CN101736421B

CN101736421B - Take-up winding facility

Info

Publication number: CN101736421B
Application number: CN200910211835.0A
Authority: CN
Inventors: 中川理
Original assignee: TMT Machinery Inc
Current assignee: TMT Machinery Inc
Priority date: 2008-11-13
Filing date: 2009-11-05
Publication date: 2014-01-22
Anticipated expiration: 2029-11-05
Also published as: EP2186765B1; EP2186765A2; CN101736421A; JP5368061B2; JP2010116648A; EP2186765A3

Abstract

An object of the present invention is to provide a take-up winding facility having a simple structure and which can be miniaturized. The present invention provides a take-up winding facility 10 feeding a plurality of filament yarns 1 spun out by a spinning machine 10, from above to below to simultaneously wind the plurality of filament yarns 1 around respective plural bobbins 22 installed on a bobbin holder shaft 23 in one take-up winding machine, wherein a plurality of yarn feeding rollers 31, ... are arranged above the take-up winding machine 21, and one of the plurality of yarn feeding rollers 31, ... takes off all of the plurality of filament yarns and winds around the respective bobbins 22 via the said yarn feeding roller and other yarn feeding rollers.

Description

Take-up winding facility

Technical field

The present invention relates to reel from the take-up winding facility of the spun multi-filament line of spinning machine by a plurality of rollers with up-coiler.

Background technology

The take-up winding facility of prior art adopts such structure: a relative up-coiler arranges a roll dies of feeding being configured in front of up-coiler, by all feeding roll dies from it from the spun multi-filament line of spinning machine, is directed to a plurality of bobbins that are arranged on a up-coiler reel (with reference to patent documentation 1).

And as other examples of the take-up winding facility of prior art, adopt such structure: a relative up-coiler arranges two roll dies of feeding that are configured in front of up-coiler respectively, by from the spun multi-filament line of spinning machine separately from respectively feed roll dies be directed to be installed in a up-coiler, bobbin that quantity is identical with the radical of above-mentioned multi-filament line reel (with reference to patent documentation 2).

[patent documentation 1] TOHKEMY 2003-285972 communique

[patent documentation 2] Japanese Unexamined Patent Application Publication 2005-534825 communique

But, in take-up winding facility shown in patent documentation 1, when making disposal ability increase, that is to say that the quantity of the bobbin the coil holder axle that makes from spinning machine spun silk thread radical and be arranged on up-coiler increases, because coil holder is elongated, the angle therefore becoming with above-below direction to bobbin Si road from hello roll dies becomes and is greater than predetermined angle.Thus, the tension force that acts on each silk thread is different with friction, brings impact can to the quality of silk thread.Therefore, the take-up winding facility shown in patent documentation 1, in order to make the angle becoming with above-below direction to bobbin Si road from above-mentioned hello roll dies below predetermined angle, must extend the distance between roll dies of feeding from up-coiler to front.So the height of device increases, equipment itself maximizes, and follows in this, exist the construction cost increase of building, silk thread repiece to increase such problem to the first-class operating efficiency reduction of cord roller, the air-conditioning expense cost in building.

And, in take-up winding facility shown in patent documentation 2, owing to spun multi-filament line being separated from respectively feeding the bobbin of roll dies guiding to a up-coiler, even if therefore increase disposal ability, also can make the angle becoming with above-below direction to bobbin Si road from above-mentioned hello roll dies below predetermined angle.Therefore, do not need to extend the distance between roll dies of feeding from up-coiler to front, can make equipment self miniaturization, but be used for pulling out the roll dies of feeding from the spun silk thread of spinning machine, the problem that therefore exists device to become complicated because needs arrange in addition.

Summary of the invention

The present invention is exactly in order to address these problems, and its objective is and will provide a kind of height that reduces device to make equipment self miniaturization, and the take-up winding facility simplifying the structure.

The following describes the means for addressing this problem.

; the 1st scheme provides downwards from top by the spun multi-filament line of spinning machine for a kind of; and be wound up into the take-up winding facility in each of a plurality of bobbins on the coil holder axle that is arranged on a up-coiler simultaneously; above above-mentioned up-coiler, dispose a plurality of roll dies of feeding; above-mentioned a plurality of of feeding in roll dies feeds roll dies traction all above-mentioned multi-filament lines, through this hello roll dies and other the roll dies of feeding, is wound up on each bobbin.

The 2nd scheme is on the basis of the 1st scheme, above-mentioned a plurality of roll dies of feeding at least comprises that the 1st feeds roll dies and the 2nd hello roll dies, they along the axis direction devices spaced apart of above-mentioned coil holder axle configure, the 1st silk thread group and the 2nd silk thread group that form all or part of silk thread group of above-mentioned multi-filament line are delivered to up-coiler; The above-mentioned the 1st feeds roll dies rotates like this: from above-mentioned spinning machine, draw above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group and be sent to the above-mentioned the 2nd and feed roll dies, and traction is fed above-mentioned the 2nd silk thread group that roll dies sends and is sent to above-mentioned up-coiler from the above-mentioned the 2nd; The above-mentioned the 2nd feeds roll dies rotates like this: traction feeds from the above-mentioned the 1st above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group that roll dies is sent, above-mentioned the 1st silk thread group of traction and above-mentioned the 2nd silk thread group in above-mentioned the 2nd silk thread group are sent to the above-mentioned the 1st hello roll dies, and above-mentioned the 1st silk thread group is sent to above-mentioned up-coiler; Above-mentioned up-coiler is wound up into bobbin feeding above-mentioned the 2nd silk thread group that roll dies sends and feed from the above-mentioned the 2nd above-mentioned the 1st silk thread group that roll dies sends from the above-mentioned the 1st.

