JP2015117444A - False twist crimped yarn having fusion characteristics - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a false twist crimped yarn having fusion characteristics, a woven or a knitted fabric obtained from which is capable of maintaining good bulkiness, and capable of being alkali treated to expand a space in the woven or a knitted fabric and to adjust a feeling by the treatment.SOLUTION: The false twist crimped yarn having fusion characteristics comprises core-sheath type filaments. A core component is composed of a polyester comprising mainly alkylene terephthalate units and having a melting point of 220°C or more. A sheath component is composed of a low-melting point co-polyester having a melting point lower than that of the polyester. The false twist crimped yarn has a stretch elongation of 30% or more.

Description

  The present invention relates to a false-twisted crimped yarn composed of a core-sheath filament that can maintain the bulkiness of a woven or knitted fabric by fusing a sheath component.

Conventionally, false twisted crimped yarn has been used in various fields, taking advantage of its stretchability and bulkiness. However, a woven or knitted fabric made of false twisted crimped yarn is easily deformed because the false twisted crimped yarn has elasticity, and its bulkiness is reduced when pulled or crushed. There was a problem that disappeared.
Patent Document 1 includes 20% by mass or more of an adhesive crimped fiber having a crimp rate of 5% or more in which an ethylene-vinyl alcohol copolymer is disposed as a sheath component, and a fiber layer is formed between the adhesive crimped fibers. And a fiber structure for insoles formed by a heat-bonded fusion layer and a bulky layer that exists on the surface side of the fusion layer and is not thermally bonded by the adhesive fibers.
Although this adhesive crimped fiber has thermal adhesiveness, its crimp rate is at most 20% for the purpose of use as a pile yarn for insoles, so that when it is made into a woven or knitted fabric, its bulkiness is reduced. There was a problem. In addition, since the ethylene-vinyl alcohol copolymer is arranged in the sheath component, it is vulnerable to water and alcohol, and there is a problem in using it for clothing and industrial materials in a normal environment.

Japanese Patent No. 4647111

  The present invention solves the above problems, and the resulting woven or knitted fabric can maintain good bulkiness, and can be subjected to an alkali treatment, which widens the space inside the woven or knitted fabric. It is an object of the present invention to provide a false twisted crimped yarn having a fusing characteristic that can adjust the texture.

As a result of studies to solve the above-mentioned problems, the present inventors have found that a false twisted crimped yarn composed of a core-sheath filament having a specific configuration can solve the above-mentioned problems, and have reached the present invention.
That is, this invention makes the following a summary.
(1) A false twisted crimped yarn comprising a core-sheath filament,
The core component is mainly composed of an alkylene terephthalate unit, and is composed of a polyester having a melting point of 220 ° C. or higher.
The sheath component is composed of a low-melting point copolyester having a lower melting point than the polyester,
A false twisted crimped yarn having fusing characteristics, wherein the stretch elongation rate of the false twisted crimped yarn is 30% or more.
(2) The low melting point copolyester constituting the sheath component contains at least a terephthalic acid component, an ethylene glycol component, and a 1,4-butanediol component. Having false twisted crimped yarn.

  According to the present invention, it is possible to obtain a woven or knitted fabric capable of maintaining good bulkiness by heat-treating the false twisted crimped yarn and fusing the sheath component. Even if it is deformed, the bulkiness can be maintained. Furthermore, the obtained woven or knitted fabric can be expanded in space inside the woven or knitted fabric or adjusted in texture by eluting the sheath component by alkali treatment.

