JP2006095450A - Humidity adjustment material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a humidity adjustment material with excellent moisture absorbing/releasing response adjustable to a constant humidity even if a temperature and the humidity are rapidly varied. <P>SOLUTION: In the humidity adjustment material comprising a rubber containing a water absorption polymer, the humidity adjustment material with excellent moisture absorbing/releasing response adjustable to the constant humidity even if the temperature and the humidity are rapidly varied can be obtained by making it to the humidity adjustment material of which a specific surface area is 1 to 3 m<SP>2</SP>/kg. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a humidity control material, and more particularly, to a humidity control material that can be adjusted to a constant humidity even when temperature and humidity change rapidly, and that has an excellent moisture absorption / release response.

  When transporting food and paper in containers, it is necessary to adjust the humidity to maintain the quality. This is because if the humidity is too high, the food may rot or the paper may be deformed in the worst case.

  As a method for adjusting the humidity in the container, a method using a desiccant such as silica gel or calcium is generally used. However, since the desiccant absorbs moisture to the limit and thereafter loses its ability to absorb moisture, the humidity control effect is temporary and does not last long.

In addition, if left in a dry state with low humidity for a long time, for example, the freshness of food drops or static electricity occurs on paper, etc., but there is a problem in quality, but the desiccant has no moisture release function. When it dries too much, it could not cope.

  Therefore, as in Patent Document 1, a humidity adjusting material that can not only absorb moisture but also release the absorbed moisture has been developed. Use of such a humidity adjusting material has an advantage that the humidity in the container can be adjusted within a predetermined range over a long period of time.

By the way, in the transportation of goods by the container as described above, it has been found that even if the humidity adjusting material of Patent Document 1 is used, the humidity and temperature in the container may change quickly and temporarily cause condensation. . When dew condensation occurs in a container, for example, food or paper has a problem in quality control such as spots or dirt caused by moisture adhering.
JP 2003-119403 A

  An object of the present invention is to solve all the above-mentioned problems and to provide a humidity adjusting material excellent in moisture absorption and desorption response that can be adjusted to a constant humidity even if the temperature and humidity change rapidly.

  As a result of intensive studies, the inventors have a high dew condensation preventing effect when the humidity adjusting material has a specific specific surface area, and can be adjusted to a constant humidity even when the temperature and humidity change suddenly, and are excellent in moisture absorption and desorption response. I found out. The present invention has been made based on these findings.

That is, the present invention provides (1) a humidity control material comprising a rubber containing a water-absorbing polymer, wherein the humidity control material has a specific surface area of 1 m ² / kg to 3 m ² / kg,
Provided by.

  Since the humidity adjusting material of the present invention has a specific specific surface area, it is a humidity adjusting material excellent in moisture absorption and desorption response capable of preventing condensation.

  The humidity control material of the present invention is composed of rubber containing a water-absorbing polymer.

  The type of water-absorbing polymer and the amount of the water-absorbing polymer are not particularly limited as long as the inside of the installed space can be adjusted within a predetermined humidity range. Examples of the water-absorbing polymer include acrylate / acrylamide copolymer, polyvinyl alcohol / maleic anhydride reaction product, polyacrylonitrile copolymer, and the like.

  The type of water-absorbing polymer and the amount of the water-absorbing polymer are not particularly limited as long as the inside of the installed space can be adjusted within a predetermined humidity range. Examples of the water-absorbing polymer include acrylate / acrylamide copolymer, polyvinyl alcohol / maleic anhydride reaction product, polyacrylonitrile copolymer, and the like.

  The type of rubber to be used is not particularly limited. For example, synthetic rubber such as chloroprene rubber, butyl rubber, ethylene propylene rubber, styrene butadiene rubber, acrylic rubber, butadiene rubber, isoprene rubber, styrene elastomer, olefin elastomer, Examples thereof include thermoplastic elastomers such as polyamide elastomers, urethane elastomers, polyester elastomers, and vinyl chloride elastomers. Further, the rubber used may be non-vulcanized or vulcanized. The humidity control material of the present invention can be produced, for example, by the method described in JP-A No. 2003-119403.

The humidity control material of the present invention has a surface area of 1 m ² / kg or more and 3 m ² / kg or less. Preferably, the surface area is 1 m ² / kg or more and 1.5 m ² / kg or less. If the surface area is less than 1 m ² / kg, sufficient moisture absorption / release response characteristics cannot be obtained, and if it exceeds 3 m ² / kg, the shape of the humidity control material becomes complicated, which may cause a problem in handling. By setting the surface area within the above range, the moisture absorption and desorption response is fast, and even if the humidity in the installed space changes abruptly, it can be adjusted to a constant humidity without causing condensation.

