CN1190945A - Web winding apparatus - Google Patents

Abstract

A web winding apparatus (90) and a method of operating the apparatus are disclosed. The apparatus can include a turret assembly (200), a core loading apparatus (1000), and a core stripping apparatus (2000). The turret assembly (200) supports rotatably driven mandrels (300) for engaging hollow cores (302) upon which a paper web (50) is wound. Each mandrel (300) is driven in a closed mandrel path (320), which can be non-circular. The core loading apparatus (1000) conveys cores (302) onto the mandrels (300) during movement of the mandrels (300) along the core loading segment (322) of the closed mandrel path (320), and the core stripping apparatus (2000) removes each web wound core (302, 51) from its respective mandrel (300) during movement of the mandrel (200) along the core stripping segment (326) of the closed mandrel path (320). The turret assembly (200) can be rotated continuously, and the sheet count per wound log (51) can be changed as the turret assembly (200) is rotating. The apparatus (90) can also include a mandrel (300) having a deformable core engaging member (3100).

Description

The band wind

The present invention relates to a kind of band wind that carrying material is divided the single volume of coiled such as toilet paper or sanitary napkin.Or rather, the present invention relates to a kind of turret winder that carrying material is divided the single volume of coiled.

Turret winder has been well-known in the industry.Traditional turret winder comprises a rotatable turret assembly, and it is supporting the plug of some platform rotational that rotate.Plug is along there is the circular trace of a fixed range to move from turret axis.When plug is just finished by coiling on core with paper roll after the core of hollow engages.In general, carrying material debatching in a continuous manner from the master tape, turret winder just divides female roller around to the core that is through on the plug and obtain volume single, that diameter is less.

Traditional turret winder just is wound into paper tape on the plug during around the rotational of turret assembly at plug.The rotation of turret assembly with the time moving mode calibration of stopping time carry out.Just can be when turntable is motionless the core of the hollow machine of packing into, and the volume that coiling is good unloaded from machine.Turret winder is existing open in following US Patent: authorized people such as Kwitek on November 6th, 1956 2,769, No. 600; Authorized people such as Nystrand on September 17th, 1962 3,179, No. 348; Authorize 3,552, No. 670 of Herman June 12 nineteen sixty-eight; Authorized 4,687, No. 153 of McNeil on August 18th, 1987.The calibration formula turret assembly of selling on the market has been used in the recoil device of 150,200 and 250 series of state of Wisconsin Lv Wanshi Paper ConvertingMachine Company manufacturing.

In the Pushbutton Grade Change of Paper Converting Machine Company 250 series recoil device training manuals, announced a kind of band winding system that five servo controlled shafts are arranged.These function is: the odd number metering is twined, and cored conveyer, depoling conveyer, and turntable calibration are twined in the even number metering.If the replacing product, such as the number that will change every volume, the operator can realize by a terminal interface.In addition, this system can also dispense mechanical cam, change in count gear or belt pulley and conveyer sprocket wheel etc.

Various core retainer structures comprise plug latching device that core is fixed on the plug etc., and are well-known in the industry.The US Patent of authorizing people such as Johnson on January 13rd, 1987 has disclosed a kind of recoil device plug with pivot core lock projection for 4,635, No. 871.On July 5th, 1977 was authorized the US Patent 4,033 of Dee, but had disclosed a kind of sleeve of the distending made from rubber or other elastic constructions for No. 521, and just distending blocks core after feeding pressurized air, and this belt transect just can twine on it.Other plug and core holding device are in US Patent 3,459,388; In 4,230,286 and 4,174,077 announcement is arranged.

It is unfavorable that the calibration of turret assembly rotates, and this is because acceleration/accel and the deceleration/decel of turret assembly when rotating can produce force of inertia and vibration.In addition, wish to accelerate conversion operations, particularly when rewind is in " bottleneck " in operational process.

Therefore, the purpose of this invention is to provide and a kind of carrying material is wound into improving one's methods on the hollow core.

Another object of the present invention provides a kind of improved turret winder.

A further object of the present invention provides the band wind with turret winder, and it can move in a continuous manner, just can carry out cored when its plug moves in a closed trajectory, core bonding, the overall process of band winding and depoling.

Another purpose of the present invention provides a kind of turret winder, and it can drive many plugs along a non-circular track.

The present invention also has a purpose to provide a kind of rotatable turret assembly, is used for supporting many plugs and moves in a track around turret axis, and the distance between plug and the turret axis changes as the function of plug around the position of this axis.

The present invention has a purpose to provide a kind of continuous carrying material to be wound into method on the single volume again.

The present invention includes and a kind of continuous carrying material is wound into method on a plurality of independent cores.In an example, this method comprises the following steps: to provide a rotatable turret assembly; Many rotatable plugs are bearing on the rotatable turret assembly; Rotatable turret assembly rotated to drive plug in a closed trajectory, move; A collection of core is provided; During the predetermined cored componental movement core is installed on the plug on the closed plug track at plug; Predetermined band twines part carrying material is wound on the core on the closed plug track; And the core that predetermined depoling part is good with each coiling on the closed plug track takes off from separately plug respectively.

The core that each coiling is good can be finished during the predetermined depoling componental movement of closed plug track at plug from the step that its plug takes off.In an example, the step that rotating turret assembly is rotated comprises turret assembly is continuously rotated with substantially invariable cireular frequency.

Plug can move in a non-circular closed trajectory.In an example, core is installed to step on the plug and core installed to when being included in plug step on the plug along a basic componental movement for straight line of closed plug track.

The present invention also comprises a band wind that is used for said method.This device comprises a turret winder, a cored device, and a depoling device.Turret winder has a rotatable turret assembly, and it rotates around the turret assembly axis.The hollow core that turret assembly is supporting many rotatable plugs and engaging with it, paper tape is just on core.Each root plug extends to the second plug end from its first plug end, the parallel axes of the basic and turret assembly of plug axis.The first plug end can forever be supported, and the second plug end then is releasably to be supported.Each root plug all is being driven around the turret assembly axis in a closed plug track and is moving.

Closed plug track comprises: a cored part is installed on the plug along its core; A band twines part, is wound onto on the core that is bearing on the plug along its carrying material; And a depoling part, from the plug at their places, taken off respectively along its coiling is good core.The plug actuating device plug and core rotates around the plug axis at each plug and the core that is associated along the band wound portion componental movement drive on the closed plug track.

During the cored componental movement of plug on the closed plug track, the cored device just is transported to core on the plug; During the depoling componental movement of plug on the closed plug track, the core that the depoling device is finished each coiling takes off from the plug at its place respectively.So, the just motion continuously in the continuous circulation of cored and depoling of band wind.Therefore the calibration way that also a little while stops with regard to the starting a little while that does not need turret winder installs to core on the plug and with the core that coiling is finished and unloads from plug.

In an example, the distance between plug and the turret axis changes as the function of plug along the position that closed trajectory moves.It is non-circular having a part of closed plug track at least, and this is the part of straight line can to comprise at least one segment base.The cored part of closed plug track comprises all that generally one section straight line portion is to simplify the cored process.By straight line portion cored along closed plug track, when core with pack into plug or when leaving plug, the cored device need only be followed the tracks of moving of plug along straight line of the direction that is parallel to the plug axis, rather than along a curve.Therefore, the cored process is to carry out along two axis rather than three axis.When core during along second axial-movement that the straight line portion with closed plug track parallels, core just is sent on the plug along an axis that parallels with the plug axis.

The cored device can comprise a cored rotating table, and a plurality of core pallets along a closed pallet track circulating motion are arranged on it, and each core pallet can hold a core and move along the part of closed pallet track.Part of core pallet track matches with certain part of closed plug track.The cored device also comprises a cored conveyer, and it engages with the part of the closed pallet track that core in being contained in pallet matches along the part with closed plug track.The band wind can comprise a pair of rotating core driving rolls, is used for accepting the core sent here from the cored device, and core is delivered on a certain plug.The core driving rolls drives core at a slant, and an one speed component is basically parallel to the plug axis, and another speed component is basically parallel at least one part in the cored part of closed plug track.

The band wind also comprises an adhesive agent bringing device, and when core when part is to band wound portion componental movement along closed plug orbiting motion from cored, this device just is applied to adhesive agent on the core.The adhesive agent bringing device can comprise a movably adhesive agent applicator, its at least one on the closed plug track, and part is followed the tracks of the motion of core.In an example, this movably adhesive agent applicator can be around a rotational that is parallel to the turret assembly axis.

The depoling device is placed on the depoling part position adjacent with closed plug track, and when plug during along the depoling componental movement of closed plug track, the core that it finishes each coiling takes off from the plug at its place respectively.

First speed component of depoling device when the core finished of coiling has engaged with each and the mandrel axis line parallel that is supporting the core that coiling finishes, at least one partial parallel in the depoling of second speed component and closed plug track partly.In an example, the depoling device also comprises a forwarder, and the scraper plate that is used for pushing the core that coiling finishes is arranged on it.This forwarder is placed on the straight line portion position adjacent with depoling part.The forwarder of this belt scraping plate plug during along the depoling componental movement of closed plug track and the plug axis at angle, make scraper plate have one with first speed component of mandrel axis line parallel and one the parallel second speed component of straight line portion with the depoling part.Each piece scraper plate all has a Rubber end, and the core of finishing when coiling is when plug is released, and it just engages with plug slidably.Therefore, scraper plate contacts with the volume both that core and coiling are finished, and it can also be taken off hollow (core that does not just have take-up strap) from plug.

Can make that by the reference the description of the drawings the present invention is had better understanding, wherein:

Fig. 1 is the transparent view of turret winder of the present invention, core guide piece and cored device;

Fig. 2 is the partial cutaway front elevation of turret winder of the present invention;

Fig. 3 A is the lateral plan with the position of the closed plug track of traditional corresponding turret winder of the present invention of recoil device assembly of upstream and plug drive system;

Fig. 3 B is the partial front elevation view of the plug drive system of being got along the one 3B line of 3B among Fig. 3 A;

Fig. 4 is the amplification front elevation of rotatable turret assembly shown in Figure 2;

Fig. 5 is the scheme drawing of being got along 5-5 line among Fig. 4;

Fig. 6 is the scheme drawing of the mandrel axis bearing of sliding bearing on the plug back plate that rotates;

Fig. 7 is the cutaway view that stretches with respect to the plug back plate that rotates along the expression plug that 7-7 line among Fig. 6 is got;

Fig. 8 is the cutaway view that the expression plug similar to Fig. 7 withdrawn with respect to the plug back plate that rotates;

Fig. 9 is the enlarged view that plug shown in Figure 2 overlaps assembly;

Figure 10 is the lateral plan that stretches with respect to rotating toggle back plate along the expression toggle that 10-10 line among Fig. 9 is got;

Figure 11 is the lateral plan that expression toggle similar to FIG. 10 is withdrawn with respect to rotating toggle back plate;

Figure 12 is that the 12-12 line is got in Figure 10 toggle is in part sectional view that open, during disengaged position;

Figure 13 is that an expression is closed by static toggle, opens, and stays open and keeps closing that cam face provides to the transparent view of the location of toggle;

Figure 14 is the view that includes the static plug locating guider of the separable part of opening;

Figure 15 is the position of expression core driving rolls and the plug supporting lateral plan with respect to the position of closed plug track;

Figure 16 is the view of being got along 16-16 line among Figure 15;

Figure 17 is the front elevation of the auxiliary plug support assembly of cover;

Figure 18 is the view of being got along 18-18 line among Figure 17;

Figure 19 is the view of being got along 19-19 line among Figure 17;

Figure 20 A is the enlarged perspective of the adhesive agent bringing device shown in Fig. 1;

Figure 20 B is the lateral plan of the core rotation assembly shown in Figure 20 A;

Figure 21 is the rear view of cored device shown in Figure 1;

Figure 22 is the side schematic view of cored device partly cut-away shown in Figure 1;

Figure 23 is the side schematic view of core guiding assemblage partly cut-away shown in Figure 1;

Figure 24 is the front perspective view of depoling device shown in Figure 1;

Figure 25 A, B and C show that a core that has wound the band material is by the top view of depoling device when plug is taken off;

Figure 26 is the partial cutaway schematic side view of plug;

Figure 27 is the partial cutaway schematic side view of plug, and it has shown that a toggle assembly engages with the plug end, the end is passed to plug barred body direction, thereby the deformable loop on the plug is compressed;

Figure 28 is the enlarged schematic side view of plug second end shown in Figure 26, and it has shown that a toggle assembly engages with the plug end, and the end is passed to plug barred body direction;

Figure 29 is the enlarged schematic side view of plug second end shown in Figure 26, and it has shown that the end removes from the barred body of plug;

Figure 30 is the drawing in side sectional elevation of plug deformable loop;

Figure 31 is the scheme drawing to the programmable driving control system controlled of individual drive parts of band wind;

Figure 32 is the scheme drawing of programmable plug driving control system that the plug CD-ROM drive motor is controlled.

Fig. 1 shows the front perspective view according to band wind 90 of the present invention.Band wind 90 comprises: turret winder 100, and it has a fixing underframe 110; A cored device 1000; And depoling device 2000.Fig. 2 is the partial front elevation view of turret winder 100.Fig. 3 is the partial side view of the turret winder 100 got along 3-3 line among Fig. 2, and it has shown that traditional turret winder 100 upstreams recoil the device assembly.1. cored twines and depoling

With reference to Fig. 1,2 and 3A/B, turret winder 100 is supporting many plugs 300.Plug 300 engages with core 302, and paper tape is just on core.Plug 300 is driven around turret assembly axis 202 and moves in a closed plug track 320.First end 310 of each root plug 300 along the axis 314 of the plug of the axis 202 that is basically parallel to turret assembly from plug extends to plug second end 312 directions.Each root plug 300 is being supported by rotatable turret assembly 200 at their first end, 310 places.Each plug 300 is releasably being supported by plug cover assembly 400 at their second end, 312 places.This turret winder 100 generally supports three plugs 300 at least, preferably support six roots of sensation plug 300 at least, and turret winder 100 has ten plugs 300 in one embodiment.A turret winder 100 that has ten plugs 300 at least has the turret assembly 200 of a rotation, it is with lower cireular frequency rotation, so that reduce vibration and inertia loading, but its productivity ratio is made the index table coiler height that discountinuity rotates with higher cireular frequency.

As shown in Figure 3A, closed plug track 320 can not be circular, and it can comprise that 322, one bands of a cored part twine part 324, and a depoling part 326.Cored part 322 and depoling part 326 all comprise a segment base separately, and this is the part of straight line.The meaning of phrase " this is the part of straight line a segment base " is: closed plug track 320 comprises two points in this part, straight-line distance between 2 is 10 inches at least, the MSD maximum standard deviation value of bonded assembly straight line is not more than 10% between the closed plug track between these 2 and 2, then requires in one embodiment to be not more than 5%.The MSD maximum standard deviation value of closed plug track can be calculated by following way between these 2: made an imaginary line between 2 o'clock, in the ultimate range that measures on the direction perpendicular to imaginary line between the closed plug track of imaginary line and point-to-point transmission, use the straight-line distance (10 inches) of point-to-point transmission to remove this ultimate range again.

In one embodiment of the invention, the MSD maximum standard deviation value of the included separately straight line portion of cored part 322 and depoling part 326 is less than 5%.For example, the maximum deflection difference value of the straight line portion that cored part 322 is included is about 0.15-0.25%, and the maximum deflection difference value of the straight line portion that depoling part 326 is included is about 0.5-5.0%.Straight line portion with such maximum deflection difference value can guarantee that core can accurately and successfully align with moving plug during cored, and hollow can be taken off from moving plug under carrying material is not wound into situation on certain core.On the contrary, be approximately traditional calibration formula turntable of 10 inches for the radius of its circular closure plug track, the standard deviation between the straight string that this circular closure plug track and track circular arc the preceding paragraph are 10 inches long is approximately 13.4%.

Second end 312 of plug 300 is not engaging or is being supported by it with plug cover assembly 400 when cored part 322 moves.Cored device 1000 comprises the parts of one or more driving coreds, and along the cored part between 322 moving periods, these parts just are transported to core 302 on the plug 300 at least in part at plug 300.The a pair of rotatable core driving rolls 505 that is placed in cored part 322 opposed both sides receives the core of bringing from cored device 1,000 302 altogether, and it is driven on the plug 300 fully.As shown in Figure 1, core 302 cored process on the plug 300 is from plug second end 312, is before the process that another core installs to the adjacent plug in front is finished.Therefore, traditional turret assembly rotate owing to calibration and the force of inertia that stops to produce and time lag phenomenon eliminated.

In case core is finished cored on a certain plug 300, plug moved to winding part 324 from cored part 322 during, plug cover assembly 400 just engaged with second end 312 of plug 300, thereby provides supporting to second end 312 of plug 300.Install to the band that core 302 on the plug 300 is sent to closed plug track 320 and twine part 324.Twine between the part 324 in cored part 322 and band, when core and relevant plug thereof continued along closed plug orbiting motion, adhesive agent was coated onto on the core 302 to utilize adhesive agent bringing device 800 will be with fixedly.

When core 302 twines part 324 when moving along the band of closed plug track 320, the traditional type of master tape 50 through being positioned at turret winder 100 upstreams recoiled device 60 and delivered to core 302.Recoil device 60 as shown in Figure 3, it comprises that 52, one of a belt delivering roller that master tape 50 is transported to borer roller 54 cuts 56, one on a roller of band bed and cut a band roller 58 and a bed roller 59.

Borer roller 54 is along got a perforation line with 50 Width.Between the adjacent perforated lines along with 50 length direction, one section predetermined distance separately, so that each paper tape connects together in perforation place.The length of each paper tape just equals the distance between the adjacent perforated lines.

Cut band roller 58 and bed roller 59 in each band winding circulation at the end, just the band on a core 302 twines and works when finishing.Bed roller 59 also plays the free end of master tape 50 is fed forward to effect on next core 302 along closed plug track 320.The recoil device 60 of this pattern comprises belt delivering roller 52, and perforating roller 54 is cut band bed roller 56, and cuts band roller 58 and bed roller 59, and this is known in the industry.Bed roller 59 can have the fence that a plurality of bands radially outward stretch and the radially movable part and the radially removable guard shield (booty) of pin, as known in the art.Cutting band roller 58 has a cutting knife and a bumper that radially outward stretches, as known in the art.In order briefly to disclose bed roller that is used for carriage tape and the operating mechanism of cutting the band roller, authorized 4,687, No. 153 lists of references of US Patent of McNeil on August 18th, 1987 as this paper.One comprises roller 52,54, and 56,58 and 59 suitable recoil device 60 can be bearing on the frame 61, and it is made by the PaperConvertingMachineCompany in Wisconsin, USA Lv Wan city, belongs to the recoil device system of 150 series.

But the bed roller arrangement can comprise a power on/off magnet valve that is used for starting the radial motion parts.But the parts that this electromagnetic valve at the end starts radial motion in the winding circulation of each volume make it to the effect of taking up, and this belt transect just can be transferred and be wound on new, the empty core.The starting of electromagnetic valve regularly is variable, thereby can change a roller and cut the burst length of band roller to the effect of taking up.Therefore, if plan to change the number of facial tissue on every volume, electromagnetic valve starts timer-operated changeability and is wound into the length that volume is gone up paper with regard to changing.

