CN105752753A - Textile machine - Google Patents

Abstract

The invention relates to a textile machine. The textile machine comprises a processing group with multiple stations, wherein each station is used for performing drafting and texturizing on at least one piece of yarn; in order to wind yarn, two winding groups provided with multiple winding units are arranged and are adjacently distributed in a winding bracket, and the winding units are oriented in a parallelly opposite manner. Aiming to obtain consistent yarn guidance for all the stations as far as possible, the winding units of the two winding groups are all provided with inlet sides for receiving one piece of yarn, and the inlet sides of the winding units of the two winding groups are designed to be located in sides close to the winding bracket center of the winding bracket.

Description

Weaving loom

Technical field

The present invention relates to a kind of weaving loom, this weaving loom has: the processing group being made up of multiple stations, and wherein at least one one thread is carried out drawing-off and deformation by each station；And two the winding groups being made up of multiple winder units, for by the winding thread into reel of described processing group, said two winding group is disposed adjacently to one another in winding stand, wherein, and described winder unit orientation in the way of parallel opposed.

Background technology

From the known a kind of common weaving loom of DE102013109530A1 (CN103668614).

In known weaving loom, yarn treatment occurs on multiple independent stations, and organisation of working is disposed in described station, to form thread path.Therefore, in the process manufacturing so-called textured yarn, generally by multiple organisation of workings (such as, multiple yarn guiding disks, heating unit, cooling unit, deformation unit and NE) be arranged in thread path, thus can realize as far as possible short yarn movement and and then as far as possible compact station arrange.In the case, generally single yarn is only guided at each station.When process terminates, yarn is wound into bobbin, thus each station is associated with a winder unit.But due to bobbin width, these winder units need specific machine-wide, and this particular machine width is significantly more than the machine-wide set for station.Therefore, in this weaving loom, these winder units are preferably with the form of multilamellar upper and lower arranged superposed mutually, thus multiple station is maintained in the machine-wide of winder unit in the way of adjacent one another are.Then forming a winding group with the winder unit of the form of multilamellar overlapping maintenance up and down mutually, it is associated with the processing group being made up of multiple stations.Then, described processing group and winding group form machine section.

In the weaving loom disclosed in DE102013109530A1, in order to ensure layer only a small amount of in winding stand, being provided with two the winding groups being made up of multiple winder units, they are attached troops to a unit to the processing group being made up of multiple stations.But, have multiple winding group being disposed adjacently to one another as a result, yarn in the station of this processing group must move through the guiding distance of the different length as far as winding point.In addition, it is desirable to the yarn being fed to winding group must scatter in winding stand.The yarn needed for this guides mechanism according to guiding distance to cause the less several contact points on yarn, thereby results in Yarn tension fluctuation.But may want in principle manufacture in each station and each winder unit and wind the yarn with same performance.

Summary of the invention

Therefore, it is an object of the invention to improve the weaving loom of type described in foreword so that yarn can be guided to winding group when trying one's best identical.

It is another object of the present invention to improve the operational capacity of the winder unit in winding group.

According to the first aspect of the invention, so realize this purpose, namely, the winder unit of two winding groups is respectively provided with the entrance side for receiving a wherein one thread, and the described entrance side of the described winder unit of said two winding group is designed to be located close in those sides at the winding stand center of winding stand.

Feature in following aspect and define the favourable improvement project of the present invention in the combination of feature:

According to the second aspect of the invention, between described winding group, it is provided with one in the described winding stand center of described winding stand for the yarn guidance unit by yarn distribution to described winder unit.

According to the third aspect of the invention we, between described winding group, it is provided with multiple for the yarn guidance unit by yarn distribution to described winder unit in the described winding stand center of described winding stand.

According to the fourth aspect of the invention, the described winder unit of said two winding group is respectively provided with the doffing side for the complete bobbin of winding carries out doffing, and the described doffing side of the described winder unit of said two winding group is arranged in two winding stand longitudinally outboards of described winding stand.

According to the fifth aspect of the invention, described winder unit all has bobbin pallet and bobbin storehouse in described doffing side.

According to the sixth aspect of the invention, the entrance side of described winder unit is respectively provided with traversing unit, and this traversing unit is positioned at the front driving roller and bobbin cradle of corresponding described winder unit on thread path.

