CN103827007A

CN103827007A - Bobbin winding machine

Info

Publication number: CN103827007A
Application number: CN201280045162.6A
Authority: CN
Inventors: R·沃斯; R·奥斯特温德
Original assignee: Oerlikon Textile GmbH and Co KG
Current assignee: Oerlikon Textile GmbH and Co KG
Priority date: 2011-09-21
Filing date: 2012-09-13
Publication date: 2014-05-28
Anticipated expiration: 2032-09-13
Also published as: JP6016926B2; EP2758330B1; DE102011114025A1; WO2013041442A1; CN103827007B; IN2014CN02857A; EP2758330A1; US20150034756A1; JP2014530155A

Abstract

A bobbin winding machine with a plurality of winding stations (5.1-5.4) which are arranged along a bobbin winding spindle (2,3) for winding a plurality of threads into bobbins (6.1-6.4) is described. The winding stations are assigned a traversing device (7) which has a flyer traversing unit for each winding station (8.1-8.4). The flyer traversing units are driven jointly and for this purpose have in each case a drive wheel (11.1-11.4) which is coupled to a driven driving wheel (14) via a toothed belt (12). According to the invention, the toothed belt is coupled to the toothed drive wheels and to the toothed driving wheel via a toothed profile side (27).

Description

Bobbin-winding machine

The present invention relates to a kind of according to the bobbin-winding machine with multiple winder stations of the preamble of claim 1.

Known a kind of universal winder from EP0 965 554A2.

Such bobbin-winding machine is used in the production of synthetic threads, to reach the object of winding thread into reel.In this case, according to the technique of yarn and type, will produce very high yarn gait of march, this speed may exceed 6000 ms/min.Due in melt spinning process, be extruded, process and guide as yarn group at spinning position yarn, being wound with of yarn and bobbin may be walked abreast and be carried out adjacent to each other.For this purpose, known bobbin-winding machine has outstanding bobbin wireline reel, is formed with the winder station of multiple distributed arrangement on it.In order yarn to be wound up on bobbin in the mode of cross winding, be provided with a kind of traverse gear, this device has flyer spindle traverse gear for each winder station.Such flyer spindle traverse gear is particularly useful on winder station, guiding back and forth at high speed each yarn.For this purpose, this flyer spindle traverse gear has the flyer spindle rotor of two subtend rotations, and these two flyer spindle rotors alternately guide yarn back and forth.These flyer spindle traverse gears are synchronously driven, and the moment of torsion of electric notor is passed to each flyer spindle traverse gear via belt driver.

In order to realize consistent bobbin moulding when the winding yarn on each winder station, produce without the moment of torsion transmission of skidding by means of cingulum.This cingulum has two contrary flute profile sides, is formed with and has multiple outstanding toothed tooth portion in flute profile side.In belt driver, guide cingulum via at least one drive wheel and multiple power wheel, two contrary flute profile side engagement of this drive wheel and power wheel and cingulum.Therefore, the positional precision while driving flyer spindle traverse gear can only be determined by one of them flute profile side of cingulum, and this flute profile side cooperates with power wheel.By contrast, the starting load being produced by drive wheel and deceleration loading are absorbed by being usually designed to more wear-resisting contrary flute profile side.But on cingulum, alternately engagement can cause producing vibration on cingulum like this, this is called as polygon effect, and it can have a negative impact to the conformability of traversing on winder station.Polygon effect also can additionally be promoted by the unequal production tolerance of flute profile side.

Therefore the object of the invention is to, a kind of bobbin-winding machine of universal class is provided, in this bobbin-winding machine, flyer spindle traverse gear can be driven with high consistency on winder station.

According to the present invention, the realization of this target is the drive wheel that via flute profile side, cingulum is connected to the power wheel of tooth and has tooth.

Favourable improvement of the present invention is limited by feature and the Feature Combination of corresponding dependent claims.

