JPH0496988A - Heat-exchanging medium - Google Patents

Abstract

PURPOSE:To obtain a clean and easily handleable heat-exchanging medium by sealing a specific amount of a powdery higher water-based polymer in a flat container having a closable opening and made of a synthetic resin film, synthetic resin sheet, etc. CONSTITUTION:The objective heat-exchanging medium capable of keeping a low-temperature state or high-temperature state over a long period can be produced by sealing (A) a powdery higher waterbased polymer 15 preferably composed of a polyacrylic acid salt, saponified polyacrylonitrile, polyethylene oxide, saponified graft copolymer of starch and acrylonitrile, graft polymer of starch and acrylic acid, crosslinked carboxymethyl cellulose, etc., in (B) a flat container 10 having a closable opening 100 and made of a synthetic resin film, synthetic resin sheet, etc., in a state to fill a part of the inner space of the container B with the polymer A.

Description

[Detailed description of the invention] Industrial use The present invention relates to heat exchange media.

For example, when transporting large quantities of perishable foods over long distances by rail cars or freight cars, in order to ensure that these perishable foods do not lose their freshness during transportation, It is common practice to freeze these perishable foods or maintain them at low temperatures. This can also be done by freezing fresh food items and then circulating cold air, generated by a refrigerator mounted on the transport vehicle itself, around these frozen food items to achieve a low temperature. or maintain the perishables in a low temperature environment by cooling the perishables to a low temperature and then placing ice around the cooled perishables. Methods such as doing this have been adopted.

In this case, in order to economically create a low-temperature environment, it is necessary to appropriately place ice around the frozen or cooled food products. In addition to using artificial rice, recently, it has been practiced to use heat exchange media of various appropriate sizes, that is, cold insulation materials frozen with a 5-refrigerator.

However, this kind of heat exchange media currently in use requires complicated operations,
The problem is that the cooling effect is not necessarily satisfactory.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an improved heat exchange medium that is easy to use and can sufficiently exhibit the desired cold or heat retention effect.

In the present invention, in order to solve this problem, the container is placed in a flat container made of a synthetic resin film or a synthetic resin sheet having a freely sealable opening. It is characterized by being made by enclosing a powdered super absorbent polymer so as to fill a portion of the internal volume.

The present invention has the above-described configuration, but when it is used, first, the opening of the container is opened and a specified amount of water is poured into the container. Then, this water is absorbed by a powdered super-absorbent polymer pre-filled in the container, and this polymer becomes a highly viscous gel. Therefore, after removing the air remaining inside the container, the opening of the container is sealed and the container is placed in a deep-chilled freezer. Freeze some superabsorbent polymers.

The deep-chilled heat exchange medium can be used as a cold insulator for frozen or chilled fresh food products in the same way as conventional ice or heat exchange media.

Note that this heat exchange medium can also be used as a heat insulating material by heating it instead of freezing it.

The present invention will be described below with reference to the accompanying drawings No. 1 and No. 2 showing embodiments thereof.
A detailed explanation will be given based on the figures.

In FIGS. 1 and 2, the reference numeral 10 indicates a flat container with a rectangular planar outline, which is made of a laminate film of a synthetic resin film, such as a nylon film, and a polyethylene film. This container 10, as seen in the figure, has an opening 10. is formed, the remaining sides, that is, both sides 10
．． ．． 102, the bottom side, and 103 are all closed, and in the opening 10o, on the inner surface of each film facing each other, a male part 111 made of polyethylene is provided parallel to the upper side at a slight distance from the upper side. A well-known fastener 11 consisting of a pair of female parts 11 and 11 is attached, and when this fastener 11 is tightened, the inside of the container 10 can be sealed from the outside. There is.

Further, inside the container 10, a powdered superabsorbent polymer 15 is sealed in a volume corresponding to the internal volume of the container 10, for example, the volume of 2 to 5z.

Further, on the outer surface of the container 10, at a position slightly below the fastener 11 attached to the inner surface of the opening 10°,
Parallel to the fastener 11, a prescribed water line 12 is appropriately drawn as a guide for the amount of water to be poured into the interior of the container 10, which will be explained later.

