TWM565705U - Cooling fabric - Google Patents

Abstract

A cooling fabric including warp and weft yarns is provided. The warp yarns have a weaving density of 160 to 180 yarns/feet, and the warp yarns are modified hydrophilic nylon and have a water-containing function. The weft yarns and the warp yarns are interwoven, and the weft yarns have a weaving density of 330-370 yarns/feet, in which the weft yarns includes composite yarns having modified hydrophilic nylon and polyester.

Description

Cool fabric

The novel creation relates to a fabric, and in particular to a cool fabric.

In recent years, due to the effects of the greenhouse effect and global warming, climate change has occurred, and the average temperature has continuously increased. In the face of the increasingly hot climate, a variety of cool functional textiles have been launched to allow wearers to withstand high temperatures.

In addition, with the progress of the times and changes in lifestyles, people are paying more and more attention to sports activities. And sports often bring a lot of sweat. Since cotton and polyester materials are used to make sweat-absorbing fabrics, there is a need for cool fabrics that can absorb sweat and have a cool feeling.

The novel creation provides a cool fabric that is both moisture absorbing and cool when worn.

The cool woven fabric created by the novel comprises a warp yarn and a weft yarn, wherein the warp yarn has a weaving density of 160-180 pieces/twist, and the warp yarn is a modified hydrophilic nylon fiber having a water-containing function, and the weft yarn and the warp yarn are interwoven and the weft yarn weaving density It is 330~370/inch, and the weft yarn includes composite yarn of modified hydrophilic nylon and polyester.

In an embodiment of the present invention, the modified hydrophilic nylon is modified by a polyether oligomer, and the molecular formula of the polyether oligomer is , where n is an integer from 15 to 45.

In an embodiment of the present invention, the base material of the modified hydrophilic nylon is nylon 6.

In an embodiment of the present invention, the warp yarn has a fiber fineness of 65d/48f to 75d/48f, and the weft yarn has a fiber fineness of 70d/24f to 90d/24f.

In an embodiment of the present invention, the composite yarn is a split type composite yarn.

In an embodiment of the present invention, the weight ratio of the modified hydrophilic nylon to the polyester in the split type composite yarn is 1:1.

In an embodiment of the novel creation, the modified hydrophilic nylon has a modified ratio of 8% to 12%.

In an embodiment of the novel creation, the moisture absorbing fabric has a moisture absorption rate of 0.41 to 0.47% and a moisture release rate of 0.28% to 0.31%.

In an embodiment of the present invention, the base fabric weight of the cool fabric is 192 g/m ² , and the moisture absorption rate and the moisture release rate are 0.41% and 0.28%, respectively.

In an embodiment of the novel creation, the base fabric weight of the cool fabric is 205 g/m ² , and the moisture absorption rate and the moisture release rate are 0.47% and 0.31%, respectively.

Based on the above, the cool woven fabric of the present invention can provide a basic cool feeling function by making the warp yarn a modified hydrophilic nylon, so that the user can not only absorb sweat but also effectively reduce the body feeling in the hot summer or sports wear. temperature.

The above described features and advantages of the present invention will become more apparent and understood from the following description.

Figure 1 is a schematic view of a cool woven fabric. Referring to FIG. 1, the cool sensation fabric 100 of the present embodiment includes warp yarns 110 and weft yarns 120, wherein the warp yarns 110 have a woven density of 160 to 180 pieces/twist, and the warp yarns 110 are modified hydrophilic nylon fibers, thereby having a water-containing function. The weft yarn 120 is interwoven with the warp yarns 110, wherein the weft yarns 120 have a weaving density of 330 to 370 pieces/inch, and the weft yarns 120 comprise a composite yarn of a modified hydrophilic nylon and polyester.

In view of the above, the fiber fineness of the warp yarn 110 is, for example, 65d/48f to 75d/48f, and the fiber fineness of the weft yarn 120 is, for example, 70d/24f to 90d/24f. For example, the selected warp yarn 110 has a fiber fineness of 70d/48f, and the selected weft yarn 120 has a fiber fineness of 80d/24f.

The modified hydrophilic nylon matrix material is nylon 6, and the modified hydrophilic nylon is modified by the polyether oligomer, and the molecular formula of the polyether oligomer is , where n is an integer from 15 to 45. In the novel creation, the modified proportion of the modified hydrophilic nylon is, for example, 8% to 12%.

Further, the composite yarn may be a split type composite yarn, and the weight ratio of the modified hydrophilic nylon to the polyester in the split type composite yarn is 1:1.

As described above, by using the modified hydrophilic nylon having a water-containing function as the composition of the warp yarn 110 and the weft yarn 120 of the cool fabric 100, the moisture absorbing fabric 100 can have a moisture absorption rate of 0.41 to 0.47%, and is wetted. The rate can be from 0.28% to 0.31%, so the cool fabric 100 has the function of moisture absorption and coolness. In addition, the weft yarn 120 includes a composite yarn of a modified hydrophilic nylon and polyester. The composite yarn may include a plurality of split fibers, and is further refined by a reduction or mechanical opening method, so that the cool fabric 100 has a soft and smooth shape. Feel.

