JPH02115672A - Freezing cooler and freezing coolant vessel - Google Patents

Abstract

PURPOSE:To obtain a freezing cooler having excellent cooling properties, flexibility and safety by sealing aqueous solution containing specific amount of glycerin in a vessel, and freezing the aqueous glycerin solution to be used as a cooling source. CONSTITUTION:Freezing cooler 1 is made by sealing aqueous solution containing 50% or less of glycerin by weight in a vessel, and the aqueous glycerin solution is frozen to be used as a cooling source. For example, the icing point of the aqueous solution of 30% of glycerin is -9.5 deg.C. When this solution is frozen at approx. -10 deg.C, it becomes fine crystalline state like snow, exhibiting deformable flexibility. This flexibility is enhanced by increasing the concentration of the glycerin, and reduced by decreasing it. The concentration of the glycerin is regulated in response to its utility. The vessel is composed of a sealing bag 11 made of flexible plastic for directly sealing freezing cooling liquid 1, and a heat insulating bag 12 covering the outer surface of the bag 11, divided into a cold dissipating part A and a heat insulating part B having small heat conductivity and large heat insulation to prevent the liquid from early melting.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to improvements in a frozen cooling body that freezes frozen cooling liquid and uses it as a cooling source, and a container for storing this frozen cooling liquid.

<Prior Art> Today, cryocoolers that can be used as cooling sources by freezing a cryocoolant and containers for storing this cryocooler are available.
It is widely used in daily life, such as being used to cool the body of a person with a fever, or being transported or stored in a thermal box called a cooler box with drinks and food to keep it cold. It is used. This type of cryocooler is generally used by sealing a liquid substance in a storage container at room temperature and cooling and freezing it.The storage container is a single-layer plastic bag or A box body is used.

<Problems to be Solved by the Invention> The following conditions are required for such a frozen cooling body. First, it has cooling properties, and as a cooling source, it is necessary to be able to supply low temperature for a long period of time. The second factor is safety, and it is required that the product be harmless to the human body even if it is touched or eaten. Third
It is desirable that it be soft and flexible, and that it should have an appropriate softness like a snowpack even in a frozen state.Especially when it is used to cool the human body, it is desirable to improve the feeling of use, and for the items to be cooled. This flexibility is strongly required in order to deform and adhere accordingly.

In addition, as a container for enclosing frozen cooling liquid, it is possible to hold the frozen cooling liquid for a long period of time while delaying the thawing of the frozen cooling liquid as much as possible.
It is required that the target object be effectively cooled.

<Means for Solving the Problems> In order to solve the above-mentioned problems, the present invention provides the following freezing cooling body and a container for storing freezing cooling liquid.

First, as a cryocooler, use 50% glycerin by weight.
To provide an aqueous solution containing the following substances sealed in a storage container, which can be frozen and used as a cooling source. Incidentally, in order to add properties such as viscosity to this aqueous glycerin solution, other soluble substances such as 1!1 may be added.

Next, as a container for storing frozen cooling liquid, the exterior of the storage container is divided into at least two parts, one part has high thermal conductivity and low insulation property, and the other part has high thermal conductivity. To provide a product with a small amount of heat and high heat insulation properties.

Furthermore, the present invention provides a container for storing the frozen cooling liquid described above, characterized in that the surface areas of one part and the other part are adjustable.

In the storage container of the present invention, various containers such as a bag-like body and a box-like body can be used, and examples of the material thereof include plastics, metals, etc.

In addition, when the container enclosing this frozen cooling liquid is used for cooling a human body, it is preferable to use a bag-like body made of flexible plastic, but the container is not necessarily limited to this.

<Function> Glycerin, which is a component of the freezing and cooling body of the present invention, is soluble in water. Generally, when a dissolved substance is introduced into a liquid, freezing point depression occurs, which lowers the freezing point.

This freezing point depression is proportional to the concentration expressed in moles of Pa in a given weight of solvent. To give specific numerical values, the freezing point of a 30% glycerin aqueous solution is -9.5°C. When this aqueous solution is frozen at approximately -10°C, it forms a thin snow-like crystalline substance that exhibits deformable flexibility.Furthermore, the heat of fusion of glycerin is 47.5 cal/g, which is close to the maximum among organic compounds; It has extremely beneficial effects on the human body and is harmless to the human body.

