JP2016211103A - Cool feeling nonwoven fabric and method for producing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cool feeling nonwoven fabric that can make a person feel coolness when the person touches the surface of the nonwoven fabric by using not a fabric produced by use of a specific fiber but a general-purpose nonwoven fabric and to provide a method for producing a cool feeling nonwoven fabric.SOLUTION: As the first invention, the nonwoven fabric is composed of a synthetic fiber and has a microcapsule encapsulating a phase transfer material fixed to at least part of the surface of the nonwoven fabric subjected to contact heating treatment by a heating roll. As the second invention, the nonwoven fabric is composed of a synthetic fiber and the surface of the nonwoven fabric which has a microcapsule encapsulating a phase transfer material fixed to at least part thereof is subjected to contact heating treatment by a heating roll.SELECTED DRAWING: None

Description

  The present invention relates to a non-woven fabric having a refreshing feeling, and to a non-woven fabric that feels cool when a person touches the surface of the non-woven fabric.

  Conventionally, attempts have been made to give a refreshing feeling to textile products that people come into contact with, and there is a need to spend comfortably in the summer. Examples of these textile products include products related to clothing such as clothing, shoes, and carpets.

  For example, when a fabric comprising a synthetic fiber containing specific white fine particles (such as stannic oxide doped with antimony oxide) and a water-absorbing diffusion fiber has a specific water absorption rate and a specific internal temperature, There has been proposed a fabric that develops cool feeling by promoting vaporization of moisture (Patent Document 1).

  Also, a fabric containing organic polymer fibers having a specific thermal conductivity, and by maintaining the thermal conductivity in the thickness direction of the fabric and the feeling of contact cooling / heating within a specific range, the fabric can maintain a refreshing feeling for a long time. Has been proposed (Patent Document 2).

JP 2008-285780 A JP 2010-236130 A

  However, since the fabrics of Patent Documents 1 and 2 need to use specific fibers in advance, they do not impart cool feeling to fibers or fiber fabrics using general-purpose fibers in post-processing.

  The present invention has been made in view of such technical background, and is a cool cool when a person touches the surface of the nonwoven fabric using a general-purpose nonwoven fabric instead of a fabric using specific fibers. It aims at providing the manufacturing method of the cool sensitive nonwoven fabric and the cool sensitive nonwoven fabric which can be felt.

  In order to achieve the above object, the present invention provides the following means.

[1] A nonwoven fabric made of synthetic fibers,
At least a part of the surface of the nonwoven fabric that has been subjected to contact heat treatment by a heating roll,
A cool-sensitive nonwoven fabric characterized in that a microcapsule encapsulating a phase change material is fixed.

[2] A nonwoven fabric made of synthetic fibers,
The surface of the non-woven fabric, to which at least a part of the microcapsules enclosing the phase change material is fixed,
A cool-sensitive nonwoven fabric, which is subjected to contact heat treatment by a heating roll.

  [3] The cool-sensitive nonwoven fabric according to item 1 or 2, wherein the synthetic fiber has a fineness of 2 to 15 dtex.

  [4] The cool nonwoven fabric according to any one of items 1 to 3, wherein the melting point of the phase change material is 25 ° C to 31 ° C.

[5] The cool-sensitive nonwoven fabric according to any one of items 1 to 4, wherein the phase change material is fixed to 10 to 60 g / m ² (solid content) by a binder resin.

[6] A contact heating step in which at least one surface of the nonwoven fabric made of synthetic fibers is contact heated with a heating roll;
An application step of applying a treatment liquid containing microcapsules enclosing a phase change material and a binder resin on the contact-heated surface of the nonwoven fabric after the contact heating step;
A drying step of drying the nonwoven fabric after the coating step;
A method for producing a cool-sensitive non-woven fabric, which is performed in order.

[7] An application step of applying a treatment liquid containing microcapsules in which a phase change material is encapsulated in a nonwoven fabric made of synthetic fibers and a binder resin;
A drying step of drying the nonwoven fabric after the coating step;
A contact heating step in which the surface coated with the treatment liquid of the nonwoven fabric after the drying step is heated by contact with a heating roll;
A method for producing a cool-sensitive non-woven fabric, which is performed in order.

