CN100411964C

CN100411964C - Winder and winding method of filament body

Info

Publication number: CN100411964C
Application number: CNB2004800066446A
Authority: CN
Inventors: 山崎卓; 桑原一也
Original assignee: Sumitomo Electric Industries Ltd
Current assignee: Sumitomo Electric Industries Ltd
Priority date: 2003-12-03
Filing date: 2004-04-19
Publication date: 2008-08-20
Anticipated expiration: 2024-04-19
Also published as: FI20051301A; WO2005054107A1; US20060138271A1; CN1759057A; KR20060119717A

Abstract

A winding device of a wire body having a simple arrangement and a winding method wherein the cut end wire at the end of winding is contained in an annular guide arranged movably on one end part side and does not project from the annular guide. The annular guide (20b) is arranged such that it can cover one flange part of the wire body winding bobbin (3) and provided with a cut (24) for guiding the wire body, wherein the diameter of the inner circumferential surface (25) is enlarged sequentially toward the direction away from the bobbin. The annular guide (20b) may be shaped to have a stop part (26) for preventing the wire body from projecting to the outside of the bobbin. The annular guide (20b) is arranged on the flange part (3a) movably in the axial direction of the bobbin or the annular guide (20b) is constituted of a plurality of parts which are moved to be arranged annularly on the flange part (3a).

Description

The wind of lines thing and winding method

Technical field

The present invention relates to the winding of lines things such as electric wire, optical fiber, particularly handle the wind and the winding method that when twining the lines thing at a high speed, cut off terminal part lines thing.

Background technology

Now, lines object height speed such as the electric wire of sending here continuously, optical fiber are wrapped in when twining spool, from the winding of finishing specified amount full around the winding spool twine spool to the sky of the new winding of beginning otherwise interrupt the switching that the feeding of lines thing is twined.Fig. 1 is that the figure that cuts off the last line of end is at the end handled in the existing winding of explanation, among the figure, and the 1st, lines thing, 1a are to cut off the last line of end, 1b is the spiral body, the 2nd, the winding displacement roller, 3,3` twines spool, 3a is a flange part, 3b is a tube body, the 4th, ratchet wheel, the 5th, move the line arm, the 6th, fixed jaw, the 7th, cutting knife.

In Fig. 1, when the winding spool 3 on anti-clockwise right side reaches the twining amount of regulation, the winding of winding spool 3` for the sky that switches to the left side makes empty winding spool 3` clickwise, the position on the left of the winding displacement roller 2 of guiding lines thing 1 is moved on to as shown in the figure.Lines thing 1 is displaced to the tube body 3b of empty winding spool 3` and contact, then makes to move line arm 5 and shift to the direction of arrow, lines thing 1 is shifted to ratchet wheel 4 sides of a flange part 3a side that is located at winding spool 3`.

Be located at that fixed jaw 6 on the ratchet wheel 4 tangles and fixing lines thing 1, the lines thing 1 usefulness cutting knife 7 that pulls on and rotate cuts off.Thereafter, winding displacement roller 2 and move line arm 5 and get back to original position is begun to twine by new winding spool 3`.In addition, full winding spool 3 around side stops operating.But, so winding spool 3 because its rotation has inertia not stop at once, becomes deceleration regime to a certain degree and is rotated further.

At this moment, the cut-out of having cut off holds last line 1a to be free state and the rotation of twining spool 3 swing around simultaneously.Like this, cut off the spiral body 1b that the last line 1a of end runs into obstacle on every side and protrusion rebound winding, the surface of percussion spiral body 1b produces what is called and kowtows line states.In addition, so kowtow line in the spiral body 1b generation of twining because the cut-out of cutting off just holds last line 1a also to discharge tension force.This kowtows line can scratch winding significantly when twining at a high speed lines thing, and particularly when the lines thing was optical fiber, the optical fiber of winding can be broken.For this reason, have to the discarded optical fiber that twines and produce waste.