Next, in the container for storing the frozen cooling liquid of the present invention, the exterior has two parts: a cooling part with high thermal conductivity and low heat insulating property, and an insulating part with low heat conductivity and high heat insulating property. Since it is divided into two parts, the cooling part can achieve a large cooling effect, and the heat insulating part can delay the thawing time of the frozen cooling liquid, depending on the surface area ratio between the two parts and the difference in the weight of the frozen cooling liquid. Furthermore, the melting time can be adjusted by adjusting the ratio of the cooling part and the heat insulating part.

<Example> An embodiment of the present invention will be described below based on the drawings.

FIG. 1 is a sectional view of a cryocooler according to an embodiment, and the cryocooler is composed of a cryocooler (11) and a container for storing the liquid.

Freezing cooling liquid (1) contains glycerin CJs (OH)
An aqueous solution containing 30% by weight of 3 is used. The chemical structural formula of glycerin is shown below.

Glycerin is a colorless, sweet-tasting (harmless to eat), viscous liquid that is soluble in water and hygroscopic. The specific gravity of glycerin is 1.26, melting point 17.9°C, boiling point 290°C1
Specific heat is 0.540 at 0°C. Heat of fusion is 47.5c
The al/g value is close to the highest among organic compounds, and it acts extremely advantageously as a cold and moving body. Further, due to the freezing point depression, the freezing point of the water-soluble 30% glycerin in Example is -9.5'C. When this aqueous solution is frozen at about 10°C, it becomes a thin snow-like crystalline state and exhibits deformable flexibility. This flexibility increases as the concentration of glycerin increases.
It decreases when the concentration is decreased. Therefore, the concentration of glycerin may be adjusted depending on the purpose of the cryocooler, and one with a relatively high concentration may be used if flexibility is required.

In addition, in order to give this glycerin aqueous solution a paste-like viscosity,
A few percent of polysaccharides such as methylcellulose may be added.

Next, the storage container consists of an insulating bag that covers about two-thirds of the outer surface of the flexible plastic enclosure bag (10 and enclosure bag 01) that directly encloses the frozen cooling liquid (). configured. As shown in FIG. 3, this heat insulating bag 021 consists of heat insulating sheets (12a) (12b) in which a foamed heat insulating plastic sheet 04 is welded to the inner surface of a flexible plastic sheet 0.
2 sheets, each foam insulation plastic sheet (14)0
4) are placed on top of each other so that they are on the inside, and the periphery is welded, thereby forming an air layer of 0ω between them. Both insulation sheets overlapped (12
a) (12b) is welded or adhesive sewn into a bag shape with an opening at one end.

As a result, the storage container consists of an enclosure bag (the cooling part (A) consisting of only 10 and an enclosure bag 01) and an insulating bag 0.
It is divided into two parts: a heat insulating part (B) which has a lower thermal conductivity and a higher heat insulating property than the cooling part (A).

In addition, the classification of the cooling part (8) and the insulation part (B) may be changed as appropriate depending on the purpose, such as one side of the bag is only a cooling side and the other side is a heat insulating side covered with a heat insulating layer. obtain.

There is a brushed hook-and-loop fastener on the inner circumferential surface of the opening of this insulation bag.
0 is attached. On the other hand, the corresponding brushed hook and loop fastener 0'? ) is attached to the outer peripheral surface of the enclosure bag 01) to fix both bags 01) OZ. The raised hook-and-loop fastener 07) of this enclosure bag (11) is provided over an appropriate length in its longitudinal direction (horizontal direction in the figure), so that the protrusion of the enclosure bag (11) can be prevented as shown in FIG. the amount can be adjusted,
Thereby, the surface area of the cooling portion (A) and the heat insulating portion (B) can be adjusted.

In this way, this storage container is divided into two parts: the cooling part (A), which has high thermal conductivity and low heat insulation property, and the heat insulation part (B), which has low heat conductivity and high heat insulation property. Therefore, due to the surface area ratio between the two and the difference in weight of the frozen cooling liquid, a large cooling effect can be obtained in the cooling part (A), and the melting time of the frozen cooling liquid can be delayed in the heat insulating part (B). Furthermore, the cooling part (A)
By adjusting the ratio of the heat-insulating portion (B) and the heat-insulating portion (B), the melting time can be adjusted.

