KR100343791B1 - Spinning Method of Multi-layer Spun Yarn and Apparatus therefor - Google Patents

Abstract

In the method for manufacturing a two-layer structure yarn of the present invention, the core irradiation and the seed irradiation are supplied to the back roller through the respective capacitors, and the radiation passing through the back roller is passed through the double condenser, the middle roller, the apron, and the front roller. The passed radiation is passed through a pair of guide rollers installed in front of the front roller, and the seed radiation is supplied through a groove formed in the upper guide roller, and the radiation for the core is formed by the upper guide roller without grooves. It is supplied through, and the strand of the sheath portion passing through the pair of guide rollers is made to wrap the strand of the core (core). A three-layer spun yarn can be produced by feeding the filament into the front roller so that the filament merges with the core irradiation. Instead of forming a groove in the upper guide roller, the effect of the groove can be exhibited by reducing the diameter of a portion of the upper guide roller.

Description

Spinning Method of Multi-layer Spun Yarn and Apparatus therefor}

Field of invention

The present invention relates to a method for manufacturing a multilayered yarn using a conventional ring spinning machine, and a manufacturing apparatus thereof. More specifically, the present invention relates to a method for producing a two-layered spun yarn composed of different staple fibers and a three-layered spun yarn comprising filament yarns and staple fibers as inner and middle layers and wrapping them with other staple fibers using a ring spinning machine, and a method thereof It relates to a manufacturing apparatus.

Background of the Invention

Multi-layer spun yarn refers to spun yarns with two or more layers in concentric circles, mainly differentiated into two-layer spun yarns to emphasize the merits of materials of each floor and three-layer spun yarns to develop garments of various performances such as comfort. Can be.

In order to manufacture such a multilayered yarn, conventionally, a technique for manufacturing a two-layer sliver in a softening process (Japanese Patent Laid-Open No. 53-192738 and 62-162030) and a technique for manufacturing a two-layer irradiation in a spinning process (Korean Patent Publication 77- 43255, 81-11775, 81-11776 and 86-52248, and Japanese Patent Laid-Open No. Hei 5-321063) have been tried to produce a two- and three-layer spun yarn, but these methods are used in spinning and spinning machines. As the sliver and the radiation are drafted, the layer structure collapses, and thus there is a problem in manufacturing a uniformly coated multilayered yarn.

In addition, by attaching a series of filament yarn feeder to the ring spinning machine, which is the most common method, and supplying the filament yarn in the center of the fleece just before passing through the front roller, staple fibers wrap the filament yarn Although two-layer structured spun yarns are produced by techniques (Japanese Patent Laid-Open Nos. 5-78921, 6-287828, 10-245730, and 10-53928), it is difficult to produce two-layered structured yarns composed only of staple fibers by this method.

Recently, a technique for producing a two-layered spun yarn using three strands of radiation in a ring spinning machine (US Pat. Nos. 4,976,096 and 5,531,063) has been developed, but this method also requires three irradiation krills per weight of the ring spinning machine. This has the disadvantage of falling.

The present inventors have led to the development of the method and apparatus for manufacturing the present invention, which can eliminate the problems of the prior art as described above and manufacture a multilayer structured yarn using a conventional ring spinning machine.

It is an object of the present invention to provide a method and apparatus for producing a two-layered spun yarn composed only of staple fibers using two strands of radiation.

Another object of the present invention is to provide a method and apparatus for producing a three-layer spun yarn having a filament and staple fibers as a core and surrounding them with other staple fibers.

It is still another object of the present invention to provide a method and an apparatus capable of producing a multi-layer spun yarn having a covering degree of 80% or more of sheath yarn outer layer raw material.

Still another object of the present invention is to pass the grooves by passing a pair of guide rollers consisting of an upper guide roller with grooves and a lower guide roller without grooves, through which raw materials exiting the front roller of the conventional ring spinning machine are passed. The present invention provides a method and a device capable of manufacturing a multi-layered spun yarn which is easy to manufacture and install a device by using the principle that the strand of the sheath part encloses the strand of the core part.

It is still another object of the present invention to provide a method and apparatus for manufacturing a multi-layer spun yarn which can reduce the manufacturing cost of a product by using a low-grade staple raw material and a low quality fiber having poor physical properties as a core than a filament yarn. It is for.

Still another object of the present invention is to provide a method and apparatus for manufacturing a multi-layer spun yarn capable of producing a multi-layer spun yarn softer than a conventional core spun yarn.

