CN101332950A - Wire coilling device - Google Patents

Abstract

The invention provides a thread coiling device for reducing bad thread coiling on a bare bobbin during switching bobbins and correctly managing the quantity of underwinding after threads wind the bare bobbin. The thread coiling device is provided with a thread closing yarn carrier (30), a thread falling preventing yarn carrier (31) and a thread control mechanism (40). When switching bobbins, the state of threads (Y) is changed from a bare bobbin (20b) to a full roll coiling (21), the thread closing yarn carrier (30) makes the threads (Y) be closer to an axial outside underwinding position of a bobbin (20). The thread falling preventing yarn carrier (31) is used for preventing threads (Y) from the bare bobbin (20b) falling from the full roll coiling (21). The thread control mechanism (40) is used for controlling threads (Y) near the underwinding position under the action of the thread closing yarn carrier (30). Furthermore, a fixed guiding device (41) of the thread control mechanism (40) is integratively arranged on the thread falling preventing yarn carrier (31), a movable part of the thread control mechanism (40) is integratively arranged on the thread closing yarn carrier (30).

Description

Wire coilling device

Technical field

The silk that the present invention relates to supply with continuously batches on the bobbin and forms package and can switch between the bobbin of the package that forms full volume state and empty bobbin and the wire coilling device that constitutes.

Background technology

In the past, known have a wire coilling device (take-up winder) that will batch from the silk that spinning machine is supplied with continuously on the bobbin.Shown in patent documentation 1, this wire coilling device constitutes, when making the spool stand rotation that a plurality of bobbins are installed, by traverse gear make the multi-filament supplied with respectively axially traversing along bobbin on one side, respectively silk is batched on a plurality of bobbins, on one side to form a plurality of coiling packages simultaneously.In addition, this wire coilling device has two spool stands that are bearing in respectively on the rotatable turntable.And, constitute, when formed package became full volume state on the bobbin of installing on the spool stand, by making the turntable rotation, the bobbin that will be formed with full volume package switched to the bare bobbin that is installed on another spool stand.

This switching bobbin action (change bobbin) is described in more detail.If be installed on the package that forms full volume state on the bobbin on the spool stand, then make the turntable rotation, make full volume package batch the position and begins to move, and the wire connection of advancing towards full package is touched on the bare bobbin that is being installed on another spool stand from the silk that its outer peripheral face contacts with touch roll.Then, make after a close thread-carrier enters into silk road from bare bobbin to full package, make this near thread-carrier along the moving axially of bobbin, make the end of a close bare bobbin.This is the end of partly leaving for the master file from axial central portion that easily the silk end of package is taken out in next operation and make the silk end reach bobbin in advance with the silk end knotting of other packages near action, promptly in order to carry out underwinding (バ Application チ volume).

And, if under the state of supplying with silk from spinning machine continuously, make the rotational delay of the spool stand of the full volume package that the downstream is installed, then bare bobbin and completely the tension force reduction of the silk between the package, lax silk is wrapped on the underwinding position of bare bobbin.By under this state, making the spool stand rotation that bare bobbin is installed, the formation of beginning underwinding on the underwinding position of bare bobbin.And then if beginning underwinding and silk batched on bare bobbin, then bare bobbin becomes big with the full tension force of the silk between the package, and silk is broken, and becomes the complete state on bare bobbin of silk.

[patent documentation 1] TOHKEMY 2002-114443 communique

In the wire coilling device of above-mentioned patent documentation 1, by silk near after thread-carrier makes a underwinding position of close bare bobbin end, the rotational delay of the full volume package by making the downstream makes on the underwinding position that is wrapped in bare bobbin and carries out underwinding.But completely package is because moment of inertia is bigger, so be difficult to make the anxious deceleration of its rotation.Therefore, the tension force of silk is reduced sharp, might twine bad because of the silk that the higher state of tension force continues to take place to bare bobbin for a long time.And then even under silk normally is wrapped in situation on the bare bobbin, it twines regularly the timeliness that (timing of beginning underwinding) also exist with ... the thread tension that begins from the deceleration of completely package and changes.But the timeliness of thread tension changes and can not predict accurately, almost can not manage.Therefore, the silk that can not correctly grasp to bare bobbin twines regularly (underwinding begins regularly), and the result can not correctly manage the amount (volume number) of underwinding, so the underwinding amount is inhomogeneous between package.

Summary of the invention

The purpose of this invention is to provide a kind of silk that reduces when switching bobbin to bare bobbin twine bad and can correctly manage be wrapped on the bare bobbin after the wire coilling device of amount of underwinding of formation.