According to the seventh aspect of the invention, the described bobbin cradle of described winder unit is all connected to described winding stand via rotating shaft, and described rotating shaft is associated with described entrance side or described doffing side in described winder unit.

According to the eighth aspect of the invention, the described winder unit of said two winding group is with the upper and lower arranged superposed of multilayer form, and it is specular that described winder unit mutually opposing in a layer is retained as the described winding stand center about described winding stand.

According to the ninth aspect of the invention, the described winder unit of said two winding group is with the upper and lower arranged superposed of multilayer form, and described winder unit mutually opposing in a layer is retained as and mutually staggers.

According to the tenth aspect of the invention, the dislocation between two opposed described winder units is less than the width of the described bobbin of one of them winding.

According to the eleventh aspect of the invention, wherein in a described winding group up and down those winder units of arranged superposed be identical relative to the dislocation of the opposed described winder unit of winding group another described.

The present invention is distinctive in that, the yarn sheet of processing group is directed to winding group together.It is identical as far as the yarn travel at winding group last supply unit above for all yarns.It addition, all yarn feeding winding groups are produced the advantage that by the winding stand center of rolled frame, i.e. the possible supplementary means guided for yarn can be adopted in a position on machine in a concentrated manner.

Therefore, in principle it is possible that between described winding group, arrange one in the winding stand center of winding stand for the yarn guidance unit by yarn distribution to winder unit.

But, or can also, between described winding group, arrange multiple for the yarn guidance unit by yarn distribution to winder unit in the winding stand center of winding stand.In the case it is essential that the yarn of processing group is supplied to the opposed winder unit of winding group under the same conditions.

In principle, it is possible to the processing group independently multiple winding components being assigned to corresponding machine type in weaving loom.Thus it is possible to carry out manual drum-changing or automatic drum-changing in the winder unit of winding group.But when involving automatization's winder unit, preferably so realize the improvement project of the present invention, namely, the winder unit of the two winding group is respectively provided with the doffing side of the doffing for winding complete bobbin, and the doffing side of the winder unit of the two winding group is arranged in two winding stand longitudinally outboards of winding stand.Thus it is possible to realize the measure of effective automatization.

It addition, for ensure bobbin draw off with bare bobbin follow-up and specify, described winder unit all has bobbin pallet and bobbin storehouse in doffing side.Therefore, in automatization's weaving loom, Cylinder feeder and bobbin draw off and can carry out from same passage.In the case, each winding group is associated with independent workman's passage.

In this winding group, these winder units are respectively provided with traversing unit at its entrance side, and described traversing unit is positioned at the front driving roller and movable bobbin cradle on thread path.Therefore, yarn can be wound into cross winding bobbin.

The bobbin cradle of described winder unit is preferably both and is connected to winding stand via rotating shaft, and described rotating shaft is associated with entrance side or doffing side in winder unit.This brings the design freedom adding bobbin pallet and bobbin storehouse in winder unit particularly with automation process.

In order to process yarn at identical conditions, provide following improvement project of the present invention, that is, the winder unit of two winding groups upper and lower arranged superposed mutually in the way of multilamellar, winder unit mutually opposing in a layer be specular layout about the winding stand center of winding stand.

In order to yarn distribution is being obtained better effect and also is avoiding yarn to collide to the process of the winder unit of two winding groups, provide following improvement project of the present invention, namely, the winder unit of two winding groups upper and lower arranged superposed mutually in the way of multilamellar, winder unit mutually opposing in a layer is retained as mutual dislocation.Therefore, the yarn distribution in two winding groups and yarn feeding can be optimized.

But the dislocation between two opposed winder units is preferably less than the width of one of them bobbin being wound.

When arranged superposed is in winding group up and down mutually for multiple winder units, it is identical relative to the dislocation of the adjacent windings unit of adjacent windings group.