As the means that prevent to kowtow line, disclose to be provided with twining and at the end take in the wind (for example, with reference to patent documentation 1) that the end end line that cuts off the last line of end enters ring in a flange part side of twining spool.Fig. 2 is the scheme drawing of explanation at described patent documentation 1 disclosed wind, in the drawings, the 8th, axle drive shaft, the 9th, push circular cone, the 10th, enter ring, the 11st, spool cover, 11a are the cover sides, the 12nd, guide groove, the 13rd, hold last line guide plate.Other numbering adopts the numbering identical with Fig. 1, omits its explanation.

At axle drive shaft 8 ratchet wheel 4 is set and therewith rotates, be entrenched in a flange part 3a side of twining spool 3.Winding spool 3 is compressed into from opposite side and is pushed circular cone 9, by axle drive shaft 8 rotatable installing and fixing.Be provided with entering of not rotating at axle drive shaft 8 installation sides in the mode that covers ratchet wheel 4 and flange part 3a and encircle 10 with winding spool 3.Entering ring 10 forms by the periphery wall 10a of diameter homogeneous, spool side and only has the opening of annular wall 10b and be actually the shape that close-shaped lateral wall 10c forms to internal diameter direction is outstanding.

In addition, semi-round spool cover 11 is set, to cover below half one of twining spool 3.The cover side 11a of the front side of this spool cover 11 (approaching side of lines thing 1) with enter ring 10 and adjoin and form guide groove 12.The shroud inner peripheral surface along the line setting of the inside of online shroud 11 edges down upon to the side of opposition side from cover side 11a and enters the end end line guide plate 13 that ring 10 has specified altitude.

By above structure, the cut-out of cut-out holds last line 1a to stop moving and enter in the ring 10 on cover side 11a by the guide groove 12 that rotates into that twines spool 3.In addition, throw off from guide groove 12, hold last line guide plate 13 to guide into reliably to enter in the ring 10 and be contained even cut off the last line 1a of end.

[Patent Document 1] spy opens flat 9-108734 communique

Summary of the invention

But, constitute wind as shown in Figure 2, because it is even to enter ring 10 periphery wall 10a diameter, and that opening forms is bigger, holds last 1a may fly to the outside once more so taken in the cut-out that enters in the ring 10.Owing to need spool lid 11, become big in addition so install.

The present invention proposes in view of the above problems, and a kind of wind and winding method that constitutes simple lines thing is provided.This device is held the cut-out of twining terminal last line to be received into and is arranged on movably in the ring-type guides of an end side of twining spool, makes it and can not fly out from the ring-type guides.

The wind of lines thing of the present invention is provided with the ring-type guides, with a flange part of the winding spool that covers the lines thing.This ring-type guides has the notch part of guiding lines thing, and its diameter that inner peripheral surface is arranged is towards the shape that enlarges gradually away from the spool direction.In addition, the ring-type guides forms the shape with the fixed part that prevents that the lines thing from flying out outside spool.In addition, the ring-type guides is located on the flange part and can be the moving axially of spool, or constitutes the ring-type guides by a plurality of parts, and makes these a plurality of parts move and form ring-type on flange part.In addition, also have the line ball guides of the cut-out terminal part of guiding lines thing, this line ball guides is by the pilot bar that the lines thing is moved and push the guide plate that the lines thing beats and constitute.

In addition, adopt the winding method of lines thing of the present invention, the lines thing is wrapped in twines on the spool; Twining the lines thing at the end, the cut-out terminal part of lines thing is being guided to the notch part of the ring-type guides that covers a flange part side of twining spool.Then, along inner peripheral surface, the cut-out terminal part of lines thing is guided into the outside of twining spool away from spool direction enlarged-diameter towards this ring-type guides; Or the centnifugal force that produces with the rotation of winding spool makes the cut-out terminal part of lines thing be fixed on the fixed part of being located on the ring-type guides.Like this, in the winding of lines thing at the end, the ring-type guides is moved in the mode that covers a flange part that twines spool.

