JPH06294006A - Moisture-absorbing and releasing water-absorbing heat-generation warmth-keeping article - Google Patents

Abstract

PURPOSE:To obtain a warmth-keeping article such as a cold weather clothing by using a base material generating heat by the moisture absorption and water absorption to a level to be sensible by the body and enable the increase of the warmth-keeping effect. CONSTITUTION:The warmth-keeping article is made of a base material composed of a front cloth and a back cloth having various desirable properties such as moisture-permeating water-proofing property, windproofing property, etc., and an interlining cloth having desired properties and inserted between the front cloth and the back cloth. A moisture-absorbing and releasing, water- absorbing heat-generation fiber other than animal fiber is included in the interlining cloth or the back cloth to generate heat and keep the warmth by absorbing the gaseous or liquid sweat generated from the body and the gaseous and liquid moisture intruded through the clothes.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to clothes, hats, shoes, and other various articles worn by humans, and more particularly to those which are exothermic by absorbing moisture and water.

[0002]

2. Description of the Related Art Conventionally, as a heat insulating article using a base material having a three-layer structure in which batting is inserted between a front material and a lining material, for example, clothing for cold weather such as ski wear has been known. Has been. As the batting used for such ski wear, synthetic fiber materials such as polyester and animal natural materials such as down have been used. In addition, comfort has been improved by using a material having excellent moisture permeability and windproof property for the outer material and a material having excellent air permeability and moisture absorption property for the lining material.

Further, as a heat insulating article using a base material having a two-layer structure consisting of a front material and a lining material, for example, a windbreaker worn by athletes during warm-up in winter, during exercise, after the competition, etc. Windproof clothing is known. As a lining used for such a windbreaker, a mesh cloth is used so as not to stick to the human body, or a cloth having excellent hygroscopicity is used so as to absorb the sweat of the human body. And
By using a material with excellent moisture permeability and windproof properties as the outer material, comfort was improved.

Further, as a heat insulating article using a base material made of one piece of cloth, for example, an undershirt or other clothing worn by athletes during warm-up in winter, during exercise, after the end of competition, etc. is known. There is. As the base material used for this undershirt, similar to the windbreaker above, a mesh cloth fabric is used so as not to stick to the human body, and it has excellent hygroscopicity and heat retention so as to absorb human sweat. The fabric was used to improve the comfort to some extent.

[0005]

However, the batting used in the above-mentioned conventional ski wear merely serves as a heat insulating material in order to prevent heat from escaping from the body, and is positive for environmental changes. Did not correspond to. In particular, batting made of polyester fiber has almost no hygroscopicity, which causes a problem that it becomes stuffy.

On the other hand, it is already known that natural animal materials such as down and wool generate heat by absorbing water vapor and water emitted from the human body.
In the case of this material as well, it is one that only feels good on the skin when worn, and does not actively absorb water vapor or water,
Moreover, the degree of heat generation due to this absorption was not sufficient.

In the case of the above-mentioned conventional windbreaker, the windbreaker also serves as a heat retaining effect, has a poor sweat absorbing / hygroscopic function, and does not actively respond to environmental changes. Therefore, when wearing such a windbreaker for warming up, when the person goes out of a warm room to a cold room, it feels chilly if the body does not warm to some extent. Also, if you wear such a windbreaker while exercising, the lining absorbs sweat and keeps it in a comfortable state, but it only absorbs sweat and the body heat over time. You will be robbed.

Further, in the case of the above-mentioned conventional undershirt, the same inconvenience as in the case of the above-mentioned conventional windbreaker occurs.

[0009] The present invention has been made in view of the above-mentioned circumstances, and the clothing for cold weather using a base material which can increase the amount of heat generated by moisture absorption and water absorption so that it can be felt and the heat retaining effect can be further enhanced. It is intended to provide heat insulation products such as.

