KR101469417B1 - With faux fur and a method of manufacturing, and the Device structure. - Google Patents

Abstract

The present invention relates to a non-loop faux fur and a manufacturing method and a device thereof and, more specifically, to a faux fur which makes a pile yarn not to fall out easily after manufactured by a pile which is the most similar with fur, has durability, and obtains warm texture as wave in a wave pattern form clearly appears on a surface. By integrally knitting a sliver pile as acrylic superfine fibers of less than or equal to 0.9 D, a fiber yarn of 3-5 D, and a high contraction polyester yarn of 1.4-3 D are mixed and cotton-beaten by a background yarn which is polyester of DTY 150D/48 F in a knitting machine, wave in a wave pattern form is expressed on a surface of a faux far pile.

Description

TECHNICAL FIELD [0001] The present invention relates to an artificial fur, a manufacturing method thereof, and a device thereof.

The present invention relates to a non-loose artificial fur and a method for manufacturing the same, and more particularly, to a non-loose artificial fur which is durable after being manufactured as a file most similar to a fur, The present invention relates to an artificial fur for obtaining a warm texture, and a manufacturing method and apparatus thereof.

In general, fur refers to the skin of a smooth and soft animal, and it has been very important for mankind for a long time, not only for keeping warm but also for decoration and other purposes.

These fur are called "fur" when they are composed of two elements, dense fur called "ground hair" and "guard hair" which is a long fur covering the fur, and the fur keeps the body temperature constant, It protects the skin and fluff on the bottom layer and prevents rain and snow.

Among the various animals, hairs such as black marten, chinchilla, weasel and mink are particularly good, rabbits and squirrel hairs are inferior in quality, and fox and sheep, leopard, lynx, ocelot, wolf, beaver, Otters, seals, long hairs, lambs of Persian, unclean goats and ponies are used to obtain fur. The main producing countries are the Russian Federation, the United States, Canada, and the Scandinavian countries.

In this way, instead of being useful by human beings, fur has serious problems, such as animals endangered by animals that can overfill and provide fur to get fur, and there are limits to fur that can be obtained from animals Recently, artificial fur has been actively developed.

Conventional techniques for manufacturing artificial fur have been known to simply knit a cotton yarn with a circular knitting machine to an office woven with an acrylic yarn and brushing the yarn with a brush and then polishing with a polisher. However, since the textures are different from those of natural fur, Is low.

As developed here, products made of microfiber are used for various purposes in various fields due to their soft touch and excellent quality. In recent years, microfibers less than 0.3 denier have been developed, .

Currently, most of the products using suede are made of tricot or woven cloth, EF Velboa and other materials such as garment, lumber, After the dyeing and processing of the same microfiber dyed fabrics, they have been manufactured by bonding process using a sponge. However, the back side is reduced by using sea-island yarn, and the soft feeling of the microfiber yarn is progressed to a little line brushed process, A more luxurious appearance was created, and micro-yarns of 0.3 to 0.5 denier grade were knitted simultaneously on the front and back surfaces.

Especially, we use technology know-how in order of process, using tenter, brushed equipment line, Shearing M / C, polisher, dyeing machine, Friendly material, the complexity of the process is simplified, cost competitiveness is strengthened, and the quality of the existing products is superior to that of the front side of the fabric, utilizing the high sensitivity of micro yarns actively utilizing materials such as natural fur And the back side is applying various kinds of foil types and patterns to express the soft touch of expensive natural fur and artificial fur, and is actively trying to take advantage of the advantages coming from the warmth and lightness. The patent literature of the prior art developed so far will be described as follows.

