CN102330163B - Filament yarn winding apparatus - Google Patents

Abstract

Object of the invention is providing a filament yarn winding apparatus which is good for introducing each yarn to position of each bobbin and has good durability. A filament yarn winding apparatus (11) includes a spinning machine (12) and a winder (13). The winder (13) includes a first roller (23), a bobbin holder (16), a second roller (24), and a traverse support point guide (25). The first roller (23) receives a plurality of yarns (Y) from the spinning machine (12), The bobbin holder (16) holds a plurality of bobbins (B) configured to wind up the yarns Y from the spinning machine (12). The second roller (24) is orthogonal to an axis of the bobbin holder (16) and distributes the yarns Y sent from the first roller (23) to the bobbins (B). The traverse support point guide (25) serves as a support point of traverse for the yarns (Y) sent from the second roller (24) onto the bobbins. The second roller (24) is movable between a winding operation position (a) that is a normal position for yarn paths of the yarns (Y) during a winding operation and a threading operation position (b) that is lower than the winding operation position.

Description

Filament yarn winding apparatus

Technical field

The present invention relates to filament yarn winding apparatus.

Background technology

Spinning multiple silk thread, be wound up into spun silk thread respectively in package filament yarn winding apparatus, be provided with multiple Gun Hesi roads guide in restriction silk road.Silk thread by from device for spinning supply, with coiler device silk thread winding before, in order to silk thread is supplied to from the upstream side of silk thread direction of travel to downstream each Gun Jigesi road guide, there is the necessity of carrying out the repiece operation be suspended to by silk thread on each Gun Jigesi road guide successively.

Toward in the repiece operation on Gun Jisi road guide, employ for collecting the suction gun processing multiple silk thread.Operator uses suction gun to collect the multiple silk thread of attraction, and repiece operation is carried out successively toward each Gun Jigesi road guide in the position of limit change suction gun and limit, direction manually operation.

But coiler device possesses package forming portion, in package forming portion, be provided with coil holder.Multiple mound bobbins being used for winding silk thread is supported on coil holder.Above package forming portion, be provided with the roller multiple silk thread being given package forming portion.Between this roller and package forming portion, be provided with the silk road guide that multiple silk thread is assigned to the direction of each mound bobbins and become the traversing pivot guide device as silk road guide making the fulcrum of silk thread on each mound bobbins during traversing.

These road guides are device silk thread being bent change the direction of silk thread, if but the angle of bend of silk thread becomes than predetermined angular (hereinafter referred to as " upper limit angle of bend ", upper limit angle of bend is such as 15 °) large, then damage the quality of silk thread.Therefore, in order to make the angle of bend of silk thread on silk road guide below upper limit angle of bend, the above-mentioned roller multiple silk thread being delivered to package forming portion is arranged on eminence.

As a result, there is the suction gun being positioned at the operator of lower position and can't reach the roller being positioned at eminence, other the operator that must be positioned at high position carries out repiece operation toward the roller being positioned at eminence, and operator people can not carry out the such problem of repiece operation.

About this point, disclosed in patent document 1, Gun Hesi road guide is arranged on low position by filament yarn winding apparatus.Gun Hesi road guide is arranged on low position why may, because make pull-out godet roller 8 orthogonal with package axle (coil holder) 12.1 ~ 12.2 in patent document 1, and in order to each silk thread distributed with pull-out godet roller 8 is directed into each winding position (each mound bobbins position) 11.1 ~ 11.4, do not use a road guide and employ the cause splitting roller 18.1 ~ 18.4.The segmentation direction of roller 18.1 ~ 18.4 due to silk thread can not be made to change silk thread deviously, even if therefore make the direction of silk thread close to 90 ° of changes, does not affect the quality of silk thread yet.Therefore, operator can carry out repiece operation from lower position people.

[patent document 1] Japanese Patent No. 4204548 publication

But, in patent document 1, use the slave mode roller that can rotate freely as segmentation roller 18.1 ~ 18.4.If due to the rotational resistance of slave mode roller large, then damage the quality of the silk thread contacted with slave mode roller, therefore slave mode roller needs to make rotational resistance ad infinitum little, and the structure of rotation supporting portion is had nothing for it but very thin structure.On the other hand, in filament yarn winding apparatus, the winding speed of silk thread is high, segmentation roller 18.1 ~ 18.4 also High Rotation Speed.So, when using slave mode roller as segmentation roller 18.1 ~ 18.4, owing to making the slave mode roller of slim structure with High Rotation Speed, the durability therefore splitting roller 18.1 ~ 18.4 is low, there is the problem that can not use for a long time.