Hereinafter, the present invention will be described in detail.
The false twisted crimped yarn of the present invention comprises a core-sheath filament, and the sheath component of the filament needs to be a low-melting point copolyester having a lower melting point than the polyester constituting the core component. The difference in melting point between the polyester constituting the core component and the low-melting copolymer polyester constituting the sheath component is preferably 10 ° C or higher, more preferably 20 ° C or higher, and further preferably 30 ° C or higher. preferable. Specifically, the low-melting point copolyester preferably has a melting point of 130 to 200 ° C, a glass transition point of 20 to 80 ° C, and a crystal initiation temperature of 90 to 130 ° C.
The copolymer component constituting the low-melting point copolyester is not particularly limited, but the obtained low-melting point copolyester has good fusion properties, is stable against moisture and the like, and an alkali treatment described later. Those that can be removed more efficiently are preferred. Specific examples include a terephthalic acid component, an ethylene glycol component, and at least one component selected from a 1,4-butanediol component, an aliphatic lactone component, and an adipic acid component. In particular, low-melting point copolyesters containing terephthalic acid component, ethylene glycol component and 1,4-butanediol component as copolymerization components have a relatively high crystallization speed, and are stable not only during spinning but also during fusion processing. Is also preferable from the viewpoint of high. In addition, when making an aliphatic lactone component into a copolymerization component, a C4-C11 lactone is preferable and (epsilon) -caprolactone is especially preferable.

The core component of the filament in the false twisted crimped yarn of the present invention needs to be a polyester having a melting point mainly composed of alkylene terephthalate units and having a melting point of 220 ° C. or higher. As described above, the polyester constituting the core component preferably has a melting point higher by 10 ° C. or more than the low-melting point copolyester constituting the sheath component, and preferably has a melting point of 220 to 280 ° C. Specifically, the polyester constituting the core component is preferably polyethylene terephthalate (PET), polybutylene terephthalate, polytrimethylene terephthalate, or the like. These may be used alone or in combination.
The polyester constituting the core component may contain a copolymer component as long as the effects of the present invention are not impaired. As copolymerization components, isophthalic acid, 5-sodium sulfoisophthalic acid, phthalic anhydride, naphthalene dicarboxylic acid, trimellitic acid, pyromellitic acid, adipic acid, azelaic acid, sebacic acid, dodecanedioic acid, 4-hydroxybenzoic acid , Ε-caprolactone, phosphoric acid, glycerin, diethylene glycol, 1,4-butanediol, 1,4-cyclohexanedimethanol, neopentyl glycol, pentaerythritol, 2,2-bis {4- (β-hydroxy) phenyl} propane Etc.

  The false twisted crimped yarn of the present invention preferably has a filament core-sheath mass ratio (core: sheath) of 40:60 to 90:10. When the ratio of the core is less than 40% by mass, it is difficult to obtain the strength of the filament, and it becomes difficult to make the stretch / elongation rate 30% or more, and the tension of the woven or knitted fabric tends to be reduced. On the other hand, when the ratio of the core part exceeds 90% by mass, the fusion component of the sheath part is reduced, so that it becomes difficult to fuse, so that it takes time for the fusion or the intended fusion state is obtained. There may not be.

The filament cross-sectional shape of the false twisted crimped yarn of the present invention is not particularly limited, and may be any shape such as a circle, a triangle, and a cross.
The single yarn fineness of the false twisted crimped yarn of the present invention is preferably 0.1 to 30 dtex.

The false twisted crimped yarn of the present invention is composed of a core-sheath type filament composed of the core component and the sheath component described above, and needs to be a yarn having false twisted crimp.
The woven or knitted fabric obtained using the false twisted crimped yarn, when heat-treated, fuses the sheath component of the false twisted crimped yarn in a state of being crimped, that is, while maintaining bulkiness. be able to. Therefore, this knitted or knitted fabric maintains the bulkiness even when an external force is applied, so that the bulkiness is less likely to be reduced, and the air layer is retained, so that the heat retention can be maintained. it can.
In a woven or knitted fabric, in order to effectively exhibit the above-described bulkiness, the stretch / stretch rate of the false twisted crimped yarn needs to be 30% or more, and in order to maintain good swell and bulkiness, The elongation percentage is preferably 30 to 200%, more preferably 40 to 180%, and still more preferably 50 to 150%. When the stretch / extension ratio is less than 30%, the bulkiness is not sufficiently exhibited, and the woven or knitted fabric lacks a feeling of swelling.