Patent Application No. 10-2004-0054905 (July 14, 2004) discloses a method for fabricating a weaving machine in which weaving is performed so that the adhesive is infiltrated into the inside of the weaving area of the weaving yarn during the weaving process of the weaving, A process of immersing the pile yarn in a mixed solution obtained by adding an aqueous emulsion-type adhesive in a preparation process for the pile yarn is carried out, and the pile yarn is soaked in the mixed solution as described above, The present invention also provides a process for producing artificial fur which is obtained by applying a back coating by applying an adhesive to an inner surface of a woven fabric so as to improve the inner coating effect of the adhesive during the weaving process or the back coating, So that the file can not be easily extracted and the file retention can be greatly improved. It is characterized. Patent Application No. 10-2006-0113306 (November 16, 2006) discloses a method for producing a polyester yarn, comprising: a cotton forming step of forming a cotton mixed with acrylic and polyester in a branch yarn woven with polyester yarn; A caustic soda treatment process for separating acrylic and polyester by treating the cotton with caustic soda; A primary drying step of drying the raw material having undergone the caustic soda treatment process 7 times while lowering the temperature from 110 ° C to 50 ° C in units of 10 ° C; Aging step of aging the fabric for 12 to 25 hours; A washing step of washing the fabric with water at 30 DEG C for one time, at 20 DEG C for two times, at 10 DEG C for three times and four times, and then for five times with a softening agent; A secondary drying step of drying the fabric at a first stage of -130 캜, a second stage of -110 캜, a third stage of -100 캜, a fourth stage of -80 캜 and a fifth stage of -50 캜; A polishing step of polishing the fabric at a first stage of -170 캜, a second stage of -150 캜, a third stage of -130 캜, a fourth stage of -110 캜, and a fifth stage of -120 캜; The product manufactured by the artificial fur manufacturing method of the present invention is a artificially manufactured fur, which has the same texture as a natural fur and has a simple manufacturing process, Artificial fur of various colors can be produced, and a variety of flame-retarding treatments can be performed, thereby forming patterns of various colors naturally. Patent Application No. 10-2007-0099593 (Oct. 04, 2007) discloses a method for manufacturing artificial fur, which comprises the steps of forming a fabric in which a pile yarn is put on a fabric, a space in which the adhesive can penetrate between the fabric and the filament, An adhesive preparation step of increasing the width of the fabric so as to form the adhesive layer; And a bonding step of applying an adhesive agent between the fabric and the pile yarn and between the filament yarn and the filament yarn by spraying the adhesive at a high pressure on the fabric having the filament yarn after the adhesive preparation step, The adhesive agent is applied evenly between the pile yarn and the pile yarn to prevent the hair of the pile yarn from the fabric of the finished artificial yarn, You can make the most of your touch. The patent application No. 10-2008-0073348 (2008.07.28) is to develop a high-quality soft touch of existing natural fur and artificial fur while maintaining high sensibility applying microfiber warp knitting structure to have advantages of warmth and light weight The present invention relates to a double-sided knit, a method of manufacturing the same, and a manufacturing apparatus therefor. The guide bar L 1 and the guide bar L 2 form a ground structure and the guide bar L 3 form a file structure. A step of directly setting the knitted fabrics directly, and a step of knitting a knitted fabric comprising three lines, five to six knitting machines in each line successively to form knitted fabrics of the knitted fabric The process of bridging the front and back sides, and the irregularity of the file generated by the bristles and the irregular appearance, A process of weight reduction and dyeing within the range of 5 ~ 7% reduction, emulsion processing and width processing by dewatering after dyeing, a sanding and peching processing and a tie print or foil processing And the yarn of the above-mentioned file organization uses 75D / 144F, 75D / 192F, 65D / 192F or 65D / 204F using the bottom fabric yarn 75D / 36F, 75D / 144F or 75D / 192F , And the yarn ratio with respect to the weight of the bottom and the pile is 6: 4. The patent application No. 10-2008-0073350 (2008.07.28) relates to a recycled file product for humanoid hair using functional microfibers and a manufacturing apparatus thereof, and is a method of manufacturing a recycled file for humanoid hair using functional microfibers, Textured Yarn) The step of preparing knitted fabrics and functional yarns, the step of developing a circular knitted fabric, the step of knitting, the step of heat setting, the step of performing cachyon dyeing, and the step of performing tanning, Wherein the functional yarns are Cation dyeable yarns 140/144 and the knitting is performed by knitting the DTY knitted yarn and the cationic dye yarns in a ratio of 4: 6, , It is possible to reduce the number of process steps, cost reduction, high soft touch, light weight, discharge ball Environment-friendly, water-washable, low-energy, and low-effluent effects can be obtained.

