JP2004218162A - Composite yarn for interlining and cloth for interlining - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cloth for an interlining exhibiting less reduction of forming property and form-maintaining property, and rigidity in consumption stage, having a good dimensional stability even by performing a cleaning with water and a smooth touch feeling on its surface, and a composite yarn for constituting the cloth. <P>SOLUTION: This composite yarn for the interlining is constituted by in a plurality of core yarn filaments and a fine filament yarn arranged around the core yarn filaments, and is processed by performing the yarn twisting of the core yarn filaments with the fine filament yarn by 4,500-20,000 twisting factor. The core yarn filaments consist of a thermoplastic synthetic fiber having 10-50 decitex single fiber fineness, and the fine filament yarn consists of fine filaments or a spun yarn consisting of a thermoplastic synthetic fiber having <10 decitex single fiber fineness. The fine filament yarn is preferably a spontaneous elongation yarn or a false-twisted yarn. The cloth for the interlining is obtained by performing an adjusting process on a raw fabric obtained by weaving or knitting the composite yarn for the interlining as a weft or warp yarn. In the adjusting process, a touch-processing by using a touch-adjusting agent is not performed. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

【００４７】
【発明の効果】
以上詳述したように、この発明によれば、次のような効果を奏する。
本発明の芯地用複合糸によれば、成形性、保型性及び消費段階での剛性の低下が少なく、水洗いクリーニングしても寸法安定性が良く、さらに表面の感触が滑らかな芯地用布帛を容易に製造することができる。本発明の芯地用布帛によれば、成形性、保型性及び消費段階での剛性の低下が少なく、水洗いクリーニングしても寸法安定性が良く、さらに表面の感触を滑らかにすることが容易である。[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an interlining fabric mainly used for a front body or a shoulder portion of thick clothing (heavy clothing) such as a suit, a jacket, and a coat, and a composite yarn for interlining forming a warp or a weft of the interlining fabric. It is about. More specifically, it is mainly used as a substitute for a wool interlining, and is suitably used as a replacement for an interlining fabric excellent in shape retention and dimensional stability, and an animal hair fiber blend spun yarn constituting the wool interlining. The present invention relates to a composite yarn for interlining.
[0002]
[Prior art]
BACKGROUND ART Conventionally, as an interlining fabric such as a front body of heavy clothing, a hair interlining has been used in order to impart moldability and shape retention to clothing. As the material of the warp or weft constituting this hair interlining, moderate rigidity and resilience are required, so that animal hair fibers having a large fineness and tension (goat, camel, karakul, yak, etc.) An animal hair fiber blended spun yarn (having a thickness of 9 to 18 meters) manufactured by blending rayon, wool, or the like is used. Further, these animal hair fiber-spun yarns are subjected to a resin processing step of adhering a feeling adjusting agent (polyvinyl alcohol-based resin, vinyl acetate-based resin, etc.) in a fabric processing step, and their rigidity and resilience are reduced. It is designed to further enhance the moldability and the shape retention properties.
[0003]
For this reason, the finished interlining has coarse fibers protruding from the surface, and the feel is a rough steel and paper-like. In addition, in the hair interlining, a decrease in rigidity due to dropping of the feel adjusting agent is observed after dry cleaning or wearing, which is a stage of consuming clothes. Also, in recent years, softening and lightening of clothes have progressed, and the "zipper phenomenon" in which the animal hair fibers of the hair interlining and the front body of the clothes are partially entangled is likely to occur. This fastener phenomenon is a phenomenon in which an adhesive interlining used in the front body and a coarse animal hair fiber slightly protruding from the surface of the hair interlining are caught and entangled. When this phenomenon occurs, even if it is corrected with an iron, press machine, etc., by moving or wearing the clothes, the hair interlining and the front body move with each other, entanglement occurs again, and correction is impossible It is.