Next, an example of producing a false twisted crimped yarn having the fusing property of the present invention will be described.
First, a core-sheath filament is prepared in which the core component is mainly composed of an alkylene terephthalate unit and is composed of a polyester having a melting point of 220 ° C. or higher, and the sheath component is composed of a low-melting copolymer polyester having a melting point lower than that of the polyester. . This core-sheath filament can be produced using a known composite spinning device. Specifically, the polyester constituting the core component and the low-melting point copolymer polyester constituting the sheath component are put into a composite spinning apparatus, and the composite spinning is performed at a take-up speed of 1000 to 4500 m / min, and then a predetermined magnification. Stretch to.

Next, the obtained sheath-core filament is false twisted to obtain false twisted crimped yarn. As an example of false twisting conditions for setting the stretch elongation rate of the obtained false twisted crimped yarn to 30% or more, the draw ratio is 0.90 to 1.20 times, preferably 0.95 to 1.10 times. The twist coefficient is 25000-35000, preferably 27000-32000, heater temperature 130-180 ° C, preferably 130-160 ° C. The false twist coefficient is a numerical value obtained by multiplying the square root of the fineness (dtex) of the supplied yarn by the draw ratio and the number of false twists.
By the above method, the false twisted crimped yarn having the fusing property of the present invention can be produced.

The false-twisted crimped yarn having the fusing property of the present invention produced by the above method is subjected to heat treatment after being knitted or woven according to a known method.
The heat treatment is performed at a temperature not lower than the melting point of the sheath component of the false twisted yarn and not higher than the melting point of the core component using a normal pin tenter or the like. As a result of the heat treatment, the sheath components of the false twisted crimp yarn constituting the woven or knitted fabric are fused. At this time, the bulkiness and stretchability of the woven or knitted fabric can be adjusted by adjusting the tensile state of the woven or knitted fabric and the heat treatment temperature. In other words, a woven or knitted fabric that requires bulkiness and stretchability is less affected by deformation by reducing tension and reducing the heat treatment temperature to reduce the fusion part. Each can be obtained by reducing the tension and increasing the heat treatment temperature. Furthermore, a woven or knitted fabric that has low bulkiness and requires stretchability has a high tensile strength and a low heat treatment temperature. And each can be obtained by increasing the heat treatment temperature.

  The knitted or knitted fabric obtained from the false twisted crimped yarn having the fusing property of the present invention can expand the internal space to increase the air layer or adjust the texture. In particular, the heat insulation effect is improved by increasing the number of air layers. The false twisted crimped yarn having the fusing property of the present invention employs a commonly used alkali weight loss method because the sheath component is composed of a low-melting point copolyester and the sheath component can be eluted by alkali treatment. can do. By the alkali weight loss method, part of the portion where the sheath components are fused is eluted, the fused portion of the woven or knitted fabric is reduced, and the internal space of the woven or knitted fabric can be expanded. The alkali weight loss method is a preferable method in terms of simplicity and cost. Alkaline weight loss may be carried out with an alkali having a concentration of 20 to 40 g / L at a bath ratio of 1:20 to 50 under a condition of about 30 to 60 minutes with respect to the polyester mass of the woven or knitted fabric. It is preferable to use about 1 to 5 g / L of a weight loss accelerator such as a quaternary ammonium salt.

Next, the present invention will be described more specifically with reference to examples.
In addition, each evaluation was performed with the following method.

(1) Expansion and contraction rate (%)
Measurement was performed according to the stretchability method B of JIS-L-1013, and the stretch / stretch rate of the false twisted crimped yarn was calculated. However, a sample treated at 95 ° C. for 30 minutes in boiling water was measured.

(2) Thickness (mm)
The thickness of the knitted fabric was calculated according to JIS-L-1018.

(3) Thickness at 1 kPa pressure (mm)
According to JIS-L-1018, the thickness of the knitted fabric when the pressure was 1 kPa was calculated.

