JP2020128606A - Cool-feeling woven fabric and fabric product - Google Patents

Abstract

To provide a cool-feeling woven fabric and fabric products that can provide cool feeling.SOLUTION: A cool-feeling woven fabric 10 comprises warp 11 and weft 12. At least either the warp 11 and the weft 12 is made of functional yarn containing an infrared reflector and a thermal conductive enhancing material. Vertical section of the functional yarn has a non precise circle shape having a long axis and a short axis, and preferably has an elliptical shape or a corner round rectangular shape. An exposure ratio of the weft on one surface is preferably greater than an exposure ratio of the warp in the cool-feeling woven fabric.SELECTED DRAWING: Figure 3

Description

The present invention relates to cool feeling woven fabrics and textile products.

In clothes and the like that are worn during high temperatures such as summer, the use of fabrics that exhibit an effect of feeling cool when worn (hereinafter, also referred to as a cool feeling effect) is progressing (for example, Patent Documents 1 to 5). ..

Patent Document 1 discloses a woven fabric using a functional yarn including a hollow synthetic resin filament. Further, Patent Document 2 discloses a non-woven fabric having a surface on which microcapsules enclosing a phase change material are fixed. Further, Patent Document 3 discloses a fabric formed of water-absorbent fibers to which a contact cooling sensation agent has been added. In addition, Patent Document 4 discloses a fabric using fibers containing a thermoplastic elastomer. Further, Patent Document 5 discloses a fabric composed of a spun yarn made of hydrophilic fibers, a filament yarn having antibacterial properties, and a composite twisted yarn using at least two or more filament yarns having high thermal conductivity. ing.

JP, 2018-76616, A JP, 2016-212103, A JP, 2014-169519, A JP, 2004-270075, A JP, 2003-293244, A

Although the fabrics that have been provided so far can feel cool when worn, there is an increasing need for fabrics that feel cooler.

The present invention has been made in view of the above matters, and an object of the present invention is to provide a cool feeling woven fabric and a fabric product that can make you feel cooler.

The cool feeling woven fabric according to the first aspect of the present invention is
A cool feeling woven fabric composed of warp and weft,
At least one of the warp and the weft is composed of a functional yarn including an infrared reflecting material and a thermal conductivity improving material,
The vertical cross-sectional shape of the functional yarn is a non-round shape having a long axis and a short axis,
It is characterized by

Further, it is preferable that the vertical cross-sectional shape of the functional yarn is elliptical or rounded rectangular.

Further, it is preferable that the exposure ratio of the weft yarn is higher than the exposure ratio of the warp yarn on one surface.

Moreover, it is preferable that it is woven with a twill or satin weave.

It may also be denim cloth.

The cloth product according to the second aspect of the present invention is
The cool feeling woven fabric according to the first aspect of the present invention,
It is characterized by

According to the present invention, it is possible to provide a cool feeling woven fabric and a fabric product that can make you feel cooler.

It is a top view of a dress material which shows the composition of a cool feeling woven cloth. It is a rear view of the lining which shows the structure of a cool feeling woven cloth. FIG. 3 is a sectional view taken along the line A-A′ in FIG. 2. It is sectional drawing of a weft. It is sectional drawing of the weft of other forms. It is a top view of a dress material which shows the composition of other cool feeling textiles. It is a rear view of the lining which shows the structure of another cool feeling woven fabric. It is a figure of the apparatus used in the verification experiment of the heat shield temperature in an example. It is a graph which shows the result of the verification experiment of the diffusible water residual ratio in an Example.

As shown in FIGS. 1 to 3, the cool feeling woven fabric 10 according to the present embodiment includes warps 11 and wefts 12. One of the warp yarn 11 and the weft yarn 12 is composed of a functional yarn including an infrared reflecting material and a thermal conductivity improving material. The vertical cross-sectional shape of the functional yarn is a non-round shape having a long axis and a short axis. Here, an example in which the weft 12 is made of a functional yarn and the warp 11 is made of a plain yarn will be described.

The cool feeling woven fabric 10 has a contact cooling feeling effect due to the heat conductivity improving material contained in the weft yarn 12 on one surface (a surface that comes into contact with the skin), and the vertical cross-sectional shape of the weft yarn 12 is a non-round shape. The effect of improving the area in which the weft thread 12 comes into contact with the skin gives the wearer a cool sensation. Further, the infrared reflecting material contained in the weft 12 also has a heat shielding effect.