[0004]
The quality required for "hair interlining" is not only moderate rigidity and resilience, but also a feeling of roundness and swelling (not paper-like), little change in rigidity, dimensional stability against moisture, heat, etc. In addition to good things, etc., prevention of fastener phenomenon is also important in recent years. In recent years, heavy clothing (suits, jackets, etc.) that can be washed with water instead of dry cleaning due to environmental issues has been commercialized. In conventional hair-interlining fabrics, shrinkage often occurs due to washing with water and dimensional stability. However, dimensional stability in washing with water is also required.
[0005]
On the other hand, as an interlining fabric used as a substitute for the hair interlining, for example, an interlining for clothing disclosed in Patent Document 1 and a base fabric for interlining disclosed in Patent Document 2 are known. I have. In the interlining for clothing, a yarn containing 30 to 100% by weight of a polyester fiber staple having a hollow ratio of 10 to 50% is used for a warp and / or a weft. In this interlining for clothing, the solution to the fastener phenomenon has not yet been sufficiently solved because the surface is difficult to smoothen. Further, the base fabric for an interlining is a fabric in which a blended yarn of a core-sheath type composite fiber having a low melting point component disposed in a sheath portion and a polyester hollow fiber is used at least in part. 3 to 40% by weight with respect to the whole yarn, and the hollow ratio of the polyester hollow fiber is 15 to 40%. In this interlining fabric, rigidity and resilience are inferior to those of the wool interlining. These clothing interlinings and interlining base fabrics are both excellent in shape retention and lighter in weight as compared with the hair interlining, but sufficiently satisfy recent requirements. Not something.
[0006]
[Patent Document 1]
JP-A-7-216612
[Patent Document 2]
JP-A-9-188938
[0007]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described circumstances, and aims to reduce the reduction in moldability, mold retention and rigidity at the consumption stage, and to maintain dimensional stability even when washed with water. An object of the present invention is to provide a composite yarn for an interlining, which can easily produce an interlining fabric having a smooth surface feel. Other objects are interlining, which has a small decrease in moldability, shape retention, and rigidity at the consumption stage, has good dimensional stability even when washed with water, and has a smooth surface feel. To provide a fabric for use.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, a composite yarn for interlining according to the first aspect of the present invention is a composite for interlining comprising a plurality of core yarn filaments and a flower arranged around the core yarn filament. A yarn, wherein the core yarn filament is composed of a thermoplastic synthetic fiber having a single yarn fineness of 10 to 50 decitex, and the flower yarn is a flower yarn filament made of a thermoplastic synthetic fiber having a single yarn fineness of less than 10 decitex, And at least one selected from spun yarns having a single-fiber fineness of less than 10 decitex, and being formed by twisting the core yarn filaments and the flower yarns so that the twist coefficient becomes 4500 to 20,000. It is assumed that.
[0009]
The composite yarn for interlining according to the second aspect of the present invention is obtained by coloring at least one selected from the core yarn filaments and the flower yarn filaments in the first aspect.
[0010]
A composite yarn for interlining according to a third aspect of the invention is characterized in that, in the invention according to the first or second aspect, the flower yarn filament is constituted by a spontaneously elongated yarn or a false twisted yarn. It is.
[0011]
The interlining fabric of the invention according to claim 4 is an interlining fabric provided with a warp and a weft, and is a yarn constituting at least one kind selected from the warp and the weft. The composite yarn for interlining according to any one of the above, is used.
[0012]
According to a fifth aspect of the present invention, there is provided the interlining fabric according to the fourth aspect, wherein the weft includes the interlining composite yarn and 5 to 30% of the heat-fusible fiber in the warp. Is characterized by including the following.
[0013]
According to a sixth aspect of the present invention, in the interlining fabric according to the fifth aspect of the present invention, the heat-fusible fiber is composed of a core-sheath type composite fiber having a core and a sheath, and The melting point of the core part is 100 to 160 ° C., and the melting point of the core part is higher than the melting point of the sheath part.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments embodying the present invention will be described in detail.