According to the present invention, the ring-type guides that employing is disposed in the mode that can cover a flange part that twines spool, can guide the cut-out terminal part of lines thing the outside of the spiral body of finishing winding into simple formation, maybe can be accommodated in the fixed part of regulation, can prevent to avoid scratching the surface of the spiral body of having finished winding by cutting off the line of kowtowing that terminal part causes.Thus, can avoid the fiber optic characteristic degradation that twines during for optical fiber at the lines thing.

Description of drawings

Fig. 1 is that the figure that cuts off the last line of end is at the end handled in the existing winding of explanation;

Fig. 2 is the figure of the existing wind of explanation;

Fig. 3 is the scheme drawing of explanation wind embodiment of the present invention;

Fig. 4 is the scheme drawing of explanation another embodiment of wind of the present invention;

Fig. 5 A～Fig. 5 C is the figure of another example of embodiment of instruction diagram 4;

Fig. 6 A～Fig. 6 B is the figure of another example of ring-type guides of explanation wind of the present invention;

Fig. 7 A～Fig. 7 B is the figure of the another example of ring-type guides of explanation wind of the present invention;

Fig. 8 is the ring-type guides figure of an example again of explanation wind of the present invention;

Fig. 9 sees that from the top explanation lines thing of the present invention twines the figure of change action;

Figure 10 sees that from the side explanation lines thing of the present invention twines the figure of change action;

Figure 11 is the figure of the lines thing of counter-rotating Figure 10 when twining change action.

The specific embodiment

With Fig. 3, Fig. 4 and Fig. 5 A～Fig. 5 C illustrative embodiments of the present invention.Fig. 3 is that explanation is twined the figure of the outside example of spool to the cut-out terminal part of lines thing guiding, Fig. 4 is at the fixing instruction diagram of cut-out terminal part one example of lines thing of the fixed part of annular guides, Fig. 5 A is the figure of another example of expression, and Fig. 5 B and Fig. 5 C are the figure of another example of the fixed part of the annular guides of explanation; Among the figure, 20a, 20b, 20c, 20d are annular guidess, the 21st, and opening, the 22nd, sidewall, the 23rd, periphery wall, the 24th, notch part, the 25th, inner peripheral surface, the 26th, fixed part.That uses among other numberings and Fig. 1 and Fig. 2 is identical, so omit its explanation.

Wind of the present invention as shown in Figure 3, with illustrated in fig. 2 the same, be provided with ratchet wheel 4 at axle drive shaft 8 and therewith rotate, and is entrenched in a flange part 3a side of twining spool 3 simultaneously.Twine spool 3 and push circular cone 9, by axle drive shaft 8 rotatable installing and fixing from compressing into axle drive shaft 8 opposition sides.For example, see the anticlockwise direction rotation from the right side.

Twining the installation side of spool 3 toward axle drive shaft 8, annular guides 20a is set to for example axially movable.This annular guides 20 forms annular, and periphery wall 23 forms the conical surface shape of the diameter of inner peripheral surface 25 towards the expansion of spool opposition side.In addition, being positioned at winding spool 3 one sides has at the notch part 24 that can form, guide the lines thing by the opening 21 of ratchet wheel 4.Annular guides 20a for example is positioned at the outside of ratchet wheel 4 and flange part 3a shown in long and short dash line in the winding of lines thing, when cut-out lines thing described later, moving axially, to cover ratchet wheel 4 and flange part 3a in the direction of arrow before cut-out.In addition, ring-type guides 20a is axially movable, but can not rotate.

When as above the wind of Gou Chenging has twined the lines thing of specified amount on twining spool 3, cut off lines thing 1, the cut-out terminal part after the cut-out (hereinafter referred to as cutting off the last line 1a of end) is free state.The cut-out that is free state holds last line 1a (about 0.5m) to guide to the notch part 24 that the spool side at ring-type guides 20a forms by the rotation of twining spool 3, imports among the ring-type guides 20a.