  The humidity control material of the present invention may have any shape as long as it has the surface area. For example, a material having an uneven surface (FIG. 1), a particle shape (FIG. 2), etc. Can be used.

    The humidity adjusting material of the present invention may have a plastic sheet for maintaining its shape on one side as necessary.

  EXAMPLES Hereinafter, although this invention is demonstrated further in detail based on an Example, this invention is not limited to these.

Preparation of humidity control material Acrylic rubber (Aacron PS250 (trade name), manufactured by Tope Corp.) 40 parts by mass, Acrylate-based high-grade water polymer (Sunfresh ST500MPS (trade name), manufactured by Sanyo Chemical Co., Ltd.) 60 masses Part, plasticizer, stearic acid, titanium oxide and carbon black were mixed with a kneader and rolled with a calender roll to prepare a humidity control material sheet.

Example 1
As shown in FIG. 1, the obtained humidity control material raw material sheet was pressed into a shape having irregularities on the surface to obtain a humidity control material 1 having a size of 0.21 m × 0.297 m (large A4). Furthermore, the humidity control material A was obtained by laminating a plastic sheet 2 for shape retention on the opposite side of the surface on which the irregularities were formed. The specific surface area of the obtained humidity control material A was 1.29 m ² / kg, and the mass of the humidity control material 1 excluding the plastic sheet 2 was 0.07 kg.

Example 2
As shown in FIG. 2, the humidity control material 1 which made the obtained humidity control material raw material sheet into a 0.005 square meter cube was obtained. Furthermore, a humidity adjusting material B was obtained by enclosing a 0.005 m square humidity adjusting material in a bag made of a nonwoven fabric having a size of 0.21 m × 0.297 m (large A4). The specific surface area of the obtained humidity control material B was 1.09 m ² / kg, and the total mass of the humidity control material 1 excluding the non-woven fabric bag was 0.07 kg.

Example 3
The humidity control material C was obtained in the same manner as in Example 2 except that the humidity control material was changed to 0.002 m square, but the processing time was doubled compared to Example 2. The specific surface area of the obtained humidity control material C was 2.73 m ² / kg, and the mass of the humidity control material excluding the non-woven fabric bag was 0.07 kg.

Comparative Example 1
The obtained humidity control material sheet is processed into a size of 0.21 m × 0.297 m (large A4) as shown in FIG. Got. The specific surface area of the obtained humidity control material D was 0.47 m ² / kg, and the mass of the humidity control material 1 excluding the plastic sheet 2 was 0.14 kg.

Comparative Example 2
An attempt was made to produce a humidity control material in which the obtained raw material sheet of the humidity control material was made into a 0.001 m square cube as shown in FIG. 2, and it was difficult to process due to the small particle size.

  The moisture absorption speed and transportation experiment were evaluated for the examples and comparative examples.

(Moisture absorption speed)
The humidity control materials of Examples 1 to 3 and Comparative Example 1 were installed in a constant temperature and humidity chamber having a temperature of 40 ° C. and a humidity of 90% RH. The moisture absorption rate after 10 hours is 50 or more, which is acceptable.

  The results are shown in FIG. It can be seen that the humidity control materials of Examples 1 to 3 have a steep rise in water absorption rate and are superior in moisture absorption speed as compared with Comparative Example 1. In addition, it can be seen that the humidity adjusting materials of Examples 1 to 3 have a moisture absorption rate of 50% or more after 10 hours, while Comparative Example 1 has a low value of 30%.

(Transportation experiment)
In 1 m ³ of the container, placed 4000 paper A4 and four prepared that carries the those bundles of each 500 sheets, the humidity control materials of Examples 1-3 and Comparative Example 1 respectively by 500g did.

  These containers were transported from evening to dawn. When the paper bundle inside the experiment was examined, in the container using the humidity control material of Comparative Example 1, spots after dew were observed on a part of the paper. In the containers using the humidity control agents of Examples 1 to 3 other than that, no problem was observed in the paper bundle.

  As described above, since the humidity adjusting material of the present invention has a specific specific surface area, it is a humidity adjusting material excellent in moisture absorption and desorption response capable of preventing condensation.

It is the schematic which shows one Embodiment of the humidity control material of this invention. It is the schematic which shows other embodiment of the antibacterial humidity control material of this invention. It is a graph showing the evaluation result of moisture absorption speed. It is the schematic which shows the humidity control material of the former (comparative example 1).

Explanation of symbols

1: Humidity control material 2: Plastic sheet

Claims (1)

A humidity control material comprising a rubber containing a water-absorbing polymer, wherein the humidity control material has a specific surface area of 1 m ² / kg or more and 3 m ² / kg or less.

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