The wire coilling device of the 1st technical scheme is characterised in that to possess: a plurality of spool stands are separately installed with bobbin; Traverse gear traverses the silk that batches on above-mentioned bobbin; Switching mechanism is batched at silk on the bobbin that is being installed on the spool stand that is in wire coilling device and after forming completely package, the bobbin that batches silk is switched to the bare bobbin that is installed on other spool stands from the bobbin that has formed above-mentioned completely package; Silk is near thread-carrier, can constitute movably vertically with respect to above-mentioned bare bobbin, when above-mentioned switching mechanism switches bobbin, when becoming silk and arrive the state of above-mentioned completely package, make above-mentioned bare bobbin compare the underwinding position in the more close above-mentioned axial outside of the scope of traversing of above-mentioned traverse gear with the above-mentioned completely silk between the package via above-mentioned bare bobbin; The silk handle sturcture is being held in the silk of above-mentioned silk near the down close above-mentioned underwinding position of effect of thread-carrier.

In wire coilling device of the present invention, by will batch by the silk that traverse gear traverses be installed in a plurality of spool stands, be in silk and batch on the bobbin on the spool stand of position, on this bobbin, form package corresponding to the Rack of the scope of traversing (width traverses) of traverse gear.

Then, when having formed the package of full volume state on bobbin, the bobbin that will batch silk by switching mechanism switches to the bare bobbin that is installed on other spool stands from the bobbin that has formed full volume package.Then, silk enters into bare bobbin and the full silk road between the package near a thread-carrier, by make bare bobbin with completely between the package thread along the moving axially of bobbin, make a underwinding position of comparing the more close axial outside of the scope of traversing.

And then, the silk of controlling close underwinding position by the silk handle sturcture.Like this, if at bare bobbin and completely control silk between the package, then the tension force of this silk sharply reduces and takes place laxly at upstream side, so silk promptly is wrapped on the bare bobbin, is difficult for taking place silk and twines bad.And then if carry out a handle sturcture to the controlling of silk, then thread tension reduces and silk twines immediately, thus silk control regularly with the winding of silk regularly about equally, can grasp the timing that underwinding begins.Therefore, can correctly manage the underwinding amount, can prevent that the underwinding amount is inhomogeneous between package.

The wire coilling device of the 2nd technical scheme is in above-mentioned the 1st technical scheme, it is characterized in that, above-mentioned silk from controlling silk by above-mentioned silk handle sturcture, is kept predefined specified time with silk near state near thread-carrier.

If carry out a handle sturcture to the controlling of silk, then Si tension force reduces sharp, and silk batches on bare bobbin immediately.Therefore, as long as, just can correctly manage the underwinding amount, can prevent easily that the underwinding amount is inhomogeneous between package from controlling the specified time that silk begins the close state of the silk of the close thread-carrier of silk is kept setting.

The wire coilling device of the 3rd technical scheme is in the above-mentioned the 1st or the 2nd technical scheme, it is characterized in that, above-mentioned silk handle sturcture constitutes, and possesses with respect to above-mentioned bare bobbin along its axial irremovable fixed part with respect to the movable part that axially can move of said fixing portion along above-mentioned bare bobbin; With respect to said fixing portion during along the moving axially of above-mentioned bare bobbin, silk is controlled movingly by above-mentioned movable part and association of said fixing portion at above-mentioned movable part.

According to this structure, by silk near after thread-carrier makes close a underwinding position, by movable part with respect to fixed part along the moving axially of bobbin, by fixed part and movable part control close underwinding position thread.

The wire coilling device of the 4th technical scheme is in above-mentioned the 3rd technical scheme, it is characterized in that, also possesses to prevent anti-silk that the silk from above-mentioned bare bobbin drops from the above-mentioned completely package thread-carrier that drops when switching bobbin by above-mentioned switching mechanism; Said fixing portion is located on the above-mentioned anti-thread-carrier that drops integratedly, and above-mentioned movable part is located at above-mentioned silk integratedly near on the thread-carrier; Drop thread-carrier when along the moving axially of above-mentioned bare bobbin making thread close above-mentioned underwinding position near thread-carrier with respect to above-mentioned anti-silk at above-mentioned silk, above-mentioned movable part also simultaneously with respect to said fixing portion along the moving axially of above-mentioned bare bobbin, thereby silk is controlled by above-mentioned movable part and said fixing portion.

In the present invention, the fixed part of silk handle sturcture is located on the anti-thread-carrier that drops integratedly, and the movable part of silk handle sturcture is located on the close thread-carrier integratedly.And, under the state that the thread-carrier that drops by anti-silk prevents to drop from the silk of completely package, make close thread-carrier moving axially along bobbin, make silk close by silk near thread-carrier, and control silk by being located at the movable part on the close thread-carrier and being located at anti-fixed part on the thread-carrier that drops to the underwinding position.According to this structure, the movable part by making a handle sturcture moves near a thread-carrier integratedly with silk, can carry out simultaneously to the silk of underwinding position near and the controlling of silk, simplify the structure so can make.

Description of drawings

Fig. 1 is the outline elevation of the wire coilling device of relevant embodiments of the present invention.

Fig. 2 is the II-II alignment view of Fig. 1.

Fig. 3 is the block diagram of touch roll, spool stand and guide wire apparatus.