To this, can consider with employing the active roller of motor as segmentation roller 18.1 ~ 18.4.In this case, although durability does not have problems, due to multiple motors must be used, therefore there is the problem of cost up.Like this, when employing roller in order to each silk thread is directed into each winding position of coiler device, be that slave mode roller or active roller all have problems.

Summary of the invention

The present invention makes to solve the problem.1st object to provide one need not use roller in order to each silk thread is directed into each mound bobbins position, the good and filament yarn winding apparatus that durability is high of repiece workability.2nd object will provide a kind of to reduce the height of coiler device, the filament yarn winding apparatus of low seat.

The present invention wants the problem of solution described above, the following describes the means solving this problem.

That is, inventing the 1st scheme is the filament yarn winding apparatus possessing device for spinning and coiler device, and coiler device possesses the 1st roller, coil holder, the 2nd roller and traversing pivot guide device.Above-mentioned 1st roller traction is from multiple silk threads of device for spinning.Above-mentioned coil holder supports multiple mound bobbins, and this mound bobbins is used for reeling from multiple silk threads of device for spinning.The axle of above-mentioned 2nd roller and coil holder configures orthogonally, the multiple silk threads sent here from the 1st roller is distributed to each mound bobbins.Above-mentioned traversing pivot guide device becomes each silk thread of making to send here from the 2nd roller relative to the fulcrum when each mound bobbins traversing.Further, move between the winding running position in silk road that above-mentioned 2nd roller can be regular when the silk road of multiple silk thread becomes winding running and the repiece job position as the position set low than winding driving position.

The 2nd scheme of inventing also possesses each silk thread of making to distribute to each mound bobbins silk road guide bending below predetermined angle between above-mentioned 2nd roller and above-mentioned traversing pivot guide device of the 1st scheme.And bend with making each silk thread multistage with traversing pivot guide Qi Hesi road guide.

The total angle of bend that the 3rd scheme of inventing makes the above-mentioned traversing pivot guide device of the 2nd scheme and above-mentioned silk road guide produce equally configures silk road guide between each silk thread.

The effect of invention

As effect of the present invention, play effect shown below.

According to the 1st scheme, the 2nd roller moves owing to can become between the winding running position in silk road regular when winding operates and the repiece job position as the position set low than winding driving position in the silk road of multiple silk thread, therefore by silk thread being hung on the 2nd roller at repiece job position, then, move it winding running position, repiece operation can be carried out at lower position place to the 2nd roller thus.And, owing to not making silk thread with necessity of large angle of bend break-in, so there is no the necessity using roller in order to each silk thread is directed into each mound bobbins position.Therefore the good and filament yarn winding apparatus that durability is high of repiece workability is become.

According to the 2nd scheme, owing to bending with making each silk thread multistage with traversing pivot guide Qi Hesi road guide, therefore, it is possible to the height of the 2nd roller is suppressed low.Therefore, it is possible to become the filament yarn winding apparatus of the height reducing coiler device, low seat.

According to the 3rd scheme, because the total angle of bend making traversing pivot guide Qi Hesi road guide produce equally is configured with a road guide, therefore, it is possible to make the silk thread greater homogeneity between each silk thread between each silk thread.

Accompanying drawing explanation

Fig. 1 is the front view of the filament yarn winding apparatus 11 of embodiment 1;

Fig. 2 A is the front view of the lowering or hoisting gear 31 of the 2nd roller 24;

Fig. 2 B is the B-B line sectional view of Fig. 2 A;

Fig. 3 is the figure of the repiece operation represented in the filament yarn winding apparatus 11 of embodiment 1;

Fig. 4 is the figure of the repiece operation represented in the filament yarn winding apparatus 11 of embodiment 1;

Fig. 5 is the front view of the filament yarn winding apparatus 11 of embodiment 2;

Fig. 6 A is the figure of a part in the silk road of the filament yarn winding apparatus 11 representing embodiment 2, for from the side from the 2nd roller 24 to the figure in the silk road of the silk thread Y of traversing pivot guide device 25;

Fig. 6 B be from embodiment viewed from oblique upper 2 from the 2nd roller 24 to the figure in the silk road of the silk thread Y of traversing pivot guide device 25.

