to be cooled.

The cooling pack unit is used to simply cool the product to be cooled without any electronics in the open air, and is particularly used to cool various drinks and foods in the summer.

The conventional cooling pack unit 10 is an outer pack 20 for containing a coolant that absorbs the heat around the reaction by reacting with the reaction liquid, as shown in Figure 1, the reaction is provided in the outer pack 20 to accommodate the reaction liquid It includes a liquid bag (30). In the conventional cooling pack unit 10, the user pressurizes the reaction liquid bag 30 to cause an endothermic reaction between the reaction liquid and the coolant therein, and separates the cooling pack unit 10 in which the temperature of the surface is lowered by the endothermic reaction. The temperature of the product to be cooled is cooled by contacting the surface of the product to be cooled.

However, since the conventional cooling pack unit 10 having such a configuration must be carried separately from the product to be cooled, the user has to keep the cooling pack unit 10 in contact with the product to be cooled in order to cool the product to be cooled. there was. In addition, according to the heat transfer efficiency of the packaging material at the time of contact between the product to be cooled and the cooling pack unit 10, there is a hassle that it takes a considerable time to cool to the desired temperature.

Accordingly, an object of the present invention is to provide a cooling pack unit that can simply cool the product to be cooled.

It is still another object of the present invention to provide a cooling pack unit that can quickly cool an object to be cooled.

The object is that the cooling pack unit according to the present invention comprises a predetermined reaction liquid and a first endothermic material reacting with the reaction liquid to cause an endothermic reaction, wherein any one of the reaction liquid and the first endothermic material is different. A first pack for receiving in isolation with respect to one; It is achieved by a cooling pack unit, characterized in that it is arranged to be heat transfer relative to the first pack and comprises a second pack for receiving a product to be cooled.

Here, the first pack further comprises a third pack disposed between the second pack, wherein the third pack is a second endothermic reaction that reacts with the predetermined reaction liquid and the reaction liquid to cause an endothermic reaction Material may be included.

On the other hand, further comprising a third pack provided in communication with the first pack with the second pack therebetween, the third pack is made of a reaction that reacts with the reaction liquid introduced from the first pack to cause an endothermic reaction 2 may include an endothermic material.

Here, the first endothermic material and the second endothermic material preferably include at least one of NH ₄ NO ₃ (ammonium nitrate) and NaOAc (sodium acetate).

The first heat absorbing material and the second heat absorbing material may further include urea (urea).

Here, the first pack and the third pack may further include a reaction liquid bag for receiving the reaction liquid.

On the other hand, the first heat absorbing material and the second heat absorbing material is preferably accommodated in the heat absorbing material bag including a plurality of compartments that can absorb the reaction liquid and are partitioned.

The first pack may include an outlet through which the reaction liquid flows out, and the third pack may include an inlet through which the reaction liquid flows in.

Here, the outlet of the first pack and the inlet of the third pack may comprise a connecting member for communicating the reaction liquid with each other.

The outlet of the first pack and the inlet of the third pack may be in contact with each other so that the reaction liquid may be directly communicated with the inlet through the outlet. The sealing part may be provided around the outlet of the first pack and the inlet of the second pack to maintain airtightness when the reaction liquid flows.

The outlet and the inlet is preferably provided at the lower end of the coupling portion.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 and 4 are a perspective view and a cross-sectional view showing the configuration of the cooling pack unit 100 according to the first embodiment of the present invention. As shown, the cooling pack unit 100 according to the first embodiment of the present invention is a first pack (200) for accommodating the heat absorbing material bag 220, the heat absorbing material is stored, and the reaction liquid bag 210, the reaction liquid is stored. And a second pack 400 disposed to be heat-transferable from the first pack 200 and containing the cooled product cooled by the endothermic reaction of the endothermic material and the reaction liquid.

The heat absorbing material bag 220 preferably receives the heat absorbing material as shown in FIG. 3. Here, the heat absorbing material bag 220 may be provided with a fiber nonwoven fabric, a pulp nonwoven fabric, a foamed resin sheet and the like to absorb the reaction liquid to control the reaction time of the heat absorbing material.

On the other hand, the heat absorbing material bag 220 is preferably fixed to the surface of the first pack 200 in order to maintain the position when reacting with the reaction liquid. In particular, in order to increase the heat transfer efficiency of the cooled product accommodated in the second pack 400, it is preferable to be fixedly coupled to the center region of the first pack 200 having a large contact area with the cooled product.