Clearly, unexpectedly, drive wheel and the power wheel node formula in the flute profile side of cingulum engages (joint engagement) and does not have adverse effect for the positioning precision that drives flyer spindle rotor.The in the situation that of suitable selection material, the wear phenomenon that drive wheel produces in the flute profile side of cingulum can limit by following mode, even if that is: there are multiple power wheels, also can not produce phase difference between the driven flyer spindle rotor of flyer spindle traverse gear.If have the wheel of tooth all only at a side contacts cingulum, the opposite side of cingulum can be toothed or smooth so.

Thereby in the time that drive wheel and power wheel disposed adjacent one another have identical hand of rotation, can guarantee cingulum on power wheel fully around, in addition regulation is wherein arranged in multiple slewing rollers between adjacent power wheel, and wherein said slewing rollers are at contrary planar side guiding cingulum.Therefore,, on each power wheel, cingulum can be driven via multiple intermeshing band teeth.Therefore each power wheel can be driven in the same way reliably to locate via cingulum.

Make slewing rollers all there is guide housing, described guide housing has one or more continuous guide grooves, and make cingulum can in the situation that having or do not have the longitudinal web of annular, on planar side, be directed to cover guiding, this can further improve band guiding between power wheel and drive wheel.Produced thus the transverse guidance of cingulum, it prevents that cingulum from moving up and down.Especially having realized, whereby band tooth can roll under identical geometric condition on power wheel.

In order to hold flyer spindle traverse gear, these flyer spindle traverse gears are preferably disposed in together with drive wheel with power wheel on plate shape bracket, and this bracket is movably held in frame.Due to the mobility of this plate shape bracket, even if increase gradually and have can dynamic pressure roller for bobbin diameter, the spacing of traversing forming between flyer spindle rotor and touch roll thereafter still can keep constant.

For decoupling zero traverse gear, preferably between bracket and frame, multiple damping elements are set traversing, make can be delivered in the driving system of traverse gear by the vibration producing of reeling of the driving of bobbin wireline reel and bobbin.

In order to transmit and change rotatablely moving of being produced by power wheel, each flyer spindle traverse gear has power divider, and this power divider is coupled to power wheel and subtend and drives two rotatable flyer spindle rotors.In the case, adjacent flyer spindle rotor can by the same way or subtend drive.

In order to obtain rotatable flyer spindle rotor overlapping of adjacent flyer spindle traverse gear in the time that power wheel is driven in the same way, bobbin-winding machine is preferably designed as follows, power divider is alternately formed by the one in two kinds of gears, and these two kinds of gears produce contrary hand of rotation on flyer spindle rotor.

In addition, except resistance to abrasion, improvement project of the present invention can also affect the generation of noise energetically, and wherein the planar side of cingulum carries the basic material of being made up of polyurethane of tissue layer, cingulum and embeds many steel cords in this basic material.This high performance material is proved to be to be specially adapted to drive reliably in bobbin-winding machine multiple flyer spindle traverse gears.Therefore, ten of traverse gear, 12 even more multiple wing ingot traverse gear can be driven reliably via a belt driver in bobbin-winding machine.

In addition, yarn being traversed and being wound in the process of bobbin, must keep in mind, lap wound can obviously be upset bobbin moulding, and in order to prevent lap wound, it is necessary that the fast frequency traversing in operation changes.So this shows that toothed spacing can affect the excitation frequency of cingulum.For fear of the stack resonance between frequency of transverse moving and the excitation frequency of cingulum, improvement project of the present invention is particularly advantageous, and wherein the flute profile side of cingulum has the multiple band tooth in the scope of spacing between 4mm to 5mm.Clearly, results are unexpectedly, and the spacing range between 4mm to 5mm has particularly advantageous effect for the driving and the afterturn yarn that drive flyer spindle traverse gear to form bobbin.

To describe the present invention in more detail according to bobbin-winding machine of the present invention exemplary embodiment in order further to explain below.For this purpose, the following drawings is appended in specification sheets.