The functional yarn contains an infrared reflecting material and a heat conduction improving material. The functional yarn is composed of at least one synthetic resin material selected from the group consisting of nylon, polyester, and polyurethane, an infrared reflecting material, and a thermal conductivity improving material.

Nylon and polyester have almost no water absorption or moisture absorption, so that the cool feeling woven fabric 10 has quick drying property. Since the cool feeling woven fabric 10 has a high quick-drying property, it does not easily get stuffy and further improves the cool feeling.

The thermal conductivity improving material functions to generate a cool sensation when the skin touches the cool feeling woven fabric 10. The thermal conductivity improver contains, for example, at least one or more powders selected from the group consisting of jadeite, agedrineite, cosmochlorite, diamond, silicon nitride, aluminum nitride, silicon carbide, beryllium oxide, and aluminum oxide. What is done can be used conveniently.

The infrared reflecting material has a function of suppressing a temperature rise from one cotton of the cool feeling woven fabric 10 to the other surface. As the infrared reflecting material, for example, a material containing white pigment powder can be used. Examples of the white pigment include at least one powder selected from the group consisting of metal oxides, minerals, and inorganic substances. Examples of the metal oxide include titanium oxide and zinc oxide. Examples of minerals include white mica. Examples of the inorganic substances include calcium carbonate and barium sulfate.

Both the thermal conductivity improving material and the infrared reflecting material are fine particles. The smaller the particle diameters of the thermal conductivity improving material and the infrared reflecting material, the easier it is to be contained in the functional yarn, which is preferable. For example, it is preferably 300 to 500 nm. The thermal conductivity improving material and the infrared reflecting material are contained in the functional yarn by being kneaded into a resin material that is a raw material of the functional yarn when manufacturing the functional yarn.

It should be noted that the greater the amount of the thermal conductivity improving material and the infrared reflective material contained in the functional yarn, the more the cool feeling effect is exerted. On the other hand, when the amount of these contents is too large, the physical strength of the functional yarn is improved. This leads to deterioration and uneven cross-sectional shape. Therefore, the total content of the thermal conductivity improving material and the infrared reflecting material in the functional yarn is preferably 4 to 7% by volume, and more preferably 5 to 6% by volume. Further, the compounding ratio of the thermal conductivity improving material and the infrared reflecting material may be 1:1 as a reference, and depending on which function is to be largely provided, for example, it is optional in the range of 2:8 to 8:2. Can be set to.

The vertical cross-sectional shape of the functional yarn is a non-round shape having a long axis and a short axis. Since the functional yarn has such a cross-sectional shape, compared to the case where a thread having a generally vertical cross-sectional shape of a perfect circle is used, when the person wears the functional yarn, the skin comes in contact with the functional yarn. The contact area can be increased, and the cooling effect is improved.

For example, as shown in FIG. 4, the functional yarn (weft yarn 12) has an elliptical vertical cross section. Further, as shown in FIG. 5, the vertical cross-sectional shape of the functional yarn (weft yarn 12) is a rounded rectangular shape having two parallel lines of equal length and two semicircles. Further, the vertical cross-sectional shape of the functional yarn (weft yarn 12) may be a gourd shape (not shown).

Regarding the ratio (long axis/short axis) of the long axis (d shown in FIGS. 4 and 5) and the short axis (h shown in FIGS. 4 and 5) in the vertical cross-sectional shape of the functional yarn, the larger this ratio is, Since the contact area of the weft yarn 12 of the lining which comes into contact with the skin can be increased, the larger the ratio, the better. On the other hand, if the major axis/minor axis is too large, the weft 12 becomes thin and the physical strength of the weft 12 decreases, and the contents of the infrared reflective material and the thermal conductivity improving material decrease. It is also difficult to manufacture the weft 12 having a constant cross-sectional shape. Therefore, the major axis/minor axis is preferably 1.5 to 3, more preferably 1.5 to 2.5, and most preferably 2.

The warp yarns 11 are ordinary yarns and may be made of any material, for example, one or more natural fibers selected from the group consisting of cotton, wool, hemp, and silk. Good. The vertical cross-sectional shape of the warp 11 may be a perfect circle, like a normal thread. The warp yarn 11 is a yarn having a high exposure ratio in the outer material. In the cool feeling woven cloth 10, when the warp yarns 11 are made of natural fibers, the appearance and texture are similar to those of the existing woven cloth made of natural fibers, but the function of giving a cool feeling is imparted. To be done.