Hereinafter, the effects of the cool-sensing fabric of the present invention will be exhibited by the examples and comparative examples of the cool woven fabric, and the actual compositions of Examples 1 and 2 and Comparative Example 1 are shown in Table 1. In Table 1, N6 is an unmodified nylon 6, MN6 is a modified hydrophilic nylon 6 modified by the above polyether oligomer, PET is a polyester, and M% is a modified hydrophilic The ratio of modification of nylon 6 (%).

Next, the cool sensation fabrics prepared according to Table 1 were tested by FTTS-FA-019 to obtain respective cooling sensation values (W/cm ² ), which are also recorded in Table 1. Table 1 <TABLE border="1"borderColor="#000000"width="85%"><TBODY><tr><td></td><td> Embodiment 1 </td><td> Example 2 </td><td> Comparative Example 1 </td></tr><tr><td> Warp Material </td><td> MN6, M%=8% </td></tr><Tr><td> warp fiber fineness</td><td> 70d/48f </td></tr><tr><td> warp weaving density</td><td>160/吋</td><td> 180 吋</td><td> 170 吋</td></tr><tr><td> Weft material (MN6 and PET are presented in weight ratio) </td><td> MN6 </td><td> PET </td><td> MN6 </td><td> PET </td><td> N6 </td><td> PET </td></tr><tr ><td> 50 </td><td> 50 </td><td> 50 </td><td> 50 </td><td> 30 </td><td> 70 </td></tr><tr><td> M%=8% </td><td> M%=12% </td><td> N/A </td></tr><tr><td> Weft fiber fineness</td><td> 80d/24f </td><td> 80d/24f </td><td> 80d/32f </td></tr><tr><td> weft weaving Density</td><td>330/吋</td><td>370/吋</td><td>350/吋</td></tr><tr><td>(g/m²)</td><td> 192 </td><td> 205 </td><td> 186 </td></tr><tr><td > Cooling value (W/cm²) </td><td> 0.271 </td><td> 0.284 </td><td> 0.251 </td></tr></TBODY></TABLE>

Next, the cool sensation fabrics of the examples and the comparative examples were placed in different environments to obtain the weights W1 to W4, and the moisture regain, moisture absorption rate, and moisture release rate were calculated according to W1 to W4 to complete the hygroscopicity test and recorded in Table 2 in. W1 indicates the absolute dry weight (105 degrees Celsius, RH 0%, 2 hours) environment, W2 is the standard environment (20 degrees Celsius, RH 65%, 24 hours), W3 is high temperature environment (30 degrees Celsius, RH 90) %, lasts 24 hours), while W4 is the standard environment (20 degrees Celsius, 65% RH, 24 hours). It should be noted that the aforementioned environments W1 to W4 are a process that may be experienced after the simulated fabric is taken out. For example, the environment of W1 is the case where the fabric is not used or left to stand, W2 is the case where the wearer uses the fabric under normal circumstances (before exercise), and W3 is the case where the body enters the high temperature and high humidity after the wearer moves. W4 is a condition in which the body temperature drops back to normal temperature after the wearer moves and the fabric is dry again.

Table 2 shows the moisture regain, moisture absorption and moisture release rates of the different examples and comparative examples, wherein Comparative Example 2 is a commercially available polyester fabric, and the compositions of Examples 1 and 2 and Comparative Example 1 are as shown in Table 1. . Table 2  <TABLE border="1" borderColor="#000000" width="85%"><TBODY><tr><td> Hygroscopicity Test</td><td> Example 1 </td><td> Example 2 </td><td> Comparative Example 1 </td><td> Comparative Example 2 </td></tr><tr><td> Moisture Regain 1 (%) [ (W2-W1)/ W1] </td><td> 3.46 </td><td> 3.81 </td><td> 3.04 </td><td> 1.20 </td></tr><tr><td> Moisture Regain 2(%) [ (W3-W1)/W1] </td><td> 3.88 </td><td> 4.28 </td><td> 3.40 </td><td> 1.28 </td>< /tr><tr><td> Moisture Regain 3 (%) [ (W4-W1)/W1] </td><td> 3.60 </td><td> 3.97 </td><td> 3.23 </ Td><td> 1.21 </td></tr><tr><td> Moisture absorption rate (%) (regain rate 2 - moisture regain rate 1) </td><td> 0.41 </td><td> 0.47 </td><td> 0.35 </td><td> 0.07 </td></tr><tr><td> moisture release rate (%) (regain rate 2 - regain rate 3) </td> <td> 0.28 </td><td> 0.31 </td><td> 0.17 </td><td> 0.07 </td></tr></TBODY></TABLE>