The cut-out that imports ring-type guides 20a holds last line 1a (long and short dash line) to move to the outside of twining spool 3 towards the conical inner peripheral surface 25 that forms away from spool direction diameter enlarges gradually by means of the centnifugal force edge of twining spool 3 rotation generations.As a result, to twine spool 3 outsides cut-out hold last line 1a (solid line) to swing back and forth at the surrounding space of axle drive shaft 8, can not prevent to kowtow line thereby do not contact with spiral body 1b surface.In addition, annular guides 20a is owing to be positioned in the winding of lines thing and avoid the position and only move configuration when end terminal manage, the insertion and the taking-up of twining spool 3 easily so can not influence winding.

Fig. 4, Fig. 5 A～Fig. 5 C is that explanation has the fixing figure that cuts off the fixed part example of terminal part in annular guides.The example of annular guides 20b shown in Figure 4 and Fig. 3 equally be positioned at wrap wire pipe one side have diameter can be by the opening 21 of ratchet wheel 4, be provided with the notch part 24 that last line 1a is held in cut-out that guiding cuts off.Can be in the axle drive shaft 8 sides formation that is positioned at twining the spool opposition side by the sidewall 22 of axle drive shaft 8.

The periphery of annular guides 20b for example forms the periphery wall 23 that section is a chevron, and side face 25 sidewall 22 sides from opening 21 side direction of annular guides 20b within it, also promptly forms towards the spool direction diameter away from annular guides 20b progressively to enlarge.In addition, the part at the top that becomes the mountain of diameter maximum becomes the fixing fixed part 26 that keeps the lines thing.In addition, annular guides 20b with the same winding lines thing of Fig. 3 in, shown in long and short dash line, be positioned at the outside of ratchet wheel 4 and flange part 3a, and when cutting off the lines thing, before cut-out, move axially in the direction of arrow in the mode that covers ratchet wheel 4 and flange part 3a.

The annular guides 20c that shows in Fig. 5 A forms to be configured in the example that does not have the opposition side of ratchet wheel 4 flange part 3a.At this moment, compare with the example of Fig. 4, the diameter of annular guides can be little, and that can do is compacter.

The annular guides 20b that shows in Fig. 5 B makes section to periphery wall 23 to a direction bevelled shape, and inner peripheral surface 25 forms towards inboard (spool side) enlarged-diameter away from annular guides 20d.In this embodiment, fixed part 26 is positioned at the outboard end of periphery wall 23.In addition, shown in Fig. 5 C, in the outboard end of periphery wall 23 a plurality of tongue-like pieces are set by omitting sidewall 22 and also can form fixed part 26.

Fig. 6 A～Fig. 7 B is the figure of other example of expression the present invention annular guides.Fig. 6 A and Fig. 6 B represent to be formed by two parts slidably the example of annular guides, and Fig. 7 A and Fig. 7 B represent to be formed by combinative two parts the example of annular guides.20e, 20f, 20g are annular guidess among the figure, and 30a, 30b are semicircular ring parts slidably, and 31a, 31b are combinative semicircular ring parts, and 31c connects hinge.The numbering of using among other numberings and Fig. 3 and Fig. 4 is identical, so omit its explanation.

The annular guides 20e that shows in Fig. 6 A and Fig. 6 B is for example the annular guides separated into two parts with chevron section form shown in Figure 4, forms semicircle and becomes semicircular ring parts 30a, the 30b that can slide over each other along circular arc.This annular guides 20e covers a flange part 3a (for example disposing a side of ratchet wheel 4) who twines spool 3 and has the notch part 24 that the last line of end is cut off in guiding.

Two

semicircular ring parts

30a, 30b are mounted to along circular arc and can slide over each other, and in twining the lines thing, as shown in Figure 6A, two parts expose semi-circular portions in the lap position, become not influence to twine the lines thing.When the winding of lines thing is over cut-out, shown in Fig. 6 B, semicircular ring parts (for example 30b) are slided along circular arc move, seal a flange part 3a of covering winding spool by forming ring-type with another semicircular ring parts (for example 30a).Cover a flange part by semicircular ring parts when the lines thing is wrapped in another flange part side before the winding of lines thing is over.