[0010]

Means for Solving the Problems In order to solve the above-mentioned problems, a moisture-absorbing / moisture-absorbing / heat-generating heat insulating article of the present invention is a surface material and a lining material having moisture permeable waterproof property, windproof property and other desired properties, and these surface materials and A heat-insulating article comprising a base material having a desired property inserted between linings, wherein moisture absorbing / releasing water-absorbing exothermic fibers excluding animal fibers are contained in the middle and / or lining. The heat and heat are kept by absorbing sweat of vapor and liquid generated from the human body and moisture of vapor and liquid invading from the outside of clothes.

The outer material has moisture-permeable and water-proof properties, wind-proof properties and other desired properties, and its material is not particularly limited. For example, use synthetic fibers such as polyester, nylon, acrylic, polypropylene, polyvinyl chloride, polyurethane, rayon, and acetate, natural fibers such as wool and cotton, and various materials such as natural leather, artificial leather, and synthetic leather. be able to. Further, the shape of the outer material is not particularly limited, and a woven cloth, a knitted cloth, a non-woven cloth, a felt, a sheet, a film, or the like, or a raw material as it is can be used.

However, when the inside and / or the lining is made to contain moisture-absorbing / moisture-absorbing exothermic fibers to absorb moisture in clothes to keep the heat generated by heat generation, the outer material is a moisture-permeable waterproof material based on polyester or nylon. It is desirable to use a material made of a flexible material.

The material for the lining is not particularly limited as in the case of the above-mentioned outer material. Also, the shape of the lining is not particularly limited as in the case of the above-mentioned outer material, but in the case where the lining contains moisture absorbing / releasing water absorbent heat generating fibers, for example, woven fabric, knitted fabric, non-woven fabric, etc. It should be considered so as to be able to contain moisture absorbing / releasing water absorbing heat generating fibers, such as those made into a fabric. In addition, when the lining does not contain moisture absorbing / releasing water absorbing heat generating fiber, only the moisture absorbing / releasing moisture absorbing heat generating fiber is contained in the lining, and when moisture is absorbed in the clothes by this medium to keep the heat generated, As the lining, it is preferable to use a permeable and breathable material so that the inner lining can easily absorb moisture.

Examples of the medium include batting of various commonly used natural and chemical fibers such as down, wool and polyester, foam such as polyurethane foam, and various fibers such as woven cloth, knitted cloth and non-woven cloth. A shaped product can be used. However, in the case where the moisture absorbing / releasing / water absorbing / heat-generating fiber is also contained in this base material, it must be taken into consideration so that the moisture absorbing / releasing / water absorbing / heat-generating fiber can be contained as in the case of the lining.

As the moisture absorbing / releasing moisture absorbing water absorbing heat generating fiber, for example,
An acrylic acid-based moisture absorbing / releasing / water absorbing heat generating fiber having a chemically modified substance obtained by strongly cross-linking hydrophilic groups at a high density can be mentioned. The moisture-absorbing / releasing water-absorbing exothermic fiber has different calorific values depending on the chemically modified substances of the moisture-absorbing / releasing water-absorbing exothermic fiber. When it is moved to a high humidity atmosphere, it has a heat generation amount related to hydrogen bonding, heat of solution, and van der Waals force. Therefore, by adjusting the content of the moisture-absorbing / releasing / water-absorbing exothermic fiber contained in the middle and / or the lining, it is possible to construct a substrate having an appropriate calorific value according to the application. In addition, other heat-absorbent fibers that absorb and release moisture, such as synthetic silica gel, natural silica-alumina-based desiccant, and ceramic-based desiccants such as molecular sieves, absorb heat during moisture absorption and water absorption. The fine powder of these generated desiccants may be mixed with various fiber materials. Specific examples of the moisture absorbing / releasing water absorbing heat generating fiber include an acrylic acid type moisture absorbing / releasing water absorbing heat generating fiber having a hydrophilic group made of carboxylic acid soda (Development No. N-38 manufactured by Toyobo Co., Ltd.). . In the case of this acrylic acid-based moisture absorbing / releasing water-absorbing exothermic fiber, as shown in FIG. 1, when it is put into 100 g of water kept at 20 ° C. under an environmental condition of temperature of 20 ° C. and humidity of 40%, about 60 J / g of heat is generated. Have quantity. This is sufficient in terms of the calorific value when absorbing water as compared with the calorific value of about 15 J / g in the case of the wool fiber charged under the same conditions and 0 J / g of the calorific value in the case of the polyester fiber. In terms of the amount of moisture absorption, as shown in FIG. 2, the weight change rate in relative humidity change is, for example, 40% in a standard state (temperature 20 ° C., humidity 65%), which is more than double that of wool. is there. Furthermore, in terms of moisture absorption and desorption,
As shown in FIG. 3, when environmental conditions with different relative humidity every 90 minutes (humidity 0% → 90% → 45% → 90% → 45%, temperature constant at 20 ° C.) are applied, it takes about 30 minutes or less to absorb. It can be confirmed that the moisture release reaches an equilibrium state and the response of moisture absorption and release is extremely good.