Accompanying drawing explanation

In order to the present invention is explained further in detail, some illustrative embodiments of the weaving loom of the present invention are described in detail hereinafter with reference to accompanying drawing, wherein:

Fig. 1 schematically shows the longitudinal section of the first illustrative embodiments of the weaving loom of the present invention,

Fig. 2 is schematically shown specifically the cross-sectional view of the winding stand of the illustrative embodiments of Fig. 1,

Fig. 3 schematically shows the top view of the winding stand of the illustrative embodiments of Fig. 1,

Fig. 4 is schematically shown specifically the side view of the illustrative embodiments of Fig. 1,

Fig. 5 schematically shows the cross-sectional view of the another exemplary embodiment of the weaving loom of the present invention,

Fig. 6 schematically shows the cross-sectional view of the another exemplary embodiment of the weaving loom of the present invention,

Fig. 7 schematically shows the cross-sectional view of the another exemplary embodiment of the weaving loom of the present invention.

Reference numerals list

1.1,1.2 stations

2 loom frameworks

2.1 processing frameworks

2.2 winding stands

2.3 bracing frames

3 workman's passages

4 original silk racks

5 doffing passages

6.1,6.2 conveyer devices

7 processing groups

8 heating units

9 cooling units

10 deformation units

11.1,11.2 winder units

12.1,12.2 winding groups

13 post bake unit

14 NEs

15.1,15.2 yarn guidance units

16 are fed for package

17 yarns

18 standby packages

19 bobbin cradles

20 bobbin pallets

21 bobbin storehouses

22 conveying axis

23 drive roller

24 pressure rolls

25 traversing unit

26 rotating shafts

27 bobbins

28.1,28.2 winding stand longitudinally outboards

29 winding stand centers

30.1,30.2 half machine

32 entrance sides

33 doffing sides

35 guide mechanism

Detailed description of the invention

Fig. 1 to Fig. 4 illustrates the different views of the first illustrative embodiments of weaving loom for threads is deformed according to the present invention.Fig. 1 illustrates this illustrative embodiments with cross-sectional view, and Fig. 2 and Fig. 3 is shown specifically this illustrative embodiments with longitudinal section and the top view of winding stand.Fig. 4 schematically shows the side view of processing group.

The illustrative embodiments of this weaving loom has the multiple stations being disposed adjacently to one another in loom framework 2 and forming processing group.Fig. 1 illustrates the cross-machine of one of them station 1.1.The configuration of described station is identical, the station 1.1 that therefore will describe the example as all stations with reference to Fig. 1 hereinafter.

In station 1.1, first pass through the first conveyer device 6.1 and receive yarn 17 from the package 16 that is fed in original silk rack 4.First conveyer device 6.1 and conveyer device below 6.2 form so-called deformed area, make yarn 17 deform in this deformed area.In the deformed area formed by conveyer device 6.1 and 6.2, heating unit 8, cooling unit 9 and deformation unit 10 are arranged continuously on yarn moving direction.Further, yarn 17 is directed to NE 14, is then directed over post bake unit 13 between the 3rd conveyer device 6.3 and the 4th conveyer device 6.4.Post bake unit 13 forms after-treatment region, thus completing the shrink process to yarn 17 when yarn tension (yarn tension can be adjusted between conveyer device 6.3 and 6.4) is relatively low.

Post bake unit 13 and conveyer device 6.3 are optional only for the after-treatment situation of yarn.If thread material need not accept after-treatment, then station 1.1 is designed to do not have post bake unit 13 and conveyer device 6.3.

End at station 1.1 arranges winder unit 11.1, and it belongs to first volume winding 12.1.Yarn 17 is wound into bobbin 27 by the winder unit 11.1 of winding group 12.1.

The organisation of working being made up of the unshowned adjacent stations of station 1.1 and Fig. 1 is maintained on loom framework 2.For this purpose it is proposed, loom framework 2 is made up of multiple parts, and being formed on processing framework 2.1, winding stand 2.2 and bracing frame 2.3, support frame as described above is arranged on processing framework 2.1 and winding stand 2.2.

Such as what can learn from the view of Fig. 1, Fig. 2 and Fig. 3, two the winding groups 12.1 and 12.2 with multiple winder units 11.1 to 11.6 are arranged in winding stand 2.2 in the way of adjacent one another are, and these winder units orientation in the way of parallel opposed.The winder unit 11.1,11.2 and 11.3 of first volume winding 12.1 along the first volume frame longitudinally outboard 28.1 of winding stand 2.2 with the in form lower arranged superposed of multilamellar.