However, the artificial fur developed so far has a problem in that the synthetic fur is added to the mixed solution by adding the adhesive before the weaving process so that the inside of the weaving area of the pile yarn is mutually adhered as in the patent application No. 10-2004-0054905 (2004.07.14) A process of immersing the filament yarn is performed so that the filament yarn can not easily escape from the filament yarn or a cotton yarn obtained by mixing acrylic and polyester in a branch yarn woven with polyester yarn as in Patent Application No. 10-2006-0113306 (2006.11.16) Forming process; A caustic soda treatment process for separating acrylic and polyester; An aging step; A washing step of washing with water and a softening agent; A secondary drying step; A polishing process for polishing; Or by applying an adhesive between the pile fabric and the pile yarn as described in Patent Application No. 10-2007-0099593 (Oct. 4, 2007), and removing the pile yarn from the fabric, , Or the patent application No. 10-2008-0073348 (2008.07.28) discloses a process for knitting a warp knitted fabric, a process for setting the fabric directly at a high temperature, a step for bridging the front and back surfaces of the knitted fabric, A dyeing step, an emulsion processing and a width processing step according to dewatering after dyeing, a sanding and a peach processing step, and a post-processing of a tie print or foil processing, (2008.07.28), a step of thermally setting a knitted raw material mixed and knitted using a functional polyester CDP (cationic dyeablepolyester) fiber and a general polyester DTY (Draw Textured Yarn) yarn to give a flushing effect to a file portion and a backside portion, A step of performing dyeing, and a step of performing an emulsion processing. Thus, there is a problem in that the pattern of the finished fur is simple and the merchantability is poor.

In order to solve the above-mentioned simple pattern of artificial fur, the present invention relates to an acrylic microfiber of 0.9D (denier) or less and a fiber such as an acryl, polyester or silk of 3 to 5D (denier) the sliver pile is formed by mixing the cotton yarn, the cotton yarn, the cotton wool, the woolen yarn, the fiber, the cotton yarn, the woolen yarn and the wool yarn to form a sliver pile and the sliver filament is wound into a back ground yarn made of polyester, The present invention relates to a knitted fabric knitting machine which is knitted integrally in a fabric sliver circular knitting machine so that a wavy wave appears on the surface of a synthetic fur file.

In order to accomplish the above object, the present invention provides a method of manufacturing a microfluidic device, including: an acrylic micro fiber of 0.9D (denier) or less; a staple fiber of 3 to 5D (denier) acrylic, polyester, A pile selecting step of preparing a cotton, a cotton, a woolen, etc. cotton and a high shrinkage poly ester fiber of 1.4 to 3 denier; A mixing and rupturing process, which is a second process in which the selected fibers are mixed and finely torn off in a coagulated state; A processing liquid adding step which is a third step of uniformly spraying and sufficiently absorbing a processing liquid containing an antistatic agent and a softening agent in a ruptured fiber; A horn surface step, which is a fourth step in which the fibers that have absorbed the processing liquid evenly are mixed and dried while being rubbed; A fifth step of finely tearing the fiber dried at the same time as the second fiber, and mixing the fibers evenly at the open side; The carding process is a sixth step of carding fibers uniformly mixed at the same time with a face and staple card machine to uniformly align the tissues side by side to form a sliver pile A material processing step for processing the material,

A knitting process in which a sliver file is knitted integrally with a back ground yarn in a fabric sliver circular knitting machine to form an artificial fur;

A sharing process, which is an eighth process of cutting the end of the produced artificial fur file so as to have a uniform height; A tumbling step which is a ninth step of steam-heating the artificially-fur-treated artificial fur in a hot chamber of 100 DEG C or less within 15 minutes; The tumbling-processed artificial fur is cooled at room temperature, and then the resin (Resin) is uniformly coated with a dry & coating machine, and a tenth step of binding the pile and the background with hot air is performed. Which is an eleventh process for inspecting the state of artificial fur finished by the above-mentioned process, thereby inspecting the defective product and packaging the finished product,

Acryl micro fibers of 0.9D (denier) or less and staple fibers of 3 ~ 5D and high shrinkage poly ester fibers of 1.4 ~ 3D (denier) A sliver pile is integrally knitted in a fabric sliver circular knitting machine with a back ground yarn of polyester DTY (Draw Textured Yarn) 150D / 48F (denier / filament) And the wavy pattern wave is expressed on the surface of the artificial fur file.