Twine part between 324 moving periods at plug and core along band, the core 302 that plug actuating device 330 just drives each root plug 300 and associated rotates around plug axis 314.Therefore, this plug actuating device 330 just is wound into master tape 50 on the core 302 that is bearing on the plug 300, thereby forms a volume 51 (winding the core of band) that is twining carrying material around core 302.Plug actuating device 330 provides paper tape was rolled onto " center winding " on the core 302 (be exactly that a drive source is connected with plug, its drives plug 300 around its axis 314 rotations, so band just is pulled on the core) in 50 minutes.It is different with " twine on the surface ", and the latter's feature is that a part of rolling up on 51 outside faces contacts with a rotation volume drum, just is pulled on the plug by the contact friction band.

" center winding " plug actuating device 330 comprises a pair of plug CD- ROM drive motor 332A and 332B, a pair of plug driving belt 334A and 334B, and a pair of idle pulley 336A and 336B.With reference to Fig. 3 A/B and 4, the first and second plug CD- ROM drive motor 332A and 332B first and second plug driving belt 334A and the 334Bs of driving ring on idle pulley 336A and the 336B respectively.The first and second driving belt 334A and 334B pass to plug 300 alternately with moment of torsion.In Fig. 3 A, motor 332A, belt 334A and belt pulley 336A lay respectively at motor 332B, the place ahead of belt 334B and belt pulley 336B.

In Fig. 3 A/B, the plug 330A (" even number " plug) that supporting just in time is in the core 302A of acceptance before the band of bed roller 59 is driven by plug driving belt 334A, and adjacent supporting is twined the plug 300B (" odd number " plug) of the approaching core 302B that finishes and driven by plug driving belt 334B.Plug 300 master tape 50 beginning before the core on the plug shifts and the axis 314 that during transfer is driven around it rotate with fast speeds.Along with the diameter of take-up strap material on the core of plug increases, the rotating speed of the plug that is driven by plug actuating device 330 then slows down.Therefore, adjacent two plug 300A and 300B are driven belt 334A and 334B driven, and the rotating speed that the rotating speed of a consequently a certain plug can not rely on adjacent plug carries out independent control.Plug CD-ROM drive motor 332A and 332B can control according to the predetermined technology of a plug speed of wrap, and this technology is with the function of desirable plug 300 rotating speeds as turret assembly 200 angle positions.Therefore, during the winding of a volume, plug is synchronous around the speed and the angle position of plug 300 on turret assembly 200 of its axis rotation.It is known to remove to control the rotating speed of plug according to the speed standard of plug in traditional recoil device.

Every plug 300 all has a toothed plug drive pulley 338 and 339, two belt pulley of idle pulley ganoid, that freely rotate all to be on the position near plug first end 310, as shown in Figure 2.Place alternately with each other drive pulley 338 and idle pulley 339 position on per two adjacent plugs 300, so these adjacent plugs 300 are just driven by plug driving belt 334A and 334B respectively.For example, when 338 engagements of the plug drive pulley on plug driving belt 334A and the plug 300A, the plug driving belt 334B just smooth surface of the idle pulley 339 from the same plug 300A crosses, and makes to have only CD-ROM drive motor 332A to drive plug 330A around its axis 314 rotations.Similarly, when 338 engagements of the plug drive pulley on plug driving belt 334B and the adjacent plug 300B, the plug driving belt 334A just smooth surface of the idle pulley 339 from this plug 300B crosses, so have only CD-ROM drive motor 332B to drive plug 300B around its axis 314 rotations.Therefore, the drive pulley on each plug 300 only with belt 334A and 334B in one be meshed, and moment of torsion is passed to plug 300, and idle pulley 339 engages with another root among belt 334A and the 334B, but moment of torsion is not passed to plug from driving belt.

The core that has wound the band material moves to depoling part 326 along closed plug track 320, twine between part 324 and the depoling part 326 at band, the part of plug cover assembly 400 and second end 312 of plug 300 are disengaged, and take off from plug 300 so that will roll up 51.Depoling device 2000 is provided with along depoling part 326.Depoling device 2000 comprises that is driven depoling parts, and such as a circulating belt conveyor 2010, it moves continuously around belt pulley 2012.On belt conveyor 2010, be provided with the scraper plate of some spaces certain distance.When certain root plug when depoling part 326 moves, scraper plate 2014 just contact is bearing in an end of the volume 51 on the plug.

When plug when the straight line portion of the depoling part 326 of closed plug track moves, the belt conveyor 2010 of belt scraping plate can with the axis 314 of plug at angle, make scraper plate 2014 contact with each volume 51 with first speed component parallel and with the parallel second speed component of the straight line portion of depoling part 326 with plug axis 314.Will be described in more detail depoling device 2000 below.In case roll up 51 take off from plug 300 after, plug 300 just moves to cored part 322 along closed plug track, so that accept another core.

To cored, winding and depoling process have been made general description above, will elaborate to each parts of band wind 90 and their function now.2. turret winder: plug supporting

With reference to Fig. 1-4, rotatable turret assembly 200 is bearing on the fixed underframe 110, is used for axis 202 rotations around turret assembly.Underframe 110 preferably separates with the underframe 61 of recoiling device, recoils vibration and turret assembly 200 isolation that device 60 produces so that make.Rotatable turret assembly 200 is supporting plug 300 with the adjoining place of first end 310 of plug 300.Each root plug 300 is bearing on the rotating turret assembly 200, rotates independently around it self axis, and moves on turret assembly 200 along closed plug track 320.It is non-circular preferably having a part of section at least in plug path of motion 320, and the distance between plug axis 314 and the turret assembly axis 202 changes as the function of plug 300 along the position that closed plug track 320 moves.

With reference to Fig. 2 and 4, the fixed support 110 of turret winder comprises a horizontally extending anchor post 120, between two upright side stands 132 and 134.Rotatable turret assembly 200 comprises a turret hub 220, and it rotatably is supported in a side of adjoining with side stand 132 on the pillar 120 by bearing 221.For the sake of clarity, in Fig. 2 and Fig. 4, its structure has been done partly to analyse and observe.Be fixed on turret hub on the support 110 and drive servomotor 222 and moment of torsion is passed to turret hub 220, and drive hub 220 is around its axis 202 rotations by belt or chain 224 and belt pulley or sprocket wheel 226.The servomotor 222 controlled turned positions of determining turret assembly 200 with respect to a position reference.This position reference can be the function that a roller 59 rotates around it the angle position of central axis, and the function of the accumulation revolution of bed roller 59.Specifically twine in the repetition period at a band, the position of turret assembly 200 can be determined according to the position of bed roller 59, below will illustrate more fully this.

In one embodiment, turret hub 220 with do not stop, the mode of calibration is not moved continuously, therefore, turret assembly 200 is just motion continuously also.So-called " motion continuously " with regard to be meant turret assembly 200 repeatedly, full week ground gyrate around its axis.Turret hub 220 can be rotated by certain constant cireular frequency, so turret assembly 200 is also with certain constant cireular frequency rotation.So-called " with certain constant cireular frequency rotation " refers to that turret assembly 200 is being driven continuously rotation, and the variation of its offspeed base value is preferably less than 1% less than 5%.Turret assembly 200 can support ten plugs 300, and the basic cireular frequency that turret hub 220 can per minute 2-4 be changeed is being driven and is rotating, and per minute just can twine about 20-40 volume.For example, the basic cireular frequency rotation that turret hub 220 is changeed with per minute 4, then per minute approximately can twine 40 volumes, and at this moment the angular velocity varies of turret assembly is changeed less than per minute 0.04.

With reference to Fig. 2,4,5,6,7 and 8, the supporting of rotation plug is extended from turret hub 220.In an illustrated embodiment, this rotation plug supporting comprises that first and second rotate plug back plate 230, and they and wheel hub are rigidly connected, and rotate around axis 202 with wheel hub.Two are rotated plug back plate 230 and are separated from each other along axis 202.On each piece rotation plug back plate 230, some elongated fluting 232 (see figure 5)s are arranged all.Each fluting 232 extends along the track that radial component and tangential component are arranged with respect to axis 202.Some transverse connections 234 (seeing Fig. 4, Fig. 6-8) are rigidly connected to the rotation plug back plate 230 of its both sides together.Each transverse connection 234 rotates on the plug back plate 230 first and second and extends along the elongate slots 232 that is associated with it.

First and second rotate plug back plates 230 between the first and second static plug guide plates 142 and 144.The first and second plug guide plates 142 link to each other with certain part of support 110 with 144, such as being connected with its side stand 132 or pillar 120, are supported thereby can be independent of support 110.In the illustrated embodiment, the first plug guide plate 142 is bearing on the side stand 132, and the second plug guide plate 144 is bearing on the pillar 120.

On the first plug guide plate 142, first cam face is arranged, such as cam face groove 143.On the second plug guide plate 144, second cam face is arranged, such as cam face groove 145.The first and second cam face grooves 143 and 145 place respectively on the facing surfaces of the first and second plug guide plates 142 and 144, and are separated from each other along axis 202.Each bar groove 143 and 145 has been determined a closed path around turret assembly axis 202.Cam face groove 143 and 145 can be, but must not be, is mutually mirror image.In the present embodiment, cam face 143 and 145 is flute profiles, but adopts other forms of cam face, such as exterior cam surface, also can.

Plug guide plate 142 and 144 plays a part to plug guiding, and when plug 300 was rotated plug back plate 230 and is driving motion, it just was defined along closed plug track 320 and moves.Each root plug 300 all is bearing on the mandrel axis bearing assembly 350, around its axis 314 rotations.Mandrel axis bearing assembly 350 comprises a clutch shaft bearing shell 352 and one second bearing shell 354, and they are connected on the plug slide plate 356 rigidly.Each piece plug slide plate 356 all is bearing on the transverse connection 234 slidably, and has the track of radial component and tangential component parallel mobile with respect to transverse connection 234 with respect to axis 202 along one.Fig. 7 and 8 has shown that plug slide plate 356 moves with respect to the parallel of transverse connection 234 at work, thereby has changed the distance from plug axis 314 to turret assembly axis 202.In one embodiment, the plug slide plate is bearing on the transverse connection 234 at the linear bearing sliding part 358 that can buy on the market and guide rail 359 assemblies slidably by a plurality of.Therefore, each root plug 300 all is bearing in and rotates on the plug back plate 230, has the track of radial component and tangential component parallel mobile with respect to rotating the plug back plate with respect to turret assembly axis 202 along one.Bearing sliding part 358 that is suitable for and the guide rail 359 that matches can be selected the Accuglide Carriages by the manufacturing of Washington, New York port The Thomson Corporation.

Each piece plug slide plate 356 all has the first and second cylindrical cam followers 360 and 362.First and second cam followers 360 and 362 engage with cam face groove 143 and 145 by first and second flutings 232 that rotate on the plug back plate 230 respectively.When mandrel axis bearing assembly 350 was rotating on the plug back plate 230 around axis 202 motions, cam follower 360 and 362 just moved along the groove 143 and 145 of plug guide plate, thereby qualification plug 300 moves along closed plug track 320.

Servomotor 222 drives rotatable turret assembly 200 and rotates continuously around axis 202 with substantially invariable cireular frequency.Therefore, rotating plug back plate 230 just drives plug 300 and moves continuously along closed plug track 320.When the distance of plug axis 314 and axis 202 increased, plug 300 increased along the linear velocity that closed trajectory 320 moves.Available servomotor 222 is that a kind of four horsepowers model is the servomotor of HR2000, is made by the trust electric corporation in Ohio, USA Cleveland city.

The first and second cam face grooves 143 and 145 shape can change, thereby can change closed plug track 320.In one embodiment, the first and second cam face grooves 143 and 145 comprise tradable and alternative quadrant, make closed plug track 320 also comprise alternative part.With reference to Fig. 5, cam face groove 143 and 145 can extend along a path that comprises non-circular portion around axis 202.In one embodiment, each piece plug guide plate 142 and 144 comprises several bolt togethers quadrant together.Each piece quadrant has the part of a complete cam follower surface groove 143 (or 145).With reference to Figure 14, plug guide plate 142 comprises the first quadrant 142A with cam face slot part 143A, and the second quadrant 142B with cam face slot part 143B.Take off a certain quadrant by laying down fastening nut, insert a quadrant again, just the part with the closed plug track of a certain given shape can be replaced with having difform other parts with different cam face groove shape sections.

This removable quadrant can avoid be wound with different-diameter and (or) problem that run into during the volume of number.For a given closed plug track, when winding was finished on a core, the change of the diameter of volume 51 will cause master tape to leave the corresponding change of the position, point of contact on a roller surface.If be applicable to that with one the plug track of major diameter volume is used to twine the volume of minor diameter, the position of point of contact on the bed roller when then master tape leaves a bed roller is higher than correctly transfers to the desired point of contact of next core to master tape.This master tape can cause the new core of then arrival just " to meet " with master tape when master tape also is being wound onto on the previous core with the variation at bed roller point of contact, thereby causes master tape to shift on new core prematurely.

Existing wrapping head with round mandrel track comprises a kind of blower system or mechanical type damper, is used for preventing occurring when the volume of coiling minor diameter this too early transfer phenomena.When the core that then arrives during near the bed roller, blower system and damper be deflection master tape between bed roller and last core intermittently just, thereby master tape is moved on on the point of contact of a roller.The invention has the advantages that part that can be by changing closed plug track during the volume of the coiling different-diameter track of plug (thereby also changed) is regulated, and will master tape deflection.The plug guide plate 142 and 144 that utilization comprises two or polylith bolt together quadrant together just can insert certain part that a quadrant that difformity cam face part arranged changes closed plug track again by backing out a quadrant, twines part such as band.

For instance, table 1A has listed the coordinate of cam face slot part 143A shown in Figure 14; The coordinate of the cam face slot part 143B that table 1B lists is applicable to the volume that the coiling diameter is bigger; The coordinate of the cam face slot part that table 1C lists is suitable for being used for replacing part 143B so that the less volume of coiling diameter.The measurement of coordinate is counted from axis 202.Suitable cam face slot part is not limited to show listed these of 1A-1C.Should be understood that thereby the cam face slot part can be as required and change and can obtain any desired plug track 320.Table 2A has listed the coordinate corresponding to the plug track 320 of listing in cam path part 143A among table 1A and the 1B and 143B.When replacing 1B with table 1C, the changes in coordinates of plug track 320 the results are shown in table 2B.3. turret winder; Plug cover assembly

When plug was rotated turret assembly 200 drivings around 202 rotations of turret assembly axis, plug cover assembly 400 releasably engaged with second end 312 of plug 300, between the cored part 322 and depoling part 326 of closed plug track 320.With reference to Fig. 2 and Fig. 9-12, plug cover assembly 400 comprises a plurality of toggles 450 that rotate on the toggle bearing 410 that are bearing in.Each toggle 450 has a plug cover assembly 452, is used for releasably engaging with second end 312 of plug 300.Plug cover assembly 452 rotatably is bearing in plug cover 454 on the bearing 456.Plug cover 454 releasably engages with second end 312 of plug 300, and it entangles plug 300, and plug is rotated around axis 314.

Each toggle 450 all is bearing in pivotly and rotates on the toggle bearing 410, so as toggle 450 around pivotal axis 451 from first slipped-on position (at this moment plug cover 454 engage with plug 300) to second disengaged position (at this moment plug cover 454 has been thrown off with plug 300) rotation.First slipped-on position and second disengaged position are as shown in Figure 9.Each toggle 450 all is supported on the rotation toggle bearing on the track of turret assembly axis 202 at one.Here, the distance between toggle pivotal axis 451 and the turret assembly axis 202 changes as the function of toggle around the position of axis 202 rotations.Follow the tracks of second end 312 of corresponding plug when therefore, each toggle and turret assembly 200 that relevant plug cover 454 is rotated at plug are driving around closed plug track 320 motions respectively.

The toggle bearing 410 that rotates comprises a toggle bearing wheel hub 420, and it be can be rotated to support on the bearing 120 adjacent with upright side stand 134 by bearing 221.For the sake of clarity, in Fig. 2 and Fig. 9, this part has been done to analyse and observe.The servomotor 422 that is installed in or is adjacent on the upstanding side support 134 is passed to wheel hub 420 by belt or chain 424 and belt pulley or sprocket wheel 426 with moment of torsion, thereby drive hub 420 is around 202 rotations of turret assembly axis.Control servomotor 422, the position and a reference data homophase of the toggle bearing 410 of feasible rotation, this benchmark is the function of a roller 59 around the angle position of its rotational, also is the function of a roller 59 accumulative total revolutions.Specifically, the position of bearing 410 can with the position homophase that twines the bed roller 59 in the repetition period at a band, make the rotation of the rotation of toggle bearing 410 and turret assembly 200 synchronous like this.Each servomotor 222 and 422 all is equipped with drg.When wind 90 did not move, this drg prevented that turret assembly 200 and toggle bearing 410 from relatively rotating, thereby avoids reversing of plug 300.

Rotate toggle bearing 410 and comprise that is also rotated a toggle bearing plate 430, it and wheel hub 420 are rigidly connected, and perpendicular with turret assembly axis 202.Rotor plate 430 is being driven around axis 202 on wheel hub 420 and is rotating.A plurality of toggle support units 460 are supported on the rotor plate 430, to move with respect to rotor plate 430.Each toggle 450 is connected with a toggle support unit 460 pivotly, thereby toggle 450 can rotate around pivotal axis 451.

With reference to Figure 10 and 11, each toggle support unit 460 is bearing on the part of rotor plate 430 slidably, the carriage 432 of bolt together to the rotor plate 430 for example is so that it has the track of radial component and tangential component to move with respect to rotor plate 430 along one with respect to turret assembly axis 202.In one embodiment, slip toggle support unit 460 is bearing on the carriage 432 slidably by linear bearing sliding part 358 and the guide rail 359 that can buy on some markets.Sliding part 358 and guide rail 359 can be with bolt for example on each carriage 432 and support units 460, so the sliding part 358 that is fixed on the carriage 432 just engages slidably with guide rail 359 on being fixed on support unit 460; And the slide block 358 that is fixed on the support unit 460 also slidably mates with the guide rail 359 that is fixed on the carriage 432.

Plug cover assembly 400 also comprises a pivotal axis positioning and guiding spare part that is used for locating toggle pivotal axis 451.The position of the toggle pivotal axis 451 that pivotal axis positioning and guiding spare is located makes the distance between each bar pivotal axis 451 and the axis 202 change as the function of toggle 450 with respect to the position of axis 202.In the embodiment shown in Fig. 2 and Fig. 9-12, pivotal axis positioning and guiding spare comprises a fixing pivotal axis positioning and guiding spare plate 442.Pivotal axis positioning and guiding spare plate 442 stretches along the vertical direction of axis 202, and its position is adjacent with rotation toggle back plate 430 along the direction of axis 202.Locating plate 442 is rigidly connected with pillar 120, and rotation toggle back plate 430 can be rotated with respect to locating plate 442.

Locating plate 442 has a surface 444 towards swivel bearing plate 430.A cam face is arranged in the surface 444 such as cam face groove 443, and it is towards swivel bearing plate 430.Each slip toggle support unit 460 has a cam follower that is associated 462, and it contacts with cam face groove 443.Be with support unit 460 when axis 202 rotates when rotor plate 430 pushes away, cam follower 462 is just pressed the gabarit motion of cam face groove 443, thereby has determined the position of cover pivotal axis 451 with respect to axis 202.The shape of groove 443 can be made with reference to the shape of groove 143 and 145, so each toggle and the plug that is associated cover 454 are rotated mandrel holder 200 at plug 300 and drive just can follow the tracks of second end 312 of plug 300 separately respectively when closed plug track 320 moves.In one embodiment, groove 443 have with plug guide plate 144 in the identical substantially shape of a part of fluting 145, second end 312 of plug is just entangled when along this componental movement of closed plug track.Groove 443 also has one section part with circular shape (or other suitable shapes), and along this componental movement of closed plug track, plug second end 312 is just thrown off.For instance, table 3A and 3B are lumped together the coordinate of listing be used for groove 443, be used with cam follower groove 143A and 143B with table 1A and the listed coordinate of 1B.Similarly, table 3A and 3C are lumped together the coordinate of listing be used for groove 443, be used with cam follower groove 143A and 143C with table 1A and the listed coordinate of 1C.

