KR101269892B1 - Composite fiber consisting spun yarn and heat melted synthetic filament with excellent volume and cooling feel, and fabric manufactured thereby - Google Patents

Abstract

The present invention relates to a spun yarn-heat-sealed synthetic filament composite fiber and a fabric made therefrom, which are excellent in volume and refreshing feel, wherein the spun yarn-heat-sealed synthetic filament composite fiber comprises (i) two kinds of fiber-forming polymers having different melting points from each other; It is composed of a heat-sealed synthetic filament heat-sealed on the yarn cross-section and (ii) one fiber-forming polymer having a relatively low melting point among the two fiber-forming polymers and a spun yarn which is heat-sealed. Inorganic particles are contained in at least one of the fiber-forming polymers of the fiber-forming polymer.
According to the present invention, due to the difference in heat shrink between the yarn and the heat-sealed synthetic filament, the yarn is ejected to improve the volume, and the inorganic particles are included in one or both of the two fiber-forming polymers constituting the heat-sealed synthetic filament. It contains the effect of improving the refreshing feel.

Description

Composite fiber consisting spun yarn and heat melted synthetic filament with excellent volume and cooling feel, and fabric manufactured thus

The present invention relates to a spun yarn-heat-sealed synthetic filament composite fiber (hereinafter abbreviated as " spun yarn-heat-sealed filament composite fiber ") and a fabric prepared therefrom, which are excellent in volume and coolness.

More specifically, the present invention relates to a spun yarn-heat-sealed filament composite fiber capable of expressing a sense of volume and a refreshing feeling at the same time, and a fabric manufactured by using all or part of the warp yarn or all or part of the weft yarn.

In the case of the fabric for clothes, excellent volume and refreshing feeling are required, but there is a limitation in manufacturing a fabric having excellent volume and refreshing feeling at the same time.

Specifically, in the case of cotton yarn or wool yarn we can get some sense of volume, but there was a problem of lack of cooling.

In addition, in the case of synthetic fiber filament can be obtained a certain degree of cooling feeling, there was a problem of lack of volume.

In addition, in the case of a composite fiber in which yarn or yarn is spun or twisted with cotton spun yarn or wool spun yarn, the cotton spun yarn or wool spun yarn in the composite fiber is not effectively fed to the surface of the composite fiber, and a satisfactory volume feeling is not obtained. There was a problem of lowering when using the filament alone.

In order to solve such problems in the prior art, the present invention is to provide a spun yarn-heat-sealed filament composite fiber and a fabric made therefrom excellent in volume and coolness at the same time.

In order to achieve the above object, in the present invention, (i) two types of fiber-forming polymers having different melting points from each other are heat-sealed on the yarn cross section, and (ii) the two types of fiber-forming polymers. Among them, the fiber is composed of one fiber-forming polymer having a relatively low melting point and a spun yarn thermally fused. At least one fiber-forming polymer of the two fiber-forming polymers contains inorganic particles, resulting in a feeling of volume and cooling. Excellent spun yarn-thermal fusion synthetic filament composite fibers and fabrics made thereof are provided.

According to the present invention, due to the difference in heat shrink between the yarn and the heat-sealed synthetic filament, the yarn is ejected to improve the volume, and the inorganic particles are included in one or both of the two fiber-forming polymers constituting the heat-sealed synthetic filament. It contains the effect of improving the refreshing feel.

1 is a cross-sectional view of a heat-sealed synthetic filament in the form of a sheath-core (Sheath core) used to manufacture the spun-heat-sealed filament composite fiber according to the present invention.
Figure 2 is a cross-sectional view of the heat-sealed synthetic filament in the form of side by side (side by side) used in the production of spun-heat-sealed filament composite fiber according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The spun yarn-heat-sealed filament composite fiber according to the present invention comprises (i) two types of fiber-forming polymers (A and B or C and S) having different melting points from each other and heat-sealed synthetic filaments (ii). ) It is composed of yarn.

The spun yarn is cotton spun yarn, wool spun yarn, silk spun yarn or recycled fiber spun yarn made of regenerated fiber staples.

The heat-sealed synthetic filament is a two-fiber forming polymer (A and B or C and S) in the form of a sheath-core (Sheath core) or side-by-side (Side) on the yarn cross-section as shown in FIG. It has a cross-sectional structure that is heat-sealed in the form of by side).

1 to 2 are cross-sectional views of heat-sealed synthetic filaments.

In the case where the cross-sectional shape of the heat-sealed synthetic filament is in the side-by-side shape as shown in FIG. 2, it is preferable to form the sheath (S) portion of the fiber-forming polymer having a relatively low melting point so as to facilitate heat fusion with the spun yarn.

The melting point difference between the two fiber-forming polymers is preferably 30 to 130 ° C. to improve the latent crimpability of the heat-sealed synthetic filament to effectively eject the spun yarn to the yarn surface, and to effectively fuse the spun yarn and the heat-sealed synthetic filament. Do.