(4) Weight per unit (g / m ² )
According to JIS-L-1018, the mass per unit area of the knitted fabric in the standard state was determined and used as the basis weight.

(5) Pore volume (%)
The pore volume of the knitted fabric was calculated according to JIS-L-1096.

(6) Stretch feeling The stretch feeling of the knitted fabric was evaluated according to the following criteria by five panelists.
◎: Very good stretch feeling ○: Good stretch feeling △: Stretch feeling slightly insufficient ×: No stretch feeling

Examples 1A-1D, Reference Example 1, Comparative Example 1
As a low melting point copolymer polyester for the sheath component, a crystalline copolymerized polyethylene terephthalate obtained by copolymerizing 50 mol% of 1,4-butanediol with an intrinsic viscosity of 0.78, a melting point of 181 ° C. and a glass transition point of 48 ° C. Polyethylene terephthalate having an intrinsic viscosity of 0.61 and a melting point of 256 ° C. was prepared as the polyester for the core component. The melting point was measured using a differential scanning calorimeter “DSC-2” manufactured by PerkinElmer Co., Ltd. at a temperature elevation rate of 20 ° C./min.
These raw materials are charged into a compound spinning apparatus at a mass ratio of 1: 1, and simultaneously spun and stretched at a temperature of 270 ° C., whereby a core having a low melting point copolymer polyester as a sheath component and polyethylene terephthalate as a core component. A 56 dtex 24f yarn comprising a sheath filament was obtained.
Using this core-sheath filament as a supply yarn, using a pin-type false twisting machine, false twisting was performed under the conditions shown in Table 1 to obtain a false twisted crimped yarn having fusion characteristics.
Next, the obtained false twisted crimped yarn was knitted into a knitted fabric having a smooth structure using a circular knitting machine “LPJ-H” (33 ″ × 28G) manufactured by Fukuhara Seiki.
The obtained knitted fabric was heat-treated using a pin tenter under the conditions described in Table 1.
In Example 1D, with respect to the polyester mass of the heat-treated knitted fabric, the alkali concentration is 40 g / L, the weight loss accelerator (DYK1125, manufactured by Yushi Kogyo Co., Ltd.), 3 g / L, and the chelate (D-40, manufactured by Yushi Co., Ltd.) The alkali was reduced for 60 minutes under the conditions of 3 g / L and a bath ratio of 1:20.
Table 1 shows the properties of the obtained false twisted crimped yarn and the knitted fabric.

The false twisted crimped yarn of the present invention has a stretch elongation rate of 40.5%, and the knitted fabrics of Examples 1A to 1C obtained using this false twisted crimped yarn have good bulkiness. The decrease in thickness was small even at a pressure of 1 kPa. In the knitted fabric obtained in Example 1D, a part of the sheath component is eluted due to the alkali weight loss, and the space inside the knitted fabric is expanded, so that the pore volume is increased, compared with the knitted fabric of Example 1A. The feeling of bulging, lightness and warmth are further improved.
On the other hand, since the knitted fabric of Reference Example 1 was not heat-treated, there was no fusion of the sheath component, and the decrease in thickness at a pressure of 1 kPa was large.
Since the false twist crimped yarn obtained in Comparative Example 1 has a low expansion / contraction elongation rate, the knitted fabric obtained from this has inferior bulkiness.

Claims (2)

A false twisted crimped yarn comprising a core-sheath filament,
The core component is mainly composed of an alkylene terephthalate unit, and is composed of a polyester having a melting point of 220 ° C. or higher.
The sheath component is composed of a low-melting point copolyester having a lower melting point than the polyester,
A false twisted crimped yarn having fusing characteristics, wherein the stretch elongation rate of the false twisted crimped yarn is 30% or more. 2. The false twist having fusion characteristics according to claim 1, wherein the low-melting point copolymer polyester constituting the sheath component contains at least a terephthalic acid component, an ethylene glycol component, and a 1,4-butanediol component. Crimped yarn.