By forming ring-type from Fig. 6 A to Fig. 6 B, with shown in Figure 4 same, can be made as have that restriction lines thing flies out the annular guides of fixed part be configured in state around the flange part that twines spool.The formation of this Fig. 6 A and Fig. 6 B can dispose annular guides from the side of twining spool, also can carry out fixed configurations.

At the annular guides 20f shown in Fig. 7 A, for example with same annular guides separated into two parts shown in Figure 4 with chevron section form, and form semicircle and become mutual combinative semicircular ring parts 31a, 31b.The so-called meaning that can form ring-type in conjunction with the two ends that are meant involutory semicircular ring parts.Two

semicircular ring parts

31a, 31b form identical substantially shape, at semicircular ring parts the notch part 24 that the last line of end is cut off in guiding are set.

Two

semicircular ring parts

31a, 31b are arranged to be separated from each other, independently cover a flange part 3a who twines spool 3.In twining the lines thing, be positioned at and leave the side of twining spool 3 and become not influence and twine the lines thing.Twine at the lines thing and to be over when cutting off, become ring-type and move to cover a flange part 3a by

semicircular ring parts

31a, 31b both sides.

Annular guides 20g shown in Fig. 7 B constitutes semicircular ring parts 31a, the 31b of two onesize and shapes in Fig. 7 A with being connected hinge 31c connection and example to be opened/closed.At this moment, annular guides 20g is provided with the notch part 24 that the last line of end is cut off in guiding at semicircular ring parts, is arranged to cover a flange part 3a who twines spool 3.In twining the lines thing, semicircular ring parts 31b is positioned at the side of leaving winding spool 3 and does not influence winding lines thing.When the winding of lines thing was over cut-out,

semicircular ring parts

31a, 31b both sides became ring-type and move to cover a flange part 3a.

Be closed into ring-type by two

semicircular ring parts

31a, 31b, identical with shown in Fig. 4, can be made as have that restriction lines thing flies out the annular guides of fixed part be configured in state around the flange part that twines spool.The formation of this Fig. 7 A and Fig. 7 B also can semicircular ring parts of fixed configurations 31a.

Fig. 8 represents the figure of a routine annular guides again.Among the figure, 20h represents annular guides, and other numbering is because identical with the numbering used among Fig. 3 and Fig. 4, its explanation of Therefore, omited.The annular guides 20h of expression constitutes and has and the shape of annular guides example shown in Figure 4, the structure fixed part of identical chevron substantially in the drawings, is to have increased the width of breach of the notch part 24 that cut-out that guiding cuts off holds last line and the example of length.

By using the formation of this Fig. 8, even also surround a flange part 3a who twines spool 3 when annular guides 20h is flat in twining the lines thing.Promptly can use annular guides 20h at the state of being completely fixed.If notch part 24 excessive (for example greater than circumference 1/4), then cutting off the last line 1a of end can outwards fly out, and might not can be kept by the fixed part among the annular guides 20h 26.But then can change as if too small, might make lines thing contact notch part and cause damage because of the cooling diameter of spiral body 1b.

Wind as Fig. 4～Fig. 8 constitutes as being example with Fig. 4, when then having twined the lines thing of specified amount on twining spool 3, cuts off the lines thing, and the part of the last line 1a of this cut-out end is free state.The cut-out that is free state holds last line 1a (about 0.5m) to guide to the notch part 24 that the spool side at ring-type guides 20b forms by the rotation of twining spool 3, imports among the ring-type guides 20b.

The cut-out that imports ring-type guides 20b holds last line 1a to rotate the centnifugal force of generation along moving into place in the fixed part 26 at the chevron top of periphery wall 23 towards the conical inner peripheral surface 25 that forms away from spool direction diameter enlarges gradually by means of twining spool 3.Hold last line 1a to remain among the annular guides 20b twining not move during spool 3 rotates so move to the cut-out of fixed part 26 owing to its circular arc footpath is wide.

