JPH0340134B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a yarn for fur-like fabrics and a method for producing the same, and more particularly to a yarn for mink-like high-grade fabrics and a method for producing the same.

In recent years, fur-like fabrics have become more luxurious due to the preference for mink, and as a result, high-quality yarns for fur-like fabrics have been required. Due to the increasing density of fabrics, high-quality yarns are required for fabrics. In addition, the higher the blending ratio of the bristles, the better the fur-like fabric, and the straightness of the bristles is also essential.

Currently, ring spinning machines and ringen spinning machines are used to manufacture yarn for fur-like fabrics. However, according to this production method, it is extremely difficult to spin a high-quality yarn due to the number of fibers constituting the yarn, the extremely short fiber length, the thick and non-crimping of the strands, and the small amount of crimping of the fluff. Even if it could be spun, the quality of the yarn would be poor,
In addition, there are many disadvantages such as excessive shedding of the hair, and the need to reduce the spinning speed extremely. In other words, in order to obtain a high-quality yarn, it is necessary to add a lot of twist, and the twist causes the hair to become curly, making it far from mink hair. Furthermore, the yarn surface becomes uneven, causing fuzz and yarn breakage during the weaving process. Furthermore, when spinning at 8,000 rpm or higher using a ring spinning machine or ring spinning machine, the tip of the yarn becomes fluffy, with lapets, anti-ballooning bars, etc.
The separator, traveler, and ring receive contact impact, causing fatal defects such as bending or even branching. This is because a large amount of thick denier hair gathers on the yarn surface, which inevitably results in a large amount of fuzz, which easily causes this defect.

SUMMARY OF THE INVENTION In view of the above-mentioned drawbacks, an object of the present invention is to efficiently provide a high-quality yarn for fur-like fabrics.

In order to achieve this object, the present invention has the following configuration. That is, (1) in a composite yarn consisting of a blended component consisting of at least two staple fibers and a continuous yarn, (a) the twist of the blended component is substantially zero, and (b) at least one component A of the blended component has a sharpened tip. 1. A composite yarn characterized in that the continuous yarn is composed of fibers that can be dissolved and removed; and (2) a method in which a short fiber bundle is drafted and guided to an aerial spindle, and the continuous yarn wound on the outside of the aerial spindle is ballooned and wound into a fleece, wherein the short fiber bundle comprises at least two components. A method for producing a composite yarn, characterized in that one component is made of single fibers, one component has a sharpened end portion, and the fiber length is longer than the other components.

It is.

According to the present invention, the kink of the blended component consisting of at least two short fibers is substantially zero, the fibers for combing do not have any kink, and the opening properties and handling properties in subsequent steps are excellent.

Furthermore, at least one of the blended components has a sharpened end and the fiber length is longer than that of other components to obtain a two-layered mink-like fur, and the continuous threads are made of fibers that can be dissolved and removed. This makes it possible to dissolve and remove the material after fabrication and obtain higher quality mink-like fur.

In addition, short fiber bundles of at least two components, that is, 1
The fiber bundle of the component has a sharpened tip and has a longer fiber length than the other components is drafted, guided to a hollow spindle, and the continuous yarn wound around the outside of the hollow spindle is ballooned and wound into a fleece. The spinning method can provide high-quality fabric yarn without yarn breakage, at high speed, and can produce high-quality fur-like fabrics without any trouble in the fur-like fabric manufacturing process.

The present invention will be explained in more detail below based on the drawings. FIG. 1 illustrates a yarn produced by a conventional method. 1 is a blended component consisting of two or more staple fibers, and 2 is a continuous yarn. Only the blended component 1 is spun using a ring spinning machine, and later twisted in the opposite direction along with the continuous yarn 2 using a ring spinning machine. Even though the number of twists in the spinning machine and the number of twists in the threading machine are calculated to be the same, it is difficult to make the blended spinning component 1 completely twist-free due to differences in twist efficiency such as thread slip, elongation, and tension.
This causes the fibers for combing to become curly, and it takes a lot of work to open and handle the combs after the fabric is woven. In addition, the amount of shrinkage of the blended spinning component 1 during ring spinning becomes longer in the yarn process, resulting in a shape wound around the continuous yarn 2. This becomes more noticeable as the yarn count becomes finer and as the tension of the continuous yarn increases. It is clear that the fiber for curling hair with this yarn structure tends to become twisted. In addition, especially during the weaving process, healds and reeds tend to become fluffy, resulting in poor openings.
Eventually, the thread will break.

In addition, when spinning with a ring spinning machine, a lot of thick denier cutting fibers gather on the yarn surface, resulting in a lot of fuzz.
There is a disadvantage that the tip of the fluff is easily damaged.

FIG. 2 illustrates the thread of the invention. 1 is a blended component consisting of two or more short fiber components, and is completely twist-free. Although No. 2 is a continuous thread, the thread surface is smooth because the tension during winding is low. During yarn spinning, the blended spinning component 1 causes the curling fibers to not curl due to a small number of twists, a short twist time, etc. Furthermore, the combing fiber, which is one of the blended components, is uniformly blended, which reduces fluff. In addition, the relatively long fluffs have the same directionality, which, together with the above-mentioned factors, significantly improves the weavability in the warp yarn preparation process and weaving process, which take the directionality of the fluff into account.
In other words, it is preferable to use a threading method that best takes into consideration the ability of the thread to pass through the heddles of the loom. In addition, the yarn strength is 10 to 20% stronger than yarn produced by conventional methods, and this tendency increases as the yarn count becomes finer, which is also a unique effect.