The present invention creates a new effect of improving the texture and dignity of artificial fur by allowing a wavy-patterned wave to be expressed on the surface of artificial fur using an acrylic micro fiber of 0.9D (denier) or less .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing an example of a process state for carrying out the present invention;
Fig. 2 is an exemplary view showing the configuration of devices for carrying out the material processing step of the present invention. Fig.
Fig. 3 is a configuration diagram of a circular knitting machine in which the artificial fur producing step of the present invention is performed; Fig.
Fig. 4 is a diagram showing an example of the configuration of the air gun which is the essential part of Fig. 3; Fig.
Fig. 5 is a view illustrating an intake port configuration state of the suction hood of the circular knitting machine of Fig. 3; Fig.

First Step: File Selection Process

Acrylic microfibers less than 0.9 D (denier), staple fibers such as acryl, polyester, and silk, cotton, denture, wool, etc., which are indispensable elements for practicing the present invention And a high shrinkage poly ester fiber are prepared.

At this time, it is preferable to select a staple fiber of 3 to 5 D (denier), which is one of acryl, polyester and silk, and the high shrinkage poly ester fiber is 1.4 to 3 denier ).

Step 2: Mixing and rupturing process

(Acrylic micro fiber) of 0.9D (denier) or less, a 3D (denier) acrylic yarn, a polyester yarn, a silk (Cotton), cotton or cotton, and a high shrinkage poly ester fiber of 1.4 to 3 denier (denier), and then finely torn I will.

Herein, the mixing ratio of the acrylic micro fiber, the staple fiber, the cotton, and the high shrinkage poly ester fiber may vary, and the mixing method may not be particularly limited, When these fibers are already spun colored fibers, various colors can be laminated and mixed to produce a variety of patterns. In the following, several examples and optimum mixing ratios will be described.

Example 1

40 to 60% of a staple fiber, which is one of 3 to 5 D (denier) acrylic yarn, polyester yarn and silk, is mixed with 40 to 60% of an acrylic micro fiber of 0.9D (denier) And rupture.

Example 2

40 to 60% of acrylic micro fibers with a diameter of 0.9D (denier) or less are mixed with 40 to 60% of cotton, cotton or wool, and rupture.

Example 3

40 to 60% of acryl microfibers less than 0.9 D (denier) and 40 to 60% of 1.4 to 3 denier high shrinkage poly ester fibers are mixed and ruptured.

Example 4

20 to 30% of a staple fiber of 3 to 5 D (denier) acrylic yarn, polyester yarn, and silk to 40 to 60% of an acrylic microfiber having a denier of 0.9 D or less and 1.4 ~ 3D (denier) high shrinkage poly ester fiber is mixed with 20 ~ 30% and ruptured.

Example 5

30 ~ 40% of staple fiber of acrylic yarn, polyester yarn, and silk of 3D (denier) and 20 ~ 40% of acrylic microfiber of 0.9D (denier) 30 to 40% of denier high shrinkage poly ester fiber is mixed and ruptured.

Example 6

40 to 60% of acrylic micro fibers having a denier of 0.9 D or less, 30 to 40% of staple fibers of a 3D (denier) acrylic yarn, polyester yarn or silk, and 1.4 to 3D 10-20% of denier high shrinkage poly ester fiber is ruptured by mixing.

Example 7

Acryl micro fibers of 0.9D (denier) or less and 40 ~ 60% of high shrinkage polyester yarns of 20 ~ 30% cotton and 1.4 ~ 3 denier of cotton, poly ester fiber) is mixed with 20 ~ 30% and ruptured.

Example 8

20 to 30% of a staple fiber of acrylic yarn, polyester yarn or silk of 3 to 5 d (denier) to 40 to 60% of an acrylic microfiber of 0.9D (denier) or less, 20-30% of cotton, which is one of cotton, plush and wool, is mixed and ruptured.

Example 9

10 to 30% of a staple fiber of acrylic yarn, polyester yarn or silk of 3 to 5 D (denier) to 30 to 50% of an acrylic microfiber of 0.9D (denier) or less, 10 ~ 30% of high shrinkage poly ester fiber of 1.4 ~ 3D (denier) and 10 ~ 30% of cotton, cotton, plush and wool are mixed and ruptured.

As a result of repeating the above-mentioned steps, the most beautiful pattern is represented by 60% of acrylic micro fibers of 0.9D (denier) or less, a fiber of any one of 3D (denier) acrylic yarn, polyester yarn, 40% of staple fiber produced the most beautiful pattern but some of the files were missing. In addition, 50 ~ 60% of acrylic micro fibers of 0.9D (denier) or less and 3D (denier) acrylic 30 ~ 40% of staple fiber and 10 ~ 20% of high shrinkage poly ester fiber of 1.4 ~ 3D (denier) are mixed and ruptured There was no problem of missing files.