  [8] The method for producing a cool-sensitive nonwoven fabric according to item 6 or 7, wherein the temperature of the heating roll is 20 to 60 ° C. higher than the melting point of the synthetic fiber.

  In the invention of [1], a microcapsule enclosing a phase change material is fixed to at least a part of the surface of the nonwoven fabric that has been heated by bringing a heating roll into contact with the surface of the nonwoven fabric made of synthetic fiber, The synergistic effect of the smoother nonwoven fabric surface and the microcapsules encapsulating the phase change material makes it possible to feel coolness when a person touches the nonwoven fabric surface.

  In the invention of [2], the microcapsule enclosing the phase change material is fixed to at least a part of the surface of the nonwoven fabric made of synthetic fibers, and a heat treatment is performed by bringing a heating roll into contact with the surface of the nonwoven fabric. The surface of the non-woven fabric to which the microcapsules encapsulating the phase change material are fixed is smoother, and coupled with the effect of the microcapsules encapsulating the phase change material, it provides cool cooling when people touch the surface of the non-woven fabric. I can feel it.

  In the invention of [3], since the fineness of the synthetic fiber is 2 to 15 dtex, it is possible to widen the contact surface with the synthetic fiber when a person touches the surface of the non-woven fabric, and to further enhance coolness. I can feel it.

  In the invention of [4], since the phase transition material having a melting point of 25 ° C. to 31 ° C. is sealed in the microcapsule and fixed to the nonwoven fabric, the phase transition material melts when a person touches the surface of the nonwoven fabric. At that time, the heat of fusion occurs from the human body, and the nonwoven fabric can be felt cold.

In the invention of [5], since the phase change material is fixed to 10 to 60 g / m ² (solid content) by the binder resin, the nonwoven fabric can exhibit a sufficient cool feeling performance.

  In the invention of [6], since at least one surface of the nonwoven fabric made of synthetic fibers is heated by contacting with a heating roll, the surface of the nonwoven fabric can be made smoother. Thereafter, the microcapsules encapsulating the phase change material and the treatment liquid containing the binder resin are applied to the surface of the nonwoven fabric and then dried, so that the microcapsules encapsulating the phase change material can be reliably fixed. In this way, it is possible to produce a cool-sensitive nonwoven fabric that can feel cool when a person touches the surface of the nonwoven fabric.

  In the invention of [7], the microcapsules encapsulating the phase change material and the microcapsules enclosing the phase change material are dried after the treatment liquid containing the microcapsules encapsulating the phase change material and the binder resin is applied to the nonwoven fabric made of synthetic fiber. be able to. Thereafter, the surface of the nonwoven fabric to which the microcapsules encapsulating the phase change material are fixed is brought into contact with the heating roll and heated, so that the surface of the microcapsules and the nonwoven fabric can be made smoother. In this way, it is possible to produce a cool-sensitive nonwoven fabric that can feel cool when a person touches the surface of the nonwoven fabric.

  In the invention of [8], since heating is performed at a temperature 20 to 60 ° C. higher than the melting point of the synthetic fiber, the fibers constituting the nonwoven fabric are softened by the contact of the heating roll, so that the fibers are raised from the side surface of the fiber or the surface of the nonwoven fabric. Since the fibers that are sticking out are leveled, it can be made sufficiently smooth. In this way, it is possible to produce a cool-sensitive nonwoven fabric that can feel cooler when a person touches the surface of the nonwoven fabric.

  The cool-sensitive nonwoven fabric according to the first invention is a nonwoven fabric made of synthetic fiber, and a microcapsule enclosing a phase change material is fixed to at least a part of the surface of the nonwoven fabric subjected to contact heating treatment with a heating roll. It is characterized by.

  The cool-sensitive nonwoven fabric according to the second invention is a nonwoven fabric made of synthetic fibers, and the surface of the nonwoven fabric, to which at least a part of the microcapsules enclosing the phase change material is fixed, is subjected to contact heating treatment with a heating roll. It is characterized by being.