In these accompanying drawings:

Fig. 1 is shown schematically according to the front elevation of bobbin-winding machine of the present invention exemplary embodiment;

Fig. 2 is shown schematically according to the birds-eye view of the exemplary embodiment of Fig. 1;

Fig. 3 is shown schematically in the cutaway view of an exemplary embodiment of slewing rollers;

Fig. 4 is shown schematically in the cutaway view of another exemplary embodiment of slewing rollers;

Fig. 5 is shown schematically according to the partial view of the cingulum in the exemplary embodiment of Fig. 1 and Fig. 2;

Fig. 6 is shown schematically in the cutaway view of the cingulum in Fig. 5.

Fig. 1 and Fig. 2 show according to bobbin-winding machine of the present invention exemplary embodiment with different visual angles.Fig. 1 diagrammatically shows the front elevation of this exemplary embodiment, and Fig. 2 diagrammatically shows the birds-eye view of this exemplary embodiment.As long as no showing a wherein width figure of reference, following description is just all suitable for this two width figure.

Conventionally be used in the production process of melt spinning workshop synthetic threads according to exemplary embodiment shown in bobbin-winding machine of the present invention, with the one group of yarn of reeling, this group of yarn is extruded, drawing-off be treated to yarn group and be transported to bobbin-winding machine.In bobbin-winding machine, form a winder station in multiple winder stations for every yarns.

As what can know from the diagram of Fig. 2, this exemplary embodiment has four winder stations 5.1,5.2,5.3 and 5.4 altogether, with respectively by winding thread into reel 6.1 to 6.4.For this purpose, bobbin 6.1 to 6.4 is remained on outstanding bobbin wireline reel 2 adjacent to each other.Drive as follows bobbin wireline reel 2, yarn is wound onto on bobbin 6.1 to 6.4 with the winding speed of substantial constant.For on each winder station 5.1 to 5.4 by winding thread into reel, traverse gear 7 was set before bobbin wireline reel 2.Traverse gear 7 has flyer spindle traverse gear 8.1 to 8.4 for each winder station 5.1 to 5.4.Flyer spindle traverse gear 8.1 to 8.4 is driven as driving group by electric notor 10.For transmitting torque, via belt transmission 9, electric notor 10 is connected to flyer spindle traverse gear 8.1 to 8.4.For this purpose, belt transmission 9 has respectively power wheel 11.1 to 11.4 for each flyer spindle traverse gear 8.1 to 8.4, and these power wheels are through being connected to drive wheel 14 with cingulum 12.Drive wheel 14 is directly driven by electric notor 10, and drive wheel 14 and power wheel 11.1 to 11.4 are by cingulum 12 rotating Vortexes.Cingulum 12 has multiple band tooth a flute profile side, and these are engaged in the tooth of drive wheel 14 and the tooth of power wheel 11.1 to 11.4 with tooth.

Sufficient around to drive flyer spindle traverse gear 8.1 to 8.4 in order to obtain on power wheel 11.1 to 11.4, between adjacent power wheel, be all furnished with in multiple slewing rollers.Therefore, slewing rollers 16.1 are disposed between power wheel 11.1 and 11.2, and slewing rollers 16.2 are disposed between power wheel 11.2 and 11.3 and slewing rollers 16.3 are disposed between power wheel 11.3 and 11.4.Slewing rollers 16.1,16.2 and 16.3 are configured to the planar side of cingulum 12.Therefore, can be by replacing around guiding cingulum 12 between power wheel 11.1 to 11.4 and slewing rollers 16.1 to 16.3.

The return that produces cingulum 12 by two track adjusting wheels 15.1 and 15.2, these two track adjusting wheels have tooth and cooperate with the flute profile side of cingulum 12.

As what can know from the diagram of Fig. 1 and Fig. 2, each flyer spindle traverse gear 8.1 to 8.4 has the power divider 13 on that is directly connected in power wheel 11.1 to 11.4.In Fig. 1, briefly show the winder station 5.4 with flyer spindle traverse gear 8.4.Each flyer spindle traverse gear 8.1 to 8.4 and each servo-actuated winder station 5.1 to 5.4 are configured to identical, and therefore, describe the winder station 5.4 with flyer spindle traverse gear 8.4 by the diagram of Fig. 1 with way of example.