The composite yarn for interlining according to the embodiment is configured to include a filament yarn having a single yarn fineness of 50 decitex (dtex) or less. The composite yarn for interlining is composed of a plurality of core yarn filaments (a plurality of one type or a plurality of types), and a flower arranged around the core yarn filaments. It is manufactured by twisting a core yarn filament and a flower yarn. The composite yarn for interlining is used as at least one selected from a warp and a weft of a cloth for interlining (woven or knitted fabric) used for heavy clothing such as suits, jackets and coats, and preferably as a weft. And this composite yarn for interlining has the effect of imparting good shape-retaining performance to the interlining fabric and improving resilience.
[0015]
As the material of the composite yarn for interlining, thermoplastic synthetic fibers such as polyester and nylon are used. As the material of the core yarn filament which is the main filament yarn having the largest single yarn fineness, polyester is most preferably used because the material itself has high rigidity (retention property). As the thickness of the yarn constituting the interlining composite yarn, the single yarn fineness is 50 dtex or less, preferably 0.5 to 50 dtex, more preferably 0.5 to 40 dtex, and still more preferably 1.0 to 30 dtex. . When the single yarn fineness of the filament yarn exhibiting rigidity exceeds 50 dtex, the rigidity of the composite yarn for interlining is too high, and it is extremely difficult to stably perform twisting. Further, at this time, the rigidity when the interlining fabric is produced becomes too high, which is not suitable. Further, a yarn having a lower limit single yarn fineness of less than 0.5 dtex of the yarn constituting the interlining composite yarn is not recommended because it is expensive and increases the cost.
[0016]
The thickness of each core filament is 10 to 50 dtex, preferably 20 to 40 dtex, and more preferably 20 to 33 dtex in order to impart high rigidity (bending rigidity) to the interlining fabric. When the single yarn fineness of the core yarn filament exceeds 50 dtex, the rigidity of the composite yarn for interlining becomes too high, so that it is extremely difficult to stably perform twisting. Further, at this time, the rigidity when the interlining fabric is produced becomes too high, which is not suitable. Conversely, if it is less than 10 dtex, the rigidity required for the interlining fabric cannot be sufficiently imparted.
[0017]
Further, when a filament yarn (preferably made of polyester) having a single yarn fineness of 10 to 25 dtex is used as the core yarn filament, a fabric for an interlining material having a tension suitable for the front body of heavy clothing is manufactured. be able to. In addition, when a filament yarn (preferably made of polyester) having a single yarn fineness of 25 to 50 dtex is used as the core yarn filament, a fabric for an interlining material having a strong tension, which is suitable as a shoulder-increased interlining for heavy clothing, is used. Can be manufactured.
[0018]
Further, the composite yarn for interlining preferably contains a fine filament yarn (flower filament) or a spun yarn having a single yarn fineness of less than 10 dtex as a flower yarn so as to be located on the outer periphery thereof. This flower yarn is twisted together with the core yarn filament. The flower yarn is configured so as to fill in irregularities formed on the surface of the composite yarn for interlining when the core yarn filament is twisted, so that the feel of the surface of the interlining fabric is made smooth, and the spun yarn is formed. In this case, the composite yarn for the interlining is less likely to drop off in the cross section of the interlining fabric.
[0019]
As the thickness of each flower yarn filament, the single yarn fineness is less than 10 dtex, preferably 0.5 dtex or more and less than 10 dtex, more preferably 0.5 to 9 dtex, and still more preferably 1.0 to 5 dtex. If the single yarn fineness of the flower yarn filament is 10 dtex or more, the unevenness cannot be smoothly filled, so that it is difficult to make the surface of the interlining fabric smooth. Conversely, yarns having a single-fiber fineness of less than 0.5 dtex are not recommended because of their high prices and increased costs. In addition, the single yarn fineness of the flower yarn filament is preferably 1/30 to 1/3 of the single yarn fineness of the core yarn filament in order to make the surface of the interlining fabric easy to feel smooth. More preferably, it is 1/10 to 1/5.
