KR840001633B1 - Self - texturing splittable conjugate yarn - Google Patents

Abstract

A conjugate filament is composed of nylon 66 and polyethylene terephthalate, acially disposed in an adhering relationship, the filament being free of crimp and consisting of sub-filaments releasably attached to ine another in a side-by-side relationship. Uni-component sub-filaments is hollow. Specifically, the conjugate filament is extruded in a hollow form at such a high spinning speed and under such rapid quenching conditions that the split-off sub-filaments posses substantial, latent, torqueless, helical crimp, e.q.after working the woven fabric in boiling water to effect splittimng and frimping.

Description

Melt Spinning Method of Hollow Conjugate Filament

The accompanying drawings are bottom views of preferred spinning nozzles used in practicing the present invention.

The present invention relates to a conjugate filament separable in the form of a sub-filment. More specifically, the present invention relates to methods and products wherein the conjugate filaments themselves do not have a real texture, while the subfilaments separable therefrom have no real potential torque. less) has a spiral crimp.

Conjugate filaments separable into subfilaments are typically described in Hayashi, U.S. Patent No. 4,051,287. As described in this patent, alternating segments of polyamides with polyesters form hollow filaments that are spun in side-by-side adhesive relationships and are separable in the form of subfilaments. Form. Since such subfilaments can be spun into smaller deniers than can be easily spun as separate filaments, fabrics made from these subfilaments provide a soft hand. Hayashi patent has a subfilament

According to the present invention there is provided a conjugate filament that is separable in the form of a subfilament having a helical crimp with no real potential torque.

A primary feature of the present invention is a molten stream formed from different polymer segments extending in an axial direction alternately arranged in a parallel bonding relationship in the melt spinning method of separable hollow conjugate filaments in the form of spontaneously crimped subfilaments. ) To form a molten stream by quenching the molten stream under a predetermined condition to form a filament, and extracting the filament from the molten stream at a predetermined spinning speed, wherein the polymer, the predetermined spinning speed and The predetermined condition is that the subfilament separated from the filament is selected such that the subfilament has a spiral crimp without actual potential torque property.

In another aspect of the invention, some segments are polyamide polymers, and other segments are polyester polymers.

In another aspect of the invention, the polyamide polymer is nylon 66 and the polyester polymer is polyethylene terephthalate.

According to another feature of the invention, there is provided a conjugate filament in the form of a subfilament bonded in parallel to each other detachably

According to another feature of the invention the filament is hollow.

In another feature of the invention, some of the subfilaments are formed from polyamide polymers and the other subfilaments are formed from polyester polymers.

In another aspect of the invention, the polyamide polymer is nylon 66 and the polyester polymer is polyethylene terephthalate.

Other features of the present invention will be described in part below and in part by reference to the accompanying drawings.

The accompanying drawings are bottom views (viewed below) of preferred spinning nozzles used in practicing the present invention.

As shown in the figure, a preferred spinneret model is generally provided with several arcuate or U-shaped slots 20 in a spinneret blank 22 arranged substantially symmetrically around a center point. The open end of the shape is directed inward. Several slots 20 are composed of a composite spinneret for spinning a strand of filaments. The slot 20 extends throughout the blank 22 except for the concave web portion 24 at the apex of each slot 20. Two different polymers are fed into a composite spinning nozzle (eg, seed-cored) with dotted circles representing the partitions between the two polymers. Adjacent tip portions of adjacent slots 20 are close enough to allow melt flows from there to join under spinneret. Also for

Thus, each polymer segment has a segment periphery exposed to quench outside of the hollow stream, and the opposite part is enclosed and not exposed because it is located inward. According to the present invention the melt flow is exposed while rapidly and sufficiently quenched under radial stress, creating a helical crimp with no actual potential torque in the subfilament separable from the conjugate filament.

Example 1

)에 20℃에서 냉풍을 공급한다(이 냉풍은 중합체류의 수평으로 향하여 25m/min의 속도로 공급된다). 냉각부 하부에서는 수증기를 필라멘트에 가하여 통상의 가공처리를 한 다음 필라멘트를 권취한다.When the nylon 66 polymer and polyethylene terephthalate polymer, each of which is the average molecular weight for apparel use, are extruded through the composite orifice at a temperature of 290 ° C., the nylon polymer becomes a core-side core-shaped core close to the composite orifice. Equal amounts of two polymers are fed at an extrusion rate selected to produce conjugate filaments having 19.5 deniers under a spinning rate of 1500 yds (about 1350 m) min. Cooling part directly below the spinning nozzle (height

) Is supplied with cold air at 20 ° C. (this cold air is fed at a rate of 25 m / min toward the horizontal of the polymers). In the lower part of the cooling section, water vapor is added to the filament, followed by the usual processing, and then the filament is wound up.

Next, the spun filament is stretched at a speed of 6.5 m / min and a draw ratio of 2.16 on a 132 ° C. contact heater (the length of the heater is 0.4 m). 12 strands of conjugate filament

Example 2

17 spun filaments were simultaneously spun and collected with multifilament yarns under the spinning conditions of Example 1. Subsequently, the spun yarn is stretched at a speed of 540 m / min on a heater (length 2 m) fixed at 220 ° C. to process the texture. The resulting textured yarns have abundant bulkiness and high coating power when separated and subdivided into subfilaments.

Example 3

Example 1 is repeated except that the spinning speed is increased to 4500 m / min and the denier of the conjugate filament is reduced to 4. The obtained subfilament is immersed separately in boiling water to form a high bulk and lofted yarn. Fabrics obtained from conjugated yarns obtain a very flexible hand, improved bulk and coverage when the fabric has undergone sufficient mechanical treatment to separate the yarns into subfilament forms. In most cases, simply exposing the fabric to boiling water is sufficient because the flexibility of the yarns contained within the fabric tissue acts to separate the subfilaments.

Claims (1)

In the melt spinning method of the hollow conjugate filament, which is separable in the form of spontaneously crimped filament, the melt is formed by extruding hollow melts formed from different polymer segments arranged in alternating axial directions in parallel adhesive relations, The melt flow is quenched under a predetermined condition to form a filament and the filament is taken out at a predetermined spinning speed, wherein the polymer at the predetermined spinning speed and the predetermined conditions are substantiated by the subfilament separated from the filament. Melt spinning method of a hollow conjugate filament, characterized in that it is selected to have a spiral crimp with no latent torque.

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