Fig. 4 is a front elevation of observing touch roll, spool stand and the guide wire apparatus of Fig. 3 from oblique upper.

Fig. 5 is the part amplification plan view of silk near thread-carrier.

Fig. 6 is the part amplification plan view of the anti-thread-carrier that drops.

Fig. 7 is the figure of the state when representing the switching of completely package and bare bobbin, and before Fig. 7 (a) expression was switched, Fig. 7 (b) expression was switched midway, the state in the handing-over of Fig. 7 (c) expression silk.

Fig. 8 (a) is the part amplification plan view of silk near the guide wire apparatus of preceding state, and Fig. 8 (b) is with silk towards observation Fig. 8 (a) the close thread-carrier parallel with paper and the figure of the anti-thread-carrier that drops from the paper upside.

Fig. 9 (a) is the part amplification plan view of silk near the guide wire apparatus of state, and Fig. 9 (b) is with silk towards observation Fig. 9 (a) the close thread-carrier parallel with paper and the figure of the anti-thread-carrier that drops from the paper upside.

The specific embodiment

Embodiments of the present invention are described.Fig. 1 is the outline elevation of the wire coilling device of present embodiment.

As shown in Figure 1, in the wire coilling device 1 of present embodiment, supply with multi-filament (for example elastic yarn) continuously via godet roller 2,3 from spinning machine (diagram is omitted).And wire coilling device 1 forms a plurality of coiling packages 21 by batching respectively on a plurality of bobbins 20 that are installed on the spool stand 13 from the multi-filament Y that spinning machine is supplied with.

Wire coilling device 1 possess frame 10, rotatably be located at discoideus turntable 12 on the frame 10, be bearing on the turntable 12 and be equipped with a plurality of bobbins 20 two spool stands 13 (13a, 13b), make batch traverse gear 14, contact that the silk Y on the bobbin 20 traverses be installed on the bobbin 20 that is on the spool stand 13 that batches position P1 (or be formed on the periphery of bobbin 20 package 21) touch roll 15 and between two spool stands 13 guide wire apparatus 16 etc. of handing-over silk Y.

Fig. 2 is the II-II alignment view of Fig. 1.Discoideus turntable 12 rotatably is located on the frame 10 with vertical the posture that is parallel to frame 10.On two positions symmetrical, rotatably be equipped with respectively along two spool stands 13 (13a, 13b) that extend with the horizontal direction of turntable 12 quadratures with respect to the centre of gration of turntable 12.In addition, these two spool stands 13 rotate integratedly with turntable 12.As shown in Figure 2, on each spool stand 13, a plurality of (being 8 in the present embodiment) bobbin 20 is installed along the axial array of spool stand 13.

Turntable 12 is driven by not shown motor rotation.By 12 rotations of this turntable, two spool stands 13 can contact on the touch roll 15 and make a Y batched silk above on the bobbin 20 batch position P1 and relatively turntable 12 centre of gration and thread batch the point-symmetric position of P1, position below position of readiness P2 between move.

If be installed on the package 21 that forms full volume state in Fig. 1 on the bobbin 20 that is on the spool stand 13 (being spool stand 13a) that batches position P1, then turntable 12 rotates to the direction of arrow (C.C.W. direction) of Fig. 1, and switching is positioned at the spool stand 13b that silk batches the spool stand 13a of position P1 and is positioned at position of readiness P2.That is, the bobbin 20 that batches a Y is switched to the bare bobbin 20b that is installed on another spool stand 13b that is in position of readiness P2 by the bobbin 20a from the full volume package 21 of being formed with of a spool stand 13a.The turntable 12 that switches this bobbin is equivalent to switching mechanism of the present invention.

In addition, when switching the bobbin of this turntable 12, the spool stand 13 that is in position of readiness P2 earlier batches position P1 from silk and revolves a silk delivery position P3 who turn 90 degrees (promptly from position of readiness P2 rotation 270 degree) to the direction of arrow and move shown in Fig. 7 (c).Then, by guide wire apparatus 16 described later with silk Y from full package 21 after the bare bobbin 20b of silk delivery position P3 handing-over, move thereby the spool stand 13b that bare bobbin 20b is installed batches position P1 to silk, beginning is batched to the silk of bare bobbin 20b.

Two spool stands 13 that are bearing on the turntable 12 are driven by not shown motor rotation respectively.And,, a plurality of Y are batched respectively on a plurality of bobbins 20 that are installed on this spool stand 13 by being in spool stand 13 rotations that silk batches position P1.

Ratio turntable 12 in frame 10 leans on the part of upside, and lifting is provided with the axially long lifting box 17 along spool stand 13 freely.In this lifting box 17, be supported with traverse gear 14 and touch roll 15.

Traverse gear 14 possesses and is installed in a plurality of bobbins 20 cooresponding a plurality of introducer 14a that traverse that are on the spool stand 13 that batches position P1.And traverse gear 14 constitutes, and under multi-filament Y is hung in state on a plurality of introducer 14a that traverse, to axial (the paper vertical direction of Fig. 1) of spool stand 13 a plurality of introducer 14a that traverse is moved back and forth in the scope of traversing of regulation.Thus, batch on cooresponding a plurality of bobbins 20, form a plurality of packages 21 simultaneously while multi-filament can be traversed respectively.