[0020]
As the thickness of each spun yarn, the fineness of a single yarn is less than 10 dtex, preferably 0.5 dtex or more and less than 5 dtex, more preferably 0.5 to 2.0 dtex, and even more preferably 0.8 to 1.4 dtex. It is. If the single yarn fineness of the spun yarn is 10 dtex or more, the surface of the composite yarn becomes too uneven. Conversely, if the single yarn fineness is less than 0.5 dtex, it is not recommended because the cost increases.
[0021]
On the other hand, as the flower yarn, a flower yarn filament or a spun yarn is used. The raw yarn filaments may be raw yarns or false twisted yarns, but are composed of spontaneously elongated yarns or false twisted yarns to give a high swelling feeling to the surface of the composite yarn for interlining and the fabric for interlining. Is preferred. In addition, at this time, the single yarn fineness of each flower yarn filament needs to be less than 10 dtex. The spontaneously elongated yarn is a thermoplastic synthetic fiber that spontaneously expands by heat treatment in a rearranging process after weaving and knitting into an interlining fabric, and polyester-made yarn is suitably used. The false twisted yarn is a multifilament yarn imparted with a desired swelling feeling by the false twisting process, and a polyester false twisted yarn exhibiting crimp by crimping is most preferably used.
[0022]
This composite yarn for interlining is twisted with all of the contained filament yarns or all of the contained filament yarns and spun yarns in order to give the interlining fabric a strong tension (elasticity, resilience and recovery). It is manufactured by twisting with a machine. Although the direction of the twisting yarn is not particularly limited, it is preferable to use S and Z alternately. The twist coefficient at this time is 4500 to 20000, preferably 6000 to 15000, and more preferably 8000 to 12000. The twist coefficient is determined by the following formula using the number of twists (twice / m) of the composite yarn for interlining and the thickness (dtex) of the yarn.
[0023]
Twist coefficient = (number of twists) x (thickness of yarn)^1/2
When the twist coefficient is less than 4500, irreversible plastic deformation may occur when the interlining composite yarn is locally (hairpin-shaped) bent, and the clothing provided with the interlining fabric May cause irreversible fold formation during use or storage of the. At this time, the elasticity, resilience, and recovery (stiffness) of the interlining composite yarn are insufficient. On the other hand, if it exceeds 20,000, the untwisting torque is too strong, and the composite yarn for interlining becomes unstable. Also, at this time, the surface of the interlining fabric has a textured surface, resulting in a rough and rough texture. Further, there is no limitation on the presence or absence of heat setting after twisting. Further, the thickness of the entire composite yarn for interlining is preferably 300 to 1200 dtex, more preferably 500 to 1000 dtex, in order to exhibit the shape retention performance suitable for the interlining fabric.
[0024]
The composite yarn for interlining may be composed entirely or partially of a colorless, white or monochromatic (colored in a single color) filament yarn, but the color tone of the composite yarn may cause a sense of marbling. In order to improve the design property by providing the composite yarn, it is preferable that at least one of the filament yarns constituting the composite yarn is constituted by a colored yarn. This marbling interlining composite yarn is most simply constituted by forming only the core yarn filament by a colored yarn, or by configuring at least one kind of filament yarn constituting a flower yarn filament by a colored yarn. Is done. Further, the composite yarn for interlining may be composed of two or more kinds of colored yarns colored in two or more different colors.
[0025]
The interlining fabric of the embodiment is obtained by organizing and processing a woven knitted (woven or knitted) greige fabric using the interlining interwoven yarn as a warp or a weft, preferably a weft. Further, the composite yarn for interlining may be used for warp and weft. In the rearranging process, in order to prevent the interlining fabric from having a rough and stiff and paper-like feel, a texture adjusting agent (polyvinyl alcohol-based resin, vinyl acetate-based resin, or the like) is used. Is most preferably not performed. When the interlining composite yarn is used as the weft of the interlining fabric, all the wefts constituting the interlining do not need to be composed of the interlining composite yarn. Yarns, untwisted multifilament yarns or spun yarns) of less than 50%. The same is true for warps.