The the second flyer spindle rotor 17.2 that has the first flyer spindle rotor 17.1 of the first flyer spindle group and have the second flyer spindle group is by power divider 13 polar drivings.Lead rule 26 for the flyer spindle configuration of flyer spindle rotor 17.1 and 17.2, can be guided back and forth via two flyer spindle groups at its guide edge place yarn 31.

In order to obtain the compact Layout of flyer spindle traverse gear adjacent one another are 8.1 to 8.4, the flyer spindle group of flyer spindle rotor 17.1 and 17.2 is designed to make the adjacent flyer spindle rotor of adjacent flyer spindle traverse gear 8.1 and 8.2 intermeshing.For this purpose, power divider 13 is preferably formed by two kinds of gears, and these two kinds of gears produce contrary hand of rotation on rotor flyer spindle.Therefore, power divider 13 can be designed to left hand gear or right hand gear.

But, substantially also there is such possibility, that is: to be designed to be all identical to power divider 13, and the each driven flyer spindle rotor 17.1 and 17.2 of flyer spindle traverse gear 8.1 to 8.4 is driven in an identical manner along identical hand of rotation.

Flyer spindle traverse gear 8.4 is disposed in traversing on bracket 21 of plate shape, and this bracket extends and carries belt transmission 9 and also carries flyer spindle traverse gear 8.1 to 8.3 on whole traverse gear 7.In this exemplary embodiment, the bracket 21 that traverses is supported on pivotal arm 19, and this pivotal arm is remained on pivotly in frame 1 via multiple damping elements 32 and this pivotal arm carries pressure roller 18 at its free end.Pressure roller 18 is rotatably installed in the surface of pressing bobbin 6.1 to 6.4 on pivotal arm 19 and in operating winding process.

Keep traversing bracket 21 by the contiguous pressure roller 18 of pivotal arm 19, this bracket 21 that traverses is guided movably together with pivotal arm 19 in frame 1.Therefore, lead the spacing maintenance of traversing forming between rule 26 and pressure roller 18 constant and do not depend on the relevant position of pivotal arm 19.To a certain extent, can utilize flier traverse gear 8.1 to 8.4 to guide to and fro yarn with same dilatory length in any position of pressure roller 18.

As by what know from the diagram of Fig. 1, the pedestal 4 in frame 1 is designed to bobbin coiling capstan head, and the second bobbin wireline reel 3 is maintained on this bobbin coiling capstan head in the mode of giving prominence to.Each

bobbin wireline reel

2 and 3 can be driven independently of each other, and pedestal 4 is equally also equipped with actuator.In this exemplary embodiment, this actuator is not illustrated.For by reel for yarn on bobbin 6.1 to 6.4, will guide bobbin wireline reel 2 by the motion of pedestal 4.Finishing bobbin operating winding complete bobbin 6.1 after 6.4, bobbin wireline reel 2 is directed out wrapping range and enters and change region and bobbin wireline reel 3 and be directed out and change region and enter wrapping range.With regard to this degree, the continuous reeling of yarn is feasible.

In the time that yarn is just being wound into bobbin 6.1 to 6.4, utilize flyer spindle traverse gear 8.1 to 8.4, they to be guided back and forth with the frequency of transverse moving stipulating.The frequency of transverse moving of flyer spindle traverse gear 8.1 to 8.4 is determined by electric notor 10 and is delivered to power wheel 11.1 to 11.4 from drive wheel 14 by cingulum 12.In the case, conventionally in winding yarn process, change this frequency of transverse moving to prevent from being called the situation of lap wound.This change is equally directly implemented by electric notor 10 and belt driver 9.Therefore high dynamic load appears on cingulum 12 and is accompanied by the variation of speed.For the stability of belt driver 9, preferably on the side face of slewing rollers 16, guide energetically cingulum.