The 3rd scheme is on the basis of the 1st scheme, above-mentioned a plurality of roll dies of feeding at least comprises that the 1st feeds roll dies and the 2nd hello roll dies, they along the axis direction devices spaced apart of above-mentioned coil holder axle configure, the 1st silk thread group and the 2nd silk thread group that form all or part of silk thread group of above-mentioned multi-filament line are delivered to up-coiler; The above-mentioned the 1st feeds roll dies rotates like this: from above-mentioned spinning machine, draw above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group and be sent to the above-mentioned the 2nd and feed roll dies, traction feeds from the above-mentioned the 2nd above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group that roll dies is sent, above-mentioned the 2nd silk thread group is sent to the above-mentioned the 2nd and feeds roll dies, and above-mentioned the 1st silk thread group is sent to above-mentioned up-coiler; The above-mentioned the 2nd feeds roll dies rotates like this: traction is fed from the above-mentioned the 1st above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group that roll dies sends and is also sent to the above-mentioned the 1st and feeds roll dies, and traction is fed above-mentioned the 2nd silk thread group that roll dies sends and is sent to above-mentioned up-coiler from the above-mentioned the 1st; Above-mentioned up-coiler is wound up into bobbin feeding above-mentioned the 1st silk thread group that roll dies sends and feed from the above-mentioned the 2nd above-mentioned the 2nd silk thread group that roll dies sends from the above-mentioned the 1st.

The 4th scheme is on the basis of the 1st scheme, above-mentioned a plurality of roll dies of feeding at least comprises that the 1st feeds roll dies and the 2nd hello roll dies, they along the axis direction devices spaced apart of above-mentioned coil holder axle configure, the 1st silk thread group and the 2nd silk thread group that form all or part of silk thread group of above-mentioned multi-filament line are delivered to up-coiler; The above-mentioned the 1st feeds roll dies rotates like this: from above-mentioned spinning machine, draw above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group and be sent to the above-mentioned the 2nd and feed roll dies, and and carry out above-mentioned the 1st silk thread group of one or many and above-mentioned the 2nd silk thread group's traction and send between the above-mentioned the 2nd hello roll dies, then draw above-mentioned the 2nd silk thread group who sends from the above-mentioned the 2nd hello roll dies and be sent to above-mentioned up-coiler; The above-mentioned the 2nd feeds roll dies rotates like this: and carry out above-mentioned the 1st silk thread group of one or many and above-mentioned the 2nd silk thread group's traction and send between the above-mentioned the 1st hello roll dies, then above-mentioned the 1st silk thread group of traction and above-mentioned the 2nd silk thread group in above-mentioned the 2nd silk thread group are sent to the above-mentioned the 1st hello roll dies, and above-mentioned the 1st silk thread group is sent to above-mentioned up-coiler; Above-mentioned up-coiler is wound up into bobbin feeding above-mentioned the 2nd silk thread group that roll dies sends and feed from the above-mentioned the 2nd above-mentioned the 1st silk thread group that roll dies sends from the above-mentioned the 1st.

The 5th scheme is on the basis of the 1st scheme, above-mentioned a plurality of roll dies of feeding at least comprises that the 1st feeds roll dies and the 2nd hello roll dies, they along the axis direction devices spaced apart of above-mentioned coil holder axle configure, the 1st silk thread group and the 2nd silk thread group that form all or part of silk thread group of above-mentioned multi-filament line are delivered to up-coiler; The above-mentioned the 1st feeds roll dies rotates like this: from above-mentioned spinning machine, draw above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group and be sent to the above-mentioned the 2nd and feed roll dies, and and carry out repeatedly above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group's traction and send between the above-mentioned the 2nd hello roll dies, then draw from the above-mentioned the 2nd and feed above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group that roll dies is sent, above-mentioned the 2nd silk thread group is sent to the above-mentioned the 2nd and feeds roll dies, and above-mentioned the 1st silk thread group is sent to above-mentioned up-coiler; The above-mentioned the 2nd feeds roll dies rotates like this: and carry out repeatedly above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group's traction and send between the above-mentioned the 1st hello roll dies, then draw above-mentioned the 2nd silk thread group who sends from the above-mentioned the 1st hello roll dies and be sent to above-mentioned up-coiler; Above-mentioned up-coiler is wound up into bobbin feeding above-mentioned the 1st silk thread group that roll dies sends and feed from the above-mentioned the 2nd above-mentioned the 2nd silk thread group that roll dies sends from the above-mentioned the 1st.

On the basis of any scheme of the 6th scheme in the 2nd to 5 schemes, the above-mentioned the 1st hello roll dies and the above-mentioned the 2nd is fed roll dies and is formed with the different region of coefficient of friction at each from the silk thread contact portion that above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group's at least one party contacts.

On the basis of any scheme of the 7th scheme in the 2nd to 6 schemes, the above-mentioned the 1st hello roll dies and the above-mentioned the 2nd is fed roll dies and is formed with different region, roller footpath at each from the silk thread contact portion that above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group's at least one party contacts.

On the basis of any scheme of the 8th scheme in the 2nd to 7 schemes, the above-mentioned the 1st, feed between roll dies and the above-mentioned the 2nd hello roll dies and dispose interlaced device.

On the basis of any scheme of the 9th scheme in the 2nd to 7 schemes, the above-mentioned the 1st, feed between roll dies and the above-mentioned the 2nd hello roll dies and up-coiler and dispose interlaced device.

On the basis of any scheme of the 10th scheme in the 1st to 9 schemes, the above-mentioned the 1st, feed roll dies and the above-mentioned the 2nd and feed near roll dies, be provided with for temporarily depositing the repiece supplemental pilot device of above-mentioned silk thread when the repiece.