Detailed description of the invention

With figure, working of an invention form is described below.

[embodiment 1]

Use Fig. 1 to Fig. 4 illustrates the filament yarn winding apparatus 11 involved by the embodiment of the present invention 1.Fig. 1 is the front view of the filament yarn winding apparatus 11 of embodiment 1.The overall structure of the filament yarn winding apparatus 11 involved by the present embodiment is described with reference to Fig. 1.Filament yarn winding apparatus 11 is formed primarily of device for spinning 12 and coiler device 13, and for being extruded from thin nozzle at high temperature lysed thermoplastic resin (polymer), cooling limit, limit winding becomes the device of silk thread Y.In general, filament yarn winding apparatus 11 has the POY filament yarn winding apparatus of winding POY (partially oriented yarn) and these 2 kinds of devices of FDY filament yarn winding apparatus of winding FDY (fullly drawn yarn (FDY)).Filament yarn winding apparatus 11 of the present invention is POY filament yarn winding apparatus.

Device for spinning 12 supplies spun filamentary device for spinning many filaments, from top toward below.The synthetic fiber material (filamentary raw material) put in device for spinning 12 uses extruder by force feed, spins from the multiple mouths that spin be arranged on spinneret (diagram is omitted).Tied up, formed multi-filament line Y by often predetermined radical from the spun multiple filament of mouth that spins of spinneret, be directed to coiler device 13.That is, form the many silk thread Y tied up by the filament of predetermined radical, this multi-filament line Y is guided to coiler device 13.

Coiler device 13 be with multiple bobbin B reel from device for spinning 12 multi-filament line Y, form the device of multiple package P.Coiler device 13 possesses from upstream side along the direction of travel of silk thread Y: the 1st road guide 21, interleave unit 22, the 1st roller 23, the 2nd roller 24, traversing pivot guide device 25 and package forming portion 15.

1st road guide 21 be restriction from the multi-filament line Y of device for spinning 12 silk road, silk thread Y is directed into the device of the interleave unit 22 in downstream.Interleave unit 22 is use fluid tip to make the mutual network strand of the filament of formation silk thread Y, pay convergence, suppresses the unit of interfibrous expansion or separation.

1st roller 23 is the roller of traction from multiple silk thread Y of device for spinning 12.The side, downstream of the 1st roller 23 is provided with the 2nd roller 24.2nd roller 24 is the roller sending silk thread Y to package forming portion 15.2nd roller 24 can under the effect of lowering or hoisting gear 31 when the silk road of multiple silk thread Y becomes winding running regular silk road winding running position a and lower than winding running position a, move as between the repiece job position b carrying out repiece operation and be easy to position.Lowering or hoisting gear 31 is described in detail below.

Package forming portion 15 is the unit that will be wound up into respectively from the 2nd roller 24 by the multi-filament line Y that traversing pivot guide device 25 is sent on each bobbin B.Package forming portion 15 by the bobbin B by rotating winding silk thread Y, install multiple bobbin B coil holder 16, make the traversing gear 18 of the silk thread Y traversing be wound up on bobbin B, be crimped on package P that bobbin B and bobbin B is formed on contact roller (diagram omission) and driving traversing gear 18 form with the drive unit 17 contacting roller.

2nd roller 24 is configured orthogonally by the axle with coil holder 16, and when the multiple silk thread Y sent here from the 1st roller 23 are distributed to each bobbin B, the tangential direction along the 2nd roller 24 distributes each silk thread Y.Therefore, silk thread Y does not bend at the 2nd roller 24.Be fulcrum (axis direction of coil holder 16) traversing in left-right direction, be wound up on the bobbin B of rotation by traversing gear 18 with traversing pivot guide device 25 by each silk thread Y distributed to the direction of package forming portion 15 from the 2nd roller 24.So the silk thread Y be winding on bobbin B forms package P on bobbin B.

Here, lowering or hoisting gear 31 is described in detail.As shown in Figure 1, lowering or hoisting gear 31 for being fixed on main body frame 14, when making the 2nd roller 24 can become winding running in the silk road of multiple silk thread Y regular silk road winding running position a and lower than the running position a that reels, as the device of operator's movement between the easy repiece job position b carrying out the position of repiece operation from low position.The winding running position a of the 2nd roller 24 sets like this: make the angle of bend of silk thread Y in traversing pivot guide device 25 do not damage silk thread Y quality upper limit angle of bend (such as 15 °) below.Be specially, in each traversing pivot guide device 25, the angle of bend of silk thread Y is different respectively, and in each traversing pivot guide device 25 corresponding with the side, two ends of coil holder 16, the angle of bend θ of silk thread Y is maximum.Make the angle of bend θ of silk thread Y in the traversing pivot guide device 25 at these two ends below upper limit angle of bend, set the winding running position a of the 2nd roller 24.