Each toggle 450 comprises a plurality of supportings cam follower that can rotate around toggle pivotal axis 451 thereon.The cam follower that is bearing on the toggle engages with actionless cam face, makes toggle 450 to rotate between slipped-on position and disengaged position.With reference to Fig. 9-12, each toggle 450 comprises one first toggle extension 453 and one second toggle extension 455. Toggle extension 453 and 455 each other substantially vertically from them at the near-end of toggle pivotal axis 451 to remote extension.Toggle 450 has a U-shaped clamp structure that is connected with support unit 460 at pivotal axis 451 places.Toggle extension 453 and 455 rotates around pivotal axis 451 as a rigid unitary.Plug cover 454 is bearing in the far-end of extension 453.Have at least a cam follower to be bearing on the extension 453, have at least a cam follower to be bearing on the extension 455.

In the embodiment shown in Figure 10-12, pair of cylindrical cam follower 474A and 474B are bearing on the extension 453, between pivotal axis 451 and plug cover 454.Cam follower 474A and 474B can rotate around pivotal axis 451 with extension 453.Cam follower 474A, 474B are bearing on the extension 453, can be respectively rotate around two axis 475A parallel to each other and 475B.When the plug cover is in slipped-on position (toggle of Fig. 9 top), axis 475A and 475B are parallel to the direction that toggle support unit 460 slides with respect to rotation toggle back plate 430.When the plug cover is in disengaged position (toggle of Fig. 9 below), axis 475A is parallel with axis 202 with 475B.

Each toggle 450 also comprises a three cylindrical shape cam follower 476, and it is bearing in the far-end of toggle extension 455.Cam follower 476 can rotate around pivotal axis 451 with extension 455.The 3rd cam follower 476 is bearing on the extension 455, rotates around an axis 477, and axis 477 is perpendicular around the axis 475A and the 475B of rotation with follower 474A and 474B institute.When the plug cover was in disengaged position, axis 477 was parallel to the direction that toggle support unit 460 slides with respect to rotation toggle back plate 430, and when the plug cover was in slipped-on position, 477 in axis was parallel with axis 202.

Plug cover assembly 400 also comprises a plurality of cam followers with cam follower surface.Each cam follower surface at least can with cam follower 474A, one among the 474B and 476 engages, thereby drive toggle 450 put and disengaged position between rotate around toggle pivotal axis 451, and toggle 450 is remained on slipped-on position or disengaged position.Figure 13 is the shaft side figure of four toggle 450A-D, and it has shown that toggle 450A just rotates to slipped-on position from disengaged position; Toggle 450B is in slipped-on position; Toggle 450C just rotates to disengaged position from slipped-on position; Toggle 450D then is in disengaged position.Figure 13 shows the cam follower that makes toggle 450 rotations when cam follower 462 on each toggle support unit 460 during the fluting 443 in the track and localization plate 442.For the sake of clarity, from Figure 13, omitted swivel bearing plate 430.

With reference to Fig. 9 and Figure 13, plug cover assembly 400 also comprise one have open cam face 483 open cam part 482, one have stay open cam face 485 stay open cam part 484 (see figure 9)s, one comprise close cam face 487 close cam part 486, and one comprises that the maintenance that keeps closing cam face 489 closes cam part 488.Cam face 485 and 489 can be a flat surface parallel to each other, and all vertical with axis 202.Cam face 483 and 487 generally is the three-D cam surface.Cam part 482,484,486 and 488 is preferably actionless, can be supported on the base part of (not expression in the support component) any rigidity, includes, but are not limited to support 110.

When rotor plate 430 carries toggle 450 around axis 202 rotations, cam follower 474A just contacted with three-D cam surface 483 before depoling part 326, thereby toggle 450 (being exactly toggle 450C) is turned to disengaged position from slipped-on position, in Figure 13 so the core that coiling is finished is just taken off from plug 300 by depoling device 2000.Contact with cam face 485 immediately at the cam follower 476 that rotates on the toggle 450 (being exactly toggle 450D in Figure 13), be in a disengaged position, install on the plug 300 along part 322 by cored device 1000 up to a hollow to keep toggle.Twine the upstream of part 324 at band, the cam follower 474A on the toggle (being exactly toggle 450A in Figure 13) contacts with closing cam face 487, and forwards toggle 450 to slipped-on position from disengaged position.Cam follower 474A and 474B on toggle (being exactly toggle 450B in Figure 13) contact with cam face 489 immediately, so that keep toggle 450 to be on the slipped-on position during band twines.

The advantage of cam follower shown in Fig. 9 and 13 and cam face structure is that when the radial position of toggle pivotal axis 451 was moved with respect to axis 202, toggle 450 just can turn to and put and disengaged position.A kind of representative type is used for putting plug and throws off the barrel shaped structure of plug, such as PCMC company 150 serial turret winders be numbered on first page of 01-012-ST003 user manual and be numbered on the 3rd page of 01-013-ST011 user manual shown in structure, it needs a connected system and puts and throw off plug, and not having the toggle of rotation pivot, the distance of this pivotal axis and turret axis 202 is variable.4. core driving rolls assembly and plug auxilitary unit

With reference to Fig. 1 and 15-19, comprise according to band wind of the present invention: 500, one plug coreds of core actuating device auxilitary unit 600, and a plug puts auxilitary unit 700.It is for core 302 is driven on the plug 300 that core actuating device 500 is set. Plug auxilitary unit 600 and 700 be set be the plug 300 of assisting supporting and location not to be put for during cored and plug put.

Turret winder has an independent core driving rolls, and it pushes to plug to core when the turntable transfixion, and this is known in the industry.This structure can produce extruding between plug and single roller, thereby core is driven on the static plug.Actuating device 500 of the present invention comprises a pair of core driving rolls 505.Core driving rolls 505 is by the both sides of the straight line portion of opposed cored part 322 at closed plug track 320.One of them core driving rolls 505A is placed on the outside of closed plug track 320, and another core driving rolls 505B is placed on the inboard of closed plug track 320, and plug 300 just moves between core driving rolls 505A and 505B like this.Core driving rolls 505 engages with the core that is driven at least partially on the plug 300 by cored device 1000.After this core driving rolls 505 continues core 302 fully is driven on the plug 300.

Two core driving rollss 505 are being supported around two axle rotations parallel to each other, by servomotor by belt and belt pulley driven in rotation.Core driving rolls 505A and the servomotor 510 that is associated thereof are bearing on the extension 515 of a support.Core driving rolls 505B and the servomotor 511 (seeing Figure 17) that is associated thereof then are bearing on the extension of bearing 120.Core driving rolls 505 is being supported around rotating with the axis at 322 one-tenths one angles of inclination of cored part of plug axis 314 and closed plug track 320.With reference to Figure 16 and 17, core driving rolls 505 is parallel to the speed component of plug axis with one and the speed component of at least a portion that is parallel to the cored part drives core at a slant.For example, core driving rolls 505A is being supported around axis 615 rotations, and 322 one-tenth one angles of inclination of this axis and plug axis 314 and cored part are shown in Figure 15 and 16.Like this, core driving rolls 505 just is driven into core on the plug between 322 moving periods along the cored part at plug 300.

With reference to Figure 15 and 16, plug auxilitary unit 600 is supported in the outside of closed plug track 320, is used for supporting between first end 310 and second end 312 plug 300 that is not entangled.Plug auxilitary unit 600 does not show in Fig. 1.Plug auxilitary unit 600 comprises a rotatable plug supporting 610, is used for the plug that do not entangled at least one the part upper support along the cored part 322 of closed plug track 320.Plug supporting 610 can be stablized plug 300, to reduce the vibration of not entangled plug.Thus, plug supporting 610 is just alignd plug 300 with core 302 on second end 312 that is driven to plug by cored device 1000.

Plug supporting 610 is being supported around axis 615 rotations, 322 one-tenth one angles of inclination of this axis and plug axis 314 and cored part.Plug supporting 610 comprises that is a spiral plug area supported 620 substantially.Vicissitudinous pitch when plug area supported 620 is measured on 615 the direction of paralleling to the axis, vicissitudinous radius when on perpendicular to the direction of axis 615, measuring.The pitch on spiral supporting surface and the variation of radius are being supported plug along closed plug orbiting motion.In one embodiment, pitch increases when the radius on spiral supporting surface reduces.Being used for the plug that the traditional type plug supporting of traditional calibration formula turret assembly supported is actionless during cored.The pitch of the variation of area supported 620 and radius allow area supported 620 to contact with moving plug, and are supporting plug along a non-directional orbiting motion.

Because plug supporting 610 is being supported around axis 615 rotations, therefore same motor can be used for driving respectively plug supporting 610 and core driving rolls 505A.In Figure 16, same servomotor 510 had both driven plug supporting 610 rotations by drive train 630 and had also driven core driving rolls 505A rotation.The axle that driven by motor 510 530 links to each other with roller 505A and passes the roller extension.Plug supporting 610 can be rotated to support on the axle 530 by bearing 540, so it is not driven by axle 530.Axle 530 passes plug supporting 610 and extends to drive train 630.Drive train 630 comprises the belt pulley 634 that is driven by belt 631 by belt pulley 632, and by the belt pulley 638 of belt pulley 636 by belt 633 drivings.Belt pulley 632,634,636 and 638 diameter should be selected like this, promptly should make the rotating speed of plug supporting 610 be reduced to half of core driving rolls 505A rotating speed.

Control servomotor 510, the turned position and the reference data same-phase that make plug supporting 610, this benchmark is the function of a roller 59 around the angle position of its rotational, also is the function of a roller 59 accumulative total revolutions.Specifically, supporting 610 turned position can with the phase place homophase that twines bed roller 59 in the repetition period at a band, make that the turned position of the turned position of supporting 160 and turret assembly 200 is synchronous.

With reference to Figure 17-19, plug puts the inboard that auxilitary unit 700 is bearing in closed plug track 320, is used to support the plug that is not put, and when plug is put plug second end 312 is alignd with plug cover 454.Plug puts auxilitary unit 700 and comprises a rotating plug supporting 710.Rotating plug supporting 710 is used for supporting the plug 300 that is not entangled between first end 310 and second end 312.Plug supporting 710 at least a portion along closed plug track 320 are supporting plug 300, and cored part 322 and band that this part is in closed plug track 320 twine between the part 324.Rotating plug supporting 710 can be driven by a servomotor 711.Plug puts auxilitary unit 700 and comprises plug supporting 710 and servomotor 711, and it is bearing on the actionless bearing 120 of horizontal-extending, shown in Figure 17-19.

Rotating plug supporting 710 has have varied radius and change pitch basic to be spiral plug area supported 720.Area supported 720 contacts with plug 300, and location mandril, and it is engaged with plug cover 454.Rotatable plug supporting 710 can be rotated to support on the handle pivot 730, and this handle has first end 732 and one second end 734 of a U-shaped.Supporting 710 is being supported around rotating with the adjoining horizontal axis 715 of first end 732 of handle 730.Handle pivot 730 is supported on its second end 734 pivotly, so that around having the actionless horizontal axis 717 of a spacing distance to rotate with axis 715.When handle pivot 730 when axis 717 rotates, axis 715 just moves in one section circular arc.Handle pivot 730 comprises a cam follower 731, and it stretches out from a surface of handle pivot, is between first end 732 and second end 734.

Rotating cam plate 740 with eccentric cam surface groove 741 is driven around actionless horizontal axis 742 rotations of bar.Cam face groove 741 in cam follower 731 and the rotating cam plate 740 engages, thereby makes handle 730 make periodic rotary around axis 717.Handle 730 and supporting 710 rotations around axis 717 cause supporting 710 plug area supported and periodically contact with plug 300 when the predetermined portions of closed plug track moves at plug.So second end 312 of the plug 300 that plug area supported 720 just will not entangle entangles.

The rotation of plug supporting 710 and rotating cam plate 740 is provided by servomotor 711.Servomotor 711 is by belt 752 drive pulleys 754, and belt pulley 754 is connected with belt pulley 756 by axle 755.Belt pulley 756 passes through belt 757 drive pulleys 762,764 and the idle pulley 766 of maziness again.The belt pulley 762 power cam plates 740 of rotation rotate continuously.The belt pulley 764 of rotation drives axis 715 rotations of plug supporting 710 around it.

Though the lobe plate 740 shown in the figure has a cam face groove, in another embodiment, lobe plate 740 can have an exterior cam surface to come driving handle 730 to pivot.In an illustrated embodiment, the rotation of servomotor 711 power cam plates 740 is made periodic rotary thereby drive plug supporting 710 around axis 717.Control servomotor 711, make plug supporting 710 rotation and support 710 periodic pivots and determine phase place according to a reference data, this benchmark is the function of a roller 59 around the angle position of its rotational, also is the function of a roller 59 accumulative total revolutions.Specifically, the rotation of the pivot of plug supporting 710 and plug supporting 710 can be determined phase place according to the position of twining bed roller 59 in the repetition period at a band.So, the positions that pivot of the position of rotation of plug supporting 710 and plug supporting 710 just can with the rotational synchronization of turret assembly 200.On the other hand, servomotor 222 or 422 can come 740 rotations of power cam plate by a cover timing messenger chain or other suitable gear systems.

In the embodiment shown, both power cam plate 740 rotations of the belt 757 of maziness drive plug supporting 710 again around its axis 715 rotations.In other embodiments, the belt 757 of maziness can replace with two belts that separate.For example, first belt can be used to 740 rotations of power cam plate, and second belt can be used to drive plug supporting 710 around its axis 715 rotations.Second belt can be by a cover pulley apparatus by first belt drive, perhaps each root belt all by the pulley apparatus that separates by the servomotor direct drive.5. core adhesive agent bringing device

In case plug 300 engages with plug cover 454, plug just twines part 324 along closed plug track to band and moves.A cover adhesive agent bringing device 800 is applied to adhesive agent on the core 302 that is bearing on the moving plug 300 between cored part 322 and band winding part 324.Adhesive agent bringing device 800 comprises that several are bearing in the adhesive agent nozzle 810 on the adhesive agent injection nozzle carrier 820.Each nozzle 810 is connected with the container that fills the pressurized liquid adhesive (not shown) by delivery conduit 812.The adhesive agent nozzle has a boiler check valve bulb, and when bulb touches certain surface under pressure, during such as core 302 surperficial, binder liquid stream just sprays from bulb.

Adhesive agent injection nozzle carrier 820 is bearing in the end of a pair of supporting handle 825 pivotly.Supporting handle 825 stretches out from crossbeam 133.Crossbeam 133 on even keel between upright underframe 132 and 134 extends.Adhesive agent injection nozzle carrier 820 rotates around axis 828 by an executive device 840.Axis 828 is parallel with turret assembly axis 202.Adhesive agent injection nozzle carrier 820 has a handle 830 that has the cylindrical cam follower.

The executive device 840 that is used for adhesive agent injection nozzle carrier 820 is pivoted comprises a continuous rotating disc 842 and a servomotor 822, and the both is bearing on the crossbeam 133.Cam follower on the handle 830 engages with eccentric cam follower surface groove 844 in the continuous rotating disc 842 that is formed on executive device 840.Dish 842 drives rotation continuously by servomotor 822.Executive device 840 makes adhesive agent injection nozzle carrier 820 make periodic rotary around axis 828, makes just to follow the tracks of each root plug 300 when plug 300 adhesive agent nozzle 810 when closed plug track 320 moves.Therefore, the plug 300 that moves along closed plug track 320 must stop motion, and adhesive agent just can be applied on the core 302 that is bearing on the plug 300.

When nozzle 810 touched core 302, core just drove plug 300 around its axis 314 rotations from cyclone 860, spread out thereby make adhesive agent center on core.Core comprises a servomotor 862 from cyclone 860, and it moves two plug spin belt 834A and 834B continuously.With reference to Fig. 4, Figure 20 A and 20B, core can be bearing on the extension 133A of crossbeam 133 from cyclone 860.Servomotor 862 driving belt 864 continuously makes it around belt pulley 865 and 867 motions.Belt pulley 867 drive pulley 836A and 836B, they are more respectively by belt 834A and 834B drive pulley 868A and 868B.Belt 834A and 834B engage with plug drive pulley 338, when plug 300 just drives plug 300 rotations during along closed plug orbiting motion to adhesive agent nozzle 810 belows.Therefore, when core 302 contacted with adhesive agent nozzle 810, every plug 300 and the core 302 that is associated thereof moved along closed plug track 320, and around 314 rotations of plug axis.

The control servomotor makes the periodicity pivot of adhesive agent injection nozzle carrier 820 determine phase place according to a reference data, and this benchmark is the function of a roller 59 around the angle position of its axis rotation, also is the function of a roller 59 accumulative total revolutions.Specifically, the pivot position of adhesive agent injection nozzle carrier 820 can be determined phase place according to a bed roller turned position in a band winding repetition period.Like this, adhesive agent nozzle holder 820 around the periodic rotary of pivot just can with the rotational synchronization of turret assembly 200.The rotational synchronization of the pivot of adhesive agent injection nozzle carrier 820 and turret assembly 200, make adhesive agent injection nozzle carrier 820 each root plug below nozzle 810 by the time rotate around axis 828.So adhesive agent nozzle 810 is just followed the tracks of the plug of each root along certain componental movement of closed plug track 320.In addition, rotating cam plate 844 can come direct drive by one in servomotor 222 or 422 by a cover timing chain transmission or other suitable gear systems.

In other embodiments, adhesive agent can utilize gluing (gravure) rotation roller that is arranged in the closed plug track to be applied on the moving core.Glue spreader can be around its axis rotation, and its surface can periodically be immersed in the adhesive of groove, and controls the lip-deep adhesive thickness of glue spreader with a scraping blade.The rotation axis of glue spreader is basically parallel to axis 202.Closed plug track 320 can comprise a circular arc shaped portion between cored part 322 and band winding part 324.Circular arc shaped portion on this closure plug track can be concentric with the surface of glue spreader, core 302 that makes plug 300 carry to be associated and glue spreader scribble one section circular arc portion rolling touch on the adhesive surface.The core 302 that the surface the scribbles adhesive agent band from the apparent motion of glue spreader to closed plug track subsequently twines part 324.Also can adopt a kind of eccentric glue spreader device in addition.This device comprises that the first adhesive agent pick-up roller and one or more being used for that is part is immersed in the adhesive of groove at least is sent to conveying roller on the core 302 to adhesive agent from first pick-up roller.6. cored device

Be used for core 302 is transported to cored device 1000 on the moving plug 300, shown in Fig. 1 and 2 1-23.The cored device comprises 1010, one cored conveyers 1100 of a core storage hopper, and a core guiding parts 1500 that is between turret winder 100 and the cored conveyer 1100.Figure 21 is a transparent view of seeing cored device in the past from behind.Figure 21 has also shown the part of depoling device 2000.Figure 22 is from being parallel to the local end cutaway view of the cored device that turret assembly axis 202 got.Figure 23 is the partial cutaway end elevation of core guiding parts 1500.

With reference to Fig. 1 and 2 1-23, cored conveyer 1100 comprises an actionless support 1110.Quiet support comprise upright side stand 1132 and 1134 and between side stand 1132 and 1134 horizontally extending transverse bracket beam 1136.In addition, an end of cored conveyer 1100 can adopt a kind of mode of outstanding handle to support.