On the basis of any scheme of the 11st scheme in the 1st to 10 schemes, above-mentioned spinning machine spin unit below be provided with the oiling device of giving finish to above-mentioned silk thread.

The 12nd scheme on the basis of the 11st scheme, above-mentioned spinning machine spin unit below be provided with the migration nozzle that the finish for making to be given by above-mentioned oiling device adheres to above-mentioned silk thread equably.

On the basis of any scheme of the 13rd scheme in the 1st to 12 schemes, above-mentioned spinning machine spin unit below be provided with and prevent the gate that silk thread falls when at fracture of wire.

On the basis of any scheme of the 14th scheme in the 1st to 13 schemes, it is common being used for driving above-mentioned converter of feeding roll dies.

The present invention has effect as follows.

If adopt the 1st scheme, because silk thread is from being configured in the suitable locational roll dies of feeding and being sent with respect to being arranged on bobbin up-coiler, therefore, even if make from the radical of the spun silk thread of spinning machine and be arranged on a bobbin number up-coiler, increase, also can make the angle becoming with above-below direction to bobbin Si road from above-mentioned hello roll dies below predetermined angular, therefore good silk thread quality not only can be guaranteed, and the coiling of silk thread can be stably carried out.

If adopt the 2nd scheme, because even making from the radical of the spun silk thread of spinning machine and being arranged on a bobbin number up-coiler increases, also can make the angle becoming with above-below direction to bobbin Si road from above-mentioned hello roll dies below predetermined angular, therefore not only can guarantee good silk thread quality, and due to the distance of feeding roll dies that does not need to extend from up-coiler to front, so can reduce the height of device, make equipment self miniaturization.Therefore, can reduce the air-conditioning expense in the cost of building, the efficiency that improves the operations such as repiece, reduction building.

And, owing to not needing to arrange in addition, be used for drawing the roll dies of feeding from the spun silk thread of spinning machine, therefore can make simple in structure.

If adopt the 3rd scheme, because even making from the radical of the spun silk thread of spinning machine and being arranged on a bobbin number up-coiler increases, also can make the angle becoming with above-below direction to bobbin Si road from above-mentioned hello roll dies below predetermined angular, by being most suitable value respectively feeding the tension force that makes to be applied on silk thread between roll dies, can guaranteeing good silk thread quality, stably carry out the coiling of silk thread.And the distance of feeding roll dies owing to not needing to extend from up-coiler to front, makes equipment self miniaturization so can reduce the height of device.Therefore, can reduce the cost of building, the efficiency that raising is the operations such as repiece, the air-conditioning expense in reduction building.

If adopt the 4th scheme, because even making from the radical of the spun silk thread of spinning machine and being arranged on a bobbin number up-coiler increases, also can make the angle becoming with above-below direction to bobbin Si road from above-mentioned hello roll dies below predetermined angular, by being most suitable value respectively feeding the tension force that makes to be applied on silk thread between roll dies, can guaranteeing good silk thread quality, stably carry out the coiling of silk thread.And the distance of feeding roll dies owing to not needing to extend from up-coiler to front, makes equipment self miniaturization so can reduce the height of device.Therefore, can reduce the air-conditioning expense in the cost of building, the efficiency that improves the operations such as repiece, reduction building.

If adopt the 5th scheme, because even making from the radical of the spun silk thread of spinning machine and being arranged on a bobbin number up-coiler increases, also can make the angle becoming with above-below direction to bobbin Si road from above-mentioned hello roll dies below predetermined angular, by being most suitable value respectively feeding the tension force that makes to be applied on silk thread between roll dies, can guaranteeing good silk thread quality, stably carry out the coiling of silk thread.And the distance of feeding roll dies owing to not needing to extend from up-coiler to front, makes equipment self miniaturization so can reduce the height of device.Therefore, can reduce the air-conditioning expense in the cost of building, the efficiency that improves the operations such as repiece, reduction building.

If adopt the 6th scheme, by changing silk thread group and respectively feeding the coefficient of friction of the each silk thread contact portion contacting of roll dies, the tension force that makes to be applied on silk thread is most suitable value, can guarantee good silk thread quality, stably carry out the coiling of silk thread.

If adopt the 7th scheme, by changing silk thread group and respectively feeding the roller footpath of the each silk thread contact portion contacting of roll dies, the peripheral speed of silk thread contact portion is changed, thereby the tension force that makes to be applied on silk thread is most suitable value, can guarantee good silk thread quality, stably carry out the coiling of silk thread.

If adopt the 8th scheme, owing to being enoughly configured in the fixing silk of the interlaced device road of respectively feeding between roll dies, therefore can stably carry out the coiling of silk thread.

If adopt the 9th scheme, owing to utilizing, be configured in the fixing silk of the interlaced device road of respectively feeding between roll dies and up-coiler, therefore can stably carry out the coiling of silk thread.

If adopt the 10th scheme, owing to can temporarily depositing above-mentioned silk thread when respectively feeding roll dies repiece, so repiece operation becomes easy.

If adopt the 11st scheme, can make near the simplifying the structure of up-coiler, make repiece operation become easy.

If adopt the 12nd scheme, can make near the simplifying the structure of up-coiler, make repiece operation become easy.

If adopt the 13rd scheme, can make near the simplifying the structure of up-coiler, fracture of wire can not be wound on other silk threads and up-coiler etc.

If adopt the 14th scheme, the control of feeding roll dies becomes easily, can make the quantity of parts reduce, therefore can cutting down cost.