[0026]
Furthermore, as the interlining fabric, the interlining composite yarn is used for a part or the whole of the weft, and a part (preferably 3 to 30%, more preferably 5 to 10%) of the yarn constituting the warp is used. It is preferable to use a heat-fused fiber as the base material and to perform a heat treatment for melting the surface of the heat-fused fiber at the time of rearranging. At this time, in the interlining fabric, the heat-fusible fibers are heat-fused with the weft, thereby making it difficult to cause the fraying of the yarn, particularly the drop of the warp or the weft in the cut surface.
[0027]
If the ratio of the heat-fusible fibers in the warp is less than 3%, it is not possible to effectively prevent fraying of the yarn. Conversely, if it exceeds 30%, the texture of the interlining fabric becomes rough because the number of bonding points (fusion points) between the warp and the weft is too large. Further, the melting point of the heat-fused fiber is preferably 100 to 160 ° C. If the melting point is less than 100 ° C., the clothing may be melted by ironing or hot pressing performed in the manufacturing process of the garment. On the other hand, when the temperature exceeds 160 ° C., heat treatment with high heat is required at the time of rearranging, which is uneconomical.
[0028]
In addition, the heat-fused fiber is made of a core-sheath type composite fiber having a core-sheath structure including a core portion and a sheath portion so that the shape of the fiber is not lost at the time of rearranging and processing. Is most preferred. Further, the melting point of the sheath part constituting the core-sheath type conjugate fiber is preferably 100 to 160 ° C, and the melting point of the core part is a temperature exceeding the melting point of the sheath part, preferably a temperature exceeding 160 ° C, more preferably 180 ° C. C. or higher, more preferably 200 ° C. or higher. When the melting point of the sheath portion is less than 100 ° C., the sheath portion may be melted by ironing or hot pressing performed in the manufacturing process of the garment. On the other hand, when the temperature exceeds 160 ° C., heat treatment with high heat is required at the time of rearranging, which is uneconomical.
[0029]
Next, a method for producing the interlining fabric will be described.
When manufacturing the interlining fabric, first, after examining the bending rigidity and weight in the warp and weft directions required for the interlining, a composite yarn for interlining suitable for the examination result is obtained. The fabric (raw machine) is woven or knitted using the warp or the weft. In this case, if necessary, it is possible to use a mixture with other fiber yarns, for example, 10 fiber yarns for interlining and one fiber yarn having various functions such as heat generation and deodorization. May be arranged regularly. Then, an interlining fabric is obtained by rearranging the woven knitted greige.
[0030]
Refining, presetting, dyeing, and heat setting are usually performed as sorting and processing steps, but are not limited to these steps, and other function addition steps (for example, a brushing step and a calendering step) are required. It is performed according to. In the rearranging process, it is preferable not to perform the texture processing using the texture adjusting agent. In the refining process, oils, sizing agents, stains, and the like applied in the respective stages of spinning, spinning, and woven fabric are decomposed and removed by a refining agent or a desizing agent. As a processing machine for the refining process, a continuous processing machine (continuous refining processing machine) or a batch processing machine (a wind machine, a liquid flow machine, or the like) is used. The preset process is a process performed to enhance the stability of the greige machine in the dyeing process. For example, a dry heat treatment at a temperature of 180 to 200 ° C. for 30 seconds is performed by a heat setter machine. In the dyeing process, the same processing as in the dyeing of ordinary polyester fiber is performed. For example, using a disperse dye, dyeing is performed at 120 to 130 ° C. by a liquid jet machine, a beam machine, a high-pressure winder, a high-pressure zipper, or the like. . The heat setting step is a step of performing heat setting in order to impart thermal stability to the polyester fiber. For example, a dry heat treatment is performed at a temperature of 180 to 200 ° C. for 30 seconds by a heat setter machine.
[0031]
The effects exerted by the above embodiment will be described below.