The moisture absorbing / releasing / water absorbing / exothermic fiber is contained in the inner lining and / or the lining. The state of containing the moisture-absorbing / releasing / water-absorbing exothermic fiber in the base material is not particularly limited. For example, when the base material is cotton-like batting, simply the fiber material constituting the batting material is used. A batting of moisture absorbing / releasing water absorbing heat generating fiber may be mixed therein at an appropriate ratio.

When the base material is cloth-like, for example, the base material is formed as a non-woven fabric by moisture absorbing / releasing / water absorbing heat generating fiber and other fiber material, and It may be one that contains moisture-absorbing and moisture-absorbing heat-generating fibers. In addition, a middle fabric is formed as a knitted fabric or a woven fabric of a composite yarn such as a mixed yarn with moisture absorbing / releasing water absorbing heat generating fiber, and the mixed fabric is made to contain the moisture absorbing / releasing water absorbing heat generating fiber. It may be one.

However, when the moisture absorbing / releasing / water absorbing / exothermic fiber is contained, it is important that the surface and the specific surface area of the fiber are not damaged as much as possible. Further, not only for non-woven fabrics, woven fabrics, knitted fabrics, etc., but also when making the middle of a composite product or a mixed product for strength, thickness, texture and stretchability, a layer of moisture absorbing / releasing water absorbing heat generating fiber, It is desirable to configure the center by separately forming the other functional layers for increasing the strength and the amount of expansion and contraction, and devising a device that does not change the surface of the moisture absorbing / releasing water absorbing heat generating fiber as much as possible.

For example, when the nonwoven fabric is formed by binding moisture absorbing / releasing moisture absorbing water absorbing heat generating fibers to each other and immersing them in an acrylic binder or the like for surface adhesion, the surface of the fibers is coated with a binder film. As a result, the moisture absorbing / releasing moisture absorbing water absorbing heat generating fiber cannot be exerted. Therefore, the moisture absorbing / releasing water absorbing heat generating fiber is mixed with polypropylene or a low melting point polyester and heated to form a nonwoven fabric of the moisture absorbing / releasing water absorbing heat generating fiber by bonding only the portion in contact with the melted low melting point fiber. It is preferable. In addition, a foamed acrylic binder is applied to the moisture absorbing / releasing water absorbing heat generating fiber, the bubbles are ruptured on the surface of the moisture absorbing / releasing water absorbing heat generating fiber, and the binder is applied to the contact point of the moisture absorbing / releasing water absorbing heat generating fiber due to the surface tension of the binder. It is also preferable that the nonwoven fabric is formed by aggregating.