Accompanying drawing explanation

Figure (1A) is for representing the integrally-built front view of take-up winding facility of the present invention, (1B) for representing the integrally-built side view of take-up winding facility of the present invention;

Fig. 2 is for representing the perspective view of the coiler device of the present invention's the first example;

Fig. 3 is for representing the right side view of the coiler device of the present invention's the first example;

Fig. 4 is for representing the front view of the coiler device of the present invention's the first example;

Fig. 5 is for representing the perspective view in the present invention the first example Si road;

Fig. 6 is for representing the perspective view in the present invention the second example Si road;

Fig. 7 is for representing the perspective view in the present invention the 3rd example Si road;

Fig. 8 is for representing the perspective view in the present invention the 4th example Si road;

Figure (9A) is for having represented the top view in the present invention the 5th example Si road, (9B) for having represented the right side view in the present invention the 5th example Si road;

Figure (10A) is for having represented the top view in the present invention the 6th example Si road, (10B) for having represented the right side view in the present invention the 6th example Si road.

The specific embodiment

First the overall structure of take-up winding facility 100 of the present invention is described with Fig. 1.Figure 1A is the front view of take-up winding facility 100, and Figure 1B is its side view.In addition, using the action direction of gravity as above-below direction, the axis direction of the coil holder axle 23 that up-coiler 21 is possessed is as fore-and-aft direction, using the side being connected with drive unit 26 of this coil holder axle 23 as rear side, using its other side as front side.And, when seeing up-coiler 21 from front side and the direction of above-below direction and fore-and-aft direction quadrature as left and right directions.

Take-up winding facility 100 mainly consists of from the filament yarn winding apparatus 20 of the spun silk thread 1 of this spinning machine 10 with being used for reeling the spinning machine 10 that spins multi-filament line 1.

Spinning machine 10, for the synthetic fiber material of input being offered and spun unit 11 by extruder (not having in figure to represent) and prefilter (not having in figure to represent), spins from forming this spinneret that spins unit 11 12 device that multi-filament line 1 offers filament yarn winding apparatus 20.

As shown in Figure 2, Figure 3 and Figure 4, filament yarn winding apparatus 20 is mainly fed roll dies 31, the 2nd by the up-coiler 21 and the 1st of the above-mentioned multi-filament line 1 that is used for reeling and is fed roll dies 32 and form.

Up-coiler 21 has: the coil holder axle 23 that many bobbins 22 are installed, contact the touch roll of rotation with the package 24 forming on bobbin 22, make to be wound up into the reciprocating guide wire apparatus 25 that traverses of silk thread 1 on each bobbin 22, and the drive unit 26 that drives coil holder axle 23 or the guide wire apparatus 25 that traverses.

Respectively

feed roll dies

31,32 and be configured in the top of above-mentioned up-coiler 21, on the axis direction of above-mentioned coil holder axle 23 for devices spaced apart respectively, the 1st silk thread group 1a from the above-mentioned multi-filament line 1 of the spun formation of above-mentioned spinneret 12 and the 2nd silk thread group 1b are transported to the device of up-coiler 21.

Each structure of spinning machine 10 and the filament yarn winding apparatus 20 of the first example is described along the throughput direction of above-mentioned silk thread 1 below.

As shown in Figure 1, above filament yarn winding apparatus 20, dispose spinning machine 10, form spinning machine 10 spin unit 11 below, be provided with oiling device 40, migration (migration) nozzle 50 and gate 60.

So-called oiling device 40 is for providing for reducing with the friction of thread-carrier etc., preventing charged or give the device of the finish of flexibility etc. to silk thread 1, and so-called migration nozzle 50 makes the suitable disorderly device of mobile generation of silk thread 1 for the finish that makes above-mentioned oiling device 40 offer silk thread 1 moves equably.And, gate 60 for by make its movably prevent fracture of wire the parts that fall of silk thread 1, have fracture of wire is pushed to be arranged on the parts that near gate 60 suction inlets are got rid of fracture of wire, also have along with the temperature controlled parts that aperture spins unit 11 are adjusted in the variation of environment temperature.

In addition, oiling device 40, migration nozzle 50 and gate 60 are not limited to along the throughput direction of silk thread 1 and configure successively, just in function, only need by move nozzle 50 be configured in oiling device 40 after.And, do not need them to be all arranged on the below that spins unit 11, can be also for example only gate 60 to be configured in to the below that spins unit 11 and the structure that remaining oiling device 40 and migration nozzle 50 is configured in to the 1st hello roll dies 31 fronts.

The 1st silk thread group 1a consisting of the predetermined radical from the spun multi-filament line 1 of spinneret 12 and the 2nd silk thread group 1b that consists of remaining silk thread 1 state (with reference to Fig. 1, Fig. 4) in roughly forming a line along left and right directions, this state is with the shape of spinneret 12 (spinning unit 11) or the difference of configuration and different.And the 1st silk thread group 1a and the 2nd silk thread group 1b feed roll dies 31 tractions with the 1st.; the 1st silk thread group 1a and the 2nd silk thread group 1b, from spinneret 12 (spinning unit 11) is spun, narrow down each silk thread 1 distance each other and are become row along left and right directions to guide (with reference to Fig. 3, Fig. 4) along the 1st direction of feeding roll dies 31 rotations.

The 1st feeds roll dies 31 and the 2nd feeds roll dies 32 and makes its axle center parallel to each other or vertical or arrange obliquely with its compound direction.In this example, the 1st feeds roll dies 31 vertical and flatly setting with respect to above-mentioned coil holder axle 23, and the posture that the 2nd hello roll dies 32 tilts with respect to horizontal direction a little with right part one side with raising is configured in the rear of the 1st hello roll dies 31.Even if this is to feed roll dies 31 and the 2nd for silk thread 1 the 1st to feed between roll dies 32 and repeatedly won over and send over, silk thread 1 also can not pass through that same silk is genuine send past tense to move down to right part one lateral deviation of hello roll dies 31,32 respectively winning at every turn.