In the embodiment shown, endless-belt 1200 is driven around the some belt pulleys adjacent with side stand 1,132 1202 motions.Equally, belt 1210 is driven around the some belt pulleys adjacent with side stand 1,134 1212 motions.Belt by servomotor 1222 around separately pulley movements.Some cramp bars 1230 are connected to core pallet 1240 on the projection 1232 that is attached on belt 1200 and 1210 pivotly.In one embodiment, cramp bar 1230 can extend from each end of core pallet 1240.In another embodiment, the stepped that cramp bar 1230 can be parallel between the projection 1232 of belt 1200 and 1210 is extended, and each core pallet 1240 just is suspended on the cramp bar 1230.Core pallet 1240 extends between belt 1200 and 1210, and is being carried around closed core pallet track 1241 motions by belt 1200 and 1210.Control servomotor 1222 makes the motion of core pallet determine phase place with respect to a reference data, and this benchmark is the function of a roller 59 around the angle position of its axis rotation, also is the function of a roller 59 accumulative total revolutions.Specifically, phase place can be determined according to the position of twining the bed roller 59 in the repetition period at a band in the position of core pallet, thereby makes the motion of core pallet and the rotational synchronization of turret assembly 200.

Core storage hopper 1010 vertical support are holding a certain amount of core 302 above core conveyer 1100.Core in the hopper 1010 relies on gravity fall to a plurality of rotation sheaves 1020 that are arranged in closed core pallet track top.Sheave 1020 by servomotor 1222 driven in rotation utilizes the respective grooves position on the sheave 1020 that core is transported on each core pallet 1240.In addition, also can replace sheave to pick up core, and core is delivered on each pallet with a kind of belt with projection.When the core pallet passed through the below of sheave 1020, a core tray supporting face 1250 (seeing Figure 22) location tray was so that the core that acceptance is sent here from sheave 1020.As a result, just carried along closed core pallet track 1241 at the core 302 of core pallet 1240 internal supports and moving by pallet.

With reference to Figure 22, the core that is carried by pallet 1240 moves along at least a portion of closed core pallet track 1241, and the cored part 322 of this part and closed plug track 320 is corresponding.Cored conveyer 1300 is arranged on certain a part of position adjacent with closed pallet track 1241, and this part and cored part 322 match.Cored conveyer 1300 comprises an endless-belt 1310, and it passes through belt pulley 1312 actuation movement by servomotor 1322.Have on the belt 1310 some scraper plates 1314 be used for be contained in pallet 1240 in core 302 engage.Be contained in pallet 1240 in core 302 engage after, scraper plate is just released pallet 1240 at least partially with core 302, makes core 302 engage with plug 300 at least partially.Scraper plate 1314 does not need core 302 is released fully and delivered on the plug 300 from pallet 1240, and to be enough to the position that engages with core driving rolls 505 just much of that and core 302 need only be released.

Belt 1310 is bevelleds, the speed component that scraper plate 1314 is paralleled with at least a portion in the cored part 322 that engages a speed component that is parallel to the plug axis and and closed plug track 320 that is contained in core pallet 1240 SMIS 302.In the embodiment shown, core pallet 1240 vertically carries core 302, and the scraper plate 1314 of cored conveyer 1300 engages with core with vertical velocity component and horizontal velocity component.Control servomotor 1322 makes the position of scraper plate 1314 determine phase place with respect to a reference data, and this benchmark is the function of a roller 59 around the angle position of its axis rotation, also is the function of a roller 59 accumulative total revolutions.Specifically, phase place can be determined with respect to the position of twining the bed roller 59 in the repetition period at a band in the position of scraper plate 1314.So, the motion of scraper plate 1314 just can with the position of core pallet 1240 and synchronous with the position of rotation of turret assembly 200.

The core guide piece 1500 that is arranged between cored conveyer 1100 and the turret winder 100 comprises several core guidess 1510.When core 302 by cored conveyer 1300 when core pallet 1240 is released, the core guides has just been determined the relative position of core 302 with second end 312 of plug 300.Core guides 1510 is bearing in and is being driven on the band conveyor 1512 of belt pulley 1514 motions.Band conveyor 1512 is driven by servomotor 1222 by transmission shaft and connecting device (not expressing among the figure).Core guides 1510 keeps pairing with core pallet 1240.The stepped that each core guides 1510 is parallel between the band conveyor 1512 is extended, and is being driven around closed core guides track 1541 motions by band conveyor 1512.

Have at least the cored part 322 in a part of closed core guides track 1541 and a part of closed core pallet track 1241 and a part of closed plug track 320 to match.Each core guides 1510 comprises core guiding cavity 1550, and it extends from first end of the core guides 1510 adjacent with cored conveyer 1100, second end to the core guides 1510 adjacent with turret winder 100.When core guides cavity 1550 from first end of core guides 1510 when second end extends, its cross section is diminishing.This convergence of core guides cavity 1550 helps the centering of core 302 and second end 312 of the plug 300 that is associated.Among Fig. 1, are enlargings at the first end place core guides cavity 1550 of the core guides 1510 adjacent with the cored conveyer, this is in order to adapt to the die misalignment of the core of releasing from core pallet 1,240 302.7. depoling device

Fig. 1,24 and 25A-C represented to be used for the depoling device 2000 that takes off on volume 51 plugs that never entangle 300.Depoling device 2000 comprises annular belt conveyor 2010 and the servo drive motor 2022 that is bearing on the support 2002.Belt conveyor 2010 vertically is positioned at the below of closed plug track, and is adjacent with depoling part 326.Annular belt conveyor 2010 is driven and motion continuously by belt 2034 and belt pulley 2012 by servomotor 2022.The scraper plate 2014 (being two scraper plates among Figure 24) that on belt conveyor 2010, has some spacing distances to equate.Scraper plate is with linear velocity V motion (Figure 25 A).When plug 300 when depoling part 326 is moved, each scraper plate 2014 engages with a end of volume 51 on being bearing in plug 300.

Control servomotor 2022 makes scraper plate 2014 determine phase place with respect to a reference data, and this benchmark is the function of a roller 59 around the angle position of its axis rotation, also is the function of a roller 59 accumulative total revolutions.Specifically, phase place is determined with respect to the position of twining bed roller 59 in the repetition period at a band in the position of scraper plate 2014.Thereby the motion of scraper plate 2014 just can be synchronous with the rotation of turret assembly 200.

When plug 300 when the straight line portion of the depoling part 326 of closed plug track moves, the conveyer 2010 of belt scraping plate and plug axis 314 are at angle.For a known plug speed and a known load-transfer device scraper velocity V who moves along depoling part 326, conveyer 2010 and included angle A between the plug axis 314 are chosen such that, and to be scraper plate 2014 will roll up the first speed component V that releases plug 300 with parallel with plug axis 314 ₁Second speed component V with the straight line portion that is parallel to depoling part 326 ₂Engage with each volume 51.In one embodiment, angle A approximately is the 4-7 degree.

Shown in Figure 25 A-C, scraper plate 2014 and conveyer 2010 make that the volume face of joint and the angle of the axis formation of belt 2010 are A at angle.The volume face of joint at a slant of scraper plate 2014 is vertical with plug axis 314, thus with the volume the end quadrature.Taken off from plug 300 in case roll up 51, plug 300 just runs to cored part 322 along closed plug track, with the core 302 of accepting other.In some cases, may need to take off the blank coil heart from plug.For example, when turret winder starts, perhaps do not twine when going up carrying material on certain core 302, just might need a hollow 302 is taken off.Each piece scraper plate 2014 all has a deformable rubber tip 2015, and it just engages with core slidably when plug is pushed out when the core that winds the band material.Scraper plate 2014 and hollow 302 and the core 302 that has wound the band material all contact, and hollow (core that does not promptly have the take-up strap material) can be taken off from plug.8. volume eduction gear

Figure 21 has shown volume eduction gear 4000, and it is placed on the downstream of depoling device 2000, is used for receiving the volume 51 that gets off from depoling device 2000.A pair of driving rolls 2098A and 2098B engage with the volume 51 that leaves plug 300, and will roll up 51 and be advanced in the eduction gear.Volume eduction gear 4000 comprises a servomotor 4022 and the discharge parts 4030 that the rotation selected is arranged that are bearing on the support 4010.Rotatable discharge parts 4030 are supporting that first group of cigarette closed handle 4035A and opposed second group of cigarette closed handle 4035B (having demonstrated three 4035A handles and three 4035B handles among Figure 21).

When normal operation, the volume 51 that is received by volume eduction gear 4000 is driven first receiving station by continuous drive roller 4050, such as a storage bin or other suitable storage containers.Roller 4050 is driven by set of gears or pulley apparatus by servomotor 2022, and its superficial velocity is than the high fixing percentum of speed of scraper plate 2014.Like this, roller 4050 just engages with volume 51, and to promote the higher speed drive volume of volume than scraper plate 2014.

In some cases, might need one or more volumes 51 are delivered to second receiving station, such as off gauge storehouse or recovery bin.For example, start-up period at band wind 90 just might be produced one or several inferior-quality volume 51, perhaps, when checking out that off gauge exists, volume off gauge detector just these off gauges should be shifted onto second receiving station in any stage of device 90 motions.Servomotor 4022 can be with manually controlling or automatic guidance, off and on parts 4030 are rotated 180 degree.Each rotate 180 when spending when parts 4030, cigarette close among handle 4035A or the 4035B one group promptly be bearing in roller 4050 on volume 51 engage, then roll up and just be raised, and be pulled to the discharge station from roller 4050.When parts 4030 turned to the end, another group in 4035A handle or the 4035B handle just was on the position that engages with next nonconformity volume.9. to the explanation of plug

Figure 26 is the part sectional view of plug 300 of the present invention.Plug 300 extends to second end 312 from its first end 310 along its longitudinal axis 314.Each root plug comprises that 3000, one of plug bodies are bearing in the deformable core fastener 3100 on the plug 300, and the plug head 3200 that is positioned at plug second end 312 places.Plug body 3000 comprises 3010, one steel ends 3040 of a steel pipe, and the plug pipe 3030 of a non-metallic composite material, and it extends between steel pipe 3010 and steel end 3040.

After core 302 navigated on the plug 300 by cored device 1000, at least a portion of core fastener 3100 was deformable, became second shape from its first shape, engaged with the hollow interior surface with core 302.Plug head 3200 is bearing on the plug 300 slidably, and it can make relative displacement with respect to plug body 3000, so that allow deformable core fastener 3100 become second shape from its first alteration of form.The plug head is produced the displacement with respect to plug body 3000 by plug cover 454.

But deformable core fastener 3100 comprises the ring of being made by polymeric material 3110 (seeing Figure 30) of one or more shell-shaped deformations, and it radially is bearing on the steel end 3040.So-called " elastically deformable " is meant that parts 3100 can become second shape from first shape when being subjected to load, can return to first shape substantially and cancel back part 3100 when load.Relative displacement can take place and will encircle 3110 compressions in plug head 3200 with steel end 3040, thereby makes parts 3100 produce radially outer elasticity warpage, and engages with the inside diameter surface of core 302.Figure 27 has shown the distortion situation of deformable core fastener 3100.Figure 28 and 29 is amplification views of head 3200, has shown the motion of head 3200 with respect to steel end 3040.

The details of observing plug 300 each parts has bearing 352A and 354A with regard to as can be seen in the first and second bearing shells 352 and 354, be used for rotatably mounted steel pipe 3010 around 314 rotations of plug axis.Plug drive pulley 338 and idle pulley 339 are installed on the steel pipe 3010, between bearing shell 352 and 354.Plug drive pulley 338 is fixed on the steel pipe 3010, and idle pulley 339 then is to be rotatably supported on the extension of bearing shell 352 by idle pulley bearing 339A, makes idle pulley 339 can rotate freely with respect to steel pipe 3010.

Steel pipe 3010 has a shoulder 3020, be used for be sent to plug 300 on an end of core 302 engage.Shoulder 3020 preferably is taper type, as shown in figure 26, and has knurled surface, so that the rotation of core 302 with respect to plug body 3000 lived in constraint.Spline 3022 shapes of vertically and radially extending of multiple-grooved can be processed in the surface of the shoulder 3020 of taper type.Spline 3022 is along the circumference rectangular distribution of shoulder 3020.Spline is seen Figure 26 tapered when right-hand member extends from left end, and each spline is all triangular in shape at any locational section along its length, and the root of key and shoulder 3020 are pressed close to locate broad and the top is narrower, so that engage with the end of core.

The diameter of steel pipe 3010 will reduce (seeing Figure 26) when steel pipe 3010 extends from shoulder 3020.Synthetic material plug pipe 3030 extends to second end 3034 from its first end 3020.First end 3032 is enclosed within the outside that reduces diameter end 3012 of steel pipe 3010.First end, 3032 usefulness of synthetic material plug pipe 3030 for example adhesive agent with reduce diameter end 3012 and fit together.Synthetic material plug pipe 3030 has the carbon containing composite structure.With reference to Figure 26 and 30, second end 3034 of synthetic material plug pipe 3030 links to each other with steel end 3040.Also there are first end 3042 and second end 3044 in end 3040.First end 3042 of end 3040 fits with the inwall of second end 3034 of synthetic material plug pipe 3030.

Transformable core fastener 3100 is placed at interval along plug axis 314 between shoulder 3020 and head 3200.Transformable core fastener 3100 comprises garden ring, and its internal diameter is greater than the external diameter of end 3040 parts, and can radially be placed on the end 3040.Transformable core fastener 3100 is installed between the shoulder 3205 of the shoulder 3041 of steel end 3040 and plug head 3200 and extends axially, as shown in figure 30.

Fastener 3100 preferably has a circumferential substantially continuous surface, with core diameter to engaging.A kind of suitable continuous surface can be provided by the fastener 3100 of annular.With core diameter to engage substantially circumferentially the advantage of continuous surface be will make core be tied to that power on the plug scatter rather than too concentrated.Such as, the power of concentrating that traditional core locking projections is provided can cause core to tear or expose.The surface that so-called " substantially circumferentially continuously " refers to this fastener 3100 about at least 51% with around around the core is more preferably approximately at least 75%, and preferably about at least 90% in-core surface contacts.

Deformable core fastener 3100 can comprise two the deformable elastic ring 3110A and the 3110B that are made by the urethane elastomer of Du Luo hardness meter " A " 40, and the ring 3130,3140 and 3150 made of the urethane elastomer of three harder Du Luo hardness meters " D " 60.Each ring 3110A and 3110B have complete and continuous circumferential surface 3112, so that engage with core.Ring 3130 and 3140 has the zigzag section, so that fit with shoulder 3041 and 3205 respectively.Encircle 3150 and have T font section.Ring 3110A is between the ring 3130 and 3150 and engages with it.Ring 3110B is between the ring 3150 and 3140, and engages with it.

Head 3200 is bearing on the lining 3300 slidably, so that head 3200 can move axially with respect to end 3040.Lining 3300 comprises the LEMPCOLOY base material of band LEMPCOAT 15 finish coats.This lining is made by the LEMPCO industrial of Cleveland, Ohio, Usa.When head 3200 along axis 314 when move end 3040, deformable core fastener 3100 is compressed between shoulder 3041 and 3205, makes ring 3110A and 3110B warpage radially outward, as analyses and observe shown in Figure 30.

Head 3200 is subjected to the restriction of threaded fasteners 3060 with respect to the axial motion of end 3040, shown in Figure 28 and 29.Fastener 3060 has an end 3062 and thread rod part 3064.Thread rod 3,064 3200 circumferential elongated hole 3245 from the head passes and is screwed in the tapped bore 3045 of end 3,040 second ends 3044.The diameter of fastener end 3062 is greater than the diameter in hole 3245, thereby limited the longitudinal travel of head 3200 with respect to end 3040.A coil spring 3070 places between second end 3044 and head 3200 of end 3040, so that the plug head is setovered from the plug body.

In case cored is to plug 300, plug cover total performance applies an application force and makes ring 3110A and 3110B compression.As shown in figure 28, plug cover 454 engages with head 3200, and compression spring 3070, makes the end be in axial sliding to second end 3044 along plug axis 314.Head 3200 just will encircle 3110A and 3110B compression with respect to this motion of end 3040, make them produce radially outer distortion, thereby form to the surface 3112 of outer process, and this surface just engages with core on the plug.In case the band on the core twines and to finish, the plug cover is regained, and spring 3070 just 3040 is axially pushed head 3200 open from the end, makes ring 3110A and 3110B return to their home position, and recovers that it is cylindrical.Just core can be taken off from plug by the depoling device.

Plug 300 comprises an anti-rotation feature spare, is used for limiting plug head 3200 around the rotation of axis 314 with respect to plug body 3000.Anti-rotation feature spare comprises a fixing screw 3800.Fixing screw is screwed into the tapped bore that intersects vertically with tapped bore 3045 on second end 3044 that is arranged in end 3040.Fixing screw 3800 heads on threaded fasteners 3060 and 3040 gets loose from the end to prevent fastener 3060.Fixing screw 3,800 3040 begins to extend from the end, and extend in the axial groove 3850 on the head 3200.Head 3200 is stopped because of the side of fixing screw 3800 and groove 3850 fits with respect to the rotation of end 3040, and this axial elongated slot 3850 can make head 3200 endwisely slip with respect to end 3040.

In addition, deformable core fastener 3100 can comprise that one can produce the metal parts of elastic deformation (such as the elasticity warpage) radially outward when pressurized.For example, transformable core fastener 3100 can comprise one or more beckets that have circumferential interval, axially extended fluting.When plug second end is entangled, when the slip of this ring excuse portion and pressurized, be in each circumferential compartment and just produce radial and outward deformation the ring between the adjacent fluting.10. servo-motor control system

Band wind 90 comprises a cover control system, determining the phase place of a series of separate driven parts according to a certain common reference data position, thereby guarantees the position of a certain parts and the position synchronous of one or more other parts.So-called " independently being driven " is meant that the position of these driven parts does not have mechanically contact each other, such as train of gears, and belt train, mechanical coupling, cam gear or other mechanical drive modes.In one embodiment, each can be made its position according to one or more other related components determine phase place with the method for electronics by the position of the parts of individual drive, such as adopting electronic gear speed ratio or electric cam.

In one embodiment, phase place is all determined according to a common reference data in the position of driven parts independently of each other, and this benchmark is the function of a roller 59 around the angle position of its axis rotation, also is the function of a roller 59 accumulative total revolutions.Specifically, can be determined phase place according to the position of twining the bed roller in the repetition period at a band by the position of the parts of individual drive.

It is corresponding with a band winding on-cycle part that each of bed roller 59 is changeed.A band twines circulation and can be divided into 360 degree.For example, on each volume 51 that coiling has been finished 64 111/4 inch long bands are arranged, if the circumference of bed roller is 45 inches, then bed roller revolution one figure just twines 4, finish a volume circulation (being the intact volume of coiling) just corresponding to bed roller 16 circles.Therefore, bed roller 59 whenever turns around corresponding to 360 degree coiling system on-cycles, 22.5 degree.