Here, the endothermic material may be used ammonium nitrate, sodium acetate, urea and the like. In addition, other known compounds that react with the reaction liquid to produce an endothermic reaction may be used. On the other hand, when different endothermic materials are used in combination can react with each other at room temperature. In order to prevent this, the heat absorbing material bag 220 may accommodate each heat absorbing material in the water-soluble film.

The reaction liquid bag 210 stores a reaction liquid that reacts with the endothermic material to cause an endothermic reaction. The reaction liquid bag 210 separates the reaction liquid and the endothermic material from each other so that the reaction does not occur. Here, water may be used for the reaction liquid 210, and different kinds of reaction liquids 210 may be used depending on the endothermic material.

The reaction liquid bag 210 protects the reaction liquid inside from an external impact and isolates the endothermic material from the reaction liquid. The reaction liquid bag 210 is provided by stacking several layers of wrapping paper. The wrapping paper may be made of any one of linear-low density polyethylene (LLDPE), nylon (NY), aluminum foil (AL), and easy-cut nylon (EZ.NY). The reaction liquid bag 210 fills the reaction liquid in the reaction liquid storage region 215 in which the reaction liquid is stored, and seals the remaining region by applying heat. At this time, the sealed area is preferably sealed with an appropriate bonding force so that it can be easily burst by the user's pressing. Meanwhile, in the preferred embodiment of the present invention, the reaction liquid is accommodated in the bag, but the reaction liquid may be stored in the ampoule that is broken by the pressurization of the user.

The first pack 200 accommodates the heat absorbing material bag 220 and the reaction liquid bag 210 and is arranged to be heat transferable with the second pack 400. The first pack 200 is provided so that the endothermic material and the reaction liquid do not leak to the reaction liquid and the outside when the endothermic reaction occurs. In this case, the first pack 200 may further include a separate absorbing member to prevent the external leakage of the reaction liquid. As the absorbent member, tissue, nonwoven fabric, sponge, or the like may be used.

As shown in FIG. 4, the second pack 400 is provided such that an edge region is in contact with one side of the first pack 300 and forms a storage space S in which the cooled product is stored. The second pack 400 may be provided to be sealed while accommodating the product to be cooled, or may be provided to open one region of the second pack so that the user can detach the cooled product.

Here, the cooled product stored in the second pack 400 is a food pack that can be eaten by the user, a drink that can be drunk by the user, a pack for a pack for cooling the wound of the injured person, and a pack of masks contacting the skin for skin care. It can be either.

Referring to the method of using the cooling pack unit 100 according to the first embodiment of the present invention having such a configuration, first, the reaction liquid bag 210 is ruptured by the pressurization of the user, and the reaction liquid and the endothermic material cause an endothermic reaction. . Accordingly, the temperature of the first pack 200 is lowered, and the temperature of the cooled product contained in the second pack 400 that is in heat transfer contact with the first pack 200 is also lowered.

As described above, the cooling pack unit according to the preferred embodiment of the present invention is easy to carry by the user because the product to be cooled is integrally accommodated therein. In addition, the product to be cooled can be rapidly cooled by an endothermic reaction between the reaction liquid and the endothermic material.

Meanwhile, the cooling pack unit 100 ′ according to the second embodiment of the present invention faces the first pack 200 with the second pack 400 in which the cooled product is accommodated, as shown in FIG. 5. It further comprises a third pack 300 to be provided.

The third pack 300 includes a reaction liquid bag 310 for accommodating the reaction liquid as in the first pack 200, and a heat absorbing material bag 320 for storing the heat absorbing material. The heat absorbing material bag 320 is provided to be in contact with the side to be cooled of the second pack 400.

The cooling pack unit 100 ′ according to the second embodiment of the present invention having such a configuration allows the first pack 200 and the third pack 300 to surround both sides of the cooled product accommodated in the second pack 400. In addition, since the endothermic reaction on both sides simultaneously cools the product to be cooled, the cooling time may be shorter than that of the cooling pack unit 100 according to the first embodiment.

The cooling pack unit 100 ″ according to the third embodiment of the present invention includes a second pack 400 for receiving a product to be cooled as shown in FIGS. 6 to 8, and one side of the second pack 400. The first pack 200 and the first pack 200 for accommodating the reaction liquid pouch 210 for accommodating the reaction liquid and the heat absorbing material pouch 220 for accommodating the heat absorbing material, and the first pack on the other side of the second pack 400. The third pack 300 is provided to be in communication with the second and accommodates the heat absorbing material bag 320 for accommodating the heat absorbing material.