Third step: Process liquid addition step

In the second process, the processing solution containing the antistatic agent and the softening agent is uniformly sprayed on the fibers which are mixed and ruptured in the mixing and rupturing process, and the fibers are sufficiently absorbed into the natural state for at least 8 to 24 hours.

At this time, the antistatic agent (A-100) and the softening agent (CA) are distributed in the market, and they may be used without any limitation. However, a processing liquid obtained by mixing 75% by weight of an antistatic agent with 25% by weight of a softening agent 8 wt% of the total weight ratio of the fibers is used.

Step 4: Horn surface processing

In the third step, the processing liquid adding step, the processing liquid containing the antistatic agent and the softening agent are uniformly absorbed, and the fibers are dried at least twice while mixing.

Step 5: Open-face mixing process

In the fourth step, when the fibers are uniformly absorbed by the processing solution containing the antistatic agent and the softening agent in the hoe-rim surface process, the dried fibers are torn again in the combiner and mixed uniformly at the same time.

Step 6: Carding process

In the fifth step, the fibers are finely torn and uniformly mixed at the same time as the fibers are uniformly carded on a staple card machine 100, and the tissues are uniformly arranged side by side at the same time to form a sliver file Sliver pile.

Hereinafter, the structure and operating conditions of the staple card machine 100 according to the present embodiment will be described in detail.

First, a staple card machine 100 includes a hopper 110 constituting a pair of spike conveyors 111 for stably feeding a file, a conveying conveyor 120 conveying a fiber supplied from a hopper, A cylinder 130, a stripper 140, a doffer 150, and a worker 160 are separately wound with a separate metal wire so as to carry out carding twice. A trumpet 180 for forming a carded fiber in a carding machine as a sliver file, and a coiler 190 (for example, ).

An example of forming a sleeve pile by carding fibers in the staple card machine 100 and arranging the tissues uniformly in parallel with the open side will be described. The thin fibers separated by the hopper 110 are fed to the cylinder 130 side of the carding machine by the conveying conveyor 120. The metallic wire wound around the cylinder 130 draws the fibers into the combs 120, 150 and the fibers are conveyed to the metallic wire wound on the trumpet 180 at different surface velocities to form openings and carding in a first order and a second order. .

A mixing and rupturing process as a first process, a blending process as a second process, a process liquid adding process as a third process, a horn surface process as a fourth process, a front surface mixing process as a fifth process, The carding process, which is the sixth process, is a material processing step for processing a material constituting a file.

Seventh Step: Knitting Process

The sliver file formed by carding in the carding process of the sixth process is transferred to a back ground yarn supplied from a con holder 203 in a fabric sliver circular knitting machine 200 The artificial fur is formed by integrally knitting together.

The fabric sliver circular knitting machine 200 used in this case has a cylindrical main drum 201, a needle moving up and down by a cylinder, a needle moving forward and backward, and a sinker are arranged in a radiation pattern And 16 sets of roller gross wires 210 are radially arranged on the bed 202 so as to equally spaced to supply a sliver pile to the needles.

A cone holder 203 for supplying a back ground yarn to each needle is formed on the upper side of the bed 202 and a suction hood ) 230 are installed.

The present invention constitutes an air gun 220 that blows air adjacent to the roller gross wire 210 so that the air injected from the air hole 221 of the air gun 220 is supplied to the sliver file the roller gross wire 210 is blown away by dust or fiber bobbles generated in the roller gross wire 210 to prevent them from being pinched by the roller gross wire 210 to cause a failure.

The air gun 220 at this time is constituted by punching a plurality of air holes 221 in a pipe having a closed end to blow air evenly to the roller gross wire 210.

The suction hood 230 constituting the hole in the center of the bed 202 divides the suction port 231 of the sucking hood in both directions and sucks the sucking hood 230 through the two suction ports, Partially sewing a sliver pile to be knitted with a back ground yarn to help form a wavy wave more clearly on the surface of the finished fur.

The knitting process, which is the seventh process, is an artificial fur production step in which artificial fur is knitted and produced.

Step 8: Sharing process

In the seventh step, knitting a sliver pile together with a back ground yarn is performed to cut the ends of the produced artificial fur to a uniform height.