Also, when the moisture absorbing / releasing / water-absorbing exothermic fiber and the other fiber constitute the middle fabric as a knitted fabric, the yarn of the moisture-releasing / absorbing / water absorbing exothermic fiber is used as a reinforcing layer made of the other fiber. It is desirable that the knitted fabric be entangled, and that the moisture absorbing / releasing and water absorbing and heat generating fibers are bound from the reinforcing layer side by resin processing if necessary. The case of containing moisture absorbing / releasing water absorbing heat generating fiber in the lining is also the same as in the case of the above-mentioned center.

The outer material, the lining material and the inner material constituting this base material are simply in a state in which three layers are superposed like a base material for cold weather clothing in which batting is inserted between the outer material and the lining material. It may be Further, it may be one in which three layers are integrated, like a base material for a wet suit in which the outer material and the inner material are bonded to both sides of the rubber material.

The base material does not have to constitute the whole heat insulating product, and may be used for at least a part of the heat insulating product. Examples of the heat insulating article made of such a base material include ski wear, winter mountaineering clothing, and other winter clothing such as a winter jacket.

In general, if you wear ski clothes or other cold weather clothes and go out of the room below freezing, dew condensation will form inside the clothes and it will be uncomfortable. However, if you wear clothes made of this base material, it will absorb the condensed water. It prevents the feeling of cold and generates heat due to heat of moisture absorption. That is, when it goes out of the room, it absorbs moisture and heats the clothes to exert a heat retaining effect.

For example, the above-mentioned acrylic acid-based moisture absorbing / releasing water absorbing / exothermic fiber (Development No. N-38 manufactured by Toyobo Co., Ltd.) and ordinary polyester fiber are mixed at a weight ratio of 50% to obtain a basis weight of 130 g / m 2. ^When the relative humidity is changed using ² batting (humidity 40% → 90%, temperature 20 ° C. constant), about 70 J / g of heat is generated. Similarly, when using a batting of 130 g / m ² in which wool fibers and ordinary polyester fibers are mixed at a weight ratio of 50%,
It produces about 20 J / g of heat. If the polyester fiber is a 100% basis weight 130 g / m ² batting,
It generates 4.6 J / g of heat. In consideration of the specific design of ski wear from the above, a batting of 130 g / m ^{2 having} a basis weight of 50% by weight of the acrylic acid-based moisture absorbing / releasing / water-absorbing exothermic fiber and the normal polyester fiber is mixed. 1.7 m ^{2 was} used for the body part, and similarly, this acrylic acid-based moisture absorbing / releasing water-absorbing exothermic fiber and ordinary polyester fiber were mixed in a weight ratio of 50%, and a batting of 80 g / m ² was used for the sleeve part. It is conceivable to design a suitable ski wear using 0.8 m ^{2 of}

That is, in consideration of actual wearing of ski wear, the humidity in the clothes (humidity between the ski wear and the undershirt such as underwear) may increase in the range of 40 to 90% in relative humidity. Many. Taking this into consideration, it can be seen from the graph of FIG. 2 that the amount of the acrylic acid-based moisture absorbing / releasing water-absorbing exothermic fiber used in the entire ski wear absorbs 50 to 60 g of water and a calorific value of 16 to 24 kJ is obtained. Become. In other words, in addition to moisture absorption and desorption, the ski wear has a sufficient calorific value and comfort as ski wear.

In this example, the acrylic acid-based moisture absorbing / releasing / water absorbing heat generating fiber and the normal polyester fiber are mixed at a weight ratio of 50%, but the ratio is not particularly limited, and 20 It is also possible to appropriately change the usage ratio within the range of the weight ratio of 80% depending on the use and purpose.

In addition, examples of other heat-insulating products made of such a base material include skis, skates, athletics, soccer, baseball, and other athletes during warm-up and exercise. Clothes worn in or after the competition.