-The composite yarn for interlining according to the embodiment is used for forming an interlining fabric that requires high shape retention performance, such as used for the front body and shoulders of heavy clothing. The composite yarn for interlining is configured to include a filament yarn having a single yarn fineness of 50 dtex or less, and a plurality of at least one or more core yarn filaments made of a thermoplastic synthetic fiber having a single yarn fineness of 10 to 50 dtex. It is composed by containing and twisting. Further, the twisting coefficient of the twisting process is configured to be 4500 to 20000. For this reason, in the interlining composite yarn, the constituent fibers act so as to tighten with each other with a strong force, so that the bunching effect is significantly increased. When the force for locally bending the interlining composite yarn acts, the possibility of plastic deformation due to twisting is significantly reduced.
[0032]
-By using a filament yarn having a single yarn fineness of 10 to 50 dtex as the core yarn filament, it is possible to easily give a tension suitable for an interlining fabric used for heavy clothing. In addition, by using a filament yarn having a single yarn fineness of 10 to 25 dtex as the core yarn filament, a strong tension suitable for an interlining fabric used in the front body of heavy clothing can be provided. In particular, since the rigidity (bending rigidity) of the entire composite yarn for interlining is proportional to the thickness of the core yarn, which is the thickest filament yarn, when the single yarn fineness of the core yarn is 25 to 50 dtex, It can be a strong upholstery suitable as an interlining for heavy clothing.
[0033]
-In this composite yarn for interlining, a flower yarn can contain a flower yarn filament having a single yarn fineness of less than 10 dtex. At this time, since the interlining composite yarn is arranged so that the unevenness of the surface formed by twisting a plurality of core yarn filaments is filled with the flower yarn filament, the unevenness of the surface is reduced. I have. As a result, when an interlining fabric is manufactured using this interlining composite yarn, it is extremely easy to smooth the surface of the interlining fabric, and the comfort of clothing can be improved. In particular, since the surface is smooth, the occurrence of the fastener phenomenon can be extremely effectively reduced. Further, in the interlining fabric, the feel is good and the swelling feeling is increased. Moreover, in the composite yarn for interlining, the bloated feeling of the composite yarn can be further enhanced by forming the flower yarn filament from a spontaneously elongated yarn or a false twisted yarn. At this time, it also contributes to the improvement of the heat retention performance. Further, when spun yarn is contained in the Chinese yarn, in addition to smoothing the surface of the interlining fabric, there is an effect that the composite yarn for interlining is less likely to fall off in the cut surface.
[0034]
The interlining fabric of the embodiment is obtained by rearranging and processing a woven or knitted greige fabric using the interlining complex yarn as at least one selected from a warp and a weft. Furthermore, since the cloth for interlining does not perform the texture processing at the time of organizing and processing the greige machine, the texture adjusting agent drops off at the consumption stage of the garment like the above-mentioned conventional hair interlining, and the rigidity decreases. Such a problem does not occur, and it is easy to maintain high moldability and mold retention even in the consumption stage.
[0035]
In addition, the entire filament yarn constituting the interlining composite yarn is made of thermoplastic synthetic fiber, and hardly shrinks even when washed with water, and exhibits high dimensional stability at the consumption stage. be able to. In addition, the interlining fabric contains a composite yarn for interlining, to which no feeling adjusting agent is attached and all of the core yarn filaments having a large weight ratio contribute to the improvement of rigidity without leakage. Therefore, it is easier to reduce the weight than the conventional hair interlining.
[0036]
In the interlining fabric, by using the heat-fusible fibers for a part of the warp, the heat-fusible fibers are heat-fused with the weft, so that it is possible to prevent the yarn from fraying. In particular, this interlining fabric does not use a texture adjusting agent at the time of rearranging and is liable to cause fraying of the yarn. However, the fusing of the yarn is performed by heat-fusing the heat-fused fiber with the weft. The prevention effect can be provided very effectively. In addition, by using the core-sheath type composite fiber as the heat-fusible fiber, the shape of the heat-sealable fiber is less likely to be lost at the time of rearranging processing involving heat treatment, and it is possible to produce a high quality interlining fabric. It will be easier.