The cool-sensitive nonwoven fabric according to any of the first and second inventions is not a fabric using specific fibers but a general-purpose nonwoven fabric, and feels cool when a person touches the surface of the nonwoven fabric. It is a cool-sensitive nonwoven fabric that can be used. In the cool-sensitive nonwoven fabric, it is preferable that QMAX (contact cool / warm feeling) at a surface temperature of the nonwoven fabric of 25 ° C. is larger than 0.100 / cm ² · sec.

  QMAX (contact cold feeling) stores heat in a pure copper plate (heat capacity 0.41855j / ° C) with a constant area and constant mass, and immediately after it touches the sample surface, the stored heat amount moves to the low-temperature sample object This is a value obtained by measuring the peak value of the amount of heat, and the larger the QMAX (contact cool / warm feeling), the colder the touch is felt.

  Although it does not specifically limit as a synthetic fiber used by this invention, For example, an acrylic fiber, a polyamide fiber, a polyester fiber, and a polypropylene fiber can be mentioned. Moreover, you may combine these. The single fiber fineness of the synthetic fiber is preferably 2 to 15 dtex. If the single fineness is less than 2 dtex, although it depends on the use form and the part of the nonwoven fabric, the strength may be insufficient. If it exceeds 15 dtex, the contact heat treatment may be uneven, which is preferable. Moreover, you may mix the synthetic fiber from which melting | fusing point differs. In this case, it is preferable because it combines both smoothing and texture of the nonwoven fabric.

Although it does not specifically limit as a nonwoven fabric used by this invention, For example, a needle punch nonwoven fabric, a spun bond nonwoven fabric, and a chemical bond nonwoven fabric can be mentioned. Of these, needle punched nonwoven fabrics are preferred. Also, the basis weight of the nonwoven ^{fabric, 50g / m 2 ~500g / m} 2 is preferred. If the basis weight is less than 50 g / m ² , the strength may be insufficient.

  In the cool-sensitive nonwoven fabric according to the first invention, the nonwoven fabric subjected to the contact heat treatment is a smoother nonwoven fabric because the contact heat treatment is performed on the nonwoven fabric.

  In the cool-sensitive non-woven fabric according to the second invention, both the non-woven fabric and the microcapsules enclosing the phase change material are subjected to contact heat treatment, so that the microcapsules are smoother.

  The phase change material used in the present invention is a material that is repeatedly converted between a solid phase and a liquid phase, and uses the heat generated when melting and solidifying to accumulate or release the heat, thereby causing a phase transition. It controls the temperature around the material. As the phase change material, hydrocarbon compounds such as paraffin and wax are preferably used, but are not particularly limited. Microcapsules encapsulating the phase change material are commercially available, and examples include prethermo manufactured by Daiwa Chemical Industry Co., Ltd., heat storage cold storage microcapsules manufactured by Miki Riken Kogyo Co., Ltd., and the composition of the microcapsules is also particularly limited. It is not necessary to use a commercially available product.

  The microcapsules encapsulating the phase change material preferably have a heat absorption peak temperature (also referred to as melting point) or a heat dissipation peak temperature (also referred to as freezing point) in the range of 20 to 35 ° C. Although the human body temperature is 36-37 ° C, the surface temperature of the hands and feet is said to be lower than this, 32-34 ° C, so the phase that becomes the peak temperature (melting point) of heat absorption at 20-35 ° C. Transition materials are preferred.

  When the peak temperature of heat absorption is too low, the phase transition material has already melted before the human body comes into contact, and even if the human body comes into contact, a cool feeling effect cannot be obtained. In addition, when the peak temperature of heat absorption is too high, even if a human body comes into contact, the phase change material does not melt, so that a cool feeling effect cannot be obtained.

  The particle size of the microcapsules enclosing the phase change material is preferably 1 to 50 μm. If it exceeds 50 μm, a feeling of roughness and hardness will be manifested, and the non-woven fabric will not be preferred. A more preferable particle size is 5 to 25 μm.