In this case, if the clothes made of this base material are worn and warmed up during warming up, the sweat (gas phase, liquid phase) generated from the human body is absorbed and the clothes themselves generate heat. The temperature can be increased, and warming-up can be rapidly performed even in the winter when the temperature is low. In particular, in the case of warming up in winter when the temperature is low, the temperature inside the clothes can be raised at the early stage of warming up until the body warms to a certain extent, so that the clothes are effective in terms of preventing injury.

If clothes made of this base material are worn during exercise, the sweat generated from the human body is absorbed and the clothes themselves generate heat, which raises the temperature inside the clothes and keeps the warm body warmed up. Can be kept.

Further, when the clothes made of this base material are worn after the competition, the sweat generated from the human body is absorbed and the clothes themselves generate heat, the temperature inside the clothes rises, and the coldness of the body after the competition is prevented. be able to.

Further, examples of other heat-insulating products made of such a base material include wet suits used in marine sports such as diving.

In this case, when entering the water, the wetsuit made of this base material absorbs water and generates heat, so that the feeling of cold immediately after entering the water can be alleviated.

In the present means, clothing is described as an example of a heat-insulating product composed of a base material, but if it is something that a person wears and needs heat-retaining or hygroscopic properties, it is especially suitable for clothing. It is not limited, for example,
Ski grabs, winter shoes, sports shoes, hats, socks, inner boots for ski shoes, ski goggles interiors, baseball glove interiors, helmet interiors, tent interiors, sleeping bags, cushions, and other heat insulation items. You can

Further, in this means, although the case where the base material composed of the outer material, the inner material and the inner material is used, it is composed of the outer material and the inner material containing the moisture absorbing / releasing water absorbing heat generating fiber. A desired heat-retaining product can also be designed by using a base material or a base material made of a single material containing moisture absorbing / releasing water absorbing heat generating fiber. Tables 1 to 3 show various heat insulation designs made of acrylic acid-based moisture absorbing / releasing water-absorbing exothermic fiber (Development No. N-38 manufactured by Toyobo Co., Ltd.) as specific design examples of heat insulating products made of base materials. List the items.

[0035]

[Table 1]

[0036]

[Table 2]

[0037]

[Table 3]

[0038]

According to the present invention as set forth in claim 1, the moisture absorbing / releasing moisture absorbing heat generating fiber contained in the middle and / or the lining is sweat (gas phase, liquid phase) generated from the human body, dew condensation due to temperature change and It absorbs moisture from rain and snow, and heat is generated by this absorption to increase heat retention.

Further, according to the present invention of claim 2, the moisture absorbing / releasing water absorbing heat generating fiber contained in the lining is sweat (gas phase, liquid phase) generated from the human body, dew condensation and rain accompanying temperature change, and It absorbs moisture from snow and generates heat due to this absorption, increasing the heat retention.

Further, according to the invention of claim 3,
The heat-absorbing fiber that absorbs moisture and absorbs water, absorbs sweat (gas phase, liquid phase) generated by the human body, dew condensation due to temperature change, and moisture due to rain or snow, and also generates heat by this absorption. , Will increase the heat retention.

[0041]

Embodiments of the present invention will be described below with reference to the drawings.

[0042]

Example 1 (1) Preparation of Base Material As shown in FIG. 4, between the outer material 2 made of a moisture-permeable waterproof cloth and the lining material 3, a unit weight of 163 g / m ² of batting 4 was placed as an inner material. A base material 1 for ski wear was prepared. However, the batting 4 is a polyester fiber and an acrylic acid-based moisture absorbing / releasing water absorbing heat generating fiber (manufactured by Toyobo Co., Ltd., development number N-
38) and 50% by weight were used. (2) Moisture absorption and heat generation test Next, the moisture absorption and heat generation test was carried out by placing the base material 1 under conditions assuming a ski.