The first pack 200 includes a reaction liquid bag 210 ruptured by the user's pressurization, and an endothermic material bag 220 that reacts with the reaction liquid to produce an endothermic reaction. The first pack 200 is provided with an outlet hole 240 through which one surface 208 of the packaging material contacting with the third pack 300 is formed so as to flow out of the reaction liquid leaking from the torn reaction liquid bag 210.

The inlet hole 340 is formed in one region 308 of the third pack 300 to correspond to the outlet hole 240 of the first pack 200 so that the reaction liquid leaked through the outlet hole 240 is introduced. do. The inlet hole 340 and the outlet hole 240 may be provided to be in direct communication with the reaction liquid as shown in FIG. In this case, a sealing member (not shown) may be provided at the edges of the inlet hole 340 and the outlet hole 240 to prevent leakage of the reaction liquid.

On the other hand, the inlet hole 340 and the outlet hole 240, as shown in Figure 8 may be provided with a separate communication member 500 to communicate the reaction liquid to each other. In this case, sealing members 340a and 240a may be provided at edges of the inlet hole 340 and the outlet hole 240 to prevent leakage of the reaction liquid.

The third pack 300 includes an endothermic material bag 320 that stores an endothermic material that reacts with the reaction liquid introduced through the inlet 340 to cause an endothermic reaction.

On the other hand, the inlet hole 340 and the outlet 2400 is preferably provided in the lower region of the first pack 200 and the third pack 400. This is the reaction liquid when the cooling pack unit (100 ″) is upright This is to increase the flow rate into the third pack (300).

In the cooling pack unit 100 ″ according to the third embodiment of the present invention having such a configuration, when the user presses and blows the reaction liquid bag, the reaction liquid flows into the first pack 200 and the third pack 300 at the same time. To react with the endothermic material.

The cooling pack unit 100 ″ according to the third embodiment of the present invention reduces the storage volume of the reaction liquid compared to the cooling pack unit 100 ′ of the second embodiment, so that the total weight is lighter, and the user is easy to carry.

As described above, according to the present invention, there is provided a cooling pack unit which is easy to carry and allows a user to quickly cool a product to be cooled.

Claims (12)

In the cooling pack unit, A first pack comprising a predetermined reaction liquid, a first endothermic material reacting with the reaction liquid to cause an endothermic reaction, and a reaction liquid bag containing the reaction liquid to insulate the reaction liquid from the first endothermic material. and; And a second pack arranged to be heat transfer relative to the first pack and to receive a product to be cooled. The method of claim 1, And a third pack disposed with the second pack interposed with respect to the first pack, The third pack is a second reaction for containing the reaction liquid, the second endothermic material reacting with the reaction liquid to cause an endothermic reaction, and the reaction liquid to separate the reaction liquid from the second endothermic material. Cooling pack unit comprising a liquid bag. The method of claim 1, And a third pack provided to be in communication with the first pack with the second pack therebetween, And the third pack includes a second endothermic material reacting with the reaction liquid introduced from the first pack to generate an endothermic reaction. The method according to claim 2 or 3, The first heat absorbing material and the second heat absorbing material comprises at least one of NH ₄ NO ₃ (ammonium nitrate) and NaOAc (sodium acetate). The method of claim 4, wherein The first heat absorbing material and the second heat absorbing material further comprises a urea (urea) cooling pack unit. delete The method according to claim 2 or 3, And the first heat absorbing material and the second heat absorbing material are accommodated in a heat absorbing material bag including a plurality of partition areas which are absorbed by the reaction liquid and are partitioned from each other. The method of claim 3, The first pack includes an outlet through which the reaction liquid flows out, and the third pack includes an inlet through which the reaction liquid flows in. The method of claim 8, Cooling pack unit comprising a connecting member for interconnecting the outlet of the first pack and the inlet of the third pack and communicating the reaction liquid. The method of claim 9, Cooling pack unit, characterized in that the outlet of the first pack and the inlet of the third pack is in contact with each other provided that the reaction liquid is in direct communication with the inlet through the outlet. The method of claim 9 or 10, Cooling pack unit, characterized in that the sealing portion for maintaining the airtight when the reaction liquid flows around the outlet of the first pack and the inlet of the third pack. The method of claim 11, Cooling pack unit, characterized in that the outlet and the inlet is provided in the lower region of the first pack and the third pack, respectively.

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