And the 1st feeds roll dies 31 and the 2nd feeds roll dies 32 to mutual contrary direction rotation, the 1st feeds roll dies 31 rotation in the counterclockwise direction on right side view, and the 2nd feeds roll dies 32 is rotated in a clockwise direction on right side view.In addition, give and drive the

drive motor unit

35,36 of respectively feeding roll dies 31,32 to provide the converter of electric power to share, the rotary speed of respectively feeding roll dies 31,32 is identical.

With Fig. 5, Fig. 6, Fig. 7 and Fig. 8, illustrate by respectively feeding the 1st silk thread group 1a and the 2nd silk thread Qun1bSi road that roll dies 31,32 flows to up-coiler 21 below.

Fig. 5, Fig. 6, Fig. 7 and Fig. 8 are the perspective view that is conceived to respectively feed roll dies 31,32 and each

silk thread group

1a, 1b in the present invention first, second, third and the 4th example.

As shown in Figure 5, in the first example, form from the 1st silk thread group 1a and the 2nd silk thread group 1b of the spun multi-filament line 1 of spinneret 12 and first in the 1st hello roll dies 31 left end one sides (drive motor unit 35 1 sides), along the 1st direction of rotation (diagram counterclockwise) of feeding roll dies 31, pass by approximately 1/4 week, be sent to the 2nd and feed roll dies 32.Then, the 1st silk thread group 1a is sent to each bobbin 22 of up-coiler 21 by interlaced device 70 described later along the 2nd direction of rotation (diagram clockwise) of feeding roll dies 32, the 2nd silk thread group 1b feeds direction of rotation (diagram clockwise) the about half-turn of passing by of roll dies 32 along the 2nd, then sends along the 1st direction of rotation (diagram counterclockwise) of feeding roll dies 31.And the 2nd silk thread group 1b feeds roll dies 31 from the 1st and is sent to each bobbin 22 of up-coiler 21 by interlaced device 70 described later.

As shown in Figure 6, in the second example, in the 1st left part one side (drive motor unit 35 1 sides) of feeding roll dies 31, along being sent to the 2nd after the 1st direction of rotation (diagram counterclockwise) of feeding roll dies 31 is passed by approximately 1/4 week, feed the 1st silk thread group 1a and the 2nd silk thread group 1b of roll dies 32, along the 1st direction of rotation of feeding roll dies 31, send again after feeding direction of rotation (diagram clockwise) the about half-turn of passing by of roll dies 32 along the 2nd.Then, the 1st silk thread group 1a is sent to each bobbin 22, the 2 silk thread group 1b of up-coiler 21 along the 1st direction of rotation (diagram counterclockwise) of feeding roll dies 31 and along the 2nd direction of rotation (diagram clockwise direction) of feeding roll dies 32, sends after direction of rotation (diagram counterclockwise) the about half-turn of passing by of the 1st hello roll dies 31 again by interlaced device 70 described later.And the 2nd silk thread group feeds roll dies 32 from the 2nd and is sent to each bobbin 22 of up-coiler 21 by interlaced device 70 described later.

As shown in Figure 7, in the 3rd example, in the 1st left part one side (drive motor unit 35 1 sides) of feeding roll dies 31, along being sent to the 2nd after the 1st direction of rotation (diagram counterclockwise) of feeding roll dies 31 is passed by approximately 1/4 week, feed the 1st silk thread group 1a and the 2nd silk thread group 1b of roll dies 32, along the 1st direction of rotation of feeding roll dies 31, be sent again after feeding direction of rotation (diagram clockwise) the about half-turn of passing by of roll dies 32 along the 2nd.And, at the 1st silk thread group 1a and the 2nd silk thread group 1b, feeding roll dies 31 and the 2nd like this 1st feeds and between roll dies 32, has carried out after one or many draws and send, the 1st silk thread group 1a is sent to up-coiler 21 along the 2nd direction of rotation (diagram clockwise) of feeding roll dies 32 each bobbin 22, the 2 silk thread groups by interlaced device 70 described later are sent to each bobbin 22 of up-coiler 21 from the 1st hello roll dies 31 by interlaced device 70 described later.

As shown in Figure 8, in the 4th example, in the 1st left part one side (drive motor unit 35 1 sides) of feeding roll dies 31, along being sent to the 2nd after the 1st direction of rotation (diagram counterclockwise) of feeding roll dies 31 is passed by approximately 1/4 week, feed the 1st silk thread group 1a and the 2nd silk thread group 1b of roll dies 32, along the 1st direction of rotation of feeding roll dies 31, be sent again after feeding direction of rotation (diagram clockwise) the about half-turn of passing by of roll dies 32 along the 2nd.And, at the 1st silk thread group 1a and the 2nd silk thread group 1b like this after the 1st feeds and repeatedly draws and send between roll dies 31 and the 2nd hello roll dies 32, the 1st silk thread group 1a is sent to up-coiler 21 along the 1st direction of rotation (diagram counterclockwise) of feeding roll dies 31 each bobbin 22, the 2 silk thread groups by interlaced device 70 described later are sent to each bobbin 22 of up-coiler 21 from the 2nd hello roll dies 32 by interlaced device 70 described later.

Even if more than 1 built of the present invention's silk thread respectively fed on roll dies 31,32 (reference example is as Fig. 8), owing to the 2nd feeding roll dies 32 and be tilted configuration as described above, so silk thread 1 can not interfered each other.; naturally to right part one side (diagram right side) of respectively feeding roll dies 31,32 is mobile, go down owing to being transported to the 1st silk thread 1 of feeding roll dies 31 left part one sides (drive motor unit 35 1 sides) from spinneret 12 and drawing at every turn and send, so can not produce interference on silk thread 1.