The two fiber-forming polymers are in-situ polymers having different melting points or isomeric polymers having different melting points, such as nylon polymers, polyester polymers, or polypropylene polymers.

At least one of the fiber-forming polymers of the two fiber-forming polymers constituting the heat-sealed synthetic filament, that is, all of the two fiber-forming polymers or one of the two fiber-forming polymers The polymer contains inorganic particles for the purpose of improving the refreshing feeling.

Titanium oxide, barium sulfate, zinc oxide, silica, alumina hydrate or a mixture thereof may be used as the inorganic particles.

The content of the inorganic particles in the fiber-forming polymer is preferably 1 to 10% by weight based on the total weight of the fiber-forming polymer.

If the content is less than 1% by weight, the effect of improving the refreshing feel is insignificant, and if the content is more than 10% by weight, there is a concern that deterioration of the manufacturing operation is deteriorated.

The average diameter of the inorganic particles is preferably 0.15 ~ 2 ㎛ as a result of the experiment to improve the refreshing feeling.

The spun yarn-heat-sealed filament composite fiber according to the present invention is made from two types of fiber-forming polymers constituting the heat-sealed filament composite fiber while passing through a hot plate or a heat tube after weaving, twisting, or covering the yarn and the heat-sealed fiber. By melting the relatively low melting point fiber-forming polymer (A or S) it can be prepared by a method such as thermally fusion between the spun yarn in the composite fiber and the heat-sealed synthetic filaments.

As a result, the spun yarn is heat-sealed with the heat-sealed synthetic filaments.

The composite ratio (weight basis) of the spun yarn and the heat-sealed synthetic filaments is 20 to 80% by weight of the spun yarn and 80 to 20% by weight of the heat-sealed synthetic filament is preferable to improve the cooling and volume at the same time.

If the spun yarn composite ratio is less than 20% by weight, the feeling of volume may be lowered, and if it exceeds 80% by weight, the cooling feeling may be reduced.

The composite ratio of the spun yarn and the heat-sealed synthetic filament is suitably adjusted according to the use and the like within the above range.

Looking at the principle of improving the sense of volume in the present invention, since the heat shrinkage of the heat-sealed synthetic filament is relatively higher than the heat shrinkage of the spun yarn, the heat shrinkage rate is increased as the heat-shrinkage synthetic filament relatively large shrinkage during heat treatment The volumetric feeling is enhanced because relatively small yarns are ejected onto the surface of the yarns.

Hereinafter, the present invention will be described in detail with reference to examples and comparative examples.

However, the present invention is not limited to the protection scope only in the following examples.

Example 1

The core (C) consisting of a polyester polymer containing 2.5% by weight of titanium dioxide having a melting point of 255 ° C. and a particle diameter of 0.35 μm and a sheath (S) consisting of a co-polyester polymer having a melting point of 178 ° C. are heat-sealed on the yarn cross section. 150 denier / 24 filament heat-sealed synthetic filament (sheath-core) and 40'S (approximately 135 denier) cotton spun yarn were spun in a covering machine at 525 T / M (twist per meter) and then A cotton spinning yarn-heat-sealed filament composite fiber was produced by passing a hot plate in the covering machine at a speed of 120 m / min.

The cotton spun yarn-heat-sealed filament composite fiber thus prepared was used as warp and weft yarn to prepare a plain weave fabric having a weft density of 53 bones / inch and a warp density of 75 bones / inch.

The results of measuring the volume, coolness and appearance of the fabric were as shown in Table 1.

Example 2

The core (C) consisting of a polyester polymer containing 2.5% by weight of titanium dioxide having a melting point of 255 ° C. and a particle diameter of 0.35 μm and a sheath (S) consisting of a co-polyester polymer having a melting point of 178 ° C. are heat-sealed on the yarn cross section. 150 denier / 24 filament heat-sealed synthetic filament (sheath-core type) and 50'S (equivalent to 160 denier) wool spun yarns are twisted at 525 T / M (twist per meter) in a twisting machine and then twisted at 185 ° C. A wool spun yarn-heat-sealed filament composite fiber was produced by passing an in-flight hot plate at a speed of 120 m / min.

The wool spun yarn-heat-sealed filament composite fiber thus prepared was used as warp and weft yarn to prepare a plain weave fabric having a weft density of 53 bones / inch and a warp density of 75 bones / inch.

The results of measuring the volume, coolness and appearance of the fabric were as shown in Table 1.