The microcapsules enclosing the phase change material are preferably fixed to at least a part of the surface of the nonwoven fabric made of synthetic fibers with a binder resin of 10 to 60 g / m ² (solid content). When it is less than 10 g / m ² (solid content), a cool feeling effect cannot be felt. Moreover, even if it sticks exceeding 60 g / m < ² > (solid content), the feel of a nonwoven fabric will become hard and an effect will not accompany only a cost rise, and it is not preferable. More preferably, a fixed amount of 15 to 40 g / m ² is good.

  As the binder resin, it is only necessary that the microcapsules encapsulating the phase change material can be firmly fixed on the surface of the nonwoven fabric made of synthetic fiber, but in general, for example, urethane resin, self-crosslinking acrylic resin, Acrylic resin, silicone resin, glyoxal resin, polyester resin, vinyl acetate resin, vinylidene chloride resin, butadiene resin, melamine resin, epoxy resin, acrylic-silicone copolymer resin, styrene-butadiene copolymer resin (SBR), ethylene- Examples thereof include vinyl acetate copolymer resin (EVA), isobutylene maleic anhydride copolymer resin, and ethylene-styrene-acrylate-methacrylate copolymer resin.

  Next, the manufacturing method of the cool sensitive nonwoven fabric which concerns on this invention is demonstrated.

  The method for producing a cool-sensitive nonwoven fabric according to the first invention includes a contact heating step in which at least one surface of a nonwoven fabric made of synthetic fibers is contact-heated with a heating roll, and a contact-heated surface of the nonwoven fabric after the contact heating step. A coating step of applying a treatment liquid containing a microcapsule enclosing a phase change material and a binder resin, and a drying step of drying the nonwoven fabric after the coating step are sequentially performed.

  According to a second aspect of the present invention, there is provided a method for producing a cool-sensitive nonwoven fabric, a coating step of applying a treatment liquid containing a microcapsule encapsulating a phase change material and a binder resin to a nonwoven fabric made of synthetic fibers, and drying the nonwoven fabric after the coating step. And a contact heating step of sequentially heating the surface coated with the non-woven fabric treatment liquid after the drying step with a heating roll.

  First, the manufacturing method of any of the first and second inventions includes a contact heating step, a coating step, and a drying step, and the difference between them is in the order of the steps. That is, the manufacturing method of the first invention is a method of manufacturing in the order of the contact heating step, the coating step, and finally the drying step. On the other hand, the manufacturing method of the second invention is a method of manufacturing in the order of the coating step, the drying step, and finally the contact heating step.

(Contact heating process)
In the contact heating step, the heating roll is brought into contact with the heat treatment. Although it will not specifically limit if it is a roll which can be heated to about 180 degreeC-about 250 degreeC as said heating roll, For example, a steel roll, a jacket roll, etc. can be mentioned. What is necessary is just to make contact with these heating rolls, wrapping, etc., In this case, it is not necessary to press between especially rolls, but you may pinch and press according to the use of a nonwoven fabric.

  Depending on the size of the heating roll, it is preferably set within the range of 1/20 to 19/20 of the circumference when applied to the heating roll, or the surface of the nonwoven fabric subjected to contact heating treatment is What is necessary is just to be smoother.

  The temperature of the heating roll is preferably 20 to 60 ° C. higher than the melting point of the synthetic fiber constituting the nonwoven fabric. Moreover, in the nonwoven fabric which consists of a several kind of synthetic fiber, it is preferable to set on the basis of the lowest melting | fusing point.

(Coating process)
In the coating step, a solution in which microcapsules in which a penetrant and a phase change material are encapsulated in a binder resin solution is uniformly dispersed is applied to the surface of the nonwoven fabric by a spray method or a roll coating method. Alternatively, the dispersion solution may be applied after foaming.

