JP3214978U - Melange yarn and melange fabric - Google Patents

Abstract

[PROBLEMS] To provide a melange-like yarn capable of exhibiting a melange-like hue even if the yarn is made of the same polyester fiber. The fabric is provided. A first yarn 1A comprising a first polyester fiber Fa comprising ethylene terephthalate as a main constituent unit and a plurality of polyester fibers having different diethylene glycol contents, and having a low diethylene glycol content, and a diethylene glycol content. A melange yarn M including the second yarn 1B made of the second polyester fiber Fb having a large size, and a fabric made of a knitted fabric knitted using the melange yarn M was used. [Selection] Figure 2

Description

  The present invention relates to a melange yarn and a melange fabric that exhibit a melange hue with different dyeability even when dyed from the same raw material.

  Conventionally, it has been known that a plurality of fibers having different dyeability are combined to produce a yarn exhibiting a tone of tone or melange. For example, polyester fibers and polyester cationic fibers have different dyeability. Therefore, by using yarns obtained by combining these two types of fibers, dyeing suitable for each fiber can be used to produce melange yarn. Manufacturing is done.

  In addition, by dyeing different color fabrics made of polyester fibers that can be dyed with alkaline dyes and polyester fibers that can be dyed with disperse dyes, a variety of fabrics that cannot be obtained by post-dying of fabrics that are made up of only the same polyester fibers It has been proposed to obtain a dyed polyester fiber fabric having a hue (see Patent Document 1).

  In addition, short fibers obtained by cutting long fibers such as polyester fibers and cotton fibers are blended to produce spun yarns for a predetermined use, or natural fibers using artificial fibers such as polyester fibers and nylon fibers. In order to obtain a yarn that is bulky, soft, and has an excellent texture, a false twisted yarn is manufactured. For example, a polyester false twisted yarn obtained by false twisting polyester long fibers is bulky and excellent in crimpability, and a product similar to a knitted fabric using natural fibers can be produced.

  Polyester fibers and nylon fibers are manufactured as multifilament yarns having a predetermined thickness by melting a fiber raw material and bundling a plurality of filaments drawn out from minute spinning holes. In addition, false twisted yarns made by false twisting these synthetic fibers are false twisted, heat-fixed and untwisted while drawing multifilament yarns, giving the yarns crimp and bulkiness. As a result, colors and textures resembling natural fibers can appear.

  Yarn applied to clothing such as T-shirts and sportswear is required to have a color and texture similar to natural fibers. In addition, it is required to exhibit a melange-like hue in order to give a high-class feeling and a good appearance.

  In recent years, polyester recycling has been increasing year by year due to global environment and resource saving. However, recycled polyester has many impurities and many different colors compared to genuine polyester, so those that are close to the quality of genuine polyester are expensive, and those that are poor can only be sold at extremely low prices. Problem. If the product cannot be sold, it will be in stock and the efficiency of the recycling business will be poor. However, if it is used for products with gradation or melange, even if it is recycled polyester with a little impurities, the range of use will increase.

Japanese Patent Laid-Open No. 7-54280

  It is preferable that the number of dyeing steps to be performed in order to exhibit a gradation or melange hue, for example, it is preferable that a melange hue can be exhibited by one dyeing step. Further, it is preferable that a melange-like hue can be exhibited using yarns made of the same type of fiber.

  Moreover, it is preferable that a yarn capable of exhibiting a melange-like hue can be easily manufactured, and it is more preferable that the yarn can be manufactured by the same spinning process and false twisting process using the same kind of fiber raw material.

  In view of the above problems, the present invention provides a melange-like yarn capable of exhibiting a melange-like hue even with yarns made of the same polyester fiber, and by using this polyester fiber, a melange-like yarn is provided. An object is to provide a melange-like fabric capable of exhibiting a hue.

  In order to solve the above-mentioned problems, the present invention comprises a first yarn comprising a plurality of polyester fibers having ethylene terephthalate as a main structural unit and different diethylene glycol contents, and having a low diethylene glycol content. , A melange yarn including a second yarn composed of a second polyester fiber having a large content of diethylene glycol.

  According to this configuration, since it is composed of a plurality of polyester fibers having different diethylene glycol contents, it is possible to obtain a melange yarn exhibiting a melange-like hue by performing dyeing whose dyeability changes depending on the diethylene glycol content. it can.