Fig. 2 A is the front view of lowering or hoisting gear 31, and Fig. 2 B represents the B-B line sectional view of Fig. 2 A.Lowering or hoisting gear 31 possess belt wheel 32,33, band 34 and guide rail 35.Belt wheel 32 is configured in the top of the winding running position a of the 2nd roller 24, and belt wheel 33 is configured in the below of the repiece job position b of the 2nd roller 24.Band 34 is endless belt, is reeved on belt wheel 32,33.Band 34 also can by formations such as chains.Motor 36 as drive source is installed on belt wheel 32, is configured with the console switch (not shown) of the driving direction of start and stop and the motor 36 driven for switching motor 36 in the lower end of lowering or hoisting gear 31.Motor 36 also can be arranged on belt wheel 33.

Attaching parts 37 are fixed on band 34, and the motor 24a as the drive source of the 2nd roller 24 is fixed in attaching parts 37.Therefore, the 2nd roller 24 moves together with the driving of band 34.Guide rail 35 is set up along the direction from winding running position a to repiece job position b.The cross sectional shape of guide rail 35 is approximate C font, and the guiding roller 38 be arranged in attaching parts 37 is formed by the guiding of the inner side of guide rail 35.Thus, when upward or below rotating band 34 time, the 2nd roller 24 moves along guide rail 35.Holding member 39 is provided with near the upper end of guide rail 35.Holding member 39 and attaching parts 37 abut against and make the 2nd roller 24 stop at the running position a that reel, remove to supply the electric power of motor 36, the 2nd roller 24 is still in keep attaching parts 37 with reeling running position a simultaneously: near the bottom of guide rail 35, be provided with stop component 40.Stop component 40 and attaching parts 37 abut against and make the 2nd roller 24 stop at repiece job position b.

Then Fig. 3, Fig. 4 description operation person is used to carry out the process to the 2nd roller 24 repiece with lowering or hoisting gear 31.Fig. 3 represents the enlarged front view making the 2nd roller 24 move to the lowering or hoisting gear 31 of the state of repiece job position b, and Fig. 4 represents the enlarged front view making the 2nd roller 24 move to the lowering or hoisting gear 31 of the state of winding running position a.The silk thread using suction gun 51 repiece to be over to the 1st roller 23 is regarded as with multiple silk thread Y of device for spinning 12 spinning.Further, think and made the 2nd roller 24 be moved to repiece job position b before entering the repiece operation toward the 2nd roller 24.When the 2nd roller 24 not at repiece job position b, operator operates console switch drive motor 36, makes the 2nd roller 24 move to repiece job position b.

As shown in Figure 3, operator operates suction gun 51 and is suspended to by silk thread Y and is positioned on the 2nd roller 24 of repiece job position b.The 2nd roller 24 being positioned at repiece job position b is low position, and silk thread can be suspended to the 2nd roller 24 from identical high speed operation suction gun 51 by the operator having carried out repiece on the 1st road guide 21, interleave unit 22 and the 1st roller 23.

After being suspended to by silk thread Y on the 2nd roller 24, then as shown in Figure 4, operator operates console switch and drive motor 36, makes the 2nd roller 24 move to winding running position a.Now, operator keeps suction gun 51 towards the 2nd roller 24 ground.When making the 2nd roller 24 move to winding running position a, the speed of travel of the silk thread Y supplied from device for spinning 12, the speed of silk thread Y attracted by suction gun 51 and the speed of the 2nd roller 24 movement balance each other, and the tension force of multiple silk thread Y can not excessive variation.Therefore, it is possible to multiple silk thread Y does not make the 2nd roller 24 move to winding running position a with not cutting off.

When the 2nd roller 24 arrives winding running position a, attaching parts 37 and holding member 39 abut against, and the 2nd roller 24 stops at winding running position a.Even if supply the electric power of motor 36 owing to removing in this condition, attaching parts 37 are also kept parts 39 and keep, and therefore the 2nd roller 24 is static at winding running position a under the state hanging with multiple silk thread Y, and the repiece operation to the 2nd roller 24 completes.