Touch roll 15 is rotated with the state parallel with spool stand 13 and is bearing in freely on the lifting box 17.When this touch roll 15 batches at the silk to bobbin 20, on one side the contact pressure that package 21 applies regulation is rotated the shape of finishing package 21 by one side.

Then, guide wire apparatus 16 is at length described.Fig. 3 is the block diagram of touch roll 15, two spool stands 13 and guide wire apparatus 16, and Fig. 4 is a front elevation of observing touch roll 15, two spool stands 13 and guide wire apparatus 16 from oblique upper.

As Fig. 1～shown in Figure 4, guide wire apparatus 16 possess when switching the bobbin of turntable 12 make in order on bare bobbin 20b, to form underwinding 22 Y near the silk of the underwinding position of the axial end portion of bare bobbin 20b near thread-carrier 30 with prevent from the anti-silk that the silk Y of bare bobbin 20b falls from full package 21 thread-carrier 31 that drops.

Fig. 5 is the part amplification plan view of silk near thread-carrier 30, and Fig. 6 is the part amplification plan view of the anti-thread-carrier 31 that drops.As Fig. 2～shown in Figure 6, silk all is an axially extended rectangular plate-shaped member along bobbin 20 (spool stand 13) near thread-carrier 30 and the anti-silk thread-carrier 31 that drops, and is configured to, and the anti-silk thread-carrier 31 that drops is overlapped on the close thread-carrier 30.In addition, as shown in Figure 1, silk is installed on the leading section of the swing arm 32 that is located at swingably on the frame 10 near thread-carrier 30 and the anti-thread-carrier 31 that drops.

Fig. 7 is the figure of the state when representing the switching of completely package 21 and bare bobbin 20b.If as Fig. 7 (a), be in completely package 21 of formation on the bobbin 20a of a spool stand 13a who batches position P1, then shown in Fig. 7 (b), turntable 12 is to the direction of arrow (C.C.W. direction) Rotate 180 degree, arrive silk at the spool stand 13b that bare bobbin 20b is installed of position of readiness P2 standby and batch position P1, silk Y contact is on this bare bobbin 20b.Then, turntable 12 revolves to the direction of arrow again and turn 90 degrees, and shown in Fig. 7 (c), spool stand 13b batches position P1 from silk and moves to a delivery position P3.

Here, shown in Fig. 7 (c), when becoming a Y and arrive the state of completely package 21 via bare bobbin 20b, the silk of guide wire apparatus 16 is near thread-carrier 30 and anti-silk drop thread-carrier 31 and the swing of swing arm 32 one.Silk can enter into bare bobbin 20b at the retreating position of keeping out of the way from bare bobbin 20b (position of the long and two-short dash line of Fig. 7 (c)) with from this retreating position and completely moves between the in-position (solid line position of Fig. 7 (c)) of the road Y2 between the package 21 near thread-carrier 30 and the anti-silk thread-carrier 31 that drops.In addition, when silk is in retreating position near thread-carrier 30 with the anti-thread-carrier 31 that drops, bare bobbin 20b and completely the silk road Y2 ' between the package 21 be on the common tangent line of bare bobbin 20b and full package 21, when entering into the in-position near thread-carrier 30 and the anti-thread-carrier 31 that drops by silk, silk road Y2 ' boosts near the silk road Y1 between touch roll 15 and the bare bobbin 20b, is changed to thread road Y2 of Fig. 7 (c).

In addition, shown in Fig. 7 (c), make spool stand 13 be not move to silk batch position P1 but move to that silk batches position P1 revolve the silk delivery position P3 that turn 90 degrees to the direction of arrow, its be for make close thread-carrier 30 of silk and anti-silk drop thread-carrier 31 when entering into the in-position increase Y to the length of contact (winding angle) of bare bobbin 20b, a Y is wrapped on the bare bobbin 20b easily.

Silk can be that axially relatively moving of bobbin 20 (spool stand 13) is attached on the swing arm 32 (slide and move) along its length direction relative to the anti-thread-carrier 31 that drops near thread-carrier 30.That is, silk can axially relatively move along it with respect to the bobbin 20 that is installed on the spool stand 13 near thread-carrier 30.In addition, as shown in Figure 2, a close thread-carrier 30 is via linking the bar 33a binding of parts 34 with the top fluid pressure cylinder 33 that is fixed on the anti-thread-carrier 31 that drops.By the bar 33a advance and retreat of fluid pressure cylinder 33, silk is driven by axial (left and right directions of Fig. 2) to bobbin 20 with respect to the anti-thread-carrier 31 that drops near thread-carrier 30.In addition, as with silk near thread-carrier 30 along the driver train of the axial driving of bobbin 20, except fluid pressure cylinder 33, also can adopt the known driver train of stepper motor etc.