  Further, according to the present invention, in the melange yarn having the above configuration, the difference between the content of diethylene glycol in the first yarn and the content of diethylene glycol in the second yarn is 0.5% or more and 1.0% or less. It is characterized by being. According to this configuration, by setting the difference in the content of diethylene glycol to 0.5% or more, the hue can be made different even in the same dyeing process, and the difference in the content of diethylene glycol is set to 1.0% or less. Thus, it is possible to produce under the same spinning conditions without deteriorating the spinnability at the time of melt spinning.

  Further, according to the present invention, in the melange yarn having the above-described configuration, the content of diethylene glycol in the first yarn is 1.0%, and the content of diethylene glycol in the second yarn is 1.6%. It is characterized by. According to this configuration, the difference in diethylene glycol content is about 0.6%, and even in the same dyeing process, it exhibits a melange-like hue and can be manufactured without deteriorating the spinnability and yarn quality during melt spinning. become.

  According to the present invention, in the melange yarn having the above-described configuration, at least one of the first and second polyester fibers is made of a regenerated polyester. According to this configuration, it is possible to save material costs by using the regenerated polyester, and even if a recycled polyester material having a different hue is used, the difference in dyeability can be alleviated because it exhibits a melange-like hue.

  The present invention also provides a diethylene glycol content of the first polyester fiber when the second polyester fiber is made of recycled polyester and the content of diethylene glycol is about 2.0% in the melange yarn having the above configuration. Is 1.0 to 1.6%. According to this configuration, the material cost can be saved by using the regenerated polyester, and the defect of the regenerated polyester yarn whose yarn quality is unstable can be covered by exhibiting the melange hue.

  Further, according to the present invention, in the melange yarn having the above-described configuration, the first yarn and the second yarn are false twisted yarns, which are combined and one of them is S twist false twisted. , One of the other is a Z-twist false twisted yarn. According to this configuration, by combining the S-twisted false twisted yarn and the Z-twisted false twisted yarn, the residual torque is suppressed, and a melange yarn having an excellent swelled texture can be obtained.

  Further, the present invention provides a tangling process in which, in the melange yarn having the above-described structure, when the first yarn and the second yarn are combined, the filaments are entangled by blowing compressed air to the combined yarn portion. It is characterized by giving. According to this configuration, the S twist false twisted yarn and the Z twist false twisted yarn can be satisfactorily entangled into a single yarn that is not separated. Further, since the distribution state of the first yarn and the second yarn in the combined yarn becomes substantially uniform, a more stable melange hue can be exhibited.

  The present invention also provides a melange-spun yarn obtained by cutting the first and second polyester fibers into a predetermined length in the melange yarn having the above-described configuration, or a melange-spun yarn spun together with cotton fibers. It is characterized by that. According to this configuration, since the first and second polyester fibers having different dyeing properties are used, melange-spun yarns that exhibit different hues even through the same dyeing process can be obtained.

  Further, the present invention is characterized in that it is a melange-treated fabric made of a knitted fabric knitted using the melange-treated yarn having the above-described configuration. According to this configuration, since the melange yarn is used, it is possible to obtain a fabric that exhibits a different hue and exhibits a melange hue even after the same dyeing process.

  According to the present invention, it is possible to obtain a melange yarn and a melange fabric that can exhibit a melange-like hue even with yarns made of the same polyester fiber.

It is a schematic diagram which shows an example of the melange yarn which concerns on this invention, Comprising: (a) is an example which just combined, (b) is an example which twisted. It is a schematic diagram which shows an example of the melange yarn according to the present invention. It is a schematic diagram which shows an example of the melange yarn which consists of melange yarn based on this invention. It is a schematic explanatory drawing which shows the manufacturing process of the melange yarn which consists of false twisted yarn based on this invention.

  Embodiments of the present invention will be described below with reference to the drawings, but the present invention is not limited thereto. Moreover, the same code | symbol is used about the same component, and the overlapping description is abbreviate | omitted suitably. First, the melange yarn M according to this embodiment will be described with reference to the drawings.

  The melange yarn M (M1 to M4) of the present embodiment includes a plurality of polyester fibers having a main constituent unit of ethylene terephthalate mainly composed of terephthalic acid and ethylene glycol, and different contents of diethylene glycol, and the content of diethylene glycol. Is a mélange yarn M including a first polyester fiber with a small content and a second polyester fiber with a large content of diethylene glycol.

  Both the first polyester fiber and the second polyester fiber are spun by a conventionally known melt spinning method, and are each produced independently or by combining them into a polyester yarn having a predetermined number of filaments. The In addition, a knitted fabric may be produced using this polyester yarn as it is, a knitted fabric may be produced using a false twisted yarn obtained by false twisting, and each polyester fiber has a predetermined length. A knitted fabric may be produced using a spun yarn obtained by cutting into short fibers and blending with natural fibers such as cotton fibers.