Fig. 3 is shown schematically in an exemplary embodiment of slewing rollers 16.1 with cutaway view.Slewing rollers 16.1 have the guide housing 28 being rotatably installed on axostylus axostyle 33.Guide housing 28 has the guide groove 29 of the planar side 23 that holds cingulum 12 on side face.Contrary with planar side 23, cingulum has flute profile side 27, and flute profile side 27 has band tooth 22.

But alternatively, also there is the possibility that one or more longitudinal webs is arranged in to the planar side 23 of cingulum 12.Figure 4 illustrates so exemplary embodiment.Fig. 4 has briefly showed slewing rollers 16.1 with cutaway view.In these slewing rollers 16.1, guide housing 28 has the guide groove 29 of two runs parallel.Guide groove 29 is designed such that two longitudinal webs 30 on the planar side 23 of cingulum 12 can be directed therein.Therefore, especially in the region of power wheel 11.1 to 11.4, realized reliably and quietly advancing of cingulum 12.

Can be especially by the design of the cingulum that illustrates belt driver 9 12 of Fig. 5 and Fig. 6.

Fig. 5 shows the partial view of cingulum 12 and Fig. 6 and shows the cutaway view of cingulum 12.As long as no showing a wherein width figure of reference, following description is just all suitable for this two width figure.

Cingulum 12 has flute profile side 27 and contrary planar side 23.In flute profile side 27, be formed with multiple band tooth 22.Cingulum 12 is designed to endless belt.What in this flute profile side, be integrally formed all has with tooth 22 parabolic that is full of crown completely.Parabolic with tooth 22 is substantially identical with the High Performance flank profil of known called after RPP.The spacing representing with Reference numeral T in Fig. 5 refers to the distance between phase adjacent band tooth 22 in flute profile side 27 in the case.In view of purposes and the function of cingulum 12 in traverse gear 7, this spacing T is set to the numerical value of a scope between 4mm and 5mm.Rely on this spacing T, will advantageously avoid the interference of resonance phenomena, the coiling of this interference to yarn and the frequency of transverse moving of variation have damaging influence.

The structure of cingulum 12 can be known substantially from the diagram of Fig. 6.Cingulum 12 is made up of themoplasticity basis material, is preferably polyurethane.Many steel cord 24 embeds in this basic material adjacent to each other.In the outside of planar side 23 and the outside of flute profile side 27 be all provided with tissue layer 25, tissue layer 25 covers the surface of cingulum 12.Such tissue layer 25 has especially favourable effect aspect reduction noise.In addition can therefore reduce, the great friction coefficient of basic material.

Themoplasticity basis material is proved to be to be applicable in the time being used to bobbin-winding machine, especially with respect to dominant condition in environment around.Therefore, the composition of volatilization, similarly is for example isolated preparation residue from yarn, can on cingulum 12, not cause any disadvantageous chemical reaction.Can advantageously be avoided owing to being prepared too early wearing and tearing and the abrasion that residue chemical erosion causes.

Steel cord 24 in basic material shown in Fig. 6 is examples for carrying high-intensity strand material.It is also available that for example carbon fiber of other strand material is gone up substantially.

Be preferably designed at the power wheel 11.1 to 11.4 shown in Fig. 1 and Fig. 2 and drive wheel 14 and track adjusting wheel 15.1 and 15.2 the circular flank profil having for belt driver 9.Such flank profil for example represents with reference letter HDT, is also High Performance flank profil, and they have advantageous effects to drive ability and tooth surface abrasion together with bringing selected parabola flank profil, and also has advantageous effects for the rolling characteristics of tooth.Therefore, the flyer spindle traverse gear 8.1 to 8.4 of traverse gear 7 can be driven reliably non-skidly.

Especially, introduce via the moment of torsion of drive wheel 14 and can advantageously implement via the flute profile side 27 of cingulum 12 to the moment of torsion transmission of power wheel 11.1 to 11.4.The load being produced by drive wheel 14 in the reinstating of frequency of transverse moving, change and de-activation procedure does not have adverse effect for the phase place positioning precision of flyer spindle traverse gear.Therefore, can in the coiling of yarn, realize high homogeneity at each winder station 5.1 to 5.4.