FIG. 3 shows the method for manufacturing composite yarn of the present invention.

A short fiber bundle 11 is drafted by a draft par section 12 and guided to a hollow spindle 13. The continuous filament 14 wound around the outside of the hollow spindle 13 is wound around a fleece 15 while ballooning. The manufactured composite yarn 16 passes through a delivery roller 17 and is wound around a winder 18. The continuous yarn 14 can be easily wound in the z direction or the s direction depending on the winding direction.

In the present invention, the number of twists of the blended component is substantially zero, but the number may vary to some extent, for example, it may have a small number of 10 or less per 1 m. This value is the number of degrees of cancellation.

Further, the composite yarn of the present invention is characterized in that it is almost integrated as shown in FIG. 2, and the yarn shape is smooth and not uneven.

The short fiber component A of the present invention may be any synthetic fiber, but preferably polyester fiber. Especially polybutylene terephthalate,
Polybutylene terephthalate is preferred. This is because it has good dimensional stability, the fur is well-groomed and does not bend, and the tip is easily sharpened by an aqueous alkaline solution. The fiber length of the short fiber component A is preferably about 10 to 40 mm in view of handleability and product properties.

Further, the component to be mixed with the short fiber component A may be any known fiber such as natural fiber, chemical fiber, or synthetic fiber.

The continuous yarn may be any type of fiber that can be dissolved and removed. For example, polyester copolymers that can be dissolved and removed while being hydrolyzed in an alkaline aqueous solution, especially 5-sodium sulfoisophthalate,
and/or polyester copolymerized with polyalkylene glycol, polyolefin such as polystyrene that dissolves in organic solvents, polyvinyl alcohol-based polymer that dissolves in warm water, and the like can be used. In particular, polyvinyl alcohol filaments are preferred from the viewpoint of handling safety. The number of windings of the continuous yarn is preferably 300 to 900 T/m.

Further, the composite yarn of the present invention preferably has a cotton count of about 10 to 30.

This will be explained below using examples.

Example 1 PBT40d×30mm (flat cross, yarn dyed, 47% mixed) as short fiber for hair, as short fiber for cotton hair
PBT1.7d×20mm (yarn dyed, 39% mixed) and aqueous PVA stable 2d×38mm (14% mixed) are spun into water-soluble PVA filament yarn.
It was spun using a covering spinning machine at 56D-16F. (Spinning count 15′ ^S , twist number 457T/m, twist direction ^Z , spinning speed
(14.2 m/min) There were no thread breakages, and the performance was extremely good. As shown in FIG. 2, the resulting composite yarn had a smooth surface and little fuzz.

Next, the ground thread is 40/40 polyester spun yarn vertically and horizontally.
2 ^1S was woven into a pile fabric using a double bed loom using the experimentally produced pile yarn as described above. The ground weave density is vertical x horizontal: 64 x 45 pieces/inch, the pile density is vertical x horizontal: 32 x 30 pieces/inch, and the pile length is 30 mm. 15% polyurethane is applied to the obtained gray fabric.
Bagging with a DMF solution, coagulating the polyurethane with hot water at 80°C, simultaneously dissolving and removing the PVA filament yarn, dehydration, drying, and brushing were repeated to defibrate the pile, smooth the hair, and remove loose hair. Weavability was also good and there were no particular problems. The backing process also showed good adhesion of polyurethane because the thread was thin. Incidentally, an attempt was made to spin fabric yarn using the conventional method, but the yarn broke frequently and the appearance of the yarn was poor, confirming the effectiveness of the present invention.

The pile fabric using composite yarns of the present invention has a more mink-like appearance and texture because it is possible to improve the straightness of the pile and increase the density of the pile after finishing.

[Brief explanation of drawings]

FIG. 1 is a side view schematically illustrating a yarn manufactured by a conventional method, and FIG. 2 is a side view schematically illustrating a yarn according to the present invention. FIG. 3 shows the method for manufacturing the composite yarn of the present invention. 1: A blended component consisting of two or more short fibers,
2: Continuous yarn material, 11: Short fiber bundle, 12: Draft part, 13: Hollow spindle, 14: Continuous yarn material, 15: Fleece, 16: Composite yarn, 17:
Delivery roller, 18: Winder.

Claims (1)

[Scope of Claims] 1. In a composite yarn consisting of a blended component made of at least two short fibers and a continuous yarn, (a) the twist of the blended component is substantially 0, and (b) at least one component A of the blended component is A composite yarn characterized in that it has a sharpened tip, has a longer fiber length than other components, and (c) the continuous yarn consists of fibers that can be dissolved and removed. 2. The composite yarn according to claim 1, wherein the short fiber component A is made of polyester fiber. 3. The composite yarn according to claim 1, wherein the continuous yarn is made of polyvinyl alcohol filament. 4. The composite yarn according to claim 1, wherein the short fiber component A has a length of 10 mm to 40 mm. 5. The composite yarn according to claim 1, wherein the yarn count is 10 to 30 (cotton count). 6. A method in which a short fiber bundle is drafted, guided to an aerial spindle, and wound around a fleece while ballooning the continuous yarn wound on the outside of the hollow spindle, wherein the short fiber bundle is made of at least two components of short fibers. A method for producing a composite yarn, characterized in that one component has a sharpened end portion and has a longer fiber length than the other components. 7 The number of windings of continuous yarn is 300T/m to 900T/
7. The method for manufacturing a composite yarn according to claim 6, wherein the composite yarn is m.