As can be seen from Table 1 and Table 2, in Example 1, the modified hydrophilic nylon in the weft yarn of the cool woven fabric has a modified ratio of about 8%, and the moisture absorption rate (moisture regain ratio 2 - moisture regain ratio 1) The ratio was 0.41%, the moisture release rate (regain ratio 2 - moisture regain ratio 3) was 0.28%, and the cool feeling value was 0.271 (W/cm ² ). In Example 2, the modified hydrophilic nylon in the weft of the cool fabric has a modified ratio of about 12%, a moisture absorption rate of 0.47%, a moisture release rate of 0.31%, and a cool feeling value of 0.284 (W/cm). ² ). The weft yarn of Comparative Example 1 contained no modified hydrophilic nylon, had a moisture absorption rate of 0.35%, a moisture release rate of 0.17%, and a cooling feeling value of 0.251 (W/cm ² ). Comparative Example 2 is a commercially available polyester fabric having a moisture absorption rate of 0.07% and a moisture release rate of 0.07%.

As can be seen from the above, the moisture absorbing rate and the moisture absorbing rate of the cool woven fabrics of the present invention are significantly superior to those of the commercially available polyester woven fabric of Comparative Example 2. Therefore, the cool fabric of the present invention can be applied to various products requiring moisture absorbing comfort, such as clothes, sports towels, bath towels, cool pads or baby towels. Further, according to Examples 1 to 2 and Comparative Example 1, it is understood that when the modified ratio of the modified hydrophilic nylon in the weft of the cool fabric is increased, the coolness value, the moisture absorption rate, and the moisture release rate are also increased. . Therefore, the cool-sensing fabric created by the novel can provide the moisture-absorbing and cool-sensing comfort, and can be adjusted with the modified proportion of the modified hydrophilic nylon to meet the needs of various products.

When the aforementioned cool sensation fabric is made into clothes, not only can the wearer's sweat be absorbed, but the cool sensation fabric can also provide the wearer with a cool feeling and reduce the body surface temperature.

When the aforementioned cool sensation fabric is made into a sports towel, in addition to the general woven sweat, the sports towel can be immersed in water, wrung out, and hung around the neck or the head, and the sports towel can reduce the user's body surface. Temperature to provide cool comfort.

Similarly, the aforementioned cool sensation fabric can also be made into a bath towel, a cool pad laid on a bed or a floor, or a baby towel, which can provide moisture absorption and cool comfort.

In summary, the cool woven fabric of the present invention is modified by the warp and weft yarns used to make it hydrophilic, and the composite yarn is used as the weft yarn, so the cool fabric not only has the function of moisture absorption and coolness, but also At the same time, it has a soft and smooth feel.

Although the novel creation has been disclosed above by way of example, it is not intended to limit the creation of the novel, and any person skilled in the art can make some changes and refinements without departing from the spirit and scope of the novel creation. Therefore, the scope of protection of this new creation shall be subject to the definition of the scope of the patent application attached.

100‧‧‧ Cool fabric
110‧‧‧ warp yarn
120‧‧‧ Weft

Figure 1 is a schematic view of a cool woven fabric.

Claims (10)

A cool fabric comprising: a warp yarn having a woven density of 160 to 180 pieces/twist, the warp yarn being a modified hydrophilic nylon having a water-containing function; and a weft yarn interlaced with the warp yarn and having a woven density of 330 to 370/吋, wherein the weft yarn comprises a composite yarn of the modified hydrophilic nylon and polyester. The cool woven fabric according to claim 1, wherein the modified hydrophilic nylon is modified by a polyether oligomer, and the molecular formula of the polyether oligomer is , where n is an integer from 15 to 45. The cool woven fabric of claim 1, wherein the modified hydrophilic nylon matrix material is nylon 6. The cool fabric according to claim 1, wherein the warp yarn has a fiber fineness of 65d/48f to 75d/48f, and the weft yarn has a fiber fineness of 70d/24f to 90d/24f. The cool woven fabric according to claim 1, wherein the composite yarn is a split type composite yarn. The cool woven fabric according to claim 5, wherein the weight ratio of the modified hydrophilic nylon to the polyester in the split type composite yarn is 1:1. The cool sensation fabric according to claim 1, wherein the modified hydrophilic nylon has a modified ratio of 8% to 12%. The cool woven fabric according to claim 1, wherein the cool sensation fabric has a moisture absorption rate of 0.41 to 0.47% and a moisture absorption rate of 0.28% to 0.31%. The cool woven fabric according to claim 1, wherein the cool woven fabric has a basis weight of 192 g/m ² and a moisture absorption rate and a moisture absorption rate of 0.41% and 0.28%, respectively. The cool woven fabric according to claim 1, wherein the cool woven fabric has a basis weight of 205 g/m ² and a moisture absorption rate and a moisture absorption rate of 0.47% and 0.31%, respectively.