Step 9: Tumble process

In the shirring process of the eighth process, the artificial fur cut at the end of the pile to a uniform height is steam-heated in a hot chamber of 100 DEG C or less within 15 minutes.

Step 10: Coating process

In the tumbling step of the ninth step, the artificial fur which was steam-heated in a hot chamber of 100 ° C or less was cooled at room temperature, and resin Resin was uniformly coated with a dry & coating machine, Bind files and backgrounds.

The shirring process which is the eighth process so far, the tumbling process which is the ninth process, and the coating process which is the tenth process are post-processing steps of post-processing the produced artificial fur.

Step 11: Inspection process

 The state of the artificial fur finished by the above-mentioned process is inspected to remove the defective product and the finished product is packed.

By performing the above-mentioned processes from the first step to the eleventh step in order, the acrylic microfiber can be staple fiber of any one of acrylic yarn, polyester yarn and silk, and high shrinkage poly ester fiber is mixed with a sliver pile or an acrylic micro fiber of 0.9D (denier) or less in a denier of 3 to 5 d (acrylic yarn, polyester yarn, silk) A sliver pile or an acrylic micro fiber of 0.9D (denier) or less is mixed with a single staple fiber to prepare a high shrinkage polyester yarn of 1.4 to 3 denier A high shrinkage poly ester fiber and a sliver pile or an acrylic micro fiber having a denier of 0.9D or less are mixed with a staple fiber and a cotton, One cotton sliver pile and one acrylic sliver pile or 0.9D (denier) Acryl micro fiber is mixed with a high shrinkage poly ester fiber of 1.4 ~ 3D (denier) and cotton, cotton, wool or cotton, and is sliver pile. Or an acrylic micro fiber having a density of 0.9 D or less and a staple fiber of 3 to 5 denier acrylic yarn, polyester yarn or silk and a 1.4 to 3 denier yarn, A high shrinkage poly ester fiber of cotton and cotton or a wool cotton and a sliver pile of 150D or less polyester DTY (Draw Textured Yarn) Knitted together in a fabric sliver circular knitting machine 200 with a back ground yarn of 48 F (denier / filament) to constitute artificial fur so that the surface of the artificial fur file expresses a wavy pattern .

The present invention can be used for the garment industry by producing a better quality artificial fur.

100: staple card machine 110: hopper 111: spike conveyor
120: conveying conveyor 130: cylinder 140: stripper
150: Dopher 160: Walker 180: Trumpet
190: Coiler
200: loom loom 201: main drum 202: bed
203: cone holder 210: roller glow wire 220: air gun
221: Air ball 230: Suction hood 231: Suction port

Claims (11)