[0037]
【Example】
Hereinafter, examples and comparative examples that embody the above embodiment will be described.
(Example 1)
Untwisted polyester 100% filament yarn 333dtex / 10f (single yarn fineness 33.3dtex) and 167dtex / 30f (single yarn fineness 5.6dtex), and 100% polyester spun yarn 40/1 (single yarn fineness 1.3dtex) Using the above three types, a composite yarn for interlining was prepared by performing a twisting process so that a twist coefficient becomes 10330. The 333 dtex / 10f is a core yarn filament, and the flower yarns are the 167 dtex / 30f and 40/1.
[0038]
As the warp, only 100% polyester spun yarn 40/2 was used, and as the weft, only the composite yarn for interlining was used. A green fabric was produced by plain weaving with a rapier weaving machine set so that the density was 40 warps / 2.54 cm and the weft 40 wires / 2.54 cm. The greige was subjected to refining, presetting, dyeing, and heat setting to obtain a cloth for interlining for clothing. The refining process was performed in a continuous manner using a refining agent. In the preset process, dry heat treatment was performed at a temperature of 180 ° C. for a time of 40 seconds using a heat setter machine. In the dyeing step, a disperse dye was used and dyed at 130 ° C. with a beam machine. In the heat setting step, dry heat treatment was performed at a temperature of 180 ° C. for 40 seconds using a heat setter machine. The finished density was 44 threads / 2.54 cm, 42 threads / 2.54 cm, and had appropriate rigidity and resilience as a shoulder interlining.
[0039]
(Example 2)
Untwisted polyester 100% filament yarn 333dtex / 10f (single yarn fineness 33.3dtex), 167dtex / 30f false twisted yarn (single yarn fineness 5.6dtex) and 167dtex / 48f false twisted yarn (single yarn fineness 3.5dtex) ) Was used to produce a composite yarn for interlining, which was twisted so that the twist coefficient became 10330. The 333 dtex / 10f is a core yarn filament, and the 167 dtex / 30f and 167 dtex / 48f are flower yarn filaments.
[0040]
As the warp, a core-in-sheath type composite fiber having a core of polyester (melting point of 200 ° C. or more) and a sheath of polyethylene (melting point of 130 ° C.) is used so as to be 7%, and the remaining 93% is a spun yarn 40 of 100% polyester. / 2 was used. As the weft, only the composite yarn for interlining was used. A green fabric was produced by plain weaving with a rapier weaving machine set so that the density was 40 warps / 2.54 cm and the weft 40 wires / 2.54 cm. Processing was performed in the same manner as in Example 1. The finished density was 44 threads / 2.54 cm, 42 threads / 2.54 cm, and had appropriate rigidity and resilience as a shoulder interlining.
[0041]
(Example 3)
In each case, three types of untwisted polyester 100% filament yarn 267 dtex / 12f (single yarn fineness 22.3 dtex), 111 dtex / 30f (single yarn fineness 3.7 dtex) and 111 dtex / 48f (single yarn fineness 2.3 dtex) are used. Then, a composite yarn for interlining was prepared by performing a twisting process so that a twisting coefficient was 8850. The 267dtex / 12f is a core yarn filament, and the 111dtex / 30f and 111dtex / 48f are flower yarns, respectively.
[0042]
As the warp, only 100% polyester spun yarn 40/2 was used, and as the weft, only the composite yarn for interlining was used. A green fabric was produced by plain weaving with a rapier weaving machine set so that the density was 40 warps / 2.54 cm and the weft 40 wires / 2.54 cm. Processing was performed in the same manner as in Example 1.