Driven independently parts comprise: by the turret assembly 200 of servomotor 222 as 4 horsepowers of servo motor driven; Turntable plug toggle supporting 410 by motor 422 as 4 horsepowers of servo motor driven; The roller 505A and the plug that are driven by 2 horsepowers of servomotors 510 supported for 610 (roller 505A and plug supporting 610 machineries link to each other); The plug that is driven by motor 711 (for example 2 horsepowers of servomotors) overlaps upper support 710; Adhesive agent injection nozzle carrier actr parts 840 by motor 822 (for example 2 horsepowers of servomotors) driving; Core conveyer 1100 and core guide piece 1500 (rotation of core conveyer 1100 and core guide piece 1500 is that machinery links to each other) by 1222 drivings of 2 motor servomotors; Cored conveyer 1300 by motor 1322 (for example 2 horsepowers of servomotors) driving; And the depoling conveyer 2010 that drives by motor 2022 (for example 4 horsepowers of servomotors).Miscellaneous part also is to be driven independently such as core driving rolls 505B/ motor 511 and core adhesive agent rotatable parts 860/ motor 862 etc., but they and do not require according to bed roller 59 and determine phase places.Parts that driven independently and programmable control system 5000 schematically are illustrated among Figure 31.

Bed roller 59 has a relevant proximity switches.Whenever bed roller 59 turns over a circle, just connect once a given bed roller angle position place proximity switches.Programmable control system 5000 can be finished to get up and write down and store the number of turns (number of times of the proximity switches connection of bed roller just) that roller 59 turns over from 51 coilings of a last volume.Each also can be had a proximity switches by the parts of individual drive, is used for determining the initial position of these parts.

The individual drive parts are with respect to the common reference benchmark, and such as the position of twining bed roller in the repetition period at a band, the definite of its phase place can finish with a kind of C/LOOP method.Determine by the individual drive parts with respect to being with the phase place of bed roller position in the winding repetition period to comprise the following steps: to determine that the bed roller is at a turned position of being with in the winding repetition period at one; Determine the actual position of parts with respect to bed roller turned position in a band winding repetition period; Calculate the ideal position of these parts with respect to bed roller turned position in a band winding repetition period; Calculate these parts and twine the actual position of the turned position in the repetition period and the positional error between the ideal position at a band with respect to the bed roller; And the calculating location error that reduces these parts.

In one embodiment, each position component error can be calculated once when 90 startings of band wind.When the proximity switches of bed roller was connected in device starting back for the first time, the bed roller twined the on-cycle position with respect to band and can calculate according to the data information in the random access memory that is stored in programmable control system 5000.In addition, at start-up period, when connecting for the first time with the proximity switches of bed roller associated, it is next definite that each parts can pass through right sensors (such as a kind of and the relevant coders of motor that drive these parts) with respect to the actual position of bed roller turned position in the volume repetition period.These parts can be with respect to the ideal position that twines the bed roller turned position in the repetition period at a band with the random access memory that has programmable control system 5000 in the electronic gear speed ratio of each parts calculate.

When the proximity switches of wind 90 starting back bed rollers is connected for the first time, make the accumulative total revolution of the bed roller of counting after circulation is finished from a last coiling, the number that on each volume, twines, every length, and the data such as circumference of bed roller all can be read from the random access memory of programmable control system 5000.For example, when wind 90 is shut down because of for example maintaining, suppose that a roller has changeed seven circles in a band winding circulation.After wind 90 was reset, when bed roller proximity switches was connected for the first time, the bed roller had been finished the 8th whole circle since last time, band winding circulation was finished.So, the bed roller is instantaneous at this just in time to be to be on the position of band winding circulation half (180 degree), because for given number, and every length and bed roller circumference, each of bed roller is changeed corresponding to 4 in 64 volumes, just requires a roller to change 16 circles so finish the coiling of a volume.

At start-up period, when bed roller proximity switches is connected for the first time, each can be come out with the position calculation of being with bed roller in the winding repetition period according to the electronic gear speed ratio of these parts by the ideal position of the parts of individual drive with respect to bed roller position in the band winding cycle, then each is compared with the actual position of the parts that recorded by sensor (such as the relevant coders of motor a kind of and these parts of driving) by the ideal position that calculates of individual drive parts with respect to band winding repetition period.Parts are compared with respect to the actual position that band twines bed roller position in the circulation with respect to ideal position that calculates and the parts that band twines bed roller position in the circulation, just can draw this position component error.Can adjust the motor that drives these parts then,, make that this position component error is zero such as the speed of adjusting motor by motor controller.

For example at start-up period, when the proximity switches that is associated with the bed roller is connected for the first time, the turret assembly 200 of rotation can be according to the number of turns that turns at current band winding cycle period bed roller with respect to the desired angle position of being with bed roller position in the winding circulation, the number of band, every length, the girth of bed roller, and be that the calculation of parameter such as electronic gear speed ratio that turret assembly 200 stores are come out.The actual angle position of turret assembly 200 then can utilize right sensors to measure.With reference to Figure 31, right sensors be one with the coder 5222 of servomotor 222 associated.Turret assembly 200 twines the actual position of bed roller position in the circulation and the speed that the difference between the ideal position is used to control motor 222 with respect to band, such as utilizing motor controller 5030B, thereby the positional error of turret assembly is adjusted into zero.

The position of plug toggle bearing 410 also can adopt similar method to control, and makes that the rotation of bearing 410 can be synchronous with the rotation of turret assembly 200.The coder 5422 that is associated with the motor 422 that drives plug cover assembly 400 can be used for measuring bearing 410 twines bed roller position in the circulation with respect to band actual position.Utilization can change the speed of servomotor 422 such as motor controller 5030A, thereby makes the positional error of bearing 410 adjust to zero.By phase place is determined according to a common reference data (such as the position of bed roller in band twines circulation) in the angle position of turret assembly 200 and bearing 410, make that the rotation and the turret assembly 200 of plug toggle bearing 410 are synchronous, the distortion of plug 300 just can be avoided like this.In addition, can be that band twines other benchmark beyond the bed roller position in the circulation by the reference data of individual drive parts.

Can be made it be decreased to zero by the speed of the motor that drives these concrete parts is controlled by individual drive position component error.In one embodiment, the positional error value is used for determining whether and can makes certain parts determine phase place quickly according to the bed roller by increasing motor or reducing motor speed.If the positional error value is positive (actual position of parts " in advance " is in ideal position), the speed of CD-ROM drive motor just should reduce; If the positional error value is (actual position of parts " hysteresis " is in ideal position) born, the speed of CD-ROM drive motor just should increase.In one embodiment, at start-up period when a bed roller proximity switches is connected for the first time, just each position component error is calculated, thereby can be determined the velocity variations of respective drive motor, make that the positional error that twines the on-cycle remainder at band is zero.

Usually, with band twine the cycle perspective metering position component should with the angle position corresponding (for example the angle position of parts also should serve as zero when the angle position of bed roller is zero) of twining the bed roller that cycle perspective measures with band.For example, begin (twining cycle perspective is zero) at the winding on-cycle when bed roller proximity switches is connected for the first time, motor 222 and turret assembly 200 should sd so the angle position, promptly the actual position of the turret assembly 200 that is recorded by coder 5222 is that zero calculating ideal position is corresponding with twining cycle perspective.Yet, if skidding appears in the driving belt 224 of turret assembly 200, perhaps between the axis of motor 222 and the turret assembly 200 relative motion has taken place, coder can not provide the actual position of correct turret assembly 200.

In one embodiment, programmable control system can allow the operator that concrete position component is made correction.This correction can be input in the random access memory of programmable control system.Least regulating amount approximately is that a band twines 1/10th of cycle perspective.Therefore, when the actual position of certain parts is consistent with corrected desirable calculating location, just can think this position component and the position same-phase of twining bed roller in the circulation at band.This position correction ability allows wind 90 to move up to carrying out mechanical alignment continuously.

In one embodiment, be used for a kind of suitable programmable control system 5000 that is carried out the phase place adjustment by the individual drive position component is comprised a programmable electronic propulsion control system with programmable random access memory, such as the AUTOMAX programmable driving control system of making by the trust electronics corporation in joslyn hi-voltage city.This system can utilize following handbook to operate, and these handbooks are used as list of references at this: 3.0 editions J2-3005 of AUTOMAX system operation handbook; AUTOMAX programming reference manual J-3686; And AUTOMAX hardware reference manual J-3656,3658.Yet should be appreciated that in other embodiments of the invention other companies are such as Emerson electronics corporation, Giddings ﹠amp; The other control system that Lewis company and General Electric Co. Limited make also can use.

With reference to Figure 31, AUTOMAX programmable driving control system comprises one or more power supplys 5010, a public memory module 5012, two models are 7010 microprocessor 5014, a network connecting module 5016, several biaxial programmable cards 5018 (each axis is corresponding to driving by the motor of individual drive parts), solver load module 5020, general input/output cards 5022, and the digital output card 5024 of VAC.The AUTOMAX system comprises that also several models are the motor controller 5030A-K of HR2000.Each motor controller is associated with a specific CD-ROM drive motor.For example, motor controller 5030B is associated with servomotor 222, and it drives turret assembly 200 rotations.

Public memory module 5012 provides an interface between many microprocessors.Two 7010 type microprocessors are carried out control by the software program of individual drive parts.Network connecting module 5016 between the parts of operator interface and other programmable control systems 5000, and between programmable control system 5000 and programmable plug driving control system 6000 (below will discuss) transmitting control and status data.Biaxial programmable card 5018 is provided control to each respectively by the individual drive parts.The signal that comes from bed roller proximity switches links to each other with each biaxial programmable card 5018 usefulness hardware.Solver load module 5020 converts the angular transposition of solver 5200 and 5400 (following will the discussion) to digital data.General input/output cards 5022 provides a data exchange channel between the different parts of control system 5000.The digital output card 5024 of VAC provides output to the drg 5224 and 5424 that is associated with motor 222 and 422 respectively.

In one embodiment, plug CD- ROM drive motor 332A and 332B are by 6000 controls of programmable plug driving control system, shown in figure 32. Motor 332A and 332B can be 30 horsepowers, 460 volts of AC motor.Programmable plug driving control system 6000 comprises an AUTOMAX system that contains a power supply 6010, the public memory module 6012 of a band random access memory, two central processing unit 6014, a network service card 6016 that is used for communicating between programmable plug driving control system 6000 and the programmable control system 5000 communication, solver input card 6020A-6020D, and serial dual-port card 6022A and 6022B.Programmable plug driving control system 6000 also comprises AC motor controller 6030A and 6030B, and each controller all has the signal input of current feedback 6032 and speed setting 6034. Solver input card 6020A and 6020B receive input from solver 6200A and 6200B, and they provide the signal relevant with the position of rotation of plug CD- ROM drive motor 332A and 332B respectively.Solver input card 6020C receives the input from solver 6200C, and it provides the signal relevant with the angle position of turret assembly 200.In one embodiment, represented solver 6200C and 5200 can be same among Figure 31.Solver input card 6020D receives the input from solver 6200D, and it provides the signal relevant with the angle position of bed roller 59.

The operator interface (not shown) that can comprise keyboard and read-out can be used for to programmable drive system 5000 input data and shows data from it.A kind of suitable operator interface is the XYCOM 8000 Series Industrial workstations of being made by Michigan, United States sarin city Xycom company.The operator interface software that is applicable to this workstation can be selected the interactive software of Ford city, Mill, Ohio computer technology company production for use.All can be separately or fine motion forward or backward jointly for each by the operator by independent drive element.In addition, the operator can key in the correction of expectation from keyboard, as described above.For the position that is associated with each CD-ROM drive motor, the monitoring function of speed and electric current is built in (passing through hardware) biaxial programmable card 5018, with the position that each CD-ROM drive motor is associated, speed and electric current compare with their limits separately through measuring the back.If the position of CD-ROM drive motor, any one in speed or the electric current surpassed limit value, and then programmable control system 5000 will suspend the operation of whole motors.

In Fig. 2, rotatable turret assembly 200 and rotation toggle back plate 430 are being driven by servomotor 222 and 422 respectively and are rotating.Motor 222 and 422 can drive turret assembly 200 with constant cireular frequency continuously and toggle back plate 430 rotates around axis 202.The angle position of the angle position of turret assembly 200 and toggle back plate 430 is respectively by solver 5200 and 5400 monitorings, as shown in figure 31.If when the change in angular position of the turret assembly 200 that is recorded by position solver 5200 and 5400 has surpassed predetermined angle numerical value with respect to the variation of the angle position of back plate 430, programmable control system 5000 will suspend the operation of whole motors.

In another embodiment, rotatable turret assembly 200 and toggle back plate 430 are installed on the public wheel hub, by an independent motor driven.If the shortcoming of this structure is not have enough weight and rigidity with the turntable and the interconnective wheel hub of toggle support unit that rotate, then reversing of it can cause vibration and the malposition of plug cover with respect to the plug head.Band wind of the present invention drives the revolving-turret assembly 200 and the rotation toggle back plate 430 of separate support separately respectively by the CD-ROM drive motor of separating.Control these motors, determine phase place according to a common reference data with the position that guarantees turret assembly 200 and plug toggle 450.So the rotation of the rotation of turret assembly 200 and toggle back plate 430 does not have mechanically contact.

In the embodiment that had narrated, the motor that drives bed roller 59 is what to separate with the motor that drives turret assembly 200, and the rotation of bed roller 59 and the rotation of turret assembly 200 do not have mechanically contact, so vibration and turret assembly 200 that the upstream wind produces are isolated.With drivings of coming in 59 minutes of a turret assembly 200 and a bed roller, make the revolution ratio of rotation and the rotation of a roller 59 of turret assembly 200 to change, rather than change with the gear mechanism speed change by electron steering.

By change revolution ratio that turret assembly rotates the bed roller just can change be wound on each core with length, so also can change the number of the tape punching paper that is wrapped on each core.For example, if turret assembly then will have less number to be wound onto on each core for given length, and when speed ratio reduces, then will have more number to be wound onto on each core the revolution ratio increase of bed roller.Therefore when turret assembly 200 is rotating, just can change each volume to the revolution ratio of bed roller and go up the number of winding by changing turret assembly.

In one embodiment of the invention, two or more plug speed of wrap standards or plug velocity curve are stored in the random access memory of programmable control system 5000.For example, two and many plug velocity curves can be stored in the common memory 6012 of programmable plug driving control system 6000.Each is stored in plug velocity curve in the random access memory corresponding to the volume (the number difference on every volume) of different size.The function that the plug speed of wrap that each bar plug velocity curve is provided is the angle position of turret assembly 200 for specific every volume number.By changing regularly, and the function that band is used as every volume number is cut off the execution of cutting off electromagnetic valve.

In one embodiment, change every volume number by following method just when rotated at turret assembly 200:

1) in addressable memory device, stores two plug velocity curves at least, such as can be by the random access memory of programmable control system 5000 accesses;

2) by operator interface every volume number is made desired change;

3) according to every volume number desired change from memory device, select a plug velocity curve;

4) calculate the change of rotating speed with the ratio of bed roller 59 rotating speeds of desired turret assembly 200 and plug cover assembly 400, this value is the function of every volume number of changing of expectation;

The speed of the speed of the speed of the speed of the speed of the plug supporting 710 that 5) calculate the speed of desired core driving rolls 505A that is driven by motor 510 and plug supporting 610, is driven by motor 711, the adhesive agent nozzle frame actr parts 840 that driven by motor 822, the core conveyer 1100 that is driven by motor 1222 and core guide piece 1500, the cored conveyer 1300 that driven by motor 1322 and the depoling device 2000 that driven by motor 2022 is with respect to the change of the revolution ratio of bed roller 59, and this change is the function of every volume number of changing of expectation;

6) change the electronic gear speed ratio of turret assembly 200 and plug cover assembly 400, thereby change the revolution ratio of the rotating speed of turret assembly 200 and plug cover assembly 400 with respect to bed roller 59 with respect to bed roller 59;

7) change the electronic gear speed ratio of following parts with respect to bed roller 59, thereby change the speed of these parts with respect to bed roller 59, these parts are: the core driving rolls 505A and the plug that are driven by motor 510 support 610; The plug that is driven by motor 711 supports 710; Adhesive agent nozzle frame actr parts 840 by motor 822 drivings; Core conveyer 1100 and core guide piece 1500 by motor 1222 drivings; Cored conveyer 1300 by motor 1322 drivings; And the depoling device 2000 that drives by motor 2022; And

8) cut off paper tape according to number expectation change amount, such as changing the execution timing of cutting off electromagnetic valve.

Each when changing every volume number, can be made it redefine phase place by following method by the individual drive position component according to position that a band twines bed roller in the repetition period: according to every volume number desired change determine a new band winding repetition period; In twining repetition period, new band determines the turned position of bed roller; In twining repetition period, new band determines the actual position of parts with respect to bed roller turned position; Calculating in new band twines repetition period these parts with respect to the ideal position of bed roller turned position; Calculating in new band twines repetition period these parts with respect to the actual position of bed roller turned position and the error of ideal position; Reduce the calculating location error of these parts.

Though certain embodiments more of the present invention have been done diagram and explanation, under the situation of essence spirit of the present invention and scope, can make various changes and improvements to the present invention.For example, the axis of turret assembly is horizontally extending in the accompanying drawings, but the axis 202 of turret assembly and plug axis also can be to other directions extensions, comprising (but being not limited to) vertical direction.Being intended to contain all these classes in the appended claims changes.