As Fig. 2～shown in Figure 5, near on the leading section (with bare bobbin 20 opposed parts) of thread-carrier 30, be formed with the engagement section 30a of a plurality of V word notch geometrys that correspond respectively to a plurality of bobbins 20 that are installed on the spool stand 13 at silk.In addition, shown in Fig. 3, Fig. 7 (c), silk not only enters into the silk road Y2 from bare bobbin 20b to completely package 21 near the engagement section 30a of thread-carrier 30 but also enters into silk road Y1 from touch roll 15 to bare bobbin 20b.That is, on the 30a of engagement section, the silk part of silk road Y2 is fastened on portion in it, and contains the silk part of a road Y1.

And, by by fluid pressure cylinder 33 with silk near thread-carrier 30 with respect to the axial driving of thread-carrier 31 of dropping of anti-silk along bobbin 20, for multi-filament Y, the silk part of the partial sum silk road Y2 of silk road Y1 is compared the scope of the traversing T (with reference to Fig. 4) of traverse gear 14 (traverse guide 14a) near the underwinding position to the axial outside.By under this state, making spool stand 13 rotations that bare bobbin 20b is installed, on the end that is installed on a plurality of bare bobbin 20b on the spool stand 13, form the underwinding 22 of straight volume (rod volume) shape respectively.

The anti-thread-carrier 31 that drops is attached on the swing arm 32 regularly.That is, different with above-mentioned silk near thread-carrier 30, about axially can not moving of bobbin 20.As Fig. 2～Fig. 4 and shown in Figure 6, on anti-silk drops the leading section (with bare bobbin 20 opposed parts) of thread-carrier 31, be formed with respectively and a plurality of bobbins 20 cooresponding a plurality of notch 31a that are installed on the spool stand 13.Each notch 31a is with respect to the drop leading section outer rim shape of otch squarely of thread-carrier 31 of anti-silk in length direction one side (right side of Fig. 6) of introducer, and opposite side is with respect to leading section outer rim bevelled notch geometry gently.

Shown in Fig. 3, Fig. 7 (c), when switching bobbin, when anti-silk drops thread-carrier 31 when entering into silk road Y2 from bare bobbin 20b to completely package 21 with silk near thread-carrier 30, the silk part of this road Y2 is fastened on the engagement section 30a of a close thread-carrier 30, also is fastened on simultaneously on the notch 31a of the anti-thread-carrier 31 that drops.Thus, prevent anti-silk drop thread-carrier 31 get back to retreating position during, the silk Y that advances to full package 21 from bare bobbin 20b falls from the end face of completely package 21.

In the guide wire apparatus 16 of present embodiment, be provided with by silk near thread-carrier 30 make a Y near behind the underwinding position of bare bobbin 20b, the silk handle sturcture 40 (silk holding unit) of controlling a Y on the bare bobbin 20b for silk Y is wrapped in, thread tension being reduced.

Fig. 8 (a) is the part amplification plan view of silk near the guide wire apparatus 16 of preceding state, and Fig. 8 (b) is with silk towards observation Fig. 8 (a) the close thread-carrier 30 parallel with paper and the figure of the anti-thread-carrier 31 that drops from the paper upside.In addition, Fig. 9 (a) is the part amplification plan view of silk near the guide wire apparatus 16 of state, and Fig. 9 (b) is with silk towards observation Fig. 9 (a) the close thread-carrier 30 parallel with paper and the figure of the anti-thread-carrier 31 that drops from the paper upside.In addition, in Fig. 8, Fig. 9, arrow A is represented the direct of travel of a Y.

As Fig. 6～shown in Figure 9, silk handle sturcture 40 has and is located at the fixedly introducer 41 (fixed part) that anti-silk drops on the thread-carrier 31, can not move along its axis with respect to bare bobbin 20b integratedly and is located at integratedly on close the thread-carrier 30, can reaches fixedly introducer 41 along the axially movable movable part 42 of bare bobbin 20b with respect to bare bobbin 20b with the close thread-carrier 30 of silk.Fixedly introducer 41 is same near a plurality of engagement section 30a of thread-carrier 30 with a plurality of notch 31a and the silk of the anti-thread-carrier 31 that drops with movable part 42, is provided with a plurality of corresponding to a plurality of bobbins 20.

Fixedly introducer 41 has along drop base portion 41a that thread-carrier 31 extends and be divided into two strands of shapes and with respect to the base portion 41a guiding part 41b of diagonally extending downwards from the end of this base portion 41a of anti-silk.And, fixedly introducer 41 drops under the state of the notch 31a on the thread-carrier 31 towards being formed at anti-silk at the guiding part 41b of two strands of shapes, base portion 41a by two screw retention on tabular anti-silk drops the back side (with the opposed faces of silk near thread-carrier 30) of leading section of thread-carrier 31.