It is still another object of the present invention to provide a method and apparatus for producing a multilayered yarn having new properties by various combinations of yarns in each yarn using the apparatus (guide roller) of the present invention.

The above and other objects of the present invention can be achieved by the present invention described below.

1 is attached to a pair of guide rollers after the front bottom roller of the ring spinning machine to supply a staple yarn as a core (core) and another staple yarn as a sheath to produce a two-layered spinning yarn surrounding the core It is a schematic diagram of the apparatus for.

Figure 2a is a model showing the principle that the two-layer structure Z yarn spun by the guide roller according to the invention is produced.

Figure 2b is a model showing the principle that the two-layer structure S open yarn is produced by the guide roller according to the present invention.

3 is a three-layer spun yarn for attaching a pair of guide rollers after the front bottom roller of a conventional ring spinning machine to supply filament yarn and staple fibers as inner and middle layers and other staple fibers as outer layers to surround the inner and middle layers. It is a schematic diagram of the apparatus for manufacturing a.

4 is a model diagram showing the principle of manufacturing a three-layer structure Z yarn spun by a guide roller according to the present invention.

5 is a schematic view showing a specific example that can make the effect of the groove by reducing the diameter of a portion of the upper guide roller according to the present invention.

6 is a diagram showing the structure of a front roller having a novel structure for producing a multilayered yarn according to the present invention.

Brief description of the main symbols in the drawing

1. Irradiation for sheath 2. Irradiation for core

3. Condenser 4. Back Roller

5. Double condenser 6. Middle roller

7. Apron 8. Front Roller

9. Guide Roller 10. Roller Home

11.snail wire 12.spindle

13. Ring 14. Filament yarn

15. Tension control device 16. Position control device

In the method for manufacturing a two-layer structure yarn of the present invention, the core irradiation and the seed irradiation are supplied to the back roller through the respective capacitors, and the radiation passing through the back roller is passed through the double condenser, the middle roller, the apron, and the front roller. The passed radiation is passed through a pair of guide rollers installed in front of the front roller, so that the radiation for the seed is supplied through a groove formed in the upper guide roller, and the radiation for the core is an upper guide roller without grooves. And a strand of sheath portion passing through the pair of guide rollers surrounds the strand of the core portion.

A three-layer spun yarn can be produced by feeding the filament into the front roller so that the filament merges with the core irradiation.

Instead of forming a groove in the upper guide roller, the effect of the groove can be exhibited by reducing the diameter of a portion of the upper guide roller.

Instead of attaching a pair of guide rollers, the front rollers can be retrofitted to produce a multi-layer spinning yarn. In this case, the front bottom rollers can be made different by passing the core irradiation through the small diameters, By passing through the irradiation for the sheath is released a lot of strands of the sheath (sheath) by the speed difference can be wrapped around the strands of the core (core) to produce a multi-layer spun yarn.

Hereinafter, with reference to the accompanying drawings will be described in detail the contents of the present invention.

1 shows a pair of guide rollers 9 attached to the front rollers 8 of a conventional ring spinning machine to supply staple fibers as a core 2 and other staples as a sheath 1. It is a schematic diagram of an apparatus for producing a two-layered spun yarn in which fibers are supplied to surround the core.

In a conventional ring spinning machine, irradiation is supplied between a pair of back rollers 4, and the irradiation passing through the back rollers is carried out through the middle roller 6, the apron 7, the front roller 8, and the snail wire ( After passing through 11), it is wound in a bobbin mounted on the spindle 12.

In the present invention, the irradiation for the core and the irradiation for the sheath is supplied to the back roller through the respective condenser, and the radiation passing through the back roller is passed through the double condenser, the middle roller, the apron, and the front roller, and the passed irradiation is By passing through a pair of guide rollers installed in front of the front rollers, the radiation for the seed is supplied through a groove formed in the upper guide roller, and the radiation for the core is supplied through the upper guide roller without grooves. A strand of sheath portion passing through a pair of guide rollers surrounds the strand of the core portion to produce a two-layered spun yarn.