As a result, can prevent really and cut off the last line 1a of end and fly out from annular guides 20b, percussion spiral body 1b surface kowtow line.In addition, annular guides 20b is owing to be positioned in the winding of lines thing and avoid the position and only move configuration when end terminal manage, the insertion and the taking-up of twining spool 3 easily so can not influence winding.In addition, be that the example of chevron is illustrated at Fig. 6 A, Fig. 6 B, Fig. 7 A and Fig. 7 B with the section form of annular guides, also be applicable to the annular guides with conical surface shape section of Fig. 3 is made two-part structure.

Fig. 9～Figure 11 illustrates the figure of lines thing winding change action in the wind of the present invention, adopts the example of shape shown in Figure 4 to describe to annular guides.Fig. 9 is the figure that sees from the top, and Figure 10 and Figure 11 are the figure that sees from the side.Among the figure, the 20th, annular guides, the 27th, pilot bar, the 28th, guide plate.Other numberings adopt and the identical numbering of having used in the part with identical function, so omit its explanation.In addition, twine spool (being arranged in the winding spool side in figure left side) at one that switches and add that " ` " symbol describes.

As Fig. 9 and shown in Figure 10, rotate the right side in the counterclockwise direction when twining spool 3 and twining the winding spool 3` that reaches specified amount and switch to the sky in left side and twine, begin to make the left side to twine spool 3` and rotate, winding displacement roller 2 moves to left.The winding spool 3 on right side is shifted to the switching position that solid line represents and is moved (Fig. 9) from the position shown in the long and short dash line.Winding spool 3 moves to switching position and finishes pilot bar 27 declines (Figure 10) before, and the line of travel D of lines thing 1 is displaced to line of travel E.Annular guides 20 moves to cover ratchet wheel 4 and flange part 3a mode, and lines thing 1 is directed and straight line crosses the notch part 24 of annular guides 20.

After this, the left side moves that line arm 5` moves so that the ratchet wheel 4` (Fig. 9) of the winding spool 3` of the sky in lines thing 1 contact left side.At this moment, the 5 pairs of lines things 1 of line arm that move on right side position, to change the line of travel of lines thing 1.By the ratchet wheel 4` side contacts of lines thing 1 with the winding spool 3` of the sky in left side, the fixed jaw 6` that is located on the ratchet wheel 4` by winding spool 3` right-hand revolution tangles lines thing 1, and the lines thing 1 usefulness cutting knife 7` that pulls on and rotate cuts off (Figure 10).

Moving line arm 5` after lines thing 1 cuts off gets back to original position and is begun to twine by new winding spool 3`.In addition, twining the right side winding spool 3 that is over stops operating.But, can not stop at once owing to twine the inertia of spool 3, become deceleration regime to a certain degree and be rotated further.At this moment, the cut-out of having cut off holds last line 1a to be free state and the rotation of twining spool 3 swing around simultaneously.Guide to the outside of spiral body as illustrated in fig. 3 or explanatorily guide in as Fig. 4 and be held to the fixed part of ring-type guides.

Figure 11 represent to reverse the state of Figure 10, promptly the winding spool 3` in left side reach regulation twining amount, switch to the figure of operating state of the winding spool 3 of right side sky.This moment is identical with the change action of Fig. 9 and Figure 10, begins to make the right side to twine spool 3 and rotates, and winding displacement roller 2 moves to right-hand.The winding spool 3` in left side moves to switching position and finishes pilot bar 27` decline before, and the line of travel D of lines thing 1 is displaced to line of travel E.Annular guides 20` moves to cover ratchet wheel 4` and flange part 3a` mode, and lines thing 1 is directed and straight line crosses the notch part 24` of annular guides 20`.

Lines thing 1 is fixing by the fixed jaw 6 of the ratchet wheel 4 that twines spool 3 sides, moves line arm 5 after cutting off with cutting knife 7 and gets back to original position, is begun to twine by new winding spool 3.The winding spool 3` in the left side that winding is over is identical with situation shown in Figure 10, and the cut-out of cut-out holds last line 1a guiding in ring-type guides 20` and be held.