In addition, for example in the first example the 1st silk thread group 1a with respectively feed number of times that roll dies 31,32 contact for respectively feed roll dies 31,32 and contact respectively once 2 times altogether; The 2nd silk thread group 1b be with the 1st feed roll dies 31 contact 2 times, contact 1 time 3 times altogether with the 2nd hello roll dies 32.Therefore, the 1st silk thread group 1a is 2: 3 with the 2nd silk thread group 1b with the ratio of the number of times that respectively hello roll dies 31,32 contacts.Different with it, for example in the 4th example, at least the 1 silk thread group 1a is 5: 6 with the 2nd silk thread group 1b with the ratio of the number of times that respectively hello roll dies 31,32 contacts.That is,, along with respectively feeding set in brickwork number of times increase between roll dies 31,32, the 1st silk thread group 1a diminishes with the ratio of the difference of the number of times that respectively hello roll dies 31,32 contacts gradually with the 2nd silk thread group 1b, can reduce the inhomogeneous of silk thread quality.

Interlaced device 70 is arranged on each silk thread 1 from respectively feeding roll dies 31,32 to bobbin 22Ge Si roads, and the position on above-below direction is for being configured between above-mentioned respectively hello roll dies 31,32 and up-coiler 21 (with reference to Fig. 3, Fig. 4).

Interlaced device 70 is wound around and gives convergence mutually for form the filament of silk thread 1 by using fluid injection nozzle to make, and suppresses diffusion or separated device between fiber.

Because being treated to silk thread 1 of carrying out of this interlaced device 70 applies the processing of carrying out after tension force, therefore except can being arranged on from above-mentioned respectively hello roll dies 31,32 to bobbin 22Ge Si roads, can also being arranged on to feed roll dies 32Si road or be arranged on from the 2nd hello roll dies 32 from the 1st hello roll dies 31 to the 2nd and feeding roll dies 31Si road to the 1st.

This is because silk thread 1 is fed between roll dies 31 or the commitment of respectively feeding in repeatedly drawing and send between roll dies 31,32 can apply tension force to silk thread 1 at spinneret 12 and the 1st, even the therefore traction below and to implement processing with interlaced device 70 while sending also no problem.

Thus, except implementing, processing, this interlaced device 70 to be used as silk road guide by 70 pairs of silk threads of enough interlaced devices 1, therefore by fixing silk road, can carry out the coiling of stable silk thread 1.

Then, up-coiler 21 is for being configured in the below of respectively feeding roll dies 31,32, by with drive unit 26 drive installations the coil holder axle 23 of bobbin 22 rotate the device of the above-mentioned silk thread 1 of reeling.

A plurality of bobbins 22 are installed on coil holder axle 23.While being wound up on each bobbin 22 due to each silk thread 1, with the pivot guide device 25a that traverses that forms the guide wire apparatus 25 that traverses, traverse as described above, thus silk thread 1 can not produce skew floor-covering roll around.

By adopting such structure, even increase from the radical of the spun silk thread of spinning machine and the bobbin number that is arranged on the coil holder axle of up-coiler, owing to separately being reeled from respectively feeding roll dies 31,32 from the spun multi-filament line 1 of spinneret 12, therefore the angle A (with reference to Fig. 3) becoming with above-below direction from the outermost silk thread 1 Si road that respectively hello roll dies 31,32 is sent can maintain predetermined angular---for example, below 20 °, do not need to extend the distance of feeding roll dies from up-coiler to front as in the past, can make equipment self miniaturization.Therefore, can reduce building cost, improve repiece etc. operating efficiency, reduce the air-conditioning expense in building.And the roller that the yarn feeding that this example needs is used only has 2, can simplified structure, reduce cost and improved the operability of repiece etc.

The following describes the filament yarn winding apparatus 20 of the present invention's the 5th example.But, for the structure identical with said structure, add identical Reference numeral, centered by different parts, describe.

As shown in Figure 9, the 5th example the above-mentioned the 1st feed silk

thread contact portion

31a, 31b that roll dies 31 and the above-mentioned the 2nd feeds each silk thread contact portion contact with at least one party of above-mentioned the 1st silk thread group 1a and above-mentioned the 2nd silk thread group 1b change the 1st hello roll dies 31 of roll dies 32 ... and silk thread contact portion 32a, the 32b of the 2nd hello roll dies ... surface treatment.

In addition, Fig. 9 A is the top view that is conceived to respectively feed roll dies 31,32 and silk thread 1, and Fig. 9 B is its side view.

The silk thread contact portion 31a of the 1st hello roll dies 31 ... and the silk thread contact portion 32a of the 2nd hello roll dies 32 ... surface treatment generally carry out chromium plating processing or coating ceramic membrane, but the present invention does not limit its processing method, as long as change the respectively coefficient of friction of the silk thread contact portion of hello roll dies 31,32, just can.Therefore can be, also to design difference in the difference of grinding step or milling time.

Thus, even the take-up winding facility of the present invention that is used for pulling out from spinneret 12 pull-out roll of silk thread 1 that there is no that the take-up winding facility of prior art has, by improving the 1st coefficient of friction of feeding the silk thread contact portion 31a of roll dies 31, also can play the effect as pull-out roll.And, by change go down the 1st silk thread contact portion 31a that feeds roll dies 31 that contacts with silk thread 1 ... and the silk thread contact portion 32a of the 2nd hello roll dies 32 ... coefficient of friction, can silk thread from the 1st feed roll dies 31 to the 2nd feed roll dies 32, from the 2nd feed roll dies 32 to the 1st feed traction roll dies 31 and send during to silk thread, apply most suitable tension force, can guarantee desirable quality, and the silk thread 1 of can stably reeling.

In addition, in this example, made the 1st of silk thread pull-out roll effect feed the coefficient of friction of silk thread contact portion 31a of roll dies 31 maximum, often once draw with send the silk thread contact portion 31a that contacts with silk thread 1 ... with silk thread contact portion 32a ... coefficient of friction reduce down successively.Therefore there is following relation in the coefficient of friction of silk thread contact portion.