This test was conducted in an atmosphere of temperature -5 ° C for 10
A hot plate having a size of 10 cm × 10 cm was prepared, the base material 1 was placed on the hot plate, and the temperature of the hot plate was assumed to be the skin temperature of the human body.
It was set to be constant at 2 ° C. After standing for 10 minutes, liquid phase water corresponding to a perspiration condition of 25 g / m ² / hr was applied on a hot plate to evaporate, and changes in humidity and temperature with time were measured. As a comparative object, the same test was conducted on a conventional base material (Comparative Example 1) in which the batting material of the base material 1 was a batting material made of 100% polyester fiber of 163 g / m ² having the same basis weight as this batting material. . Further, as another comparison object, a polyester fiber and a wool fiber are used in a weight ratio of 5
The same basis weight as the batting of the above base material by mixing at a ratio of 0% 16
A similar test was performed on a base material (Comparative Example 2) made of batting having an amount of 3 g / m ² .

As a result, as shown in FIG. 5, the temperature of the substrate 1 according to the present invention was increased from 9 ° C. to 13 ° C.
The conventional base material (Comparative Example 1) hardly changed in temperature. Further, in the base material (Comparative Example 2) made of batting in which wool fibers and polyester fibers are mixed, the temperature is from 9 ° C to 1 ° C.
Raised to 1 ° C.

On the other hand, as for the humidity, as shown in FIG. 6, the humidity of the substrate 1 according to the present invention was 65%, whereas the humidity of the conventional substrate (Comparative Example 1) was 83%. The humidity of the base material (Comparative Example 2) made of batting in which wool fibers and polyester fibers were mixed was 75%.

[0046]

Example 2 (1) Preparation of Ski Wear As shown in FIG. 7, a half body of ski wear 5 using a conventional polyester batting having a basis weight of 130 g / m ² as an intermediate is absorbed by acrylic acid-based moisture absorption / release water absorption heat generation. Of synthetic fiber (developed number N-38 manufactured by Toyobo Co., Ltd.) and polyester fiber at a ratio of 50% by weight was changed to batting of 130 g / m ² , and this half body part relates to the present invention. Base material 51
Then, the ski wear 5 was prepared such that the remaining half of the body (Comparative Example 3) was the conventional base material 52. (2) Practical test This ski wear 5 was actually worn, and changes with time of skin temperature, clothing internal temperature, mid-ground temperature, and clothing internal humidity were measured.
The results are shown in FIGS. 8 to 11.

As a result, the half-body side made of the base material 51 according to the present invention has a skin temperature of about 0.5 ° C. and the temperature in the clothes (comparative example 3) compared to the half-body side made of the conventional base material 52. About 2-3 degrees Celsius at the temperature between the ski wear and the undershirt),
It was possible to confirm a difference of 2 to 3 ° C. in the middle temperature and a humidity of 15 to 20% in the clothes.

[0048]

Example 3 (1) Preparation of Base Material As shown in FIG. 12, a dress material 21 made of a nylon yarn / polyurethane yarn interwoven or interwoven fabric and a center fabric 41 made of chloroprene rubber were stuck together. Inside the ground 41, an acrylic acid-based moisture absorbing / releasing moisture absorbing / heat generating fiber (Development No. N-38 manufactured by Toyobo Co., Ltd.) and polyester fiber were mixed-spun at a weight ratio of 50% to obtain a fabric weight of 130 g.
A substrate 10 for a wetsuit was prepared with a lining 31 of / m ² interposed. (2) Water absorption heat generation test Next, the base material 10 is wrapped around a cylindrical body to form a test body,
A test was conducted in which it was placed in water having a water temperature of 23.5 ° C. from a room temperature of 24.5 ° C. Further, as a comparative object, the same test was performed on a conventional wetsuit substrate (Comparative Example 4) in which the lining 31 of the substrate 10 was a woven fabric of polyester fiber having a basis weight of 130 g / m ² .

As a result, as shown in FIG. 13, after being placed in water for 1 minute, the inside temperature of the base material 10 according to the present invention was about 2.
While the temperature increased by 5 ° C, the inside temperature of the conventional one (Comparative Example 4) immediately approached the same temperature as the water temperature. It was also confirmed that the base material 10 according to the present invention continued to generate heat for about 5 minutes.