  Polyester fibers mainly composed of terephthalic acid and ethylene glycol, the main constituent units of which are ethylene terephthalate, often contain a predetermined content (usually about 1.3%) of diethylene glycol. Therefore, when the content of diethylene glycol was varied to see how the yarn quality changed, it was confirmed that the dyeability was different by slightly changing the blending amount of diethylene glycol.

  For example, when the blending amount of diethylene glycol is large, it is dyed dark, and when the blending amount of diethylene glycol is small, it is dyed pale. That is, a yarn obtained by combining a plurality of (for example, two types) polyester fibers having different diethylene glycol contents has different dyeability, and therefore, a melange yarn that exhibits a melange-like hue even in the same dyeing process. It turned out to be M.

  Moreover, when the blending amount is usually about 1.3%, the content of diethylene glycol in the first polyester fiber is about 1.0%, and the content of diethylene glycol in the second polyester fiber is about 1.6%. Thus, it was confirmed that a melange-like hue was exhibited. Further, when this difference becomes large, the spinning property during melt spinning is affected, so it is obvious that a smaller difference is necessary for stably producing the melange yarn M.

  It was confirmed that if the content of diethylene glycol in the first polyester fiber is about 1.0% and the content of diethylene glycol in the second polyester fiber is about 1.6%, the spinnability does not deteriorate. It was also confirmed that the spinnability did not deteriorate even when this difference was about 1%.

  That is, in the melange yarn M (M1 to M4) according to the present invention, the difference between the content of diethylene glycol in the first polyester fiber and the content of diethylene glycol in the second polyester fiber is 0.5% or more and 1.0. % Or less is preferable. If it is this structure, a hue can be varied also by the same dyeing process by making the difference in content of diethylene glycol 0.5% or more, and make the difference in content of diethylene glycol 1.0% or less. Thus, the spinnability at the time of melt spinning is not deteriorated, and the production can be performed under the same spinning conditions.

<First Embodiment>
First, an embodiment in which the melange yarn M is manufactured by the same melt spinning process will be described as a first embodiment. The first polyester fiber discharged from the die using a polyester chip that produces 1.0% diethylene glycol by the melt spinning process and the polyester chip that produces 1.6% diethylene glycol by the melt spinning process are discharged from the die. One polyester yarn having a predetermined number of filaments can be produced by winding the second polyester fibers while drawing them together. If this polyester yarn is FDY (Fully Draw Yarn), it can be used directly for weaving and knitting.

  For example, as shown in FIG. 1 (a), a first yarn 1A made of a first polyester fiber Fa and a second yarn 1B made of a second polyester fiber Fb are combined to form a polyester yarn. Can be manufactured. Since this polyester yarn has two types of polyester fibers in which the difference in the content of diethylene glycol is 0.5% or more, the hue can be made different by the same dyeing process, and a predetermined melange-like hue can be obtained. It becomes possible to present. That is, the polyester yarn according to this embodiment is the melange yarn M1.

Second Embodiment
In addition, a second yarn composed of a first polyester fiber Fa containing 1.0% diethylene glycol and a second polyester fiber Fb containing 1.6% diethylene glycol by different melt spinning processes. It is also possible to produce one polyester yarn by twisting the yarn.

  For example, as shown in FIG. 1B, a polyester yarn can be produced by twisting the first yarn 1A and the second yarn 1B. Since this polyester yarn is twisted, it has a high yarn strength and can be used as a knitting yarn or a weaving yarn. In addition, since it has two types of polyester yarns with a difference in diethylene glycol content of 0.5% or more, the hue can be made different even in the same dyeing process, and a predetermined melange-like hue can be exhibited. It becomes possible. That is, the polyester yarn according to this embodiment is a melange yarn M2.

<Third Embodiment>
Next, a melange yarn M3 composed of false twisted yarn obtained by false twisting and combining the first yarn 1A and the second yarn 1B will be described as a third embodiment with reference to FIG. To do. The first yarn 1A and the second yarn 1B to be combined by false twisting may be FDY (Fully Draw Yarn) or POY (Partially Oriented Yarn). If it is POY, it is preferable to perform false twisting while stretching. Moreover, it is preferable that either one is S twist false twist processing and the other is Z twist false twist processing yarn. With this configuration, by combining the S twist false twisted yarn and the Z twist false twist yarn, the residual torque is suppressed, and a melange yarn M3 having an excellent swelled texture can be obtained. .