Coefficient of friction: 31a > 32a > 31b > 32b

And, in order to find out the occurrence of most suitable coefficient of friction according to desirable silk thread quality etc., for not restrictions such as its numerical value, according to the difference of silk thread kind, sometimes also make coefficient of friction increase down gradually.

The following describes the filament yarn winding apparatus 20 of the present invention's the 6th example.But, for the structure identical with said structure, add identical Reference numeral, centered by different parts, describe.

As shown in figure 10, the 6th example the above-mentioned the 1st roller footpath 31A that feeds the silk thread contact portion of each silk thread contact portion contact with at least one party of above-mentioned the 1st silk thread group 1a and above-mentioned the 2nd silk thread group 1b change the 1st hello roll dies 31 that roll dies 31 and the above-mentioned the 2nd feeds roll dies 32 ... and the roller footpath 32A of the silk thread contact portion of the 2nd hello roll dies ...

In addition, Figure 10 A is the top view that is conceived to respectively feed roll dies 31,32 and silk thread 1, and Figure 10 B is its side view.

Thus, the 1st silk thread contact portion 31a that feeds roll dies 31 that makes to contact with silk thread 1 ... and the silk thread contact portion 32a of the 2nd hello roll dies 32 ... peripheral speed change, can silk thread from the 1st feed roll dies 31 to the 2nd feed roll dies 32, from the 2nd feed roll dies 32 to the 1st feed traction roll dies 31 and send during to silk thread, apply most suitable tension force, can maintain desirable quality, and the silk thread 1 of can stably reeling.

In addition, in this example, make the roller footpath 31A that at first provides the 1st of silk thread to feed roll dies 31 from spinneret 12 minimum, often once draw with the roller footpath 31A that sends the silk thread contact portion contacting with silk thread 1 ... with roller footpath 32A ... increase successively.Therefore there is following relation in roller footpath.

Roller footpath: 31A < 32A < 31B < 32B

And, in order to find out the occurrence in most suitable roller footpath according to desirable silk thread quality etc., for not restrictions such as its numerical value.

The repiece of each silk thread 1 from spinning machine 10 to each bobbin 22 is described with the 4th example below.

Operator attracts from the spun all multi-filament lines 1 of spinneret 12 simultaneously and is keeping with suction device, and repiece is to respectively feeding on roll dies 31,32 etc.

First, operator stands in operation with on pedal 28, silk thread 1 is held to the 1st and feed on roll dies 31 making from spinneret 12 spun multi-filament line 1 remain under the state suction device by operating this suction device, in this state S-shaped built to the 2 is fed on roll dies 32.Then, a group silk thread is temporarily left on the repiece supplemental pilot device 95 being arranged on the framework 90 that is positioned at the 2nd hello roll dies 32 rears.And then attract and keep silk thread 1, from the 2nd, feed the S-shaped built to the 1 of roll dies 32 and feed roll dies 31, leave on the repiece supplemental pilot device 95 that is positioned at the 1st hello roll dies 31 the place aheads.Similarly repeatedly after built, from the 1st feed roll dies 31 by interlaced device 70 by 1 guiding of the silk thread of the 1st silk thread group 1a to formation the traversing pivot guide device 25a of guide wire apparatus 25 of traversing.The 2nd silk thread group 1b to the 2nd hello roll dies 32 builts, is then directed into by interlaced device 70 the pivot guide device 25a that traverses by again.

So, owing to can temporarily the 1st silk thread group 1a or the 2nd silk thread group 1b being hooked on repiece supplemental pilot device 95 by repiece supplemental pilot device 95 is set, therefore, even example of the present invention from respectively feeding the structure that roll dies 31,32 is sent respectively silk thread, also can easily carry out repiece operation like this.

In addition, about the position of repiece supplemental pilot device 95, although wish to be configured in feed roll dies 31,32 near, owing to being the item being determined by the shape of suction device etc., do not limit its concrete position.Therefore, can as this example, be configured in respectively and respectively feed the place ahead and the rear of roll dies 31,32 or be configured in respectively between hello roll dies 31,32.

Claims

1. from top, provide downwards by the spun multi-filament line of spinning machine, and be wound up into the take-up winding facility in each of a plurality of bobbins on the coil holder axle that is arranged on a up-coiler simultaneously, it is characterized in that:

Above above-mentioned up-coiler, dispose a plurality of hello roll dies, above-mentioned a plurality of of feeding in roll dies feed roll dies traction all above-mentioned multi-filament lines, through this hello roll dies and other the roll dies of feeding, are wound up on each bobbin;

Above-mentioned a plurality of hello roll dies at least comprises that the 1st feeds roll dies and the 2nd hello roll dies, and the 1st feeds roll dies and the 2nd feeds roll dies to mutual contrary direction rotation;

The above-mentioned the 1st hello roll dies and the 2nd is fed roll dies and all silk thread is delivered to above-mentioned up-coiler.

2. take-up winding facility as claimed in claim 1, is characterized in that:

The above-mentioned the 1st feeds roll dies and the 2nd feeds roll dies, they along the axis direction devices spaced apart of above-mentioned coil holder axle configure, the 1st silk thread group and the 2nd silk thread group that form all or part of silk thread group of above-mentioned multi-filament line are delivered to up-coiler;

The above-mentioned the 1st feeds roll dies rotates like this: from above-mentioned spinning machine, draw above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group and be sent to the above-mentioned the 2nd and feed roll dies, and traction is fed above-mentioned the 2nd silk thread group that roll dies sends and is sent to above-mentioned up-coiler from the above-mentioned the 2nd;

The above-mentioned the 2nd feeds roll dies rotates like this: traction feeds from the above-mentioned the 1st above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group that roll dies is sent, above-mentioned the 1st silk thread group of traction and above-mentioned the 2nd silk thread group in above-mentioned the 2nd silk thread group are sent to the above-mentioned the 1st hello roll dies, and above-mentioned the 1st silk thread group is sent to above-mentioned up-coiler;

Above-mentioned up-coiler is wound up into bobbin feeding above-mentioned the 2nd silk thread group that roll dies sends and feed from the above-mentioned the 2nd above-mentioned the 1st silk thread group that roll dies sends from the above-mentioned the 1st.

