JPH06272128A - Gathering sewing yarn - Google Patents

Abstract

PURPOSE:To obtain a sewing yarn capable of simply and uniformly carrying out gathering. CONSTITUTION:This sewing yarn contains a synthetic fiber having high shrinkage and has 10-60% shrinkage factor at 100 deg.C dry heat and has gathering- forming ability capable of forming arbitrary gather to a sewn product by heat shrinkage after sewing.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sewing thread capable of easily gathering.

[0002]

2. Description of the Related Art Gathering techniques have been widely used in the manufacture of clothes. Gathering is a sewing technique in which only one fabric to be sewn is contracted and sewn,
It is a well-known gathered skirt or the like, in which the contracted cloth becomes uneven gathers to add aesthetic appeal to clothes.

Another method of using gathering is the Isekomi technique. Isekomi is a three-dimensional forming technique that is often used for sleeves, shoulders, etc. of suits, and only one of the two fabrics is used. This is a sewing technique in which after gathering by gathering by shrinking and stitching, the portion of the gather is processed with an iron etc. to erase (partially shrink) the gather and form a smooth solid body without irregularities.

Gathering is an important process that affects the quality of clothes, but it is a difficult process and a complicated process that requires a high degree of skill.

Conventionally, (a) a method in which the fabric end on the gathering side is tentatively sewn, then the sewing thread end is pulled to put gathers, and then stitched, (a) a gathering sewing method using a gathering sewing machine, Alternatively, (c) a method in which a sewing machine is used to gather while gathering the cloth on the gathering side forcibly during stitching has been used.

However, the method (A) is not only difficult to gather uniformly, but also extremely troublesome. Further, in the method (a), not only the gathering sewing machine is expensive and the product cost becomes high, but also a high level technique is required for sewing machine adjustment. Further, the method (c) has a drawback that it is a method that can be performed only by a skilled worker having an extremely high level of sewing technique and cannot be performed by a general worker.

As mentioned above, although gathering is a very important technique, there is currently no simple gathering method.

[0008]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a sewing thread which eliminates the above-mentioned drawbacks of the prior art and allows easy and uniform gathering.

[0009]

According to the present invention, there is thus provided a sewing thread containing highly shrinkable synthetic fibers, wherein the shrinking rate of the sewing thread at a dry heat of 100 ° C. is 10 to 10.
A gathering sewing thread having a gather forming ability of 60%, which is capable of forming an arbitrary gather in a sewn product by heat shrinkage of the sewing thread after sewing, is provided.

The high-shrinkage synthetic fiber used in the present invention is a synthetic fiber having a heat shrinkage ratio much higher than that of a synthetic fiber usually used for a sewing machine thread, and has a degree of shrinking the entire sewing machine thread by heat treatment. Synthetic fiber that generates shrinkage stress. The shrinkage ratio of the highly shrinkable synthetic fiber at 100 ° C. is preferably 30 to 80%.

Examples of such synthetic fibers include polyester fibers which are not heat-set at all in the yarn making process or slightly heat-set, and copolyester fibers obtained by copolymerizing polyethylene terephthalate with a third component. It is illustrated.

[0012] It is preferable that the high shrinkage synthetic fiber is easily stretchable and plastically deformable after heat shrinkage. Easily stretchable means that it can be stretched with a force of pulling by hand and can be stretched with a force of about 2 kg or less. Plastic deformability means that the elastic recovery after elongation is poor and the residual strain is large.

Examples of synthetic fibers exhibiting such properties include synthetic fibers which have not been drawn or have been drawn slightly after spinning. Especially 2000-4000
Polyester fiber generally called POY, which is spun at a spinning speed of m / min, has a large heat shrinkage ratio and is easily stretchable,
In addition, it has excellent plastic deformability and is suitable for the present invention.

The content of the high shrinkage synthetic fiber in the sewing thread may be 100%, or may be mixed with other fibers. When mixed, it is preferably mixed with high-strength synthetic fiber.

As the high-strength synthetic fiber, for example, polyester fiber or 500 which has been sufficiently stretched and heat-treated is used.
A polyester fiber generally called USY, which is spun at an ultra high speed of 0 m / min or more, is preferably exemplified.

As the mixing method, for example, a method in which a high shrinkage synthetic fiber and another fiber (such as a high strength synthetic fiber) are combined and twisted, and a method in which the above two kinds of fibers are combined by using an air nozzle such as interlace or Taslan is used. , Or a method using both of them.