The same opposed winding stand longitudinally outboard 28.2 along winding stand 2.2 of winder unit 11.4,11.5 and 11.6 is with the in form lower arranged superposed of multilamellar.Each winder unit 11.1 to 11.6 has same configuration, and is associated with a station in the station 1.1 to 1.6 of processing group 7 respectively.

As by what especially learn from the view of Fig. 1, Fig. 2 and Fig. 4, the winder unit 11.1 to 11.3 of first volume winding 12.1 has the machine-wide indicated by reference letter B on winding stand 2.2.Machine-wide B forms the grid of the numerous stations for each processing group.Then, Fig. 4 illustrates that processing group 7 includes totally six stations.These stations 1.1 to 1.6 form machine-wide B on loom framework 2, and this machine-wide is corresponding to the machine-wide B of winding group 12.1.The winder unit 11.1 to 11.6 of the two winding group 12.1 and 12.2 is attached in the station 1.1 to 1.6 of processing group 7.

Winder unit 11.1 to 11.6 shown in Fig. 1, Fig. 2 and Fig. 3 has identical configuration, and is such as designed to auto reeling unit.Each winder unit 11.1 to 11.6 of the two winding group 12.1,12.2 is respectively provided with bobbin cradle 19, bobbin pallet 20 and bobbin storehouse 21.Bobbin cradle 19 is pivotally maintained in winding stand 2.2 at rotating shaft 26 place and coordinates with driving roller 23.On thread path, it is provided with traversing unit 25 in the front driving roller 23.Driving roller 23 and traversing unit 25 to be arranged in the entrance side 32 of winder unit 11.1, bobbin pallet 20 and bobbin storehouse 21 are arranged in the doffing side 33 of winder unit 11.1.

Especially as it is shown in figure 1, the winder unit 11.1 to 11.3 of winding group 12.1 is attached into its entrance side 32 winding stand center 29 near winding stand 2.2.The winder unit 11.4,11.5 being arranged in multilamellar in opposed mode is attached in becoming its entrance side 32 winding stand center 29 near winding stand 2.2 equally with 11.6.Exemplarily one of property embodiment, the winding stand center 29 of winding stand 2.2 can form the plane of mirror symmetry between said two winding group 12.1,12.2.

For the yarn guidance unit 15 of yarn distribution to the winder unit 11.1 to 11.6 of two winding groups 12.1 and 12.2 being arranged in the winding stand center 29 of winding stand 2.2.In this exemplary embodiment, yarn guidance unit 15 includes the conveyer device 6.4 being arranged in the winding stand region, downside of winding stand 2.2 and the multiple guiding mechanisms 35 being distributed with multilayer form, thus yarn can be assigned to each winder unit 11.1 to 11.6 from winding stand center 29.

As especially learnt from Fig. 2 and Fig. 3, the 4th conveyer device 6.4 is formed by the conveying axis 22 of center driven, is all provided with pressure roll 24 on the side face of described conveying axis for each winder unit 11.1 to 11.6.The yarn sent from station is directed between conveying axis 22 and one of them pressure roll 24.

For optimized distribution, in winding stand 2.2, between winder unit 11.1 to 11.3 and the winder unit 11.4 to 11.6 of two winding groups 12.1 and 12.2, form dislocation.Fig. 3 reference letter V illustrates described dislocation.Dislocation V between two winding groups 12.1 and 12.2 allows by means of central authorities' yarn guidance unit 15, yarn distribution to be carried out identical guide at mutually opposing winder unit place.Thus, it is not necessary to any additional guide auxiliary.Therefore the yarn of described station 1.1 to 1.6 arrives winder unit 11.1 to 11.6 through entrance side 32 and is wound into bobbin 27 respectively.

Such as what can learn from the view of Fig. 1, the doffing side 33 of winder unit 11.1 to 11.6 is associated with corresponding winding stand longitudinally outboard 28.1 and 28.2.Wind complete bobbin 27 to be therefore directly removed via workman's passage 3 and doffing passage 5 from winding stand 2.2.It addition, the workman's passage 3 between winding stand 2.2 and processing framework 2.1 may be used for the organisation of working in the station 1.1 to 1.6 of operation processing group 7.