As shown in FIG. 1, after the two strands of irradiation (1, 2) pass through the condenser (3) and the back roller (4) in the same manner as before, the strand between the back roller and the middle roller (6) It enters the apron 7 through the double condenser 5, which keeps the strand spacing at 3 to 5 mm for stable movement. The core fleece at the center and the side fleece at the side from the front roller 8 nip then move along the surface of the upper guide roller 9 which rotates in engagement with the front bottom roller. At this time, the core fleece 2 passes through the groove 10 of the guide roller, and the seed fleece 1 exits through the groove 10. The core fleece coming out of the groove roller is guide roller nip. Since the twist transmitted to the upper side by the spindle rotation acts 100% when focusing the fleece, high tension is applied, whereas the seed fleece coming out of the groove has no nip point so that the twist is not transmitted and thus the front roller nip There is little twist from a line to a thread formation point. As a result, a low tension sheath fleece is wound around the rotating core fleece at high tension.

The surface of the groove 10 of the guide roller 9 should minimize friction with the sheath fleece fibers. The shape of the groove is "V" or "U" shape, the width should be slightly narrower than the diameter of the seed fleece, the width and depth of the groove is preferred to vary by the amount of fleece passing through it.

In addition, drafting should be prevented between the guide roller 9 and the front roller 8, and there should be no uncontrolled floating fibers. Therefore, the distance from the front roller nip line through the guide roller to the point where the thread is formed should be shorter than the length of the core and seed short fibers. By the above mechanism, a two-layered spun yarn is formed in a shape in which the seed fleece surrounds the core fleece.

On the other hand, the discharge geometry of each fleece differs depending on the position of the groove 10 of the upper guide roller 9, and if the thread twist direction is "Z", it is on the left side of the core. Grooves should be formed in the This is because the core fleece acts to stably release the seed fleece at the beginning of the winding. Figure 2a is a model diagram showing the principle of manufacturing a two-layer structure Z yarn spun yarn by the guide roller according to the present invention, Figure 2b is a principle of manufacturing a two-layer structure S yarn spun yarn by the guide roller according to the present invention A schematic diagram.

A three-layer spun yarn can be produced by feeding the filament 14 into the front roller 8 so that the filament merges with the core irradiation 2. 3 is a pair of guide rollers 9 attached to the front bottom rollers of the ring spinning machine of FIG. 1 to which the irradiation 2 and the filament yarn 14 are supplied as cores and the other as sheaths. It is a schematic diagram of the apparatus for manufacturing the three layer structured spun yarn which the irradiation 1 is supplied and wraps around the said core. As shown in FIG. 3, the filament yarn 14 is supplied to the inner layer by supplying the filament yarn 14 to the core fleece center between the apron 7 and the front roller 8 via the tension adjusting device 15 and the position adjusting device 16. It is possible to obtain a three-layer spun yarn in which different staple raw materials are arranged in an intermediate layer and an outer layer. The tension adjusting device 15 and the position adjusting device 16 for supplying the filament yarn 14 to the core fleece center between the apron 7 and the front roller 8 have common knowledge in the art to which this invention belongs. It can be easily carried out by a person having. 4 is a model diagram showing the principle of manufacturing a three-layer structure Z yarn spun by a guide roller according to the present invention.

Instead of forming the groove 10 in the upper guide roller, the effect of the groove can be exhibited by reducing the diameter of the upper guide roller. 5 is a schematic view of a guide roller that can exhibit the effect of the groove by reducing the diameter of a portion of the upper guide roller instead of forming the groove 10 in the upper guide roller. As shown in FIG. 5, the diameter of a portion of the upper guide roller is made small and the probe for the sheath 1 is passed through the portion, and the core 2 is passed through the portion with the larger diameter to tension between the two strands. Due to the difference, the strand of the sheath part may surround the strand of the core part to manufacture a spun yarn of a multilayer structure.

6 is a diagram showing the structure of a front roller having a novel structure for producing a multilayered yarn according to the present invention.

Instead of attaching a pair of guide rollers, the front rollers can be retrofitted to produce a multi-layer spinning yarn. In this case, the diameter of the front rollers is smaller. The larger the larger the diameter of the bottom roller is, the smaller the diameter of the top roller is, thereby utilizing the difference in the discharge speed between the two strands. Of course, two front top rollers of different diameters must be manufactured to be individually driven. At this time, the weave of the front bottom roller passes the core irradiation 1 through the small portion and the sheath irradiation 2 through the large diameter portion, so that the strands of the sheath portion become the core due to the speed difference. It is possible to manufacture a multi-layered spun yarn by wrapping the strand of the).

As the core irradiation 2 that can be used in the present invention, all staple fibers are possible, and raw materials of the yarn include cotton, wool, hemp, acrylic, nylon, polyester, polypropylene, viscose rayon, and the like. In addition, filament yarn (1) that can be used in the present invention include nylon, polyester, polypropylene, spandex yarn and the like.