Although the content of the high shrinkage synthetic fiber to the sewing thread is not limited, it is preferable that the content of the high shrinkage synthetic fiber is high when the gathering force is important (for heavy-weight materials, etc.). When importance is attached to the sex, the smaller the number, the better. Generally, the content of the high shrinkage synthetic fiber to the sewing thread is preferably 50 to 100%.

Next, the high-shrink synthetic fiber or the fiber obtained by mixing the high-shrink synthetic fiber with another fiber is twisted into a single yarn, and the required number of the single yarns are aligned and the upper twist is applied to the sewing machine. Get the thread.

The sewing thread of the present invention thus obtained must have a shrinkage of 10 to 60% at 100 ° C. in dry heat. If the shrinkage ratio is less than 10%, the amount of gathering is small and the object of the present invention cannot be achieved. On the contrary, 60%
If it exceeds, the gathering amount will be excessive and will not be uniform.

The sewing machine thread of the present invention preferably has a residual strain rate of 30% or more after 10% elongation after shrinking at 100 ° C. When the strain rate is less than 30%, it is difficult to adjust the amount of gathering.

Furthermore, the strength of the sewing thread of the present invention is 2.2.
The range of up to 6.0 g / de is preferable. Strength is 2.2g
If it is less than / de, it is unsuitable as a sewing thread because it has poor sewability and poor handleability.

The sewing thread of the present invention must withstand the tension received by the sewing thread during sewing to form the seam.
For that purpose, it is preferable that the sewing thread has a certain level of initial modulus and primary yield stress.

That is, the initial modulus of the sewing thread of the present invention is 100 kg / mm ² or more, and the primary yield stress is 0.2 g.
/ De or more is preferable. However, if the modulus and the primary yield stress are unnecessarily high, the extensibility is poor, the sewing thread is too hard, and the manufacturing cost is increased. Therefore, the modulus is 1200 Kg / mm ² or less, and the primary yield stress is 1.8 g / de or less. Is preferred.

[0024]

Since the sewing thread of the present invention has the above-mentioned structure, it enables easy and uniform gathering.

That is, in the case of gathering using the sewing thread of the present invention, first, the sewing thread is used for the portion to be gathered and the sewing is performed. Then, when the seams after the sewing is subjected to a relaxation heat treatment such as steaming with an iron, the high shrinkage synthetic fibers contained in the sewing thread are heat shrunk to generate gathers.

At this time, even if the gather amount is larger than the desired amount, the recoverability after elongation of the high shrinkage synthetic fiber after heat shrinkage is poor, and if the residual strain is large, the sewing machine thread itself exhibits plastic deformability. The gather portion can be pulled and adjusted and held to a desired gather amount.

If the heating temperature at this time is too low, the shrinkage amount will be insufficient, and if it is too high, the sewing thread will deteriorate.
About 150 ° C is preferable. The heating may be performed by dry heat or wet heat.

When the high-shrink synthetic fiber and the high-strength synthetic fiber are mixed, the mixed high-strength synthetic fiber first exhibits the performance and exhibits the effect of improving the sewability when sewing. Then, a relaxation heat treatment is performed, and this time the mixed high shrinkage synthetic fiber exerts its function to shrink the seam and generate gathers. At this time, the high-strength synthetic fiber has been used and is in a loosened state, so that the gather portion can be pulled by hand to adjust the gather amount to a desired amount.

By stitching the gathering fabric thus obtained, a uniformly gathered sewn product can be obtained.

The sewing thread of the present invention may be used to sew only a part of a cloth or garment and then shrink it to partially form an uneven pattern.

Hereinafter, the present invention will be described more specifically with reference to Examples. In addition, each physical property in an Example is measured by the following method.

(1) Shrinkage The shrinkage was measured according to JIS-L-1013-7.15 (2) Method A (dry heat shrinkage), the treatment time was 10 minutes, and the treatment temperature was 100 ° C.

(2) Residual strain rate The residual strain rate was 0.03 g /
With an initial load of de, it is installed at a gripping interval of 20 cm, and the pulling speed is 10 cm / min, and the gripping interval is 10%.
Stretch to (2 cm).