  That is, as shown in FIG. 2, a melange yarn M3 is obtained by combining S twist false twisted yarn (first yarn 1A) and Z twist false twisted yarn (second yarn 1B). Therefore, the melange yarn M3 according to the present invention is made of special false twisted yarn, and the first yarn 1A and the second yarn 1B are false twisted together, and then into one yarn. Combined yarn.

  In the case of Mélange yarn M3, which is a combination of S twist false twisted yarn and Z twist false twist yarn, residual torque becomes almost zero by combining yarns having residual torque in opposite directions. It is possible to form a basic thread without any. Therefore, the fabric woven using this melange yarn M3 does not retain torque and does not cause defects such as wrinkles, and does not deteriorate the appearance.

  Moreover, the thickness and the number of filaments of each multifilament yarn can be selected as appropriate. For example, the yarn thickness may be about 30 to 150 denier, and the number of filaments may be about 1 to 5 denier for each single fiber. In particular, when weaving and knitting a soft and soft fabric, it is preferable that the fabric is relatively thin. In order to exhibit good stretchability, a relatively thick monofilament is preferred.

  Next, the manufacturing method of the melange yarn M3 which consists of false twisted yarn is demonstrated using FIG.

  As shown in FIG. 4, the manufacturing method of the melange yarn M1 according to the present embodiment includes a first yarn 1A drawn from the yarn supply package PA, and a second yarn 1B drawn from the yarn supply package PB. Are respectively twisted and wound into a single package.

  The first yarn 1A is composed of a first polyester fiber having a diethylene glycol content of about 1.0%, and the second yarn 1B is a second yarn having a diethylene glycol content of about 1.6%. Made of polyester fiber.

  Then, the first yarn 1A drawn out from the yarn supply package PA and the second yarn 1B drawn out from the yarn supply package PB are fed into the supply roller 2 (2A, 2B) and the false twist heater 3 (3A, 3B). ), False twisting process through the false twisting tool 4 (4A, 4B) and the take-up roller 5 (5A, 5B), and winding while combining the yarn through the spinning roller 6, the feeding roller 8 and the winding roller 9 The take-up package 10 is wound.

  That is, the manufacturing process up to the supply roller 2 (2A, 2B), false twisting heater 3 (3A, 3B), false twisting tool 4 (4A, 4B), take-off roller 5 (5A, 5B) is the false twisting process. The manufacturing process from the take-up roller 5 (5A, 5B) to the combined yarn roller 6, the feed roller 8, and the take-up roller 9 is a combined yarn process and a winding process (combined yarn winding process).

  Further, for example, the first yarn 1A is S-twisted false twisted, and the second yarn 1B is Z-twisted false twisted yarn. With this configuration, by combining the S twist false twisted yarn and the Z twist false twist yarn, the residual torque is suppressed, and a melange yarn M3 having an excellent swelled texture can be obtained. .

  Moreover, when the 1st yarn 1A and the 2nd yarn 1B are combined, it is preferable to perform the entanglement process which sprays compressed air on a combined yarn part and entangles polyester fibers (filaments). With this configuration, the S twist false twisted yarn and the Z twist false twisted yarn can be satisfactorily entangled into a single yarn that is not separated.

  In order to mix the first yarn 1A and the second yarn 1B uniformly, it is preferable that the thickness and the number of filaments to be combined are substantially the same. With this configuration, two types of filaments having different dyeability are uniformly mixed, so that a melange-like hue can be satisfactorily exhibited. Moreover, since the conditions of false twisting can be made the same, a predetermined melange yarn M1 can be manufactured using one false twisting machine.

  The false twisting process of the first yarn 1A is an S twist false twisting process, the false twisting process of the second thread 1B is a Z twist false twisting process, and the combining process is an SZ combining process. These steps are performed in series using a single drawing false twister. If it is this structure, the manufacturing process which manufactures the melange yarn M3 which manufactures the S twist false twisted yarn and the Z twist false twisted yarn, combines them, and exhibits a favorable melange tone hue is one. Therefore, the manufacturing process of the melange yarn M3 is simplified. That is, the melange yarn M3 combining polyester fibers of different colors can be easily manufactured.