The staple two-layer spun yarn manufactured by the present invention has excellent slipping resistance between the sheath and core fibers and low stiffness, compared to the conventional core spun yarns which wrap the filament yarns with staple fibers. In addition, the use of low-cost staple raw material and low-quality raw material having poor physical properties than the filament has a cost reduction effect. In addition, when the filament yarn is used for the core, the coating property is superior to the conventional method.

In this way, not only the economic and quality superiority of the yarn, but also by applying the present invention, it is possible to manufacture a multi-layered composite spun yarn having a variety of functionalities such as quick drying sweat, light weight, warmth, easy care, elasticity.

The present invention is to prepare a two-layered spun yarn consisting of staple fibers using only two strands of radiation, to produce a three-layered spun yarn to wrap the filament and staple fibers as a core and wrap them with other staple fibers, sheath Multi-layer spun yarn can be manufactured with multi-layered spun yarn with over 80% coverage of the outer layer material, and staple raw material with lower cost than filament yarn and low-grade fibers with poor physical properties can be used as core. It is possible to manufacture a multi-layer spun yarn capable of manufacturing a multi-layered spun yarn softer than the existing core spun yarn, and to produce a multi-layered spun yarn having new properties by various combinations of materials per layer of spun yarn Has an effect.

Simple modifications or changes of the present invention can be easily carried out by those skilled in the art, and all such modifications or changes can be seen to be included in the scope of the present invention.

Claims (11)

In the ring spinning machine, the core irradiation and the seed irradiation are supplied to the back roller through the respective capacitors; Passing the irradiation through the back roller through a double condenser, a middle roller, an apron, and a front roller; The passed radiation is passed through a pair of guide rollers installed in front of the front roller, so that the radiation for the seed is supplied through a groove formed in the upper guide roller, and the radiation for the core is supplied through the upper guide roller without grooves. Supplied; And A strand of sheath portion passing through the pair of guide rollers surrounds the strand of the core portion; Method for producing a multi-layered spun yarn, characterized in that consisting of steps. The method of claim 1, further comprising supplying the filament into the front roller so that the filament is combined with the core irradiation. The method of claim 1, wherein a groove of the upper guide roller is formed on the left side of the core irradiation to produce a spun yarn having a Z-lead structure. The method of claim 1, wherein a groove of the upper guide roller is formed on the right side of the core irradiation to produce a spun yarn having an S-lead structure. In order to produce the multi-layer spun yarn by supplying the core irradiation and the seed irradiation from the ring spinning machine, the core fleece and the side seed fleece from the front roller (8) nip are rotated in engagement with the front bottom roller. The upper guide roller (9) is installed, the upper guide roller is a groove (10) is formed, the lower guide roller for engaging with the upper guide roller is characterized in that the manufacturing apparatus of the multi-layer spin yarn. 6. The groove of the upper guide roller should be in the form of "V" or "U" to minimize friction with the sheath fleece fiber, and the width should be slightly narrower than the sheath fleece diameter. , The width and depth of the groove is a multi-layer spinning yarn manufacturing apparatus, characterized in that for different quantification of the fleece passing through it. The apparatus of claim 5, wherein a groove of the upper guide roller is formed on the left side of the core irradiation to produce a yarn having a Z-lead structure. The apparatus of claim 5, wherein the groove of the upper guide roller is formed on the right side of the core irradiation to produce a spun yarn having an S-lead structure. The method according to claim 5, wherein the diameter of a portion of the upper guide roller is made smaller, and the sheath probe 1 is passed through the portion, and the core probe 2 is passed through the portion having a larger diameter, thereby causing a difference in tension between the two strands. An apparatus for manufacturing a multilayered yarn for producing a multilayered yarn in which a strand of sheath is wrapped around the strand of a core. In order to manufacture the multi-layer spinning yarn by supplying the core irradiation and the seed irradiation from the ring spinning machine, the smaller diameter of the bottom roller is rotated by the larger diameter of the top roller and the smaller diameter of the top roller is rotated The core irradiation 1 passes through the portion having the small diameter of the front bottom roller, and the seed irradiation 2 passes through the portion with the large diameter so that the strand of the sheath portion is the core according to the speed difference. Apparatus for producing a multi-layer spun yarn wrapped around the strands) to produce a multi-layer spun yarn. Multi-layer spun yarn prepared according to any one of claims 1 to 4.