In addition, since the humidity is high in summer and dew forms in the cooling section, the outer periphery of the storage container may be wrapped with a plastic dehumidifying sheet.

When using, place the storage bag containing the frozen cooling liquid (1) in the freezer, cool it to about -10"C, freeze it, and use it as a cooling source for an ice pillow or cooler box. When freezing, place the storage bag containing the frozen cooling liquid (1) in the freezer. Remove θ′IJ and put it in the enclosure bag (1
By placing only 1) in the freezer, early freezing is possible.

Next, another embodiment will be described based on FIG.

This embodiment is a cryocooler suitable for use inside a helmet, and this cryocooler is a cryocooler (+
) and a container to store it.

The cryocooler (1) is made of an aqueous solution containing 30% glycerin by weight, as in the previous example.

Next, the storage container is placed inside the helmet.
Specifically, it is inserted between a helmet body (2) made of metal or hard plastic and a fitting body (2) made of plastic or cloth. Note that it is desirable to provide a heat insulating layer made of foamed plastic on the inner surface of the helmet body opening υ.

The entire storage container has a curved shape that follows the inner surface shape of the forehead of the helmet. This storage container is composed of a flexible plastic enclosure bag lIl+ that directly seals the frozen cooling liquid (1), and an insulating bag (roll) that covers the entire top side and about half of the bottom side of the enclosure bag. The cooling part (which is not covered with an insulating bag) and which has high thermal conductivity and low insulation property (
It is divided into A) and a heat insulating part (B) which is covered with a heat insulating bag and has low thermal conductivity and high heat insulation.

In this embodiment, the cooling portion (A) is located near the forehead of the human head (C), thereby making it possible to intensively contact and cool the forehead. On the other hand, the upper surface side, which is directly exposed to solar heat and high temperatures in factories, etc., is a heat insulating part (B), thereby preventing early melting of the frozen cooling liquid (1).

This heat insulating bag may have the same cross-sectional structure as in the previous embodiment, but it may also be made of foamed urethane or the like with low flexibility in order to form the entire curved shape. This insulation bag (
The enclosing bag (Tan) and the enclosing bag (Tan) may be glued together in their entirety, or, as in the previous example, they may not be glued in their entirety, but may be partially attached using a raised hook-and-loop fastener, etc., to cool the cooling part (A). The surface area ratio of the heat insulating portion (B) and the heat insulating portion (B) may be made variable.

Next, still another embodiment will be described based on FIGS. 5 and 6. The freezing/cooling body of this embodiment is suitable for carrying a can of beer 6υ in a chilled state, and consists of a freezing/cooling body (1) similar to that of the previous embodiment and a storage container to house it.

This storage container exhibits a rectangular shape in its entirety with a length equal to the circumference of the beer can and a width equal to the height of the beer can, and this storage container directly encloses the frozen cooling liquid (1). A flexible plastic enclosure bag and an enclosure bag (
The cooling part (A), which has high thermal conductivity and low heat insulation, is arranged on the outer surface of the storage container, and consists of an insulating zone (A) that is bonded only to the outer peripheral surface of the storage container. A small heat insulating part (B) with high heat insulating properties is arranged on the inner surface of the storage container. In addition, the insulation zone (
(to) may have the same structure as the first and second embodiments, but it is desirable to have as much flexibility as possible.

This frozen cooling body is used after being cooled in a freezer. At this time, the frozen cooling liquid (1) becomes a thin crystal like snow and exhibits deformable flexibility, so the outer periphery of the beer can is placed with a heat insulating part (B) on the inside and a cooling part (A) on the outside. It can be rolled up.