[0043]
(Comparative Example 1)
As Comparative Example 1, a general hair interlining was used. That is, a 100% cotton spun yarn 40/2 was used for the warp, and a mixed spun yarn 1/15 of 15% animal hair fiber (goat), 35% wool and 50% rayon was used for the weft. A green fabric was produced by plain weaving with a rapier loom set to have a density of 42 threads / 2.54 cm and a weft of 42 threads / 2.54 cm. The greige fabric was processed in the order of hair filing, boiling, and texture processing, which are general processing steps for hair interlining. The baking is a process of baking and removing mainly animal hair fibers protruding from the surface of the fabric, a boiler is a process of setting and stabilizing animal hair and wool fibers, and the texture processing is a stabilization of the warp cotton material and the whole. This is the step of adjusting the hand. The finished density was 44 lines / 2.54 cm and 42 lines / 2.54 cm.
[0044]
<Comparison test>
With respect to the respective interlining fabrics obtained in Examples 1 to 3 and Comparative Example 1, a change in bending stiffness in the weft direction and a dimensional change (%) were measured and evaluated by a water washing test and a dry cleaning test. Further, a semi-finished product of each of these interlining fabrics was trial-produced to evaluate the fastener phenomenon, and the interlining fabric after cutting was visually inspected to evaluate the fraying phenomenon, and further to the feeling of swelling by the feel of the hand. did. The outline of the test method is shown below, and the test results are shown in Table 1.
[0045]
Washing test; JIS. L. 0213.103 method repeated 5 times.
Dry cleaning test; repeated 5 times with a commercial dry cleaning machine.
Flexural rigidity measurement test: A sample of 20 cm square was taken from the joint of the adhesive interlining and the surface cloth. The sample is fixed to a gripper having a 1 cm gap. The deformation mode is such that the gripper has a curvature of -2.5 to +2.5 (cm-¹Pure bending with constant velocity curvature in the range of), deformation rate 0.5cm^-1Per second. The flexural rigidity is the flexural rigidity per unit length (cN · cm²/ Cm).
[0046]
[Table 1]

[0047]
【The invention's effect】
As described above, according to the present invention, the following effects can be obtained.
ADVANTAGE OF THE INVENTION According to the composite yarn for interlinings of this invention, the lowering of the formability, the shape retention, and the rigidity at the consumption stage is small, the dimensional stability is good even by washing with water, and the surface feel is smooth. Fabric can be easily manufactured. ADVANTAGE OF THE INVENTION According to the fabric for interlining of this invention, the fall of the formability, the shape retention, and the rigidity at the consumption stage is small, the dimensional stability is good even if it wash | cleans with water, and it is easy to smooth the surface feel. It is.

Claims (6)

A composite yarn for interlining comprising a plurality of core yarn filaments and a flower yarn arranged around the core yarn filaments,
The core yarn filament is composed of a thermoplastic synthetic fiber having a single yarn fineness of 10 to 50 dtex,
The flower yarn, single yarn fineness is less than 10 decitex, and at least one selected from spun yarn having a single yarn fineness less than 10 decitex, and a single yarn fineness less than 10 decitex.
A composite yarn for interlining, wherein the core yarn filament and the flower yarn are twisted so that the twist coefficient becomes 4500 to 20000. 2. The composite yarn for interlining according to claim 1, wherein at least one selected from the core yarn filament and the flower yarn filament is colored. The composite yarn for interlining according to claim 1 or 2, wherein the flower yarn filament is constituted by a spontaneously elongated yarn or a false twisted yarn. An interlining fabric provided with a warp and a weft,
An interlining fabric comprising the composite yarn for interlining according to any one of claims 1 to 3 as a yarn constituting at least one selected from the warp and the weft. 5. The interlining fabric according to claim 4, wherein the weft yarn includes the interlining composite yarn, and the warp includes 5 to 30% of a heat-fusible fiber. 6. The heat-fused fiber is constituted by a core-sheath composite fiber comprising a core and a sheath,
6. The interlining fabric according to claim 5, wherein the sheath has a melting point of 100 to 160 ° C., and the core has a melting point higher than that of the sheath. 7.