A staple fiber of acrylic, polyester, or silk, a cotton yarn of any one of cotton, plush and wool, and a high shrinkage polyester of 0.9D (denier) or less, A first step of preparing a high shrinkage poly ester fiber;
(Acryl micro fiber) of 0.9 D (denier) or less selected in the first step of the file selection process, a staple fiber of acrylic, polyester, silk, cotton, A mixing and rupturing process, which is a second process in which one of the cotton and the high shrinkage poly ester fiber are mixed and finely peeled off;
Which is a third step of uniformly spraying a processing solution containing an antistatic agent and a softening agent in a fiber that has been mixed and ruptured in the mixing and rupturing process as the second step and is sufficiently absorbed in a natural state for at least 8 to 24 hours, An addition step;
Which is a fourth step in which the fibers that have uniformly absorbed the processing solution containing the antistatic agent and the softening agent in the processing liquid adding step as the third step are rubbed at least twice while being mixed with each other;
A fifth step of finely tearing the dried fibers in the combiner to uniformly mix the processed liquid containing the antistatic agent and the softening agent in the horny surface step of the fourth step, and to mix the dried fibers evenly with the open side;
The staple card machine 100 carries out a fiber finishing process in which fibers are torn in a face-to-face mixing process of the fifth step and are uniformly mixed at the same time, And a carding step of forming a sliver pile in the step of forming the sliver pile,
The sliver file formed by carding in the carding process of the sixth process is transferred to a back ground yarn supplied from a con holder 203 in a fabric sliver circular knitting machine 200 A knitting process, which is a seventh process of knitting the knitted fabric together,
The shirring process is an eighth process of cutting the ends of the pile of artificial fur produced by knitting a sliver pile together with a back ground yarn to a uniform height in the knitting process of the seventh process;
A tumbling step of steam-heating the artificial fur cut at the end of the pile to a uniform height in the shirring process, which is the eighth process, within 15 minutes in a hot chamber of 100 ° C or less;
In the tumbling step of the ninth step, the artificial fur which was steam-heated in a hot chamber of 100 ° C or less was cooled at room temperature, and resin Resin was uniformly coated with a dry & coating machine, And a coating process, which is a tenth process for binding a file and a background,
Inspecting the condition of the synthetic fur finished by the above-mentioned process, and inspecting the defective product and packaging the finished product. The method according to claim 1,
The mixing and rupturing process as the second process may be carried out by using an acrylic micro fiber having a denier of 0.9D or less and a staple fiber such as acrylic yarn, polyester yarn or silk, Characterized in that it is mixed with any one of cotton wool or high shrinkage poly ester fiber and is ruptured. The method according to claim 1,
The mixing and rupturing process as the second process is performed by using an acrylic micro fiber of 0.9D or less and a staple fiber of acrylic yarn, Characterized in that a high shrinkage poly ester fiber is mixed and ruptured. The method according to claim 1,
(A-100) and the softening agent (CA) are mixed with 75 wt% of an antistatic agent distributed in the market to 25 wt% of a softening agent, By weight based on the total weight of the synthetic fur. A fabric circular knitting machine (200) for performing a knitting process, which is a seventh process of constructing the artificial fur of the first aspect, comprises a cylindrical main drum (201) A needle and a sinker for moving the needle forward and backward are arranged in a circular radiation pattern and 16 sets of rollers gross wire 210 are arranged in the same manner in the same manner And a cone holder 203 for supplying a back ground yarn to each needle is provided on the upper side of the bed 202 to supply a sliver pile to the needle, In the center hole, there is provided a suction hood (230) for discharging dust inside,
The air gun 220 having a plurality of air holes 221 pierced in a pipe having a closed end which blows air evenly to the roller gross wire 210 adjacent to the roller gross wire 210, ;
Characterized in that the suction hood (230) constituting the hole in the center of the bed (202) is configured to suck the suction inlet (231) to be sucked through the two suction ports (231) in both directions. Acrylic microfiber of 0.9D (denier) or less is mixed with a staple fiber and a high shrinkage poly ester fiber to convert a sliver pile into a polyester DTY And a knitted fabric is knitted integrally with a fabric knitting machine (200) with a back ground yarn (Draw Textured Yarn) to form a wavy pattern on the surface of the artificial fur file fur. Acrylic microfibers less than 0.9D (denier) are mixed with a staple fiber, and a sliver pile is made into a polyester DTY (Draw Textured Yarn) back ground yarn Characterized in that the artificial fur is integrally knitted in a fabric sliver circular knitting machine (200) so that the surface of the artificial fur file expresses a wavy pattern. A sliver pile is sandwiched between a polyester textile DTY (Draw Textured Yarn) background with an acrylic micro fiber of 0.9D (denier) or less and a high shrinkage poly ester fiber, Wherein the surface of the artificial fur file is configured to express a wavy pattern by being integrally knitted with a back ground yarn in a fabric sliver circular knitting machine (200). Acryl micro fiber of 0.9D (denier) or less is mixed with a staple fiber and a cotton, cotton or wool cotton to form a sliver pile into a polyester DTY (Draw Characterized in that the surface of the artificial fur file is configured to express a wavy pattern by being integrally knitted in a fabric sliver circular knitting machine (200) as a back ground yarn. Acryl micro fiber of 0.9D (denier) or less is mixed with a high shrinkage poly ester fiber and a cotton, a cotton or a cotton wool to form a sliver pile, Is knitted integrally with a fabric DTY (Draw Textured Yarn) back ground yarn in a fabric sliver circular knitting machine (200) so that the surface of the artificial fur file is configured to express a wavy pattern Features artificial fur. Acryl micro fibers of 0.9D (denier) or less were prepared by mixing a staple fiber, a high shrinkage poly ester fiber and a cotton, cotton, A sliver pile is knitted integrally with a fabric DTY (Draw Textured Yarn) back ground yarn in a fabric sliver circular knitting machine 200 so that the surface of the synthetic fur file is wavy Wherein the artificial fur is configured to express a pattern shape.

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