The wound cryocooler may be fixed by appropriate means so as not to open, but a more preferable example is shown in FIG. In this example, the outer periphery of the cryocooler is wrapped around a pair of half-split cylindrical bodies, and one side of the half-split cylindrical bodies can rotate together. The hinge part is connected to the hinge part (to), and the other has a pair of raised flat parts (to) formed on the sides thereof. A fitting unevenness (not shown) is formed on the lower part (9) (to), and by fitting the unevenness and fixing the half-cylindrical body in a closed state, a beer can can be placed inside it. 6υ and a cryocooler. In addition, in this embodiment, it is preferable to fit a camp@ (to) with insulation material on both ends, since the frozen cooling liquid enclosing bag □□□ is on the inner circumferential surface, so the beer can 6υ can be directly and effectively cooled, and since the insulating zone (solstice) is located on the outer periphery, it is possible to prevent cold air from escaping and increase the cooling effect for a long time.
It is also convenient for carrying beer cans.

<Effects of the Invention> As described above, the freezing and cooling body of the present invention lowers the freezing point of water due to its constituent glycerin. Furthermore, the heat of fusion of glycerin is 47.5 cal/g, which is close to the maximum among organic compounds, and it acts extremely advantageously as a cooling body. Furthermore, when an aqueous glycerin solution is frozen at an appropriate temperature, it forms a thin snow-like crystalline state and exhibits deformable flexibility. In addition, glycerin is harmless even if eaten, and it has been possible to provide a frozen cooling body with excellent cooling performance, flexibility, and safety.

In addition, in the container for storing the frozen cooling liquid of the present invention, the cooling part (A
) and the insulation part (B), which has low thermal conductivity and high heat insulation properties, so depending on the surface area ratio of the two parts and the difference in the weight of the frozen cooling liquid, In addition to obtaining a large cooling effect, the insulation part (B
) can delay the thawing time of the frozen coolant. Therefore, it is possible to effectively cool the target object while delaying the melting of the frozen cooling liquid sealed therein as much as possible.

Furthermore, by adjusting the ratio of the cooling part (A) and the heat insulating part (B), the thawing time can be adjusted, and the frozen cooling liquid can be cooled under the conditions most suitable for the purpose of use. It was possible to provide a container for storing it.

[Brief explanation of the drawing]

Fig. 1 is a sectional view of one embodiment, Fig. 2 is a sectional view of the same embodiment after surface area adjustment, Fig. 3 is a partially enlarged view of the same embodiment, and Fig. 4 is a sectional view of the same embodiment.
The figure is a sectional view of another embodiment, FIG. 5 is a sectional view of still another embodiment, and FIG. 6 is an explanatory diagram of the same embodiment in use. (1)...Frozen cooling liquid, (I+) ('J...Enclosure bag, surface □□□...Insulation bag, (12a) (12b)
...Insulation sheet, 0■...Flexible plastic sheet, 041...Foam insulation plastic sheet, G9...
・Air layer, 000 force... Brushed hook and loop fastener, (to)...
・Helmet body, (to)... Wearing belt, (to)...
Insulation layer, @D...Enclosed bag, 6υ...Can beer,■・
... insulation zone, (goods) (to) ... half-split cylindrical body, (to)
・Hinge part, simple (to)... Sageube, (to)...
Camping, (A)...Cooling part, (B)...Insulating part. Figure Figure (1)...Frozen cooling liquid, (11)...Enclosure bag, G2
)...insulation bag, (12a) (12b) -'JR
Heat sorting, 0:D...Flexible plastic sheet, 0
4... Foamed heat insulating plastic sheet, θ... Air layer, 06) (17)... Brushed hook and loop fastener, (8)
...Cooling part, (B)...Insulating part. Snake (+)...frozen cooling liquid, raυ...can beer, leap...
・Enclosed bag, ■...Insulated zone, (9) Country...Half-split cylindrical body, (To)...Hinge part, (To)...Half part, (
To)...Cap, (A)...Cooling part, (B)
...Insulation part.

Claims (1)

[Scope of Claims] 1. A freezing cooling body comprising an aqueous solution containing 50% or less of glycerin by weight and sealed in a storage container, which allows the aqueous glycerin solution to be frozen and used as a cooling source. 2. In a container for storing frozen cooling liquid, the exterior of the storage container is divided into at least two parts, one part has high thermal conductivity and low heat insulation, and the other part has low thermal conductivity and A frozen cooling liquid storage container characterized by having high heat insulation properties. 3. The freezing coolant storage container according to claim 2, wherein the surface areas of one part and the other part are adjustable.