  Further, it can be used as a microcapsule enclosing the phase change material, a binder resin, and an aqueous dispersion dispersed in water. The binder resin is more preferably formed into an emulsion state with water. As the dispersion medium, alcohol or the like can be used in addition to water, but water is preferred. In order to disperse in water, it is preferable to disperse the microcapsules enclosing the phase change material in water and then disperse the binder resin from the viewpoint of more evenly dispersing the microcapsules and the binder resin. Moreover, you may mix | blend various additives, such as a penetrating agent, a dispersing agent, and a thickener, with this aqueous dispersion. In order to foam the dispersion solution, a foaming agent is added and foamed using a foaming machine. The expansion ratio is preferably 1.5 to 6 times.

  Further, the hygroscopic agent may be fixed in combination with the microcapsules enclosing the phase change material. The hygroscopic agent is not particularly limited, and examples thereof include silica gel, chitosan, zeolite, sericin, organic amide, diatomaceous earth, urea, ethylene urea and thiourea. Free formalin released from microcapsules made of melamine resin encapsulating phase change material can be reduced, and the heat of the human body is transmitted to the moisture absorbed by the hygroscopic action, so that the person touched the surface of the nonwoven fabric. When you can feel cold. In order to fix the moisture absorbent, it may be added to the aqueous dispersion of the above microcapsules and binder resin. The amount of the hygroscopic agent is preferably 20% by mass to 50% by mass of the mass of the microcapsule enclosing the phase change material.

(Drying process)
What is necessary is just to dry-process by a well-known method in a drying process. Desirably, the drying means is a method of continuously drying and winding by heat treatment. Although the heat processing temperature at this time is based also on the kind of synthetic fiber which comprises a nonwoven fabric, it is preferable to set it as 100-180 degreeC. By heat treatment at this temperature, the adhesion to the nonwoven fabric is further increased, and the durability is further improved.

  Next, specific examples of the present invention will be described, but the present invention is not particularly limited to these examples. The types of microcapsules encapsulating the nonwoven fabric and phase change material used are as follows.

<Materials used>
Synthetic fiber: Polyester fiber (3 dtex (melting point 220 ° C.) 50% by mass, 4 dtex (melting point 170 ° C.) 20% by mass, 6 dtex (melting point 220 ° C.) 30% by mass)
Nonwoven fabric: Needle punched nonwoven fabric composed of the synthetic fibers (weight per unit area 150 g / m ² )
Microcapsules filled with phase change material ... (Prethermo (manufactured by Daiwa Chemical Industry Co., Ltd.), solid content 40%, melting point 25 ° C and melting point 31 ° C)
Binder resin ... Polyurethane resin emulsion "U-30NP" (manufactured by Daiwa Chemical Industry Co., Ltd.)
Hygroscopic agent ... Organic amide type hygroscopic agent "FC460" (Miki Riken Kogyo Co., Ltd.)

<Example 1>
The surface of the nonwoven fabric was subjected to contact heating for 20 seconds by wrapping around the outer periphery of a heating roll (diameter: 500 mm) set at a temperature of 210 ° C. for 20 seconds. Next, 40 parts by weight of a microcapsule dispersion in which a phase change material is sealed in 100 parts by weight of water is dispersed, and then an aqueous solution in which 8 parts by weight of binder resin and 18 parts by weight of a hygroscopic agent are dispersed is sprayed into a nonwoven fabric. 250 g / m ^{2 is} applied to the surface, and then subjected to a drying treatment at 120 ° C. for 10 minutes. A microcapsule in which a phase change material is encapsulated on a nonwoven fabric is 30 g / m ² , a hygroscopic agent is 10 g / m ² , and a binder resin is A cool-sensitive nonwoven fabric having 5 g / m ² adhered thereto was obtained. In the cool feeling performance measurement test, QMAX was 0.108 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, 10 people felt cold and the texture was “◎” and passed.

