KR900001896A - Latent Loop Yarn, Fabrics Made therefrom, and Method of Making Latent Loop Yarn - Google Patents

Abstract

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Description

Latent Loop Yarn, Fabrics Made therefrom, and Method of Making Latent Loop Yarn

Since this is an open matter, no full text was included.

1 is a schematic diagram of an embodiment of a yarn for carrying out the process of latent loop yarn of the present invention,

2 is a graph showing the results obtained in Examples 1 and 2 of the present invention,

3 is a cross sectional view of a filament having a planar cross section, as used herein.

Claims (29)

In latent looped yarns consisting of mixed multifilament yarns containing two or more synthetic multifilaments each having different heat shrinkage and fine ring opening and closing ring on the surface, the composite multifilament yarn under tension The latent loop yarn in which the total number and size of the opening and closing of one or more multifilament yarns having a low heat shrinkage rate in boiling water are increased compared to those present in the multifilament yarns before heat treatment. The method according to claim 1, wherein the detailed loops present in the composite yarn before the heat treatment are 300 A / m or more of Loop A, 50 A / m or more of Loop B and 10 O / m or less of Loop C (wherein each loop A, Loop B and Loop C can be measured using an optoelectronic fluff measuring device that counts the number of loops of the driver under conditions of 50 m / min firing force and 0.1 g / d four-way tension. In this case, loops protruding more than 0.15mm from the dead surface are defined as loop A, loops protruding more than 0.35mm from the dead surface as loop B and loops protruding more than 0.6mm from the dead surface as loop C. Latent loop yarn containing; The number of loops B of the composite yarn is at least 1.5 times the composite yarn before heat treatment, and after the composite yarn is heat-treated with hot water under non-aqueous conditions for 10 minutes at 98 ° C., the number of loop C is 50 ol / Latent loop yarn that is m or more. The latent loop yarn according to claim 1, wherein the shrinkage ratio in the hot water of the multifilament yarn having the high shrinkage rate is 10% or more, and the difference in the heat shrinkage of the multifilament yarn having the high shrinkage rate and the multifilament yarn having the low shrinkage rate is 5% or more. The latent loop yarn according to any one of claims 1 to 4, wherein the denier of the component filament of the multifilament yarn having a high shrinkage is 0.1 to 15 denier, and the daier of the component filament of the multifilament yarn having the low shrinkage is 0.05 to 1.3 denier. . The latent loop yarn according to any one of claims 1 to 4, wherein the shrinkage ratio in the hot water of the composite yarn is 10% or more. Two or more synthetic multifilaments, each having a different shrinkage rate, are simultaneously fed into the essy current zone to generate ring opening and ring closure on the surface of the yarn, and then stretch the yarn to remove or refine the loop to potentially lubricate the yarn. How to prepare. 8. The method according to claim 7, wherein the shrinkage rate in the hot water of the multifilament yarn having the high shrinkage rate is at least 10%, and the difference in the shrinkage rate in the hot water of the multifilament yarn having the low shrinkage rate of the multifilament yarn having the high shrinkage rate is 5% or more. The method according to claim 7 or 8, wherein the denier of the component filament of the multifilament yarn having the low shrinkage ratio is 0.05 to 1.3 denier. The method according to claim 7 or 8, wherein the denier of the component filament of the multifilament yarn having a high shrinkage ratio is 0.1 to 15 denier. The method according to claim 7 or 8, wherein the denier of the component filament of the multifilament yarn having the low shrinkage is 0.05 to 1.3 denier, and the denier of the component filament of the multifilament yarn having the high shrinkage is 0.1 to 15 denier. The method according to claim 7 or 8, wherein at least two synthetic multifilaments each having a different shrinkage rate, wherein the overfeed rate ( λ ) of two synthetic multifilament yarns and a high shrinkage multifilament yarn is 2 to 15%. The overfeed rate β of the multifilament yarn having a low shrinkage ratio was treated with a wall in a condition of 5 to 30%, and the vortexed composite multifilament yarn was continuously stretched to an underfeed ratio of 0.4 to 0.8 lambda , and then the yarn package. To the vortex zone at the same time and stretch. A high density fabric having a mixed multifilament yarn composed of synthetic multifilaments having ring opening and closing on the surface as a warp of the fabric, and having a cover factor of the warp of the fabric of 1100 or more. The high density fabric of claim 13, wherein the mixed composite multifilament yarns of synthetic multifilament yarns contain two or more synthetic multifilaments, each having a different shrinkage rate. 15. The high density of the component filaments of one of the multifilaments composed of mixed composite multifilament yarns, the denier of the component filaments of the other multifilament yarns composed of mixed composite multifilament yarns is 0.1 to 15 d textile. 