3. take-up winding facility as claimed in claim 1, is characterized in that:

The above-mentioned the 1st feeds roll dies rotates like this: from above-mentioned spinning machine, draw above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group and be sent to the above-mentioned the 2nd and feed roll dies, traction feeds from the above-mentioned the 2nd above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group that roll dies is sent, above-mentioned the 2nd silk thread group is sent to the above-mentioned the 2nd and feeds roll dies, and above-mentioned the 1st silk thread group is sent to above-mentioned up-coiler;

The above-mentioned the 2nd feeds roll dies rotates like this: traction is fed from the above-mentioned the 1st above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group that roll dies sends and is also sent to the above-mentioned the 1st and feeds roll dies, and traction is fed above-mentioned the 2nd silk thread group that roll dies sends and is sent to above-mentioned up-coiler from the above-mentioned the 1st;

Above-mentioned up-coiler is wound up into bobbin feeding above-mentioned the 1st silk thread group that roll dies sends and feed from the above-mentioned the 2nd above-mentioned the 2nd silk thread group that roll dies sends from the above-mentioned the 1st.

4. take-up winding facility as claimed in claim 1, is characterized in that:

The above-mentioned the 1st feeds roll dies rotates like this: from above-mentioned spinning machine, draw above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group and be sent to the above-mentioned the 2nd and feed roll dies, and and carry out above-mentioned the 1st silk thread group of one or many and above-mentioned the 2nd silk thread group's traction and send between the above-mentioned the 2nd hello roll dies, then draw above-mentioned the 2nd silk thread group who sends from the above-mentioned the 2nd hello roll dies and be sent to above-mentioned up-coiler;

The above-mentioned the 2nd feeds roll dies rotates like this: and carry out above-mentioned the 1st silk thread group of one or many and above-mentioned the 2nd silk thread group's traction and send between the above-mentioned the 1st hello roll dies, then above-mentioned the 1st silk thread group of traction and above-mentioned the 2nd silk thread group in above-mentioned the 2nd silk thread group are sent to the above-mentioned the 1st hello roll dies, and above-mentioned the 1st silk thread group is sent to above-mentioned up-coiler;

5. take-up winding facility as claimed in claim 1, is characterized in that:

The above-mentioned the 1st feeds roll dies rotates like this: from above-mentioned spinning machine, draw above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group and be sent to the above-mentioned the 2nd and feed roll dies, and and carry out repeatedly above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group's traction and send between the above-mentioned the 2nd hello roll dies, then draw from the above-mentioned the 2nd and feed above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group that roll dies is sent, above-mentioned the 2nd silk thread group is sent to the above-mentioned the 2nd and feeds roll dies, and above-mentioned the 1st silk thread group is sent to above-mentioned up-coiler;

The above-mentioned the 2nd feeds roll dies rotates like this: and carry out repeatedly above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group's traction and send between the above-mentioned the 1st hello roll dies, then draw above-mentioned the 2nd silk thread group who sends from the above-mentioned the 1st hello roll dies and be sent to above-mentioned up-coiler;

6. the take-up winding facility as described in any one in claim 2 to 5, is characterized in that:

The above-mentioned the 1st hello roll dies and the above-mentioned the 2nd is fed roll dies and is formed with the different region of coefficient of friction at each from the silk thread contact portion that above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group's at least one party contacts.

7. the take-up winding facility as described in any one in claim 2 to 5, is characterized in that:

The above-mentioned the 1st hello roll dies and the above-mentioned the 2nd is fed roll dies and is formed with different region, roller footpath at each from the silk thread contact portion that above-mentioned the 1st silk thread group and above-mentioned the 2nd silk thread group's at least one party contacts.

8. the take-up winding facility as described in any one in claim 2 to 5, is characterized in that:

The above-mentioned the 1st, feed between roll dies and the above-mentioned the 2nd hello roll dies and dispose interlaced device.

9. the take-up winding facility as described in any one in claim 2 to 5, is characterized in that:

The above-mentioned the 1st, feed between roll dies and the above-mentioned the 2nd hello roll dies and up-coiler and dispose interlaced device.

10. the take-up winding facility as described in any one in claim 1 to 5, is characterized in that:

The above-mentioned the 1st, feed roll dies and the above-mentioned the 2nd and feed near roll dies, be provided with for temporarily depositing the repiece supplemental pilot device of above-mentioned silk thread when the repiece.

11. take-up winding facilities as described in any one in claim 1 to 5, is characterized in that:

Above-mentioned spinning machine spin unit below be provided with the oiling device of giving finish to above-mentioned silk thread.

12. take-up winding facilities as claimed in claim 11, is characterized in that:

Above-mentioned spinning machine spin unit below be provided with the migration nozzle that the finish for making to be given by above-mentioned oiling device adheres to above-mentioned silk thread equably.

13. take-up winding facilities as described in any one in claim 1 to 5, is characterized in that:

Above-mentioned spinning machine spin unit below be provided with and prevent the gate that silk thread falls when at fracture of wire.

14. take-up winding facilities as described in any one in claim 1 to 5, is characterized in that:

It is common being used for driving above-mentioned converter of feeding roll dies.