Reference numerals list

1 frame

2 bobbin wireline reels

3 bobbin wireline reels

4 pedestals

5.1,5.2,5.3,5.4 winder stations

6.1,6.2,6.3,6.4 bobbins

7 traverse gears

8.1,8.2,8.3,8.4 flyer spindle traverse gears

9 belt drivers

10 electric notors

11.1 to 11.4 power wheels

12 cingulums

13 power dividers

14 drive wheels

15.1 to 15.2 track adjusting wheels

16.1,16.2,16.3 slewing rollers

17.1,17.2 flyer spindle rotors

18 pressure rollers

19 pivotal arms

20 bobbin rolling tubes

21 brackets that traverse

22 band teeth

23 planar sides

24 steel cords

25 tissue layer

26 lead rule

27 flute profile sides

28 guide housings

29 guide grooves

30 longitudinal webs

31 yarns

32 damping elements

33 axostylus axostyles

Claims

1. a bobbin-winding machine, this bobbin-winding machine has: multiple winder stations (5.1,5.2,5.3,5.4), and the plurality of winder station is arranged adjacent to each other and plurality of yarns is wound into multiple bobbins (6.1 to 6.4) concurrently along bobbin wireline reel (2,3), and traverse gear (7), this traverse gear has flyer spindle traverse gear (8.1 to 8.4) for each winder station (5.1 to 5.4), these flyer spindle traverse gears (8.1 to 8.4) are equipped with multiple power wheels (11.1 to 11.4), these power wheels are arranged adjacent to each other and are connected to driven drive wheel (14) to drive described flyer spindle traverse gear (8.1 to 8.4) via cingulum (12), it is characterized in that, described cingulum (12) is coupled to the described power wheel (11.1 to 11.4) of tooth and has the described drive wheel (14) of tooth via flute profile side (27).

2. bobbin-winding machine according to claim 1, it is characterized in that, between adjacent power wheel (11.1 to 11.4), be furnished with in multiple slewing rollers (16.1 to 16.3), and described slewing rollers (16.1 to 16.3) are at contrary planar side (23) the described cingulum of upper guiding (12).

3. bobbin-winding machine according to claim 2, it is characterized in that, described slewing rollers (16.1 to 16.3) have respectively guide housing (28), this guide housing has one or more continuous guide grooves (29), and described cingulum (12) can above be guided by described guide housing (28) at described planar side (23) in the case of having or do not have longitudinal web (30) of annular.

4. according to the bobbin-winding machine described in any one in claims 1 to 3, it is characterized in that, it is upper that described flyer spindle traverse gear (8.1 to 8.4), described power wheel (11.1 to 11.4) and described drive wheel (14) are disposed in the plate shape bracket (21) that traverses, described in the bracket that traverses be maintained in a movable manner in frame (1).

5. bobbin-winding machine according to claim 4, is characterized in that, between the described bracket that traverses (21) and described frame (1), is furnished with multiple damping elements (32).

6. according to the bobbin-winding machine described in any one in claim 1 to 5, it is characterized in that, each flyer spindle traverse gear (8.1 to 8.4) has the flyer spindle rotor (17.1,17.2) of two energy subtend rotations and has the power divider (13) that is connected to described power wheel (11.1 to 11.4).

7. bobbin-winding machine according to claim 6, is characterized in that, described power divider (13) is optionally formed by the one in two kinds of gears, and these two kinds of gears are at the contrary hand of rotation of the upper generation of described flyer spindle rotor (17.1,17.2).

8. according to the bobbin-winding machine described in any one in claim 1 to 7, it is characterized in that, the described planar side (23) of described cingulum (12) carries the basic material being formed by polyurethane of damping tissue layer (25), described cingulum (12) and embeds many steel cords (24) in described basic material.

9. according to the bobbin-winding machine described in any one in claim 1 to 8, it is characterized in that, the flute profile side (27) of described cingulum (12) has the multiple band tooth (22) in the scope of spacing (T) between 4mm to 5mm.