In the present invention, the powdered superabsorbent polymer 15 sealed inside the container 10 includes, for example, polyacrylate-based, saponified polyacrynitrile-based, polyethylene oxide-based, starch-acrylonitrile graft polymer. Examples include saponified products, starch/acrylic acid graft polymers, and crosslinked carboxymethyl cellulose.

As described above, the heat exchange medium according to the present invention has an opening 10 made of a synthetic resin film. It is characterized by being composed of a flat container 10 that can be sealed and closed, and an appropriate amount of powdered superabsorbent polymer 15 sealed inside the container.

When using the heat exchange medium according to the present invention having such a configuration, the opening 10o of the container 10 is opened by releasing the fastener 11, and the container 10 is opened.
Inside this opening 10. water through the specified water line 12
Wait and inject. Simultaneously with this water injection, the powdered superabsorbent polymer 15 sealed in the container 10 absorbs a large amount of water, expands, and becomes a highly viscous gel state. Therefore, after removing the air above the water line 12 from inside the container 10, the zipper 11 is tightened, thereby opening the opening 10 of the container 10. , thus container 1
0 is sealed from the outside.

In this way, the heat exchange medium according to the invention is brought ready for use by placing it in a deep-chilled freezer, in which gelatinized The superabsorbent polymer 15 in this state is frozen.

In this way, the container 10 enclosing the superabsorbent polymer 15 in a frozen gel state can be used, for example, as a cold insulator, around frozen perishable foods, similar to conventional heat exchange media. This arrangement allows fresh foods to be kept in a low-temperature environment for a long period of time.

In the above description, the heat exchange medium according to the present invention is mainly used as a low-temperature cooling medium, that is, as a cold insulating material, but the heat exchange medium according to the present invention is mainly used as a heating medium, that is, as a cold insulating material. , it is obvious that it can be used as a heat insulating material.

1 Skin Sugeki 1 The present invention has the above-described configuration and is used in the above-described manner, but since the entire surface of the heat exchange medium is wrapped with a synthetic resin film, it is easy to clean. can be,
In addition, since the powdered superabsorbent polymer is sealed inside the container, it does not scatter outside the container, and the amount of the powder is small compared to the internal volume of the container, so the overall weight is also low. The superabsorbent polymer is not large and therefore easy to handle; furthermore, this superabsorbent polymer swells by absorbing large amounts of water, resulting in a gelled material with a large weight; Since the super absorbent polymer has a high viscosity, it does not leak out of the container due to the fastener, and therefore can be handled cleanly even in this state of use. Furthermore, this gelled superabsorbent polymer has a large heat capacity thermally compared to other heat exchange materials, so it is compatible with its large weight compared to those materials. In addition, it is possible to maintain a low temperature state or a high temperature state for a long period of time.

[Brief explanation of the drawing]

FIG. 1 is a schematic front view showing one embodiment of the present invention, and FIG. 2 is a sectional view taken along the line II-U in FIG. 1. 10...Synthetic resin film container, 11...Synthetic resin fastener, 12...Specified water line, 15...Powdered super absorbent polymer Figure 2 Figure 1 Patent applicant Showa Kobunshi Co., Ltd.

Claims (1)

[Claims] 1. In a flat container made of a synthetic resin film or synthetic resin sheet having an opening that can be freely sealed, powdered high-density powder is placed so as to fill a portion of the internal volume. A heat exchange medium characterized by encapsulating a water-absorbing polymer. 2. Powdered super absorbent polymer is cross-linked with polyacrylate, saponified polyacrynitrile, polyethylene oxide, saponified starch/acrylonitrile graft polymer, starch/acrylic acid graft polymer, or carboxymethyl cellulose. The heat exchange medium according to claim 1, which is a body or the like. 3. A heat exchange medium according to claim 1 or 2, wherein the container is made of a nylon-polyethylene laminate film, and the opening thereof is fitted with a polyethylene fastener consisting of an interengaging male and female part.