Movable part 42 is made of the leaf spring of U word shape bending.And, in the open side of U word shape under the state of silk near the engagement section 30a of thread-carrier 30, an end of leaf spring by two screw retention on the surface (with the opposed faces of anti-thread drop thread-carrier 31) of silk near thread-carrier 30.

Shown in Fig. 8 (a), Fig. 8 (b), silk drops the state (silk close preceding state) of thread-carrier 31 after entering into bare bobbin 20b and the full silk road Y2 between the package 21 near thread-carrier 30 and anti-silk under, silk is on axially about equally the position of bobbin 20 near the drop notch 31a of thread-carrier 31 of the engagement section 30a of thread-carrier 30 and anti-silk, and the silk Y that is fastened on engagement section 30a and notch 31a becomes the axially state of quadrature roughly with respect to bobbin 20.In addition, be located on the close thread-carrier 30 movable part 42 be located at the fixedly introducer 41 that anti-silk drops on the thread-carrier 31 and be positioned at opposition side mutually across engagement section 30a and notch 31a.

From this state, as shown in Figure 9, if silk is driven near axial (direction of the arrow B of Fig. 9) of thread-carrier 30 along bobbin 20 by fluid pressure cylinder 33 (with reference to Fig. 2), the silk Y that then is fastened on the engagement section 30a of a close thread-carrier 30 drops under the state among the notch 31a of thread-carrier 31 being fastened on anti-silk, silk near under the effect of thread-carrier 30 near underwinding position to the bobbin end.At this moment, be located at movable part 42 on the close thread-carrier 30 integratedly also with respect to fixing introducer 41 moving axially along bobbin 20.And the movable part 42 that is made of leaf spring pushes the silk Y between engagement section 30a and the notch 31a on one side to the fixing guiding part 41b of two strands of shapes of introducer 41, on one side by its spring energized pushing Y, and assists with guiding part 41b and to control (clamping) Y movingly.

Here because a silk Y supplied with continuously from spinning machine, so if at movable part 42 with fixedly control a Y between the introducer 41b, the tension force of silk Y of then controlling the upstream side of position reduces sharp, silk Y moment relaxes.Therefore, silk Y is wrapped on the bare bobbin 20b, and begins the formation of the underwinding 22 of bare bobbin 20b by the rotation of spool stand 13b.Like this, if owing to control a Y then a silk Y is wrapped on the bare bobbin 20b at once, so the timing that the timing of controlling a Y and underwinding begin about equally.Therefore, only begin just can correctly manage the underwinding amount to the time of the silk of keeping a close thread-carrier 30 near state by setting from controlling a Y.

Then, the electric of wire coilling device 1 described simple in structurely.As shown in Figure 1, in frame 10, be provided with the control setup 50 of the molar behavior of control wire coilling device 1.This control setup 50 by as the CPU (Central Processing Unit) of arithmetic processing apparatus, store the ROM (Read-Only Memory) of program that CPU carries out and the data of in program, using and be used for the RAM formations such as (Random Access Memory) of when program is carried out temporary storaging data.And, this control setup 50 based on by the operator from being located at the instruction of operating case 51 input on the frame 10, the control rotation drives the action of each one of the motor of turntable 12, the fluid pressure cylinder 33 of motor, traverse gear 14, touch roll 15 and guide wire apparatus 16 that rotation drives spool stand 13 etc., wire coilling device 1.

Then, a series of action when switching the bobbin of wire coilling device 1 describes.

Shown in Fig. 7 (a), if be in completely package 21 of formation on the bobbin 20a of the spool stand 13a that batches position P1, then shown in Fig. 7 (b), make turntable 12 to the direction of arrow (anticlockwise direction) Rotate 180 degree, make the spool stand 13b that is in position of readiness P2 move to silk and batch position P1, make a Y contact on the bare bobbin 20b that is installed on this spool stand 13b.

And then, turntable 12 is revolved to the direction of arrow turn 90 degrees, shown in Fig. 7 (c), make the spool stand 13 that bare bobbin 20b is installed move to a delivery position P3.Then, make the silk of guide wire apparatus 16 move to the in-position of representing by solid line from the retreating position of representing by long and two-short dash line, make the leading section of two introducers 30,31 enter into the silk road Y2 that arrives completely package 21 via bare bobbin 20b near thread-carrier 30 and the anti-thread-carrier 31 that drops.So, the silk part of silk road Y2 be fastened on the engagement section 30a of a close thread-carrier 30 and the notch 31 of the thread-carrier 31 of preventing thread dropping in state under, this part is boosted, and the silk part of silk road Y2 approaches near the silk road Y1 from touch roll 15 to bare bobbin 20b.Thus, the roughly complete cycle of the outer peripheral face of bare bobbin 20b is touched in wire connection.In addition, this moment, near in the engagement section 30 of thread-carrier 30, the silk part of silk road Y2 was fastened on its deep, and contains the silk part of a road Y1 at silk as shown in Figure 3.