[0050]

As described above, according to the present invention, the base material absorbs sweat (gas phase, liquid phase) generated from the human body and moisture and water such as dew and wet due to environmental changes. Since it generates heat and increases heat retention, various heat insulation products such as ski wear, wet suits, shoes and gloves equipped with this base material not only relieve stuffiness but also provide heat retention effect by heat generation. It will be comfortable.

[Brief description of drawings]

FIG. 1 is a graph showing the water absorption and heat generation performance of moisture absorbing and desorbing water absorbing and heat generating fibers and other fiber materials.

FIG. 2 is a graph showing the moisture absorption performance of moisture absorbing / releasing water absorbing heat generating fibers and other fiber materials.

FIG. 3 is a graph showing the moisture absorption and desorption of water-absorbing and exothermic fibers.

FIG. 4 is a partial cross-sectional view showing the outline of the overall configuration of the ski wear base material according to the first embodiment.

FIG. 5 is a graph illustrating a temperature change due to heat generation in a moisture absorption heat generation test in Example 1.

FIG. 6 is a graph illustrating changes in relative humidity due to moisture absorption in a moisture absorption heat generation test in Example 1.

FIG. 7 is a schematic diagram illustrating the configuration of ski wear according to the second embodiment.

8 is a graph showing changes in skin temperature with time in Example 2. FIG.

FIG. 9 is a graph showing changes in temperature in clothes with time in Example 2.

FIG. 10 is a graph showing changes in the ground temperature with the passage of time in Example 2.

FIG. 11 is a graph showing a change in humidity inside clothes with the passage of time in Example 2.

FIG. 12 is a partial cross-sectional view illustrating the outline of the overall configuration of a wetsuit base material according to a third embodiment.

FIG. 13 is a graph illustrating a temperature change due to heat generation in a water absorption heat generation test in Example 3.

[Explanation of symbols] 1 base material 10 base material 51 base material 2 outer material 21 outer material 3 lining material 31 lining material 4 batting 41 middle material 5 ski wear

 ─────────────────────────────────────────────────── ─── Continued Front Page (72) Inventor Masaki Fujita 1-12-35, Minami Kohoku, Suminoe-ku, Osaka City, Osaka Prefecture Mitsuno Co., Ltd. No. 35 Mitsuno Co., Ltd. (72) Inventor Shigeru Aoyama 8 1-3 Minamihanadai, Kawachinagano City, Osaka Prefecture

Claims (3)

[Claims] 1. A heat-insulating product comprising a base material comprising a surface material and a lining material having desired properties such as moisture permeability and windproof property, and a middle material having a desired property inserted between the surface material and the lining material. However, moisture absorbing / releasing water exothermic fibers excluding animal fibers are contained in the middle and / or lining, and the vapor and liquid phases of vapor and liquid generated from the human body and vapor and liquid invading from the outside of clothes are A heat retaining product that absorbs moisture, absorbs moisture and absorbs heat, and retains heat by absorbing water. 2. A heat-retaining article comprising a base material having a surface material and a lining material having moisture-permeable and windproof properties and other desired properties, wherein the lining material contains moisture-absorbing / water-absorbing exothermic fiber excluding animal fiber. It absorbs and absorbs moisture in the vapor and liquid phases generated by the human body and moisture in the vapor and liquid phases that intrudes from the outside of clothes to keep it in heat. Goods. 3. A heat insulating article comprising a base material made of a material having air permeability, hygroscopicity and other desired properties, wherein the base material contains moisture absorbing / releasing water absorbing heat generating fiber excluding animal fiber, A heat-insulating heat-insulating product that absorbs and releases heat by absorbing heat of vapor and liquid that are generated from water and moisture in the gas and liquid that enters from the outside of clothes.