  During the drawing false twisting process, the yarn is drawn between the supply roller 2 (2A, 2B) and the take-up roller 5 (5A, 5B). By changing this drawing ratio (referred to as DRAW RATIO), the yarn is drawn. It is known that the dyeing properties of the dyes are different. As a result of examining the difference between the draw ratio and the diethylene glycol content, the yarn having a high diethylene glycol content has a lower draw ratio, and the yarn having a low diethylene glycol content has a higher color density by increasing the draw ratio. I found out that

  In many cases, the drawing ratio in drawing false twisting is usually about 1.3 to 1.8 times. Therefore, in this embodiment, the draw ratio of the yarn having a high diethylene glycol content is set to about 1.3 to 1.5, and the draw ratio of the yarn having a low diethylene glycol content is set to about 1.5 to 1.8 times. By setting, it becomes possible to manufacture the melange yarn M3 more effectively.

  As an example in which a single drawing false twisting machine is equipped with false twisting tools in both directions of an S twist false twisting tool and a Z twist false twisting tool, a false twisting device composed of one disk and two false twisting belts. There are already known false twisting machines and false twisting machines in which two disk friction false twisting units are arranged in parallel on one spindle.

  Moreover, in this embodiment, it is set as the structure which implements a false twisting process and a combined yarn process using one extending | stretching false twisting machine. With this configuration, the manufacturing time can be greatly reduced and the equipment cost can be reduced as compared with the manufacturing method in which the false twisting process and the synthesizing process are performed using different devices. Cost can be reduced.

<Fourth embodiment>
Next, an embodiment in which the first polyester fiber and the second polyester fiber are cut into a predetermined length to obtain a melange-spun yarn (melange yarn M4) spun together with cotton fibers is illustrated as a fourth embodiment. 3 will be described. That is, the first and second polyester fibers obtained by the melt spinning process are cut into a predetermined length, spun and blended with a melange-spun yarn or a cotton fiber Fc, and then spun to obtain a melange-spun yarn ( A melange yarn M4) can be obtained.

  This melange yarn M4 is a spun yarn including the spun yarn of the first polyester fiber Fa and the second polyester fiber Fb or the cotton fiber Fc.

  A conventionally known spinning process can be adopted as the spinning process at this time. The spinning machine may be a ring spinning machine or an air spinning machine capable of obtaining a higher spinning speed. Anyway, since it becomes the structure containing the 1st polyester fiber and 2nd polyester fiber from which dyeability differs, the melange spun yarn which exhibits a different hue even if it passes through the same dyeing process can be obtained.

<Other embodiments>
Moreover, it is also possible to use the regenerated polyester which consists of recycled polyester etc. as a raw material for manufacturing said polyester fiber.

  For example, in the process of remelting a polyester molded product such as a PET bottle mainly composed of polyethylene terephthalate, converting it into a chip and making it into a fiber again, a plurality of polyester fibers having different contents of diethylene glycol are produced, and the obtained regenerated polyester is treated first. The melange yarn M (M1 to M4) can be obtained by using these yarns as one or both of the first yarn 1A and the second yarn 1B, or both. That is, the recycled polyester may be used for at least one of the first and second polyester fibers.

  Also, when spinning recycled polyester, diethylene glycol is generally used at around 2.0% in many cases. In this case, diethylene glycol is contained in an amount of 1.0 to 1.6%, which is lower than the blending ratio. It is possible to easily obtain a melange yarn by selecting the formed yarn made of polyester fiber as a yarn partner and combining the polyester yarn and the yarn made of recycled polyester fiber. With this configuration, the yield of the recycled polyester is improved since the defect of the recycled polyester yarn with unstable yarn quality is covered.

  In this case, the recycled polyester having a diethylene glycol content of about 2.0% corresponds to the second polyester fiber (second yarn 1B) of the present embodiment, and the content of diethylene glycol combined with this is 1. It is clear that the polyester yarn of 0 to 1.6% corresponds to the first yarn 1A composed of the first polyester fiber.

  If recycled polyester is used, the hue may not match and uneven dyeing may occur. Even in such a case, if the melange yarn M (M1 to M4) according to this embodiment is used, the hue is originally different. Therefore, it can be said that the difference in the hues of the raw materials becomes inconspicuous. That is, by using the regenerated polyester, the material cost can be saved, and by exhibiting a melange-like hue, the excellent effect of covering the defects of the regenerated polyester yarn whose yarn quality is unstable is exhibited.

  As described above, according to the present invention, the first yarn 1A is composed of a plurality of polyester fibers having ethylene terephthalate as a main constituent unit and different diethylene glycol contents, and the first polyester fibers having a low diethylene glycol content. The melange yarn M (M1 to M4) includes the second yarn 1B made of the second polyester fiber having a large content of diethylene glycol.