In the present invention, near described

annular guides

20,20`, the line ball guides of

notch part

24,24` is guided the cut-out terminal part of lines thing 1 in configuration.This line ball guides adopt for example have the columned pilot bar 27 that can move down, 27` and opposed with this

pilot bar

27,27`, near

annular guides

20,20`

notch part

24,24`, dispose

removable guide plate

28,28`.

Pilot bar

27,27` with the line of travel D interleave of lines thing 1 time, be configured to horizontal fore-and-aft direction (with the wrap wire tubular axis to parallel direction) removable, thereby can avoid.

Guide plate

28,28` also can fixed configurations when not influencing winding lines thing.

As the ideal material of

pilot bar

27,27`, for example can adopt an aluminum or aluminum alloy surface to carry out the material that wear resistance, slickness, release property etc. are arranged that (processing of Off ラ system) (promptly the hard alumite being immersed in processing method in the polytetrafluoroethylene (R)) handled in a kind of infiltration.When lines thing 1 was optical fiber, employing is formed on contact part to have greater than twining the bar that fiber optic minimum is allowed the circular arc of bending

spring.Pilot bar

27,27` can make rotatable structure, also can make the fixture construction that can not rotate.

By having the line ball guides of above formation, can lead lines thing 1 reliably near the

notch part

24,24` of annular guides 20.Crawl space between pilot bar 27 and guide plate 28, the cut-out after guiding is cut off is held last line 1a and is pushed and cut off the last line 1a of end flyer laterally, thereby prevents to collide with on every side obstacle or thrust.Cut off the last line 1a of end because can be by

pilot bar

27,27` and

guide plate

28,28` effectively from

notch part

24,24` lead

annular guides

20,20`, so can make the size decreases of notch part 24.Like this, the cut-out that can prevent from reliably to be accommodated among annular guides 20, the 20` holds last line 1a to fly out from

notch part

24,24` once more.

Claims

1. the wind of a lines thing, it is characterized in that, be provided with the ring-type guides, a flange part with the winding spool that covers the lines thing, described ring-type guides has the notch part of the described lines thing of guiding, and the diameter of the inner peripheral surface of described ring-type guides is towards enlarging gradually away from the spool direction.

2. the wind of lines thing as claimed in claim 1 is characterized in that, described ring-type guides has the fixed part that prevents that described lines thing from flying out to the spool outside.

3. the wind of lines thing as claimed in claim 1 or 2 is characterized in that, described ring-type guides is arranged to can moving axially at spool.

4. the wind of lines thing as claimed in claim 1 or 2 is characterized in that, described ring-type guides is made of a plurality of parts, and described a plurality of parts move and form ring-type.

5. the wind of lines thing as claimed in claim 1 or 2 is characterized in that, has the line ball guides of the cut-out terminal part of the described lines thing of guiding.

6. the wind of lines thing as claimed in claim 5 is characterized in that, described line ball guides is by the pilot bar that described lines thing is moved and push the guide plate that described lines thing beats and constitute.

7. the winding method of a lines thing is characterized in that, the lines thing is wrapped in twines on the spool; Twining described lines thing at the end, the cut-out terminal part of described lines thing is being guided to the notch part of the ring-type guides of a flange part side that covers described winding spool; Along described ring-type guides towards the inner peripheral surface that enlarges gradually away from spool direction diameter, the cut-out terminal part of described lines thing is guided into the outside of described winding spool.

8. the winding method of lines thing as claimed in claim 7 is characterized in that, rotates the centnifugal force that produces with described winding spool and makes the cut-out terminal part of described lines thing be fixed on the fixed part of being located on the described ring-type guides.

9. as the winding method of claim 7 or 8 described lines things, it is characterized in that, in the winding of described lines thing at the end, described ring-type guides is moved in the mode of a flange part covering described winding spool.