Under this close preceding state, as shown in Figure 8, silk is in axially about equally the position of bobbin 20 near the drop notch 31a of thread-carrier 31 of the engagement section 30a of thread-carrier 30 and anti-silk, and the silk Y that engage with engagement section 30a and notch 31a is along advancing with the axial roughly direction of quadrature of bobbin 20.From this state, by fluid pressure cylinder 33 with silk near thread-carrier 30 with respect to thread-carrier 31 axial (the arrow B direction of Fig. 9) driving of dropping of anti-silk along bobbin 20.So, shown in Fig. 9 (a), Fig. 9 (b),, make the silk part of the silk road Y2 that is fastened among the 30a of engagement section and be housed in the underwinding position of the silk part of the silk road Y1 in the 30a of engagement section near thread-carrier 30 by silk near the axial end portion outside, bobbin 20 of the scope of the traversing T of traverse gear 14 (introducer 14a traverses).

At this moment, the movable part 42 that is made of leaf spring that is located on the close thread-carrier 30 moves with respect to being located at axial (the arrow B direction of Fig. 9) of anti-fixedly introducer 41 on the thread-carrier 31 that drops along bobbin 20 simultaneously.Then, movable part 42 is pushed into silk among the guiding part 41b of fixing two strands of shapes of introducer 41 near drop silk Y between the notch 31a of thread-carrier 31 of the engagement section 30a of thread-carrier 30 and anti-silk, assists with guiding part 41b and controls a Y movingly.

If like this by movable part 42 and fixedly introducer 41 control a Y, then thread tension reduces sharp, a silk Y promptly is wrapped on the underwinding position of bare bobbin 20b, and the rotation by spool stand 13 begins to form underwinding 22 to bare bobbin 20b.In addition, owing to side by side silk Y is wrapped on the bare bobbin 20b with controlling roughly of silk Y, the amount of underwinding 22 (volume number) roughly exists with ... from controlling the time length near state near thread-carrier 30 that a Y begins.So,, can correctly manage the amount of underwinding 22 by this silk is maintained predefined specified time near the close state of the silk of thread-carrier 30.Particularly, a time length near state is stored in the storage part of control setup 50 in advance, and by the time control fluid pressure cylinder 33 of control setup 50 according to this storage, the silk that makes a close thread-carrier 30 is near the only lasting time of setting of state.

In addition, if beginning forms underwinding 22 to bare bobbin 20b, the bigger tension force of effect on the silk part of bare bobbin 20b and the full silk road Y2 between the package 21 then, the mode of being broken with quilt under the effect of this tension force is cut off a Y.As a result, with silk from full package 21 guiding bare bobbin 20b.

In addition, if control a Y by silk handle sturcture 40, then silk Y promptly is wrapped on the bare bobbin 20b, if the beginning formation of underwinding 22 then bare bobbin 20b and the full Y between the package 21 are cut off immediately, so during the silk of keeping a close thread-carrier 30 is near state, even by silk handle sturcture 40 controlling the silk Y state, also obstacle can't take place.

If control the underwinding 22 that a Y begins to form through predefined specific time, at bare bobbin 20b desired amount from silk handle sturcture 40 (movable part 42 reaches fixedly introducer 41), then by silk being driven near the axial opposed side (with the arrow B opposition side of Fig. 9) of thread-carrier 30 to bobbin 20 by fluid pressure cylinder 33, as shown in Figure 8, make a close thread-carrier 30 get back to original position.At this moment, silk handle sturcture 40 (movable part 42 reaches fixedly introducer 41) also is disengaged the gripping state of silk Y.And then, make a close thread-carrier 30 and the anti-thread-carrier 31 that drops keep out of the way the retreating position of the long and two-short dash line of Fig. 7 (c).So, since silk carry out near the engagement section 30a of thread-carrier 30, silk Y bobbin 20 axially on mobile restriction be disengaged, so a silk Y is traversed in the scope T that traverses vertically by the introducer 14a that traverses of traverse gear 14.

And then, rotate to direction of arrow opposite sense (clockwise direction) by making turntable 12 with Fig. 7, make the spool stand 13 that bare bobbin 20b is installed move to silk and batch position P1 from silk delivery position P3, the outer peripheral face contact that makes bare bobbin 20b is on touch roll 15.Thus, applying under the state of contact pressure, silk Y is being traversed in the scope T that traverses by the introducer 14a that traverses on one side batch on one side, formation package 21 on bobbin 20 by 15 pairs of silk layers of touch roll.

In the wire coilling device of above explanation, make near thread-carrier 30 by silk from bare bobbin 20b behind the close underwinding position of silk Y of completely package 21, control this Y by silk handle sturcture 40, silk Y promptly is wrapped on the bare bobbin 20b so thread tension sharply reduces, and is difficult for taking place silk and twines bad.And then if carry out controlling of 40 couples of silk Y of a handle sturcture, then silk Y is wrapped on the bare bobbin 20b immediately, so can grasp the timing that underwinding begins.Therefore, after controlling a Y by silk handle sturcture 40, only keep predefined specific time near state, just can correctly manage the amount of underwinding 22, can prevent easily that the underwinding amount is inhomogeneous between package 21 by the silk that makes a close thread-carrier 30.