On one surface of the cool feeling woven fabric 10, the exposure ratio of the weft yarn 12 is preferably higher than the exposure ratio of the warp yarn 11. In this case, the exposure ratio of the weft yarns 12 on the other surface of the cool feeling woven fabric 10 is smaller than the exposure ratio of the warp yarns 11. When the cool feeling woven fabric 10 is used as a fabric for products such as clothes, the surface with a large exposed ratio of the weft yarns 12, that is, the surface with a large exposed ratio of the functional yarns becomes the lining and the surface with a large exposed ratio of the warp yarns 11 becomes the outer material. Become. Therefore, in the following description, the surface of the weft yarn 12 with a high exposure rate is also referred to as the lining, and the surface of the warp yarn 11 with a high exposure rate is also referred to as the front material.

When the diameters (widths) of the warp yarn 11 and the weft yarn 12 are equal, the exposure rate of the weft yarn 12 in the lining (exposed area of the weft yarn 12 in the lining/area of the lining) is preferably 2/3 or more. The higher the exposure rate of the weft yarn 12, the larger the area where the skin contacts the weft yarn 12, and the higher the cool feeling effect.

In order to make the exposure rates of the warp yarn 11 and the weft yarn 12 different as described above, the cool feeling woven fabric 10 is preferably woven with a twill weave or a satin weave. Further, when the weft 12 is made of a highly stretchable material by these weaving methods, the cool feeling woven fabric 10 having a high stretchability is provided.

1 to 3 show a cool feeling woven fabric 10 in the form of twill weaving, and the exposure ratio of the weft yarns 12 in the lining of the cool feeling woven fabric 10 is 2/3. FIGS. 6 and 7 are satin weaves, specifically, a cool feeling weave composed of 5 pieces of satin (weaves in which four warp threads 11 float and a weft thread 12 intersects at the fifth thread). The cloth 10 is shown, and the exposure rate of the weft threads 12 in the lining is 4/5.

In the above description, the warp yarn 11 is a normal yarn, the weft yarn 12 is a functional yarn, and the exposed ratio of the weft yarn 12 is higher than the exposed ratio of the warp yarn 11 in the lining, but the present invention is not limited to this. .. The warp yarn 11 may be a functional yarn and the weft yarn 12 may be a normal yarn, and the exposed ratio of the warp yarn 11 may be higher than the exposed ratio of the weft yarn 12 on one surface (lining). Further, both the warp yarn 11 and the weft yarn 12 may be in the form of functional yarn.

The cool feeling woven fabric 10 is used as various fabrics and can be used for manufacturing various fabric products. As the cloth product formed from the cool feeling woven cloth 10, when the cloth product is worn by a person as clothes such as shirts and pants, and particularly, the cloth product directly touched by the human skin, the cool feeling woven cloth 10 has a cool feeling effect. It is preferable because it can be realized.

For example, the cool feeling woven fabric 10 is suitable for denim fabric used for jeans and the like. If a cotton material thread that is normally used in denim cloth is used as the warp threads 11 that are exposed a lot on the outer material, the original appearance, texture, and texture of the denim cloth are maintained. In general, denim fabric is thick and durable, and therefore feels hot when worn in summer. For this reason, many people refrain from wearing clothes made of denim cloth in the summer. However, since the cool feeling woven fabric 10 according to the present embodiment is cool, it is very useful for those who want to wear denim cloth such as jeans even in the summer.

Further, when the weft 12 is made of a highly stretchable synthetic resin material such as polyurethane, the cool feeling woven fabric 10 also has high stretchability, so that when worn, it follows the movement of the body and becomes easy to move.

The denim fabrics produced were examined for heat insulation, contact cooling temperature, diffusible residual moisture content, and UV shielding efficiency. The denim fabric used for the verification is a twill weave cool woven fabric shown in FIGS. 1 to 3 using the warp and weft of the following materials.

An ordinary cotton thread was used as the warp. Further, as the weft yarn, a functional yarn was used in which fine particles of titanium oxide and jadeite were kneaded in polyurethane and the vertical cross-sectional shape was elliptical (long axis/short axis=2). Each of titanium oxide and jadeite has an average particle diameter of 400 nm and is kneaded into polyurethane at a ratio of 5% by volume. The compounding ratio of titanium oxide and jadeite was set to 1:1.

(Verification test of heat shield)
The above denim fabric and the comparative fabric prepared as a comparative example were set in the test device shown in FIG. 8, and the temperature on the back surface of each fabric was measured.