Table 1A
															Camb contour
C-804486-A
															The point	????X	????Y	The point	????X	???????Y	The point	????X	????Y	The point	????X	???????Y	The point	????X	???????Y
A61	????7.375	-10.3108	A92	-0.2442	-9.6745	A124	-5.5243	-9.2732	A156	-10.9255	-6.461	A188	-9.8504	????1.1765
															A61.6	????7.0246	-10.4618	A93	-0.4269	-9.6345	A125	-5.7057	-9.2906	A157	-10.9814	-6.2081	A189	-9.8207	????1.3505
A62	????7.1551	-10.4087	A94	-0.6062	-9.5961	A126	-5.8904	-9.3097	A158	-11.0217	-5.9444	A190	-9.7927	????1.5224
															A63	????6.9292	-10.4983	A95	-0.7825	-9.5595	A127	-6.0786	-9.3306	A159	-11.0549	-5.68	A191	-9.7666	????1.6926
A64	????6.6972	-10.5789	A96	-0.9561	-9.5246	A128	-6.2707	-9.3534	A160	-11.0837	-5.4176	A192	-9.7422	????1.8613
															A65	????6.4588	-10.6499	A97	-1.127	-9.4914	A129	-6.4668	-9.3779	A161	-11.0992	-5.1487	A193	-9.7196	????2.0286
A66	????6.2138	-10.7103	A98	-1.2956	-9.46	A130	-6.6672	-9.4041	A162	-11.0894	-4.863	A194	-9.6987	????2.1948
															A67	????5.9618	-10.7594	A99	-1.4622	-9.4303	A131	-6.8722	-9.4322	A163	-11.0483	-4.5569	A195	-9.6797	????2.3601
A68	????5.7026	-10.7959	A100	-1.6268	-9.4024	A132	-7.0821	-9.462	A164	-10.9928	-4.2476	A196	-9.6625	????2.5247
															A69	????5.4357	-10.8187	A101	-1.7897	-9.3762	A133	-7.2971	-9.4935	A165	-10.9411	-3.9511	A197	-9.6471	????2.6887
A70	????5.1604	-10.8262	A102	-1.9512	-9.3518	A134	-7.5048	-9.4898	A166	-10.8915	-3.665	A198	-9.6335	????2.8524
															A71	????4.8763	-10.8168	A103	-2.1114	-9.3292	A135	-7.7058	-9.4573	A167	-10.8417	-3.3868	A199	-9.6217	????3.016
A72	????4.5823	-10.7881	A104	-2.2705	-9.3084	A136	-7.9054	-9.4144	A168	-10.7895	-3.1146	A200	-9.6117	????3.1796
															A73	????4.2776	-10.7377	A105	-2.4287	-9.2894	A137	-8.109	-9.3749	A169	-10.7331	-2.8466	A201	-9.6036	????3.3435
A74	????3.9659	-10.6684	A106	-2.5863	-9.2722	A138	-8.3109	-9.3251	A170	-10.6723	-2.5827	A202	-9.5972	????3.5078
															A75	????3.6655	-10.6004	A107	-2.7433	-9.2567	A139	-8.5054	-9.2527	A171	-10.613	-2.3269	A203	-9.5927	????3.6728
A76	????3.3756	-10.5338	A108	-2.9001	-9.2431	A140	-8.6933	-9.1621	A172	-10.5553	-2.0786	A204	-9.59	????3.8386
															A77	????3.0957	-10.4687	A109	-3.0568	-9.2313	A141	-8.878	-9.0624	A173	-10.4991	-1.8373	A205	-9.5892	????4.0054
A78	????2.8251	-10.405	A110	-3.2135	-9.2214	A142	-9.0626	-8.9606	A174	-10.4444	-1.6027	A206	-9.5901	????4.1734
															A79	????2.5633	-10.3427	A111	-3.3706	-9.2132	A143	-9.2454	-8.8534	A175	-10.3913	-1.3744	A207	-9.5929	????4.3429
A80	????2.3097	-10.282	A112	-3.528	-9.2069	A144	-9.4221	-8.733	A176	-10.3398	-1.1519	A208	-9.5976	????4.514
															A81	????2.0639	-10.2227	A113	-3.6862	-9.2024	A145	-9.5886	-8.5942	A177	-10.2899	-0.9349	A209	-9.604	????4.6869
A82	????1.8254	-10.165	A114	-3.8452	-9.1997	A146	-9.7463	-8.4408	A178	-10.2416	-0.7231	A210	-9.6123	????4.8619
															A83	????1.5937	-10.1087	A115	-4.0052	-9.1988	A147	-9.899	-8.2804	A179	-10.1949	-0.5161	A211	-9.6224	????5.0391
A84	????1.3685	-10.0541	A116	-4.1664	-9.1998	A148	-10.0496	-8.118	A180	-10.1499	-0.3137	A212	-9.6343	????5.2187
															A85	????1.1493	-10.001	A117	-4.329	-9.2026	A149	-10.195	-7.9492	A181	-10.1065	-0.1155	A213	-9.648	????5.4011
A86	????0.9358	-9.9495	A118	-4.4933	-9.2072	A150	-10.3297	-7.7665	A182	-10.0648	0.0788	A214	-9.6635	????5.5863
															A87	????0.7276	-9.8996	A119	-4.6594	-9.2137	A151	-10.4496	-7.5658	A183	-10.0248	0.2694	A215	-9.6781	????5.7742
A88	????0.5245	-9.851	A120	-4.8275	-9.2219	A152	-10.5576	-7.3524	A184	-9.9865	0.4566	A216	-9.6986	????5.9662
															A89	????0.326	-9.8046	A121	-4.9978	-9.232	A153	-10.6594	-7.1352	A185	-9.9499	0.6407	A217	-9.7166	????6.1609

Continuous table 1A

A90	0.1319	??-9.7595	A122	-5.1706	??-9.244	A154	??-10.7584	????-6.9186	A186	??-9.9149	????0.8219	A218	????-9.7356	????6.3591
															A91	-0.0581	??-9.7162	A123	-5.346	??-9.2577	A155	??-10.8496	????-6.6966	A187	??-9.8818	????1.0004	A219	????-9.7532	????6.5606
A220	-9.7604	??6.7629	A252	-4.6378	??10.8477	A284	??1.9374	????11.0269	A316	??7.2445	????7.6956	A348	????12.177	????4.1589
															A221	-9.7569	??6.9655	A253	-4.368	??10.8382	A285	??2.1179	????11.0579	A317	??7.3789	????7.571	A349	????12.3202	????3.9984
A222	-9.7429	??7.1682	A254	-4.1054	??10.829	A286	??2.2993	????11.0908	A318	??7.5132	????7.4488	A350	????12.4594	????3.8326
															A223	-9.7181	??7.3702	A255	-3.8497	??10.8202	A287	??2.4817	????11.1259	A319	??7.6475	????7.3287	A351	????12.59	????3.6588
A224	-9.6826	??7.5714	A256	-3.6005	??10.8118	A288	??2.6655	????11.163	A320	??7.782	????7.2107	A352	????12.7113	????3.4769
															A225	-9.6363	??7.771	A257	-3.3574	??10.804	A289	??2.8508	????11.2022	A321	??7.9168	????7.0946	A353	????12.8269	????3.2901
A226	-9.5793	??7.9688	A258	-3.12	??10.7968	A290	??3.0378	????11.2435	A322	??8.0522	????6.9803	A354	????12.9296	????3.0941
															A227	-9.5114	??8.1642	A259	-2.8881	??10.7903	A291	??3.2274	????11.2765	A323	??8.1883	????6.8678	A355	????13.0187	????2.8893
A228	-9.4328	??8.3567	A260	-2.6612	??10.7846	A292	??3.4208	????11.2751	A324	??8.3252	????6.7569	A356	????13.1018	????2.6809
															A229	-9.3435	??8.5459	A261	-2.4391	??10.7797	A293	??3.6163	????11.2372	A325	??8.4632	????6.6475	A357	????13.1768	????2.4678
A230	-9.2435	??8.7313	A262	-2.2215	??10.7757	A294	??3.812	????11.1607	A326	??8.6024	????6.5394	A358	????13.2475	????2.2526
															A231	-9.1329	??8.9124	A263	-2.0081	??10.7727	A295	??4.0062	????11.0423	A327	??8.7429	????6.4326	A359	????13.315	????2.0358
A232	-9.0117	??9.0887	A264	-1.7985	??10.7707	A296	??4.1966	????10.8762	A328	??8.885	????6.327
															A233	-8.8801	??9.2597	A265	-1.5926	??10.7699	A297	??4.3813	????10.6765	A329	??9.0288	????6.2224
A234	-8.7382	??9.4249	A266	-1.3901	??10.7701	A298	??4.5608	????10.4814	A330	??9.1745	????6.1187
															A235	-8.586	??9.5839	A267	-1.1907	??10.7716	A299	??4.7354	????10.2917	A331	??9.3222	????6.0158
A236	-8.4238	??9.7361	A268	-0.9942	??10.7743	A300	??4.9054	????10.107	A332	??9.4721	????5.9136
															A237	-8.2517	??9.881	A269	-0.8003	??10.7784	A301	??5.0713	????9.9272	A333	??9.6244	????5.812
A238	-8.0698	??10.0182	A270	-0.6088	??10.7838	A302	??5.2333	????9.7521	A334	??9.7792	????5.7108
															A239	-7.8783	??10.1471	A271	-0.4196	??10.7906	A303	??5.3917	????9.5815	A335	??9.9368	????5.6099
A240	-7.6774	??10.2672	A272	-0.2323	??10.7989	A304	??5.5469	????9.4152	A336	??10.0972	????5.5093
															A241	-7.4674	??10.3781	A273	-0.0468	??10.8086	A305	??5.699	????9.253	A337	??10.2607	????5.4086
A242	-7.2483	??10.479	A274	????0.1372	??10.8199	A306	??5.8484	????9.0947	A338	??10.4275	????5.308
															A243	-7.0205	??10.5697	A275	????0.3199	??10.8328	A307	??5.9954	????8.9402	A339	??10.5977	????5.2071
A244	-6.7842	??10.6494	A276	????0.5014	??10.8473	A308	??6.1401	????8.7893	A340	??10.7716	????5.1058
															A245	-6.5396	??10.7177	A277	????0.682	??10.8635	A309	??6.2829	????8.6419	A341	??10.9492	????5.0041
A246	-6.2869	??10.7739	A278	????0.8619	??10.8814	A310	??6.4238	????8.4979	A342	??11.131	????4.9017
															A247	-6.0264	??10.8176	A279	????1.0413	??10.9011	A311	??6.5633	????8.357	A343	??11.3169	????4.7985
A248	-5.7584	??10.848	A280	????1.2207	??10.9211	A312	??6.7014	????8.2191	A344	??11.5073	????4.6944
															A249	-5.4831	??10.8646	A281	????1.3993	??10.9458	A313	??6.8383	????8.0842	A345	??11.6937	????4.5818
A250	-5.2007	??10.8666	A282	????1.5783	??10.9709	A314	??6.9744	????7.952	A346	??11.8669	????4.4539
															A251	-4.9155	??10.8574	A283	????1.7576	??10.9979	A315	??7.1097	????7.8225	A347	??12.0252	????4.3104

																		Table 1B
Camb contour
																		C-804486-B
The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y
																		B357	??13.1768	??2.4678	B9	??12.4463	-0.5991	B21	??11.5167	-3.2108	B33	??10.9295	-5.5819	B45	??10.0985	-7.9396	B57	??8.1966	-9.8465
B358	??13.2475	??2.2526	B10	??12.3423	-0.8408	B22	??11.4579	-3.4113	B34	??10.8907	-5.7814	B46	??9.9754	-8.1211	B58	??7.9997	-9.9726
																		B359	??13.3151	??2.0358	B11	??12.2404	-1.0773	B23	??11.4004	-3.6106	B35	??10.8586	-5.9831	B47	??9.8452	-8.2993	B59	??7.7972	-10.0923
B360	??13.368	??1.8121	B12	??12.1505	-1.3067	B24	??11.3461	-3.8049	B36	??10.8245	-6.1857	B48	??9.7081	-8.4738	B60	??7.589	-10.2052
																		B1	??13.3823	??1.5718	B13	??12.0655	-1.5313	B25	??11.2921	-4.0063	B37	??10.7829	-6.3882	B49	??9.5645	-8.6444	B61	??7.375	-10.3108
B2	??13.3068	??1.2952	B14	??11.9827	-1.7522	B26	??11.2389	-4.2031	B38	??10.7304	-6.5895	B50	??9.4144	-8.8111	B61.6	??7.0246	-10.4618
																		B3	??13.1514	??0.9918	B15	??11.9104	-1.9681	B27	??11.1908	-4.3996	B39	??10.668	-6.7892	B51	??9.258	-8.9735	B62	??7.1551	-10.4087
B4	??12.9796	??0.6904	B16	??11.839	-2.1812	B28	??11.1462	-4.596	B40	??10.5953	-6.9871	B52	??9.0957	-9.1315
																		B5	??12.8572	??0.4156	B17	??11.7695	-2.3916	B29	??11.1105	-4.7931	B41	??10.513	-7.1828	B53	??8.9274	-9.2848
B6	??12.7543	??0.154	B18	??11.7038	-2.5994	B30	??11.0741	-4.9906	B42	??10.4218	-7.3761	B54	??8.7532	-9.4332
																		B7	??12.6543	-0.1013	B19	??11.6388	-2.8051	B31	??11.0269	-5.1875	B43	??10.3221	-7.5669	B55	??8.5733	-9.5765
B8	??12.552	-0.3522	B20	??11.5758	-3.0089	B32	??10.9775	-5.3844	B44	??10.2142	-7.7547	B56	??8.3878	-9.7144

Table 1C
																		Camb contour
?C-804486-C
																		The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y
C357	??13.1768	??2.4678	C9	??12.7683	-0.5123	C21	??12.0939	-3.1757	C33	??11.6959	-5.6953	C45	??10.185	-7.9766	C57	????8.1966	-9.8465
																		C358	??13.1768	??2.2526	C10	??12.7006	-0.7502	C22	??12.0507	-3.3856	C34	??11.6739	-5.9112	C46	??10.0219	-8.1445	C58	????7.9997	-9.9726
C359	??13.1768	??2.0358	C11	??12.6351	-0.9843	C23	??12.0094	-3.5947	C35	??11.6536	-6.129	C47	??9.8618	-8.3115	C59	????7.7972	-10.0923
																		C360	??13.1768	??1.8121	C12	??12.5718	-1.2148	C24	??11.97	-3.8033	C36	??11.6349	-6.349	C48	??9.7044	-8.4777	C60	????7.589	-10.2052
C1	??13.1768	??1.5718	C13	??12.5105	-1.4421	C25	??11.9324	-4.0117	C37	??11.5981	-6.5673	C49	??9.5645	-8.6444	C61	????7.375	-10.3108
																		C2	??13.1768	??1.2885	C14	??12.4513	-1.6664	C26	??11.8966	-4.22	C38	??11.4217	-6.7548	C50	??9.4144	-8.8111	C61.6	????7.0246	-10.4618
C3	??13.1768	??1.0142	C15	??12.3942	-1.8881	C27	??11.8627	-4.4284	C39	??11.2337	-6.936	C51	??9.258	-8.9735	C62	????7.1551	-10.4087
																		C4	??13.1768	??0.7463	C16	??12.3392	-2.1073	C28	??11.8306	-4.6373	C40	??11.0497	-7.1145	C52	??9.0957	-9.1315
C5	??13.1768	??0.4842	C17	??12.2861	-2.3243	C29	??11.8002	-4.8468	C41	??10.8696	-7.2907	C53	??8.9274	-9.4332
																		C6	??12.9846	??0.2277	C18	??12.2351	-2.5394	C30	??11.7716	-5.0571	C42	??10.6933	-7.4647	C54	??8.7532	-9.2848

Continuous table 1C

??C7	???12.9102	-0.0237	C19	??12.1861	-2.7529	C31	????11.7446	-5.2645	C43	??10.5258	-7.6331	C55	????8.5733	-9.5765
																		??C8	???12.8382	-0.2702	C20	??12.139	-2.9649	C32	????11.7194	-5.4811	C44	??10.3512	-7.8074	C56	????8.3878	-9.7144

Table 2A
																		The plug route.
Coordinate	????X	????Y	Coordinate	????X	????Y	Coordinate	????X	?????????Y	Coordinate	????X	????Y	Coordinate	????X	????Y	Coordinate	????X	????Y
																		??A1	????18.865	??4.0076	??A33	??16.8706	-6.4203	??A65	??11.0529	-14.5092	??A97	??0.7228	-15.1988	A129	-7.9228	-15.1988	A161	-15.415	-9.1
??A2	????18.8307	??3.6349	??A34	??16.8163	-6.7233	??A66	??10.7398	-14.6492	??A98	??0.4543	-15.1988	A130	-8.2246	-15.1988	A162	-15.4763	-8.947
																		??A3	????18.7152	??3.2347	??A35	??16.7669	-7.0283	??A67	??10.4185	-14.7767	??A99	??0.1874	-15.1988	A131	-8.5305	-15.1988	A163	-15.5078	-8.560
??A4	????18.3819	??2.8359	??A36	??16.7137	-7.3338	??A68	??10.0884	-14.8904	??A100	-0.0782	-15.1988	A132	-8.8396	-15.1988	A164	-15.5245	-8.1809
																		??A5	????18.4966	??2.4646	??A37	??16.6511	-7.6389	??A69	??9.7494	-14.9891	??A101	-0.3425	-15.1988	A133	-9.1557	-15.1987	A165	-15.5408	-7.8047
??A6	????18.4282	??2.1027	??A38	??16.5762	-7.9425	??A70	??9.3992	-15.0715	??A102	-0.6058	-15.1988	A134	-9.4618	-15.1592	A166	-15.5567	-7.4369
																		??A7	????18.3614	??1.7482	??A39	??16.489	-8.244	??A71	??9.0418	-15.1351	??A103	-0.8682	-15.1988	A135	-9.7613	-15.0913	A167	-15.5701	-7.0753
??A8	????18.2905	??1.3974	??A40	??16.3899	-8.5433	??A72	??8.6703	-15.1786	??A104	-1.13	-15.1988	A136	-10.0598	-15.0139	A168	-15.5797	-6.7186
																		??A9	????18.2148	??1.0514	??A41	??16.2792	-8.8411	??A73	??8.2898	-15.1988	??A105	-1.3912	-15.1988	A137	-10.3606	-14.9357	A169	-15.5891	-6.3706
??A10	????18.1387	??0.7089	??A42	??16.1581	-9.1348	??A74	??7.8997	-15.1988	??A106	-1.652	-15.1988	A138	-10.6587	-14.8443	A170	-15.589	-6.0214
																		??A11	????18.0627	??0.3696	??A43	??16.0274	-9.4242	??A75	??7.5196	-15.1988	??A107	-1.9127	-15.1988	A139	-10.9493	-14.7304	A171	-15.589	-5.6792
??A12	????17.9975	??0.0397	??A44	??15.8856	-9.7125	??A76	??7.1475	-15.1988	??A108	-2.1733	-15.1988	A140	-11.2328	-14.5971	A172	-15.5891	-5.3416
																		??A13	????17.9348	-0.2885	??A45	??15.7349	-9.996	??A77	??6.7856	-15.1988	??A109	-2.434	-15.1988	A141	-11.5122	-14.45229	A173	-15.589	???5.014
??A14	????17.8729	-0.6119	??A46	??15.5757	-10.2745	??A78	??6.4319	-15.1988	??A110	-2.695	-15.1988	A142	-11.7905	-14.3042	A174	-15.589	-4.69
																		??A15	????17.8196	-0.9308	??A47	??15.4063	-10.5511	??A79	??6.0859	-15.1988	??A111	-2.9564	-15.1988	A143	-12.066	-14.1482	A175	-15.589	-4.3714
??A16	????17.7654	-1.2472	??A48	??15.2299	-10.8213	??A80	??5.7471	-15.1988	??A112	-3.2185	-15.1988	A144	-12.3345	-13.9776	A176	-15.5892	-4.0578
																		??A17	????17.7114	-1.5612	??A49	??15.0436	-11.089	??A81	??5.4149	-15.1988	??A113	-3.4812	-15.1988	A145	-12.5922	-13.7873	A177	-15.5892	-3.7475
??A18	????17.6593	-1.8728	??A50	??14.85	-11.3509	??A82	??5.0891	-15.1988	??A114	-3.7449	-15.1988	A146	-12.8403	-13.581	A178	-15.5891	-3.444
																		??A19	????17.6063	-2.1813	??A51	??14.6493	-11.6068	??A83	??4.7691	-15.1988	??A115	-4.0096	-15.1988	A147	-13.0444	-13.3642	A179	-15.5892	-1.1433
??A20	????17.3533	-2.4893	??A52	??14.4393	-11.8594	??A84	??4.4545	-15.1988	??A116	-4.2756	-15.1988	A148	-13.3211	-13.1472	A180	-15.5892	-2.8463
																		??A21	????17.5021	-2.7968	??A53	??14.2225	-12.1056	??A85	??4.1451	-15.1988	??A117	-4.5429	-15.1988	A149	-13.5536	-12.9202	A181	-15.5891	-2.5528
??A22	????17.4498	-3.1007	??A54	??13.9993	-12.345	??A86	??3.8405	-15.1988	??A118	-4.8118	-15.1988	A150	-13.7743	-12.6778	A182	-15.5892	-2.2613
																		??A23	????17.3967	-3.4059	??A55	??13.7668	-12.5804	??A87	??3.5403	-15.1988	??A119	-5.0824	-15.1988	A151	-13.961	-12.4424	A183	-15.3892	-1.4751
??A24	????17.3453	-3.7075	??A56	??13.528	-12.8044	??A88	??3.2442	-15.1988	??A120	-5.3549	-15.1988	A152	-14.1717	-12.1408	A114	-15.5892	-1.6901
																		??A25	????17.292	-4.0097	??A57	??13.282	-13.0298	??A89	??2.952	-15.1988	??A121	-5.6295	-15.1988	A153	-14.3294	-11.9021	A185	-15.3892	-1.4081
??A26	????17.238	-4.3112	??A58	??13.0282	-13.2441	??A90	??2.6634	-15.1988	??A122	-5.9063	-15.1988	A154	-14.537	-11.5774	A186	-15.5891	-1.1281