<Example 2>
In Example 1, a microcapsule in which a phase change material was encapsulated on a nonwoven fabric was prepared in the same manner as in Example 1 except that 50% by mass of 3 dtex nylon fiber was used instead of the 3 dtex polyester fiber constituting the nonwoven fabric. A cool-sensitive nonwoven fabric having m ² , a hygroscopic agent of 10 g / m ² , and a binder resin of 5 g / m ² was obtained. In the cool feeling performance measurement test, QMAX was 0.120 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, 10 people felt cold and the texture was “◎” and passed.

<Example 3>
In Example 1, the microcapsules in which the phase change material is encapsulated on the nonwoven fabric are the same as in Example 1 except that the polyester fibers constituting the nonwoven fabric are all 10 dtex fibers and the set temperature of the heating roll is 240 ° C. A cool-sensitive nonwoven fabric with 30 g / m ² , a hygroscopic agent of 10 g / m ² , and a binder resin of 5 g / m ² was obtained. In the cool feeling performance measurement test, QMAX was 0.102 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, eight people felt cold and the texture was “◎” and passed.

<Example 4>
In Example 1, after 80 parts by weight of a microcapsule dispersion in which a phase change material is sealed in 100 parts by weight of water, an aqueous solution in which 21 parts by weight of a binder resin and 34 parts by weight of a hygroscopic agent are dispersed is sprayed. Te except that 250 g / ^{m 2} coated on the surface of the nonwoven fabric in the same manner as in example 1, microcapsules 75 g / ^{m 2} enclosing a phase transition material onto the nonwoven fabric, moisture absorbent 20 g / ^{m 2,} and a binder resin is 15g A cool-sensitive non-woven fabric with a fixed / m ² was obtained. In the cool feeling performance measurement test, QMAX was 0.158 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, 10 people felt cold and the texture was “◯” and passed.

<Example 5>
In Example 3, except that the fibers constituting the nonwoven fabric were all 1 dtex acrylic fibers, in the same manner as in Example 3, 30 g / m ^{2 of} microcapsules enclosing a phase change material on the nonwoven fabric and 10 g / moisture absorbent were used. A cool-sensitive nonwoven fabric with m ² and a binder resin fixed to 5 g / m ² was obtained. In the cool feeling performance measurement test, QMAX was 0.125 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, 10 people felt cold and the texture was “「 ”and passed.

<Example 6>
In Example 1, the contact heating process on the surface of the nonwoven fabric was performed in the same manner as in Example 1 except that the microcapsules enclosing the phase change material were fixed to the nonwoven fabric and dried, and then the microcapsules in which the phase change material was encapsulated on the nonwoven fabric. A cool-sensitive nonwoven fabric having a capsule of 30 g / m ² , a hygroscopic agent of 10 g / m ² , and a binder resin of 5 g / m ² was obtained. In the cool feeling performance measurement test, QMAX was 0.122 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, 10 people felt cold and the texture was “◎” and passed.

<Example 7>
In Example 1, after 30 parts by weight of a microcapsule dispersion in which a phase change material is sealed in 100 parts by weight of water, an aqueous solution in which 6 parts by weight of a binder resin and 13 parts by weight of a hygroscopic agent are dispersed is sprayed. except that 200 g / ^{m 2} coated on the surface of the nonwoven fabric in the same manner as in example 1, microcapsules 17 g / ^{m 2} enclosing a phase transition material onto the nonwoven fabric, moisture absorbent 7 g / ^{m 2,} and a binder resin is 3g Te A cool-sensitive non-woven fabric with a fixed / m ² was obtained. In the cool feeling performance measurement test, QMAX was 0.105 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, eight people felt cold and the texture was “◎” and passed.

<Comparative Example 1>
Comparative Example 1 was a non-woven fabric used in Example 1 in which the microcapsules encapsulating the phase change material were not fixed and contact heat treatment was not performed. In the cool feeling performance measurement test, QMAX was 0.049 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, no one felt cold. The texture was “◎” and passed.

<Comparative example 2>
In Example 1, except that the contact heat treatment was not performed, in the same manner as in Example 1, the microcapsule in which the phase change material was sealed on the nonwoven fabric was 30 g / m ² , the hygroscopic agent was 10 g / m ² , and the binder resin Of 5 g / m ² was obtained. In the cool feeling performance measurement test, QMAX was 0.060 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, two people felt cold and the texture was “◯” and passed.