If adopt the filament yarn winding apparatus 11 of the above embodiment 1 illustrated, there is following effect.

The 2nd roller 24 moves owing to can become between the winding running position a in silk road regular when winding operates and the repiece job position b as the position lower than winding running position a in the silk road of multiple silk thread Y under the effect of lowering or hoisting gear 31, therefore by silk thread Y being hung on the 2nd roller 24 at repiece job position b, then, move it winding running position a, repiece operation can be carried out at lower position to the 2nd roller 24.And, owing to employing the 2nd roller 24 to distribute silk thread Y, not making silk thread Y with necessity of large angle of bend break-in, so there is no in order to each silk thread Y is directed into each mound bobbins position and use necessity of roller.Therefore, it is possible to become the good and filament yarn winding apparatus that durability is high of repiece workability.

[embodiment 2]

Use the filament yarn winding apparatus 11 of Fig. 5, Fig. 6 A, Fig. 6 B explanation involved by the embodiment of the present invention 2.Differ widely with embodiment 1 being provided with in the 2nd road guide 26 this point in the present embodiment.

Fig. 5 is the front view of the filament yarn winding apparatus 11 of embodiment 2.Also be provided with lowering or hoisting gear 31 in the filament yarn winding apparatus 11 of embodiment 2, the 2nd roller 24 can under the effect of lowering or hoisting gear 31 when the silk road of multiple silk thread Y becomes winding running regular silk road winding running position a and move as than between low, the easy repiece job position b carrying out the position of repiece operation of winding running position a.For the structure of lowering or hoisting gear 31 due to identical with embodiment 1, therefore omit detailed description.

As illustrated in embodiment 1, the winding running position a of the 2nd roller 24 made the angle of bend of silk thread Y be set below upper limit angle of bend (with reference to Fig. 1).Traversing pivot guide device 25 corresponding with the two ends of coil holder 16 because silk thread Y bends with maximum angle in embodiment 1, therefore make the angle of bend of silk thread Y in this traversing pivot guide device 25 be below upper limit angle of bend set the winding running position a of the 2nd roller 24.Therefore, the winding running position a of the 2nd roller 24 can not be set in below certain height, becomes the reason of the height that can not reduce coiler device 13.

In the present embodiment, between the 2nd roller 24 and traversing pivot guide device 25, be provided with the 2nd road guide 26.2nd road guide 26 is for making by the 2nd roller 24 towards the silk road guide that each silk thread that each mound bobbins distributes bends below upper limit angle of bend.By making each silk thread Y not only be bent by traversing pivot guide device 25 but also be bent by the 2nd road guide 26, each silk thread two benches being bent, makes the angle of bend of total larger than the angle of bend of the silk thread Y only produced by traversing pivot guide device 25.Thereby, it is possible to the winding running position a of the 2nd roller 24 to be set in the height of low position, reduction coiler device.

In addition, the 2nd roller 24 configures orthogonally with the axle of coil holder 16, when the multiple silk thread Y sent here from the 1st roller 23 are distributed to each mound bobbins B, is distributed by each silk thread Y along the tangential direction of the 2nd roller 24.Therefore, silk thread Y is not bent by the 2nd roller 24, when the winding running position a of the 2nd roller 24 is set in low position, does not have necessity of the angle of bend in consideration the 2nd roller 24.

Further, as illustrated in embodiment 1, the angle of bend of each silk thread Y in each traversing pivot guide device 25 was different respectively.The difference of this silk thread Y angle of bend becomes the trickle different reason of quality of the difference of each silk thread Y tension force, each silk thread Y.Therefore each silk thread Y is made between each silk thread Y, equally to be configured the 2nd road guide 26 by the total angle of bend that the 2nd road guide 26 and traversing pivot guide device 25 bend in the present embodiment.