Continuous table 2A

??A27	??17.1871	??-4.6124	??A59	??12.7695	??-13.4503	??A91	??2.3781	??-15.1988	??A123	??-6.1855	??-15.1988	??A155	??-14.7083	??-11.2839	??A187	??-15.5892	??-0.8505
																		??A28	??17.1378	??-4.9134	??A60	??12.502	??-13.6494	??A92	??2.0959	??-15.1988	??A124	??-6.4674	??-15.1988	??A156	??-14.8633	??-10.9838	??A188	??-15.5892	??-0.5745
??A29	??17.0954	??-5.2162	??A61	??12.2259	??-13.041	??A93	??1.8165	??-15.1988	??A125	??-6.752	??-15.1988	??A157	??-14.9979	??-10.662	??A189	??-15.5892	??-0.3011
																		??A30	??17.0507	??-5.5181	??A62	??11.9437	??-14.023	??A94	??1.5397	??-15.1988	??A126	??-7.0397	??-15.1988	??A158	??-15.1161	??-10.3283	??A190	??-15.5892	??-0.0273
??A31	??16.9937	??-5.818	??A63	??11.6552	??-14.1949	??A95	??1.2655	??-15.1988	??A127	??-7.3306	??-15.1988	??A159	??-15.2253	??-9.9919	??A191	??-15.5891	??0.2444
																		??A32	??16.9324	??-6.119	??A64	??11.358	??-14.3574	??A96	??0.9931	??-15.1988	??A128	??-7.6249	??-15.1988	??A160	??-15.3276	??-9.655	??A192	??-15.5891	??0.5149
??A193	??-15.5891	??0.7855	??A225	??-15.273	??9.8275	??A257	??-7.0474	??15.5343	??A289	??2.2281	??17.1699	??A321	??10.551	??12.4852	??A353	??17.9176	??6.4656
																		??A194	??-15.5891	??1.0533	??A226	??-15.1791	??10.1234	??A258	??-6.7269	??15.5908	??A290	??2.5194	??17.2212	??A322	??10.7801	??12.3242	??A354	??18.0743	??6.1814
??A195	??-15.5892	??1.3215	??A227	??-15.0728	??10.4161	??A259	??-6.4108	??15.6466	??A291	??2.8135	??17.2622	??A323	??11.009	??12.1633	??A355	??18.2165	??5.8864
																		??A196	??-15.5892	??1.5905	??A228	??-14.954	??10.7054	??A260	??-6.0987	??15.7016	??A292	??3.1114	??17.267	??A324	??11.2379	??12.0023	??A356	??18.3512	??5.5868
??A197	??-15.5892	??1.857	??A229	??-14.8228	??10.9906	??A261	??-5.7903	??15.756	??A293	??3.4115	??17.2334	??A325	??11.467	??11.8413	??A357	??18.4761	??5.2817
																		??A198	??-15.5892	??2.1245	??A230	??-14.6793	??11.2712	??A262	??-5.4853	??15.8098	??A294	??3.7119	??17.1595	??A326	??11.6964	??11.68	??A358	??18.5951	??4.9735
??A199	??-15.5892	??2.3932	??A231	??-14.5235	??11.5467	??A263	??-5.1835	??15.863	??A295	??4.0108	??17.0417	??A327	??11.9262	??11.5185	??A359	??18.7093	??4.663
																		??A200	??-15.5892	??2.6611	??A232	??-14.3555	??11.8167	??A264	??-4.8847	??15.9157	??A296	??4.3059	??16.8744	??A328	??12.1566	??11.3565	??A360	??18.8076	??4.3434
??A201	??-15.5892	??2.9283	??A233	??-14.1755	??12.0805	??A265	??-4.5885	??15.9679	??A297	??4.5953	??16.6719	??A329	??12.3877	??11.1941
																		??A202	??-15.5892	??3.1971	??A234	??-13.9835	??12.3377	??A266	??-4.2941	??16.0197	??A298	??4.8793	??16.4722	??A330	??12.6197	??11.031
??A203	??-15.5892	??3.4667	??A235	??-13.7796	??12.5878	??A267	??-4.0034	??16.0711	??A299	??5.1584	??16.276	??A331	??12.8526	??10.8673
																		??A204	??-15.5892	??3.7383	??A236	??-13.5642	??12.8302	??A268	??-3.7139	??16.1221	??A300	??5.4328	??16.0831	??A332	??13.0866	??10.7027
??A205	??-15.5892	??4.0087	??A237	??-13.3372	??13.0643	??A269	??-3.4263	??16.1728	??A301	??5.7029	??15.8932	??A333	??13.322	??10.5373
																		??A206	??-15.5892	??4.2815	??A238	??-13.099	??13.2898	??A270	??-3.1403	??16.2233	??A302	??5.9689	??15.7063	??A334	??13.5587	??10.3709
??A207	??-15.5892	??4.5568	??A239	??-12.8496	??13.5059	??A271	??-2.8558	??16.2734	??A303	??6.2311	??15.5219	??A335	??13.797	??10.2034
																		??A208	??-15.5892	??4.8325	??A240	??-12.5893	??13.7123	??A272	??-2.5724	??16.3234	??A304	??6.4898	??15.3401	??A336	??14.0371	??10.0346
??A209	??-15.5892	??5.1088	??A241	??-12.3184	??13.9083	??A273	??-2.2901	??16.3732	??A305	??6.7452	??15.1605	??A337	??14.279	??9.8646
																		??A210	??-15.5892	??5.3893	??A242	??-12.037	??14.0934	??A274	??-2.0087	??16.4228	??A306	??6.9976	??14.9831	??A338	??14.5229	??9.6931
??A211	??-15.5892	??5.6708	??A243	??-11.7453	??14.267	??A275	??-1.7279	??16.4723	??A307	??7.2472	??14.8077	??A339	??14.7691	??9.52
																		??A212	??-15.5892	??5.9545	??A244	??-11.4437	??14.4286	??A276	??-1.4476	??16.5217	??A308	??7.4941	??14.6341	??A340	??15.0176	??9.3453
??A213	??-15.5892	??6.2406	??A245	??-11.1324	??14.5776	??A277	??-1.1677	??16.3718	??A309	??7.7386	??14.4622	??A341	??15.2687	??9.1689
																		??A214	??-15.3891	??6.5294	??A246	??-10.8116	??14.7134	??A278	??-0.8879	??16.6204	??A310	??7.981	??14.2918	??A342	??15.5224	??8.9905
??A215	??-15.3892	??6.8199	??A247	??-10.4817	??14.8353	??A279	??-0.6081	??16.6698	??A311	??8.2213	??14.1229	??A343	??15.7791	??8.81
																		??A216	??-15.3365	??7.1155	??A248	??-10.1428	??14.9429	??A280	??-0.3281	??16.7191	??A312	??8.4598	??13.9553	??A344	??16.0378	??8.6282
??A217	??-15.5438	??7.4127	??A249	??-9.7953	??15.0353	??A281	??-0.0478	??16.7686	??A313	??8.6966	??13.7888	??A345	??16.2931	??8.4351
																		??A218	??-15.5811	??7.7134	??A250	??-9.4395	??15.1119	??A282	??0.2331	??16.8181	??A314	??8.9319	??13.6234	??A346	??16.5328	??8.2263
??A219	??-15.5741	??8.0166	??A251	??-9.0795	??15.176	??A283	??0.5146	??16.8677	??A315	??9.1659	??13.4588	??A347	??16.7553	??8.0017
																		??A220	??-15.5549	??8.3203	??A252	??-8.7259	??15.2384	??A284	??0.797	??16.9175	??A316	??9.3988	??13.2952	??A348	??16.9698	??7.7663

Continuous table 2A

A221	??-15.5234	??8.4258	A253	??-8.3788	?15.2996	A285	??1.0805	????16.9675	??A317	??9.6306	??13.1322	??A349	??17.1763	????7.5223
																		A222	??-15.4795	??8.9268	A254	??-8.0378	?15.3997	A286	??1.3651	????17.0177	??A318	??9.8616	??12.9698	??A350	??17.3763	????7.2713
A223	??-15.4232	??9.2288	A255	??-7.7925	?15.4188	A287	??1.6512	????17.0681	??A319	??10.0919	??12.8079	??A351	??17.5661	????7.0111
																		A224	??-15.3543	??9.5292	A256	??-7.3725	?15.477	A288	??1.9388	????17.1188	??A320	??10.3217	??12.6464	??A352	??17.7451	????6.742

Table 2B
																		The plug route
Coordinate	????X	????Y	Coordinate	??X	????Y	Coordinate	????X	????Y	Coordinate	??X	????Y	Coordinate	??X	??Y	Coordinate	??X	???Y
																		??A1	????18.865	????4.0091	????A12	??18.4202	????8.1371	????A23	????18.0068	????-3.3837	??A34	??17.6	??-6.8479	??A45	??15.826	??-10.0278	??A56	??13.529	??-12.8075
??A2	????18.8276	????3.6335	????A13	??18.3815	????-8.1925	????A24	????17.97	????-3.697	??A35	??17.5623	??-7.169	??A46	??15.6261	??-10.2939	??A57	??13.2831	??-13.0289
																		??A3	????18.7841	????3.2623	????A14	??18.3431	????-0.9196	????A25	????17.9333	????-4.0101	??A36	??17.5244	??-7.4919	??A47	??15.4274	??-10.5583	??A58	??13.0299	??-13.2433
??A4	????18.7561	????2.9093	????A15	??18.305	????-0.8442	????A26	????17.8965	????-4.3231	??A37	??17.4689	??-7.8132	??A48	??15.7298	??-10.8212	??A59	??12.7695	??-13.4503
																		??A5	????18.7023	????2.5394	????A16	??18.2671	????-1.1668	????A27	????17.8591	????-4.6378	??A38	??17.2717	??-8.1034	??A49	??15.0444	??-11.0879	??A60	??12.502	??-11.6494
??A6	????18.6606	????2.184	????A17	??18.2295	????-1.4874	????A28	????17.8229	????-4.9497	??A39	??17.0991	??-8.3865	??A50	??14.8508	??-11.3498	??A61	??12.2271	??-13.8403
																		??A7	????18.6194	????1.8332	????A18	??18.192	????-1.8364	????A29	????17.7856	????-5.2652	??A40	??16.8487	??-8.6665	??A51	??14.6493	??-11.6068	??A62	??11.9449	??-14.0223
??A8	????18.5787	????1.486	????A19	??18.1547	????-2.124	????A30	????17.7487	????-5.5799	??A41	??16.6406	??-8.9436	??A52	??14.4402	??-11.8584	??A357	??18.4761	??5.2817
																		??A9	????18.5385	????1.144	????A20	??18.1176	????-2.4402	????A31	????17.712	????-5.8939	??A42	??16.4343	??-9.218	??A53	??14.2235	??-12.1046	??A358	??18.5951	??4.9735
??A10	????18.4987	????0.8051	????A21	??18.0806	????-2.7555	????A32	????17.6749	????-6.2106	??A43	??16.2311	??-9.4904	??A54	??13.9993	??-12.345	??A359	??18.7093	??4.663
																		??A11	????18.4593	????0.4695	????A22	??18.0437	????-3.0699	????A33	????17.6375	????-6.5285	??A44	??16.0244	??-9.7606	??A55	??13.7678	??-12.5794	??A360	??18.8073	??4.3448

Table 3A
															Camb contour
C-804490-A
															The point	????X	????Y	The point	??X	????Y	The point	????X	???Y	The point	????X	????Y	The point	????X	????Y
A61	????7.375	????-10.3108	??A92	??-0.2314	???-9.7048	?A124	???-5.339	???-8.1075	A156	???-8.824	???-4.0463	?A188	???-9.7306	????1.2131
															A61.6	????7.0246	????-10.4618	??A93	??-0.4007	???-9.6993	?A125	???-5.4797	???-8.0131	A157	???-8.8933	???-3.8917	?A189	???-9.7335	????1.3754
A62	????7.1551	????-10.4087	??A94	??-0.5699	???-9.6908	?A126	???-5.6187	???-7.9162	A158	???-8.9599	???-3.7359	?A190	???-9.7364	????1.5375
															A63	????6.9292	????-10.4983	??A95	??-3.739	???-9.6794	?A127	???-5.756	???-7.817	A159	???-9.0237	???-3.579	?A191	???-9.7393	????1.6994
A64	????6.6972	????-10.5789	??A96	??-0.9078	???-9.665	?A128	???-5.8913	???-7.7153	A160	???-9.0848	???-3.4209	?A192	???-9.7422	????1.8613
															A65	????6.4588	????-10.6499	??A97	??-1.0763	???-9.6477	?A129	???-6.0253	???-7.6113	A161	???-9.1431	???-3.2619	?A193	???-9.7196	????2.0286
A66	????6.2138	????-10.7103	??A98	??-1.2446	???-9.2674	?A130	???-6.1572	???-7.503	A162	???-9.1986	???-3.1018	?A194	???-9.6987	????2.1948

Continuous table 3A

A67	????5.9618		-10.7594	A99	??-1.4124	??-9.6042	A131	??-6.2872	??-7.3964	A163	??-9.2514	???-2.9408	A195	????-9.6797	????2.3601
																A68	????5.7026		-10.7959	A100	??-1.5798	??-9.5781	A132	??-6.4154	??-7.2855	A164	??-9.3013	???-2.7789	A196	????-9.6625	????2?5247
A69	????5.4357		-10.8187	A101	??-1.7467	??-9.5491	A133	??-6.5415	??-7.1725	A165	??-9.3484	???-2.6161	A197	????-9.6471	????2.6887
																A70	????5.1604		-10.8262	A102	??-1.9131	??-9.5172	A134	??-6.6657	??-7.0572	A166	??-9.3926	???-2.4526	A198	????-9.6335	????2.8524
A71	????4.8763		-10.8168	A103	??-2.0789	??-9.4823	A135	??-6.7879	??-6.9398	A167	??-9.434	???-2.2883	A199	????-9.6217	????3.016
																A72	????4.5823		-40.7881	A104	??-2.2441	??-9.446	A136	??-6.908	??-6.8203	A168	??-9.4725	???-2.1233	A200	????-9.6117	????3.1796
A73	????4.2776		-10.7377	A105	??-2.4086	??-9.404	A137	??-7.0259	??-6.6987	A169	??-9.5081	???-1.9576	A201	????-9.6036	????3.3435
																A74	????3.9659		-10.6684	A106	??-2.5723	??-9.3605	A138	??-7.1418	??-6.575	A170	??-9.5408	???-1.7914	A202	????-9.5972	????3.5078
A75	????3.6655		-10.6004	A107	??-2.7353	??-9.3142	A139	??-7.2554	??-6.4494	A171	??-9.5518	???-1.6119	A203	????-9.5927	????3.6728
																A76	????3.3756		-10.5338	A108	??-2.8974	??-9.265	A140	??-7.3669	??-6.3218	A172	??-9.5761	???-1.4435	A204	????-9.59	????3.8386
A77	????3.0957		-10.4687	A109	??-3.0587	??-9.2131	A141	??-7.4761	??-6.1923	A173	??-9.6215	???-1.2896	A205	????-9.5892	????4.0054
																A78	????2.8251		-10.405	A110	??-3.219	??-9.1583	A142	??-7.583	??-6.0608	A174	??-9.6425	???-1.1215	A206	????-9.5901	????4.1734
A79	????2.5633		-10.3427	A111	??-3.3784	??-9.1007	A143	??-76876	??-5.9276	A175	??-9.6606	???-0.953	A207	????-9.5929	????4.3429
																A80	????2.3097		-10.282	A112	??-3.5367	??-9.0404	A144	??-7.7899	??-5.7925	A176	??-9.6758	???-0.7843	A208	????-9.5976	????4.514
A81	????2.0639		-10.2227	A113	??-3.6939	??-8.9773	A145	??-7.8898	??-5.6557	A177	??-9.688	???-0.6153	A209	????-9.604	????4.6869
																A82	????1.8254		-10.165	A114	??-3.85	??-8.9114	A146	??-7.9873	??-5.5171	A178	??-9.6973	???-0.4461	A210	????-9.6123	????4.8619
A83	????1.5937		-10.1087	A115	??-4.005	??-8.8429	A147	??-8.0824	??-5.3769	A179	??-9.7036	???-0.2768	A211	????-9.6224	????5.0391
																A84	????1.3685		-10.0541	A116	??-4.1587	??-8.7716	A148	??-8.175	??-5.235	A180	??-9.7072	???-0.1075	A212	????-9.6343	????5.2187
A85	????1.1493		-10.004	A117	??-4.3111	??-8.6977	A149	??-8.2651	??-5.0915	A181	??-9.7101	????0.0607	A213	????-9.648	????5.4011
																A86	????0.9358		-9.9495	A118	??-4.4623	??-8.6212	A150	??-8.3527	??-4.9465	A182	??-9.7131	????0.2279	A214	????-9.6635	????5.5863
A87	????0.7276		-9.8996	A119	??-4.6121	??-8.542	A151	??-8.4378	??-4.8	A183	??-9.7161	????0.394	A215	????-9.6781	????5.7742
																A88	????0.5245		-9.8513	A120	??-4.7604	??-8.4602	A152	??-8.5203	??-4.652	A184	??-9.719	????0.5591	A216	????-9.6986	????5.9662
A89	????0.326		-9.8046	A121	??-4.9074	??-8.3758	A153	??-8.6002	??-4.5026	A185	??-9.7219	????0.7235	A217	????-9.7166	????6.1609
																A90	????0.1319		-9.7595	A122	??-5.0528	??-8.2889	A154	??-8.6774	??-4.3518	A186	??-9.7248	????0.8872	A218	????-9.7356	????6.3591
A91	????-0.062		-9.7073	A123	??-5.1967	??-8.1994	A155	??-8.7521	??-4.1997	A187	??-9.7277	????1.0504	A219	????-9.7532	????6.5606
																A220	????-9.7604		6.7629	A252	??-4.6378	??10.8477	A284	???1.9374	??11.0269	A316	??7.2445	????7.6956	A348	????12.177	????4.1589
A221	????-9.7569		6.9655	A253	??-4.368	??10.8382	A285	???2.1179	??11.0579	A317	??7.3789	????7.571	A349	????12.3202	????3.9984
																A222	????-9.7429		7.1682	A254	??-4.1054	??10.829	A286	???2.2993	??11.0908	A318	??7.5132	????7.4488	A350	????12.4594	????3.8326
A223	????-9.718		7.3702	A255	??-3.8497	??10.8202	A287	???2.4817	??11.1259	A319	??7.6475	????7.3287	A351	????12.59	????3.6588
																A224	????-9.6826		7.5714	A256	??-3.6005	??10.8118	A288	???2.6655	??11.163	A320	??7.782	????7.2107	A352	????12.7113	????3.4769
A225	????-9.6363		7.771	A257	??-3.3574	??10.804	A289	???2.8508	??11.2022	A321	??7.9168	????7.0946	A353	????12.8269	????3.2901
																A226	????-9.5793		7.9688	A258	??-3.12	??10.7968	A290	???3.0378	??11.2435	A322	??8.0522	????6.9803	A354	????12.9296	????3.0941
A227	????-9.5114		8.1642	A259	??-2.8881	??10.7903	A291	???3.2274	??11.2765	A323	??8.1883	????6.8678	A355	????13.0187	????2.8893
																A228	????-9.4328		8.3567	A260	??-2.6612	??10.7846	A292	???3.4208	??11.2751	A324	??8.3252	????6.7569	A356	????13.1018	????2.6809