  With this configuration, since the first yarn 1A and the second yarn 1B made of a plurality of polyester fibers having different diethylene glycol contents are included, dyeing whose dyeability changes depending on the diethylene glycol content can be performed. By performing, it is possible to obtain melange yarn M (M1 to M4) exhibiting a melange hue.

  Further, since the fabric made of a knitted fabric knitted using the above melange yarn M (M1 to M4) contains polyester fibers having different dyeing properties, the fabric is made by the same dyeing process. It becomes possible to exhibit a hue of tone or melange. Thereby, it is possible to obtain a fabric that can be applied to clothes such as T-shirts and sportswear that require a melange-like hue.

  Moreover, since the said fabric uses the synthetic fiber which consists of a polyester fiber and a polyester yarn, it becomes a fabric which can produce a comfortable clothes by exhibiting a sharp feeling.

  Therefore, the present invention can be suitably used for yarns and fabrics for producing clothes and fabrics that require a melange-like hue.

DESCRIPTION OF SYMBOLS 1A 1st yarn 1B 2nd yarn 2, 2A, 2B Supply roller 3, 3A, 3B False twisting heater 4, 4A, 4B False twister 5, 5A, 5B Take-off roller 6 Interlocking roller 7 Interlacing nozzle 8 Feed roller 9 Winding roller 10 Winding package Fa First polyester fiber Fb Second polyester fiber Fc Cotton fiber PA Yarn supply package (first yarn)
PB yarn supply package (second yarn)
M (M1-M4) Melange yarn

The present invention also provides a diethylene glycol content of the first polyester fiber when the second polyester fiber is made of recycled polyester and the content of diethylene glycol is about 2.0% in the melange yarn having the above configuration. 1.0 to 1. It is characterized by 5 %. According to this configuration, the material cost can be saved by using the regenerated polyester, and the defect of the regenerated polyester yarn whose yarn quality is unstable can be covered by exhibiting the melange hue.

Further, when spinning recycled polyester, diethylene glycol is generally used at around 2.0% in many cases. In this case, diethylene glycol is 1.0 to 1. It is possible to easily obtain a melange yarn by selecting a yarn made of 5 % polyester fiber as the yarn partner and combining this polyester yarn with a yarn made of recycled polyester fiber. It is. With this configuration, the yield of the recycled polyester is improved since the defect of the recycled polyester yarn with unstable yarn quality is covered.

In this case, the recycled polyester having a diethylene glycol content of about 2.0% corresponds to the second polyester fiber (second yarn 1B) of the present embodiment, and the content of diethylene glycol combined with this is 1. 0-1. It is clear that the polyester yarn of 5 % corresponds to the first yarn 1A composed of the first polyester fiber.

Claims (9)

  A first yarn composed of a plurality of polyester fibers having ethylene terephthalate as a main constituent unit and different diethylene glycol contents, a first polyester fiber having a low diethylene glycol content, and a second polyester having a large diethylene glycol content A mélange yarn comprising a second yarn made of fiber.   The melange tone according to claim 1, wherein the difference between the content of diethylene glycol in the first yarn and the content of diethylene glycol in the second yarn is 0.5% or more and 1.0% or less. Yarn.   The melange tone according to claim 1 or 2, wherein the content of diethylene glycol in the first yarn is 1.0% and the content of diethylene glycol in the second yarn is 1.6%. Yarn.   The melange yarn according to any one of claims 1 to 3, wherein at least one of the first and second polyester fibers is made of recycled polyester.   When the second polyester fiber is made of regenerated polyester and the content of diethylene glycol is about 2.0%, the content of diethylene glycol in the first polyester fiber is 1.0 to 1.6%. The melange yarn according to claim 1 or 2.   The first yarn and the second yarn are made of false twisted yarn, and these are combined, and one of them is S twist false twisted and the other is Z twist false twisted yarn The melange yarn according to any one of claims 1 to 5, wherein:   The melange tone according to claim 6, wherein when the first yarn and the second yarn are combined, a tangling process is performed in which compressed air is blown onto the combined yarn to entangle the filaments. Yarn.   The melange according to any one of claims 1 to 5, wherein the melange is made of a melange-like spun yarn that is spun by cutting the first and second polyester fibers into a predetermined length or spun together with cotton fibers. Threads.   A fabric comprising a knitted fabric knitted using the melange yarn according to any one of claims 1 to 8.

Images