In addition, a silk handle sturcture 40 constitutes, by fixing introducer 41 and can with respect to this fixedly introducer 41 move to the association of the axially movable movable part 42 of bobbin 20 and control a Y.And then fixedly introducer 41 is located on the anti-thread-carrier 31 that drops integratedly, and movable part 42 is located on the close thread-carrier 30 integratedly.Therefore, under the state that the thread-carrier 31 that drops by anti-silk prevents to drop from the silk of completely package 21, by close thread-carrier 30 the moving axially of silk along bobbin 20, make a Y near the underwinding position by silk near thread-carrier 30, and control a Y by being located at the movable part 42 on the close thread-carrier 30 and being located at anti-fixedly introducer 41 on the thread-carrier 31 that drops.According to this structure, move integratedly near a thread-carrier 30 by movable part 42 and the silk that makes a handle sturcture 40, can carry out controlling of and thereafter silk Y close simultaneously to the silk of underwinding position, simplify the structure so can make.

In addition, in the scope that does not break away from purport of the present invention, various changes that can be following in addition to above-mentioned embodiment.In addition, in the following description, give identical label and suitably omit its explanation for the part that has with the same structure of above-mentioned embodiment.

In the above-described embodiment, silk fixedly introducer 41 of handle sturcture 40 and movable part 42 are located at anti-silk respectively integratedly and drop thread-carrier 31 and silk near on the thread-carrier 30, but also can constitute, drop thread-carrier 31 or silk of introducer 41 and movable part 42 and anti-silk is provided with individually near a thread-carrier 30, and movable part 42 can move moving axially along bobbin 20 independently with the slip of the close thread-carrier 30 of silk.

In the above-described embodiment, in order to increase the winding angle of a Y, be positioned at bare bobbin 20b and batch from silk under the state that position P1 revolves the silk delivery position P3 after turning 90 degrees again, carry out from full package 21 to the silk handing-over of bare bobbin 20b to bare bobbin 20b.But, various conditions according to the silk kind of Y of batching and thread tension etc., twine under the situation of failure at the silk that relatively be difficult for to take place to bare bobbin 20b, also can bare bobbin 20b be positioned at silk batch position P1 and completely package 21 be positioned at and carry out silk under the state of position of readiness P2 and join.

Claims (4)

1, a kind of wire coilling device is characterized in that, possesses:

A plurality of spool stands are separately installed with bobbin;

Traverse gear traverses the silk that batches on above-mentioned bobbin;

Switching mechanism is batched be installed at silk and is in silk and batches on the bobbin on the spool stand of position and after forming completely package, the bobbin that batches silk is switched to the bare bobbin that is installed on other spool stands from the bobbin that has formed above-mentioned completely package;

Silk is near thread-carrier, above-mentioned relatively bare bobbin axially can constitute movably along it, when switching bobbin by above-mentioned switching mechanism, when becoming silk and arrive the state of above-mentioned completely package, make above-mentioned bare bobbin compare the underwinding position in the more close above-mentioned axial outside of the scope of traversing of above-mentioned traverse gear with the above-mentioned completely silk between the package via above-mentioned bare bobbin; And

The silk handle sturcture is being held in the silk of above-mentioned silk near the down close above-mentioned underwinding position of effect of thread-carrier.

2, wire coilling device as claimed in claim 1 is characterized in that, above-mentioned silk from controlling silk by above-mentioned silk handle sturcture, is kept predefined specified time with silk near state near thread-carrier.

3, wire coilling device as claimed in claim 1 or 2 is characterized in that,

Above-mentioned silk handle sturcture constitutes,

Possess relative to above-mentioned bare bobbin along its axial irremovable fixed part and the movable part that axially can move along above-mentioned bare bobbin relative to said fixing portion;

During along the moving axially of above-mentioned bare bobbin, silk is controlled movingly by above-mentioned movable part and association of said fixing portion in the relative said fixing of above-mentioned movable part portion.

4, wire coilling device as claimed in claim 3 is characterized in that,

Also possess the anti-silk thread-carrier that drops, this anti-silk thread-carrier that drops prevents from completely to roll up package and drop from above-mentioned from the silk of above-mentioned bare bobbin when switching bobbin by above-mentioned switching mechanism;

Said fixing portion is located on the above-mentioned anti-thread-carrier that drops integratedly, and above-mentioned movable part is located at above-mentioned silk integratedly near on the thread-carrier;

Drop thread-carrier when making a thread close above-mentioned underwinding position along moving axially of above-mentioned bare bobbin at above-mentioned silk near the above-mentioned relatively anti-silk of thread-carrier, the also simultaneously relative said fixing portion of above-mentioned movable part moves axially along above-mentioned bare bobbin, thereby silk is controlled by above-mentioned movable part and said fixing portion.

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