Example 3

Core (C) consisting of a polyester polymer containing 2.5% by weight of titanium dioxide having a melting point of 255 ° C. and a particle diameter of 0.35 μm and a polycarbonate containing 2.0% by weight of titanium dioxide having a melting point of 125 ° C. and a particle diameter of 0.30 μm. Sheath (S) made of propylene polymer is heat-sealed 75 denier / 24 filament heat-sealed synthetic filament (sheath-core type) and 40'S cotton spun yarn at 500 T / M (twist per meter) in the twisting machine After the twisted yarn was passed through a hot plate in a twisting machine at 140 ℃ at a speed of 120 m / min to prepare a cotton spun yarn-thermal filament composite fiber.

The cotton spun yarn-heat-sealed filament composite fiber thus prepared was used as warp and weft yarn to prepare a plain weave fabric having a weft density of 53 bones / inch and a warp density of 75 bones / inch.

The results of measuring the volume, coolness and appearance of the fabric were as shown in Table 1.

Example 4

First fiber forming polymer (A) consisting of nylon 66 polymer containing 2.5% by weight of titanium dioxide having a melting point of 245 ° C. and a particle diameter of 0.35 μm, and forming a second fiber consisting of nylon 6 polymer having a melting point of 215 ° C. After heat-sealing synthetic filament of 120 denier / 24 filament (side by side type) and 50'S wool spun yarn in which the polymer (B) is heat-sealed on the cross section of the yarn, the yarn is twisted at 525 T / M (twist per meter) A wool spun yarn-heat-sealed filament composite fiber was prepared by passing a hot plate in a twisting machine at 220 ° C. at a speed of 120 m / min.

The wool spun yarn-heat-sealed filament composite fiber thus prepared was used as warp and weft yarn to prepare a plain weave fabric having a weft density of 53 bones / inch and a warp density of 75 bones / inch.

The results of measuring the volume, coolness and appearance of the fabric were as shown in Table 1.

Comparative Example 1

75 denier / 24 filament of regular polyester filament made of polyester polymer with melting point of 255 ° C and 50'S wool spun yarn were spliced together in a twisting machine at 525 T / M (twist per meter), and then the hot plate inside the 185 ° C. A wool spun yarn-polyester filament composite fiber was produced by passing at a rate of m / min.

The wool spun yarn-polyester filament composite fiber thus prepared was used as warp and weft yarn to prepare a plain weave fabric having a weft density of 53 bones / inch and a warp density of 75 bones / inch.

The results of measuring the volume, coolness and appearance of the fabric were as shown in Table 1.

Comparative Example 2

A cotton weave having a thickness of 40'S was used as the warp and weft yarn to prepare a plain weave fabric having a weft density of 76 bones / inch and a warp density of 108 bones / inch.

The results of measuring the volume, coolness and appearance of the fabric were as shown in Table 1.

division Refreshing feeling Volume sense Fabric Example 1 Great Great Great Example 2 Great Great Great Example 3 Great Great Great Example 4 Great Great Great Comparative Example 1 Great Bad Great Comparative Example 2 Bad Great Great

The cooling, volume and fabric quality of Table 1 were classified as "excellent" when six or more experts judged to be good as a result of 10 experts, and classified as "poor" when less than five experts were good.

S: Sheath, a fibrous polymer having a relatively low melting point
C: Core, a fiber-forming polymer with a relatively high melting point
A: first fibrous polymer having a relatively low melting point
B: second fiber-forming polymer having a relatively high melting point

Claims (7)

(Iii) two types of fibrous polymers having different melting points from each other, wherein the heat-sealed synthetic filaments are thermally fused on the yarn cross-section, and (ii) one of the two fiber forming polymers having a relatively low melting point. It is composed of a spun yarn and heat-sealed spun polymer, wherein at least one fiber-forming polymer of the two types of fiber-forming polymers, characterized in that the inorganic particles are contained in the spun yarn-thermal fusion synthesis with excellent volume and refreshing feeling Filament Composite Fiber. The spun yarn-heat-sealed synthetic filament composite fiber of claim 1, wherein the yarn is composed of wool, cotton, silk, and regenerated fiber staples. The method of claim 1, wherein the difference in melting point between the two fiber-forming polymer is 30 ~ 130 ℃ excellent spinning and heat-spun synthetic filament composite fiber excellent in the sense of volume and cooling. The method of claim 1, wherein the heat-sealed synthetic filament is heat-treated in the form of one of the two fiber-forming polymers selected from a sheath-core form and a side by side form on the yarn cross-section A spun yarn-heat-sealed synthetic filament composite fiber excellent in volume and coolness, characterized by being fused. The method of claim 1, wherein the content of the inorganic particles in the fiber-forming polymer is 1 to 10% by weight relative to the total weight of the fiber-forming polymer, spun yarn-heat-sealed synthetic filament composite fiber excellent in volume and refreshing feeling. The spun yarn-heat-sealed synthetic filament composite fiber excellent in volume and coolness according to claim 1 or 5, wherein the average particle diameter of the inorganic particles is 0.15 to 2.00 µm. The fabric comprising the yarn of claim 1, the heat-sealed synthetic filament composite fiber.

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