16. The multi-filament yarn of claim 15, wherein the mixed multifilament yarn contains a multi-filament yarn having a high shrinkage rate and a multi-filament yarn having a low shrinkage rate, and the shrinkage rate in the hot water of the multifilament yarn having a high shrinkage rate is 10% or more, The difference in shrinkage in thermal water of the multifilament yarn having a multifilament yarn having a low shrinkage ratio is 5% or more, and the denier of component filaments of the multifilament yarn having a low shrinkage ratio is 0.05 to 1.3 d, and the component filaments of the multifilament yarn having a high Denier is a high density fabric of 0.1 to 15d. The photovoltaic fluff measuring device of claim 13, wherein the mixed composite multifilament yarn counts the number of four run loops through each yarn loop under 50 m / min firing force and 0.1 g / d four run tension. High-density fabrics with a loop count of 50 O / m or more, measured by counting loops protruding 0.6 mm or more from the dead surface, measured using The spunlike feel according to any one of claims 13 to 17, wherein a synthetic multifilament yarn of each component filament having a flat cross section is used as the weft yarn, and the total cover factor of the warp and weft yarn is 1800 to 3500. high density fabric with feeling). 19. The high density fabric of claim 18, wherein the blended multifilament yarn has a spunlike feel with a shrinkage in hot water of at least 10%. 19. The high density fabric having a spunlike feel of claim 18, wherein the flatness of each component filament having a flat cross-sectional shape of the synthetic multifilament yarn is 2.0 to 6.0. 19. The method according to claim 18, wherein each component filament has a total cross-sectional shrinkage in the hot water of synthetic multifilament yarn having a flat cross section of 8 to 27%, and 30 to 70% by weight of the component filaments has a high shrinkage ratio of 7 to 30% by weight. 70% to 30% by weight of the component filaments having a low shrinkage in hot water of 1 to 15%. Mixed composite multifilament yarns composed of one or more synthetic multifilament yarns with shrinking action and fine ring opening and closing ring on the surface are used as warp or weft yarn, spun yarn as weft or warp yarn, and further its warp and weft yarn A high density blend fabric characterized in that the total cover factor is 2000 to 3500. 23. The high-density blended fabric of claim 22 wherein the shrinkage in hot water of the blended composite multifilament yarn is at least 10%. 24. The high density blended fabric of claim 23, wherein the mixed composite multifilament yarns contain at least two synthetic multifilament yarns, each having a different shrinkage. 25. The method of claim 24, wherein the mixed composite multifilament yarn contains a multifilament yarn having a high shrinkage rate and a multifilament yarn having a low shrinkage rate, and the shrinkage ratio in the thermal water of the multifilament yarn having a high shrinkage rate is 10% or more, The high-density blended fabric having a difference in shrinkage in hot water having a multifilament yarn having a low shrinkage ratio and a multifilament yarn having a low shrinkage ratio is 5% or more. 25. The high density of claim 24 wherein the mixed composite multifilament yarns contain two or more multifilament yarns, the denier of one component filament of the multifilament is from 0.1 to 2.5 d, and the denier of the component filament of the other multifilament yarn from 0.3 to 15 d Blended fabrics. 23. The photovoltaic fluff measuring device of claim 22, wherein the mixed composite multifilament yarn counts the number of four run loops passing through the artist's yarn loops under a firing force of 50 m / min and a running run tension of 0.1 g / d. A high-density blended fabric with a number of loops C, measured by using a loop protruding 0.6 mm or more from the dead surface, of at least 50 mol / m. 23. The high density blended fabric of claim 22 wherein the spun yarn cotton yarn variable is at least 30 S. Mixed composite multifilament yarns made from synthetic multifilaments having a total denier less than 90d [wherein composite yarns have a shrinkage in hot water of at least 12% and their component filaments have a denier of at least 1.5 d and their total denier is less than 60 d , And hydrothermal shrinkage is less than 10% and its component filaments have a denier less than 1.0d and its total denier is less than 60d; The composite yarn also contains more than 300 A / m Loop A, 50 A / m Loop B, and 10 A / m Loop C (where Loop A, Loop B and Loop C are each 50 m / min). When measuring with a photoelectric fluff measuring device that counts the number of four-run loops under conditions of firing force and 0.1 g / d four-way tension, loop A, which protrudes more than 0.15 mm from the dead surface, is looped. Weaving loops protruding more than 0.35mm from the surface into loop B and loops protruding more than 0.6mm from the dead surface as loop C). A method of making a fabric having a spunlike feel, similar to a fabric made of very long cotton fibers, characterized by protruding the opening and closing of the filament b due to the different shrinkage of the filament a and the filament b on the surface of the fabric. ※ Note: The disclosure is based on the initial application.