The comparative fabric prepared as a comparative example has the same configuration as that of the above denim fabric, except that the functional yarn of the above denim fabric is changed to undyed cotton yarn used as a weft yarn in a normal denim fabric.

The test apparatus shown in FIG. 8 includes a test base 21 made of styrofoam, a frame-shaped sample base 22 having a height of 1 cm and having an open top and bottom sides, and a thermocouple sensor installed inside the sample base. 25, a black body tape 26 arranged on the thermocouple sensor 25, a reflex lamp 23 for taking a picture, and a supporting portion 24 of the reflex lamp 23. The light source of the reflex lamp 23 is an incandescent light bulb.

The distance between the reflex lamp 23 and the test table 21 was 30 cm, the gap between the denim fabric and the comparison fabric was 1.5 cm, and the denim fabric and the comparison fabric were placed on the sample table 22, respectively. In this state, the reflex lamp 23 was turned on in an environment of 20° C. and a humidity of 65%, and the temperature change on the back surface of each fabric was measured by the thermocouple sensor 25 for 15 minutes.

The results are shown in Table 1. The temperature difference between the denim fabric and the contrast fabric is 11.6° C. after an elapsed time of 15 minutes. Therefore, it can be seen that the temperature increase on the back side of the denim fabric is significantly suppressed even when exposed to sunlight.

(Verification experiment of contact cold and warm feeling)
The contact cold temperature sensation (heat flow peak value (qmax)) is based on a thermolab method (test condition: ΔT=10° C.) using a precise and rapid thermophysical property measuring device (thermolab II (product name, manufactured by Kato Tech Co., Ltd.)). Measured. The skin sensation of feeling "warm" or "cold" when the skin touches the fabric is called "contact cold/warm feeling". The feeling of cold and warm feeling varies depending on the amount of heat transferred from the skin to the cloth, and the index “q max (heat flow peak value)” for evaluating it is measured. The higher this value, the greater the amount of heat transfer, and the more you feel cool when you touch the fabric.

As a result, the qmax of the denim fabric of this example was 0.196 J/cm ² ·sec.

(Verification experiment of diffusible residual water content)
The mass (M ₀ ) of the denim fabric was measured. Then, the weight (M ₁ ) of the denim fabric on which 0.3 mL of water was dropped was measured. Then, the denim cloth was suspended. In this state, the weight (M ₂ ) of the denim fabric at each elapsed time was measured, and the diffusible residual water content was calculated by the formula 1. The above experiment was conducted in an environment of 20°C and a humidity of 65%.
Diffusible residual water content (%)={(M ₂ −M ₀ )/(M ₁ −M ₀ )}×100 (Equation 1)

The result is shown in FIG. The diffusible residual water content decreased with time and became 0% after 90 minutes.

(Validation test of UV shielding rate)
The ultraviolet ray blocking ratio of the denim fabric was measured according to AS/NZS4399:1996. The result was that the denim fabric had a UV-shielding rate of 99.9% and a UPF rating of 50+ (Excellent protection).

In addition, in the cool feeling woven fabric disclosed in Patent Document 1, the heat shield temperature difference measured by the same experimental method as described above is 5.3° C. (elapsed time 15 minutes), and qmax is 0.124 W/cm ² . It is written.

Therefore, the denim fabric of this example is excellent in both heat-shielding properties and contact cold/warm feeling, and it can be seen that when wearing clothes such as jeans manufactured using this fabric, it feels cooler.

10 Cool woven fabric 11 Warp 12 Weft

Claims (6)

A cool feeling woven fabric composed of warp and weft,
At least one of the warp and the weft is composed of a functional yarn including an infrared reflecting material and a thermal conductivity improving material,
The vertical cross-sectional shape of the functional yarn is a non-round shape having a long axis and a short axis,
A cool feeling woven fabric characterized by that. The vertical cross-sectional shape of the functional yarn is elliptical or rounded rectangular.
The cool feeling woven fabric according to claim 1, wherein On one surface, the exposure ratio of the weft yarn is higher than the exposure ratio of the warp yarn,
The cool feeling woven fabric according to claim 1 or 2, characterized in that. Woven in twill or satin weave,
The cool feeling woven fabric according to any one of claims 1 to 3, wherein It is denim fabric,
The cool feeling woven fabric according to any one of claims 1 to 4, wherein A cool feeling woven fabric according to any one of claims 1 to 5,
A cloth product characterized by that.