Continuous table 3A

A229	??-9.3435	??8.5459	A261	-2.4391	10.7797	A293	??3.6163	?11.2372	A325	8.4632	????6.6475	A357	??13.1768	????2.4678
															A230	??-9.2435	??8.7313	A262	-2.2215	10.7757	A294	??3.812	?11.1607	A326	8.6024	????6.5394	A358	??13.2475	????2.2526
A231	??-9.1329	??8.9124	A263	-2.808	10.7727	A295	??4.0062	?11.0423	A327	8.7429	????6.4326	A359	??13.3151	????2.0356
															A232	??-9.O117	??9.0887	A264	-1.7985	10.7707	A296	??4.1966	?10.8762	A328	8.885	????6.327
A231	??-8.8801	??9.2597	A265	-1.5926	10.7699	A297	??4.3813	?10.6765	A329	9.0288	????6.2224
															A234	??-8.7382	??9.4249	A266	-1.390	10.7701	A298	??4.5608	?10.4814	A330	9.1745	????6.1187
A235	??-8.586	??9.5839	A267	-1.1907	10.7716	A299	??4.7354	?10.2917	A331	9.3222	????6.0158
															A236	??-8.4238	??9.7361	A268	-0.9942	10.7743	A300	??4.9054	?10.107	A332	9.4721	????5.9136
A237	??-8.2517	??9.881	A269	-0.8083	10.7784	A301	??5.0713	?9.9272	A333	9.6244	????5.812
															A238	??-8.0698	??10.0182	A270	-0.6088	10.7838	A302	??5.2333	?9.7521	A334	9.7792	????5.7108
A239	??-7.8783	??10.1471	A271	-0.4196	10.7906	A303	??5.3917	?9.5815	A335	9.9368	????5.6099
															A240	??-7.6774	??10.2672	A272	-0.2323	10.7989	A304	??5.5469	?9.4152	A336	10.0972	????5.5093
A241	??-7.4674	??10.3781	A273	-0.0468	10.8086	A305	??5.699	?9.253	A337	10.2607	????5.4086
															A242	??-7.2483	??10.479	A274	0.1372	10.8199	A306	??5.8484	?9.0947	A338	10.4275	????5.308
A241	??-7.0205	??10.5697	A275	0.3199	10.8328	A307	??5.9954	?8.9402	A339	10.5977	????5.2071
															A244	??-6.7842	??10.6494	A276	0.5014	10.8473	A308	??6.1401	?8.7893	A340	10.7716	????5.1058
A245	??-6.5399	??10.7177	A277	0.682	10.8635	A309	??6.2829	?8.6419	A341	10.9492	????5.0041
															A246	??-6.2869	??10.7739	A278	0.8619	10.8814	A310	??6.4238	?8.4979	A342	11.131	????4.9017
A247	??-6.0264	??10.8176	A279	1.0413	10.9011	A311	??6.5633	?8.357	A343	11.3169	????4.7985
															A248	??-5.7584	??10.848	A280	1.2207	10.9211	A312	??6.7014	?8.2191	A344	11.5073	????4.6944
A249	??-5.4831	??10.8646	A281	1.3993	10.9458	A313	??6.8383	?8.0842	A345	11.6937	????4.5818
															A250	??-5.2007	??10.8666	A282	1.5783	10.9709	A314	??6.9744	?7.952	A346	11.8669	????4.4539
A251	??-4.9155	??10.8574	A213	1.7576	10.9979	A315	??7.1097	?7.8225	A347	12.0252	????4.3104

																		Camb contour												????1
?C.804490-B
																		The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y
B357	??13.1768	??2.4678	B9	?12.4463	-0.5991	B21	??11.5167	??-3.2104	B33	??10.9295	??-5.5819	B45	??10.0985	??-7.9396	B57	????8.1996	???-9.8165
																		B358	??l3.2475	??2.2526	B10	?12.3423	-0.8408	B21	??11.4579	??-3.4113	B34	??10.8907	??-5.7814	B46	??9.9754	??-8.1211	B58	????7.9997	???-9.9726
B359	??13.3151	??2.0358	B11	?12.2404	-1.0773	B11	??11.4004	??-3.6106	B35，	??10.8586	??-5.9831	B47	??9.8452	??-8.2993	B59	????7.7972	???-10.0923
																		B360	??13.368	??1.8121	B12	?12.1505	-1.3067	B24	??11.3461	??-3.8049	B36	??10.1245	??-6.1857	B48	??9.7081	??-8.4738	B60	????7.589	???-10.2052
B1	??13.3823	??1.5718	B13	?12.0655	-1.5313	B25	??11.2921	??-4.0063	B37	??10.7829	??-6.3882	B49	??9.4145	??-8.6444	B61	????7.375	???-10.3108
																		B2	??13.3068	??1.2952	B14	?11.9827	-1.7522	B26	??11.2389	??-4.2031	B38	??10.7308	??-6.5895	B50	??9.4144	??-8.8111	B61.6	????7.0246	???-10.4618

Continuous table 3B

B3	??13.1514	????0.9918	B15	??11.9104	-1.9681	B27	??11.1908	??-4.3996	B39	??10.668	??-6.7892	B51	????9.258	????-8.9735	B62	??7.1551	??-10.4087
																		B4	??12.9796	????0.6904	B16	??11.839	-2.1812	B28	??11.1462	??-4.596	B40	??10.5953	??-6.9871	B52	????9.0957	????-9.1315
B5	??12.8572	????0.4156	B17	??11.7695	-2.3916	B29	??11.1105	??-4.7931	B41	??10.513	??-7.1828	B53	????8.9274	????-9.2848
																		B6	??12.7543	????0.154	B18	??11.7038	-2.5994	B30	??11.0741	??-4.9906	B42	??10.4218	??-7.3761	B54	????8.7532	????-9.4332
B7	??12.6543	????-0.1013	B19	??11.6388	-2.8051	B31	??11.0269	??-5.1875	B43	??10.3221	??-7.5669	B55	????8.5733	????-9.5765
																		B8	??12.552	????-0.3522	B20	??11.5758	-3.0089	B32	??10.9775	??-5.3844	B44	??10.2142	??-7.7547	B56	????8.3878	????-9.7144

Table 3C
																		Camb contour
C-804490-C
																		The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y	The point	????X	????Y
C357	??13.1768	??2.4678	C9	??12.7683	??-0.5123	C21	?12.0939	-3.1757	C33	??11.6959	??-3.6953	C45	????10.185	??-7.9766	C57	????8.1966	-9.8465
																		C358	??13.1768	??2.2526	C10	??12.7006	??-0.7502	C22	?12.0507	-3.3856	C34	??11.6739	??-5.9112	C46	????10.0219	??-8.1445	C58	????7.9997	-9.9726
C359	??13.1768	??2.0358	C11	??12.6351	??-0.9843	C23	?12.0094	-3.5947	C35	??11.6536	??-6.129	C47	????9.8618	??-8.3115	C59	????7.7972	-10.0923
																		C360	??13.1768	??1.8121	C12	??12.5718	??-1.2148	C24	?11.97	-3.8033	C36	??11.6349	??-6.349	C48	????9.7044	??-8.4777	C60	????7.589	-10.2052
C1	??13.1768	??1.5718	C13	??12.5105	??-1.4421	C25	?11.9324	-4.0117	C37	??11.5981	??-6.5673	C49	????9.5645	??-8.6444	C61	????7.375	-10.3108
																		C2	??13.1768	??1.2885	C14	??12.4513	??-1.6664	C26	?11.8966	-4.22	C38	??11.4217	??-6.7548	C50	????9.4144	??-8.8111	C61.6	????7.0246	-10.4618
C3	??13.1768	??1.0142	C15	??12.3942	??-1.8841	C27	?11.8627	-4.4284	C39	??11.2337	??-6.936	C51	????9.258	??-8.9735	C62	????7.1551	-10.4087
																		C4	??13.1768	??0.7463	C16	??12.3392	??-2.1073	C28	?11.8306	-4.6373	C40	??11.0497	??-7.1145	C52	????9.0957	??-9.1315
C5	??11.1768	??0.4842	C17	??12.2861	??-2.3243	C29	?11.8002	-4.8468	C41	??10.8696	??-7.2907	C53	????8.9274	??-9.4332
																		C6	??12.9846	??0.2277	C18	??12.2331	??-2.5394	C30	?11.7716	-5.0571	C42	??10.6933	??-7.4647	C54	????8.7532	??-9.2848
C7	??12.9102	??-0.0237	C19	??12.1861	??-2.7529	C31	?11.7446	-5.2685	C43	??10.5258	??-7.6331	C55	????8.5733	??-9.5765
																		C8	??12.8382	??-0.2702	C20	??12.139	??-2.9649	C32	?11.7194	-5.4811	C44	??10.3512	??-7.8074	C56	????8.3878	??-9.7144

Claims (25)

1. one kind is wound into method on a plurality of cores that separate with continuous carrying material, comprises the following steps: to provide a rotatable turret assembly; Many rotatable plugs are bearing on the rotatable turret assembly; Drive rotatable turret assembly, in a closed trajectory, move to drive plug; A collection of core is provided; During the predetermined cored componental movement, core is installed on the plug on the closed plug track at plug; Predetermined band twines part carrying material is wound on the core on the closed plug track; And the core that predetermined depoling part is good with each coiling on the closed plug track takes off from separately plug respectively.

2. in accordance with the method for claim 1, it is characterized in that the step that the core that each coiling is good takes off from the plug at their places respectively is included in plug core that coiling is good during the predetermined depoling componental movement of closed plug track and takes off; The step that drives rotatable turret assembly rotation comprises the continuous rotation turret assembly; Driving rotatable turret assembly rotation moves plug so that the step that plug moves in a closed trajectory comprises in a non-circular closed trajectory; And the method for rotating table assembly comprises with constant cireular frequency revolving-turret assembly.

3. according to claim 1 or 2 described methods, also comprise the following steps: to make turret assembly to rotate around the turret assembly axis; And the distance between change plug and the turret assembly axis, it is changed as the function of plug along the position of closed plug orbiting motion.

4. according to the described method of claim 1,2 or 3, also comprise:

In closed plug track, has one section straight line portion at least;

Plug is moved along the straight line portion of closed plug track;

It is characterized in that, core is installed to step on the plug comprise when the straight line componental movement of plug on closed plug track core is installed on the plug; The step that the core that coiling is finished is taken off from the plug at their places respectively comprises when the straight line componental movement of plug on closed plug track to be taken off core from plug.

5. according to claim 1,2,3 or 4 described methods also comprise the step that the shape with at least one part in the closed plug track changes; And the step that the shape of at least one part in the closed plug track changes comprised that the band that changes in the closed plug track twines the shape of part.

6. according to claim 1,2,3,4 or 5 described methods, it is characterized in that cored comprises the step that core engages with plug with first speed component that is parallel to the plug axis and the second speed component that is parallel to closed plug track cored at least a portion partly to the step on the plug.

7. according to claim 1,2,3,4,5 or 6 described methods, it is characterized in that the step that the core that coiling is finished takes off from its plug comprises with first speed component that is parallel to the plug axis and is parallel to the step that the second speed component of at least a portion of closed plug track depoling part engages with core that coiling is finished.

8. according to claim 1,2,3,4,5,6 or 7 described methods also comprise when core adhesive agent being applied to during along closed plug orbiting motion step on the core between cored partial sum band wound portion is divided.

9. a continuous carrying material is wound into the method on the single volume, comprises the following steps:

A rotatable turret assembly is provided, and it is supporting some rotatable plugs, so that continuous carrying material is wound on the single volume;

Rotate rotatable turret assembly, plug is moved along a closed trajectory;

Predetermined band twines part carrying material is wound on the single volume on the closed plug track; And

When turret assembly rotated, the volume of finishing in each coiling on the predetermined portions of closed plug track was taken off by the plug from its place.

10. in accordance with the method for claim 9, it is characterized in that the step of rotating rotatable turret assembly comprises that driving turret assembly continuously rotates;

The step of rotating table assembly comprises with constant cireular frequency rotating table assembly; And

Winding method comprises the steps: to make the axis rotation of turret assembly around turret assembly; And change distance between plug and the turret assembly axis, it as function along the plug position of closed plug orbiting motion.

11. a continuous carrying material is wound into method on the single volume, comprises the following steps:

A rotatable turret assembly is provided, and it is supporting some rotatable plugs, so that continuous carrying material is wound on the single volume;

Rotate rotatable turret assembly, make the non-circular orbiting motion of plug along a closure;

Predetermined band twines part carrying material is wound on the single volume on the closed plug track; And

The volume that predetermined depoling part is finished each coiling on the closed plug track takes off from the plug at its place.

12 1 band winds comprise:

A turret winder, it comprises a rotatable turret assembly, can rotate around the turret assembly axis, turret assembly is supporting some rotatable plugs, be used for engaging with core, on core, twine paper tape, every plug extends to second end from its first end, its axis is parallel with turret axis, every plug all is bearing on the turret assembly, can be independently around its axis rotation, and every plug all moves in the closed plug track of turret assembly axis at one, this closure plug track has a predetermined cored part, and a predetermined band twines partial sum one predetermined depoling part;

A cored device, it is transported to core on the plug during the cored componental movement of closed plug track at plug;

A plug actuating device, it rotates around the plug axis along predetermined band wound portion componental movement drive plug and the core on the closed trajectory at plug and the core that is associated; Carrying material is being wound onto on the core during this period; And

A depoling device, it plug during along the predetermined depoling componental movement of closed plug track core that coiling is good take off from the plug at its place.

13. according to the described band wind of claim 12, it is characterized in that turret assembly rotates continuously, and be with constant cireular frequency rotation.

14., it is characterized in that the distance between plug and the turret assembly axis changes as the function of plug along the position that closed trajectory moves according to claim 12 or 13 described band winds.

15., it is characterized in that it is non-circular having a part of closed plug track at least according to the described band wind of claim 12,13 or 14; Closed plug track comprises one section straight line portion at least; Preferably comprise one section straight line portion in the cored partial sum depoling part of closed plug track at least.

16. according to claim 12,13,14 or 15 described band winds is characterized in that closed plug track comprises removable part.

17. according to claim 12,13,14,15 or 16 described band winds, it is characterized in that the cored device has parts to engage with a core with speed component that is parallel to the plug axis and the speed component that is parallel at least a portion of closed plug track cored part;

The cored device is driven into core on the plug at least in part;

The band wind comprises a pair of rotatable core driving rolls, and the core driving rolls engages with core, from the cored device between the roller core is installed on the plug;

The core driving rolls is placed in the both sides opposite one another of the cored part of closed plug track;

The core driving rolls is driven into core on the plug when plug moves between the core driving rolls along closed plug track;

The core driving rolls drives core at a slant, and it has the speed component and the speed component that is parallel at least a portion of closed plug track cored part that are parallel to the plug axis.

18. according to claim 12,13,14,15,16 or 17 described band winds comprise a cored conveyer, and some core pallets along closed pallet orbiting motion are arranged on it, each pallet holds a core and moves along the part of closed pallet track;

It is characterized in that at least one section of the cored part of at least one section of pallet track and closed plug track matches;

The cored device comprises an inclined transporter, and the core of the componental movement that partly matches along the cored with closed plug track of pallet track during this conveyer has parts and is contained in pallet engages; And

The band wind comprises a core guiding parts, it is between turret winder and the cored conveyer, this guiding parts comprises the core guides of some edges closed core guides orbiting motion, each core guides extends between cored conveyer and turret winder, and at least one section of core guides track with the cored part of closed plug track at least one section matches.

19. according to claim 12,13,14,15,16,17 or 18 described band winds is characterized in that second end of every plug releasably is being supported along the part of closed plug track and is moving;

Second end of every plug is not supported when at least a portion of the closed plug track between depoling partial sum band wound portion is divided is moved;

The band wind comprises the supporting of at least one plug, is used between first end of moving plug and second end that is not supported the plug that support motion releasably;

The band wind preferably includes the supporting of one first plug, be used for plug when at least a portion of closed plug track cored part is moved between first end of plug and second end that is not supported the plug of support motion releasably;

The band wind preferably includes the supporting of one second plug, is used for when plug moves between the cored partial sum band wound portion of closed plug track is divided between first end of plug and second end that is not supported the plug that support motion releasably;

Have at least a plug supporting to comprise rotation plug supporting with rotation plug area supported;

The best vicissitudinous radius of rotation plug area supported;

The supporting of rotation plug preferably includes a spiral plug area supported; And

The best vicissitudinous pitch of helix plug area supported.

20. according to claim 12,13,14,15,16,17,18 or 19 described band winds comprise an adhesive agent bringing device, when the closed plug orbiting motion of core between cored partial sum band wound portion is divided, adhesive agent are coated onto on the core;

It is characterized in that the adhesive agent bringing device preferably includes a movably adhesive applicator, it follows the tracks of moving of core along at least a portion of closed plug track; And

Adhesive applicator preferably can center on a rotational that is parallel to the turret assembly axis.

21. according to claim 12,13,14,15,16,17,18,19 or 20 described band winds, it is characterized in that, the depoling device engages with the core that coiling is finished with first speed component and second speed component, and first component is parallel to the plug axis that core is finished in the supporting coiling, and second component is parallel at least a portion in the closed plug track depoling part;

The depoling device preferably includes the conveyer of a belt scraping plate, and when plug during along the depoling componental movement of closed plug track, conveyer and plug axis are at angle;

The depoling device engages with the core that coiling is finished with first speed component and second speed component, and first component is parallel to the plug axis that core is finished in the supporting coiling, and second component is parallel at least a portion in the closed plug track depoling straight line portion partly; And

The band wind preferably includes a volume eduction gear that is positioned at depoling device downstream, is used for receiving the core that the coiling sent here from the depoling device is finished, and the volume eduction gear is that the core of selectively coiling being finished is sent into first receiving station or second receiving station.

22. a band wind comprises:

A rotatable turret assembly, this turret assembly is supporting some rotatable plugs, plug engages with core, with paper tape on core and finish the core coiling, every plug all extends to the second plug end from the first plug end, every plug all is bearing on the turret assembly, rotate independently around the plug axis, and every plug all is being driven in a closed plug track and is moving, this track has a predetermined cored part, and a predetermined band twines predetermined depoling part of partial sum;

A cored device, it is transported to core on the plug during the cored componental movement of closed plug track at plug; And

A depoling device, when plug during along the predetermined depoling componental movement of closed plug track, the core that it finishes each coiling takes off from the plug at its place.

23., it is characterized in that turret assembly rotates continuously, and preferably with constant cireular frequency rotation according to the described band wind of claim 22.

24., it is characterized in that the distance between plug and the turret assembly axis is as the function of plug along the position that closed trajectory moves according to claim 22 or 23 described band winds.

25., it is characterized in that second end of every plug is releasably being supported according to claim 22,23 or 24 described band winds when the part of closed plug track is moved;

Second end of every plug be not supported when at least a portion of the closed plug track between depoling partial sum band wound portion is divided is moved;

The band wind comprises the supporting of at least one plug, is used between first end of moving plug and second end that is not supported the plug that support motion releasably;

The band wind preferably includes the supporting of one first plug, so as plug when at least a portion of closed plug track cored part is moved between first end of plug and second end that is not supported the plug of support motion releasably;

The band wind preferably includes the supporting of one second plug, so as when plug to move between the cored partial sum band wound portion of closed plug track is divided between first end of plug and second end that is not supported the plug of support motion releasably;

At least one plug supporting comprises the rotation plug supporting with rotation plug area supported;

The best vicissitudinous radius of rotation plug area supported;

The supporting of rotation plug preferably includes a spiral plug area supported; And

The best vicissitudinous pitch of helix plug area supported.

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