Immediately thereafter, the residual strain rate was calculated by the following equation using the graph obtained by removing the initial load at the same speed. Residual strain rate (%) = (l-l ₁ ) / l x 100 l; length at 10% elongation (2 cm) l ₁ ; length deloaded to initial load (cm)

(3) Strength The strength was measured according to JIS-L 1013-7.5.1.

(4) Initial modulus It was measured according to JIS-L-1013-7.10.
However, as the initial modulus, the apparent Young's modulus value described in Note 2 of the above method is used.

(5) Primary yield stress Measured by JIS-L-1013-7.5.1 method, the strength-elongation curve obtained was obtained before the primary yield (rise portion).
The stress at the intersection of the tangent to the curve and the tangent to the curve after the primary yield was taken as the primary yield stress.

[0038]

Example 1 [Manufacture of highly shrinkable synthetic fiber] Polyethylene terephthalate having an intrinsic viscosity [η] = 0.6 was spun at a spinning speed of 3000 mm / min to obtain a highly shrinkable synthetic fiber of 70 denier / 24 filament (unstretched). Yarn).

[Production of High Strength Synthetic Fiber] Intrinsic Viscosity [η]
= 0.9mm polyethylene terephthalate 2500mm
The unstretched yarn obtained by spinning at a spinning speed of 1 / min is drawn 2.5 times, and then heat-treated at a constant length of 210 ° C. to synthesize 30 denier / 12 filaments with low shrinkage and high strength. Fiber was obtained.

[Processing of sewing thread] After the high shrink synthetic fiber and the high strength synthetic fiber are aligned in the same length and wound on a bobbin,
Using an Italy twisting machine, S900T / M was subjected to undertwisting to obtain a composite single yarn for sewing thread. After pulling three of the composite single yarns and bobbing them, Z700T is made using an Italy twisting machine.
3% of silicon-based oil on the yarn obtained by twisting / M
This was applied to obtain a sewing thread.

The shrinkage factor of the sewing thread at 100 ° C. is 4
3%, residual strain rate after 10% elongation after shrinking at 100 ° C. is 63%, strength is 2.8 g / de, initial modulus is 460 Kg / mm ² , primary yield stress is 0.7 g / d.
It was e.

[Gathering Test] A Tetoron / cotton mixed broad cloth in one weft direction was sewn at a sewing speed of 2000 rpm using a lock stitch sewing machine (DDL555) manufactured by JUKI Corporation.
Sewing needle # 11, needle thread tension 60g, bobbin thread tension 15
g, seam pitch 15 stitches / 3cm, seam allowance 0.5c
The obtained sewn product sewn under the condition of m was steamed at a distance of about 5 mm from the seam using a steam iron at 150 ° C. When the seam was steamed, the seam contracted by about 20% and gathered. Occurred. 10% by pulling the gather part by hand
After adjusting the amount of gather, the gathered cloth and the cloth not gathered were sewn together and the gathered state was observed. As a result, a very uniform and beautiful gather was formed.

[0043]

[Comparative Example 1] The same procedure as in Example 1 was repeated except that the denier of the high-strength synthetic fiber was 50 denier / 24 filaments and the two high-strength synthetic fibers were aligned in the same length and bobbed. did.

The shrinkage of the obtained sewing thread at 100 ° C. was 6%, and gather was hardly generated even after the heat treatment after sewing.

[0045]

EFFECTS OF THE INVENTION By using the sewing thread of the present invention, it is possible to easily impart uniform gathers without requiring a high technique.

Claims (4)

[Claims] 1. A sewing thread containing a high shrinkage synthetic fiber, wherein the shrinkage rate of the sewing thread at a dry heat of 100 ° C. is 10 to 60%, and the sewing product is produced by heat shrinkage of the sewing thread after sewing. A gathering sewing thread characterized by having a gather-forming ability that allows any gather to be formed in the gather. 2. The sewing thread according to claim 1, wherein the high-shrinkage synthetic fiber is a synthetic fiber that is plastically deformable after heat-shrinking. 3. The sewing thread according to claim 2, which has a residual strain rate of 30% or more after 10% elongation after shrinking at 100 ° C. in dry heat. 4. The strength of the sewing thread is 2.2 to 6.0 g / d.
e, the initial modulus is 100 to 1200 Kg / mm ² ,
The sewing thread according to claim 1, 2 or 3, which has a primary yield stress of 0.2 to 1.8 g / de.