<Comparative Example 3>
In Example 1, a non-woven fabric was obtained in the same manner as in Example 1 except that the microcapsules enclosing the phase change material were not fixed. In the cool feeling performance measurement test, QMAX was 0.053 j / cm ² · sec. In the sensory evaluation with Comparative Example 1, no one felt cold. The texture was “◎” and passed.

<Cool feeling performance measurement test>
QMAX (contact cool / warm feeling): Measured at an initial temperature of 36 ° C. of a pure copper plate, a temperature of 25 ° C. of a non-woven fabric, and a contact pressure of 0.98 kPa using THERO LABO II TYPE manufactured by Kato Tech Co., Ltd. Those larger than 0.100 j / cm ² · sec were regarded as acceptable.
Sensory evaluation: Evaluate whether or not it feels cold based on a non-woven fabric that does not have a microcapsule encapsulating a phase change material as a standard, and if the number of subjects is 10 and 80% or more are cold What I felt was accepted. (Evaluated in a standard room with temperature 25 ° C and humidity 50%)

<Texture evaluation test>
It evaluated by the touch at the time of touching the surface of a nonwoven fabric with the hand. In other words, “◎” indicates that the texture is smooth without touching the texture, and “◎” indicates that the texture is slightly felt, but “○” indicates that the texture is relatively good, and the texture is soft. Those with poor touch and inferior texture were rated as “x”, and “○” or higher were regarded as acceptable.

  The cool-sensitive non-woven fabric of the present invention is a non-woven fabric exhibiting excellent cool-feeling that can feel cool when a person touches the surface of the non-woven fabric.

  On the other hand, the nonwoven fabrics of Comparative Examples 1 to 3 were much less cool and felt almost cool.

  Since the cool-sensitive nonwoven fabric of the present invention can feel cool when touched, it is used, for example, as a nonwoven fabric for commodities such as bedding, clothing fabric, shoe fabric, and insole. .

Claims (8)

A non-woven fabric made of synthetic fibers,
At least a part of the surface of the nonwoven fabric that has been subjected to contact heat treatment by a heating roll,
A cool-sensitive nonwoven fabric characterized in that a microcapsule encapsulating a phase change material is fixed. A non-woven fabric made of synthetic fibers,
The surface of the non-woven fabric, to which at least a part of the microcapsules enclosing the phase change material is fixed,
A cool-sensitive nonwoven fabric, which is subjected to contact heat treatment by a heating roll.   The cool-sensitive nonwoven fabric according to claim 1 or 2, wherein the synthetic fiber has a fineness of 2 to 15 dtex.   4. The cool-sensitive nonwoven fabric according to claim 1, wherein the phase change material has a melting point of 25 ° C. to 31 ° C. 5. The cool-sensitive nonwoven fabric according to any one of claims 1 to 4, wherein the phase change material is fixed to 10 to 60 g / m ² (solid content) by a binder resin. A contact heating step in which at least one surface of the nonwoven fabric made of synthetic fibers is heated by contact with a heating roll;
An application step of applying a treatment liquid containing microcapsules enclosing a phase change material and a binder resin on the contact-heated surface of the nonwoven fabric after the contact heating step;
A drying step of drying the nonwoven fabric after the coating step;
A method for producing a cool-sensitive non-woven fabric, which is performed in order. A coating step of applying a treatment liquid containing a microcapsule in which a phase change material is encapsulated in a nonwoven fabric made of synthetic fiber and a binder resin;
A drying step of drying the nonwoven fabric after the coating step;
A contact heating step in which the surface coated with the treatment liquid of the nonwoven fabric after the drying step is heated by contact with a heating roll;
A method for producing a cool-sensitive non-woven fabric, which is performed in order.   The method for producing a cool-sensitive nonwoven fabric according to claim 6 or 7, wherein the temperature of the heating roll is 20 to 60 ° C higher than the melting point of the synthetic fiber.