Fig. 6 A be from the side from the 2nd roller 24 to the figure in the silk road of the silk thread Y of traversing pivot guide device 25, Fig. 6 B be from viewed from oblique upper from the 2nd roller 24 to the figure in the silk road of the silk thread Y of traversing pivot guide device 25.As shown in Fig. 6 A, Fig. 6 B, the 2nd road guide 26 is not configure on the same line, but is configured on curve.On the other hand, traversing pivot guide device 25, due to the fulcrum being the silk thread Y being guided to traversing gear 18, is therefore configured on the same line.Now, each silk thread Y bends on a different plane respectively in each 2nd road guide 26.Therefore, the angle of bend of each silk thread Y in each 2nd road guide 26 is not each silk thread Y angulation in the front view of Fig. 5, but as shown in Figure 6B each silk thread Y three-dimensional actual flexion angle θ 11, θ 12 ..., θ 110.Equally, the angle of bend of each silk thread Y in each traversing pivot guide device 25 be each silk thread Y three-dimensional actual flexion angle θ 21, θ 22 ..., θ 210.

Further, make in the present embodiment each silk thread Y total angle of bend (θ 11+ θ 21, θ 12+ θ 22 ..., θ 110+ θ 210) between each silk thread Y equal and make each silk thread Y total angle of bend (θ 11+ θ 21, θ 12+ θ 22 ..., θ 110+ θ 210) than the upper limit angle of bend the earth setting the 2nd road guide 26 position.In addition, make the angle of bend θ 11 of each silk thread Y in each 2nd road guide 26, θ 12 ..., each silk thread Y in θ 110 and each traversing pivot guide device 25 angle of bend θ 21, θ 22 ..., θ 210 sets the position of the 2nd road guide 26 respectively below upper limit angle of bend.

If adopt the above filament yarn winding apparatus 11 involved by embodiment 2 illustrated, there is following effect.

Owing to bending with making each silk thread Y multistage with traversing pivot guide Qi25He Si road guide, can make total angle of bend (θ 11+ θ 21, θ 12+ θ 22 ..., θ 110+ θ 210) larger than upper limit angle of bend, therefore, it is possible to the height of the 2nd roller 24 is suppressed low.Therefore, it is possible to become the filament yarn winding apparatus 11 of the height reducing coiler device 13, low seat (sunken bed).

And, between each silk thread Y, the 2nd road guide 26 is equally configured with owing to making the total angle of bend of traversing pivot guide device 25 and the 2nd road guide 26 generation, therefore, it is possible to make the tension force of each silk thread Y equal between each silk thread Y, the silk thread greater homogeneity between each silk thread Y can be made.

Although be explained above embodiment of the present invention, the present invention is not defined to above-described embodiment, can carry out various change.Such as, although lowering or hoisting gear 31 is the device with motor 36 driving pulley 32, also can be manually make belt wheel 33 rotate.Further, the telescopic drive of cylinder can also be used and the 2nd roller 24 is moved, bar-like member also can be used manually to make the 2nd roller 24 move.

The technical scope of the present invention more than illustrated is not defined to above-described embodiment, is also not limited to the shape of above-described embodiment.Technical scope of the present invention expands to the scope of whole technological thought that understand in the whole item recorded from this description and accompanying drawing, true intention of the present invention.

Claims (3)

1. possess a filament yarn winding apparatus for device for spinning and coiler device, above-mentioned coiler device possesses: the 1st roller, draws the multiple silk threads from above-mentioned device for spinning; Support the coil holder of multiple mound bobbins, this mound bobbins is used for reeling from multiple silk threads of above-mentioned device for spinning; 2nd roller, configures orthogonally with the axle of above-mentioned coil holder, and the multiple silk threads sent here from above-mentioned 1st roller are distributed to above-mentioned each mound bobbins; And traversing pivot guide device, becomes and makes each silk thread sent here from above-mentioned 2nd roller relative to the fulcrum when each mound bobbins traversing; The feature of this filament yarn winding apparatus is,

Above-mentioned 2nd roller can move between the regular winding running position in silk road and the repiece job position as the position set low than above-mentioned winding driving position when the silk road of above-mentioned multiple silk thread becomes winding running.

2. filament yarn winding apparatus as claimed in claim 1, it is characterized in that, between above-mentioned 2nd roller and above-mentioned traversing pivot guide device, also possess a road guide, this road guide makes the above-mentioned each silk thread distributing to above-mentioned each mound bobbins bending below predetermined angle;

Bend with making above-mentioned each silk thread multistage with above-mentioned traversing pivot guide device and above-mentioned silk road guide.

3. filament yarn winding apparatus as claimed in claim 2, is characterized in that, makes the total angle of bend produced by above-mentioned traversing pivot guide device and above-mentioned silk road guide between each silk thread, equally be configured with above-mentioned silk road guide.