Fig. 4 schematically shows the organisation of working on processing framework 2.1 towards workman's passage 3.Fig. 4 illustrates the adjacent station 1.1 to 1.6 of processing group 7.At processing framework 2.1 place, processing group 7 has machine-wide B, and this machine-wide is equal to the machine-wide of winding group 12.1.In the upper-side area of processing framework 2.1, the deformation unit 10 of station 1.1 to 1.6 is retained mutual dislocation, to realize space narrow as far as possible.Being the second conveyer device 6.2 and the 3rd conveyer device 6.3 of the form being circulating type conveyer device after deformation unit 10, each above-mentioned conveyer device is respectively provided with driving yarn guiding disk and deflection roll.NE 14 is arranged between conveyer device 6.2 and 6.3.In this arrangement form, every one thread 17 is individually processed on the station 1.1 to 1.6 of processing group 7.

Underside area at this not shown processing framework 2.1.Post bake unit 13 is arranged in this underside area, and this post bake unit has and adds hot channel for the heat treated multiple of yarn 17.

Such as what can learn from the view of Fig. 1, the remaining organisation of working in station 1.1 to 1.6 is maintained at the top of processing framework 2.1 and winding stand 2.2, is positioned on bracing frame 2.3.But can specifically mention at this, organisation of working distribution in station 1.1 to 1.6 and arrange merely exemplary.To the weaving loom of the present invention it is essential that two the winding groups being associated with a processing group are placed in a winding stand.

Original silk rack 4 and loom framework 2 are positioned laterally adjacent, and this original silk rack is that each station 1.1 to 1.6 keeps being fed for package 16 and standby package 18.It is fed for package 16 and standby package 18 in the case with the in form lower arranged superposed of multilamellar.

In such as Fig. 1 to the illustrative embodiments of weaving loom of the present invention as shown in Figure 4, only describe a processing group with totally six stations.In principle, this weaving loom can have multiple processing group.In this case, these processing groups are disposed adjacently to one another along machine longitudinal direction side, and each processing group is all associated with two winding groups for winding bobbin.

In the illustrative embodiments of the weaving loom of the present invention as shown in Figure 1, yarn distribution in winding stand is undertaken by yarn guidance unit 15.But in principle it is also possible that realize yarn distribution to winder unit 11.1 to 11.6 by means of two independent yarn guidance units.Fig. 5 illustrates such embodiment with cross-sectional view signal property.Illustrative embodiments according to Fig. 5 is basic identical with the illustrative embodiments according to Fig. 1, therefore explains difference at this.

In the illustrative embodiments of the weaving loom of the present invention shown in Fig. 5, two independent yarn guidance units are arranged on the winding stand center 29 of winding stand 2.2, in order to the yarn of station 1.1 to 1.6 is flowed to winder unit 11.1 to 11.6.Then, yarn guidance unit 15.1 is associated with winding group 12.1.Yarn guidance unit 15.2 is associated with winding group 12.2.The layout of the layout of the winder unit 11.1 to 11.3 of winding group 12.1 and the winder unit 11.4 to 11.6 of winding group 12.2 is identical with the embodiment according to Fig. 1, thus the entrance side 32 of winder unit 11.1 to 11.6 both faces towards the winding stand center 29 of winding stand 2.2.Yarn guidance unit 15.1 is formed by the 4th conveyer device 6.4, and yarn guidance unit 15.2 is formed by the 5th conveyer device 6.5, and multiple guiding mechanisms 35 are associated with described conveyer device respectively.

In winding stand 2.2, the layout of the winder unit 11.1 to 11.3 of first volume winding 12.1 and the winder unit 11.4 to 11.6 of volume Two winding 12.2 are retained as opposite each other without dislocation.Winder unit 11.1 to 11.3 and winder unit 11.4 to 11.6 by orientation in the way of being parallel to each other and are co-located in a cross-machine.

Specifying in the constructional variant of winder unit 11.1 to 11.6 as shown in Figure 1 and Figure 5, for drum-changing, bobbin cradle must perform the motion of relatively large radius at corresponding rotating shaft 26 place.For this purpose it is proposed, the rotating shaft 26 of the bobbin cradle 24 in winder unit 11.1 to 11.6 both faces towards doffing side 33.

In order to by freedom of motion try one's best little in the way of carry out drum-changing, it is possible to be arranged so as to bobbin cradle 24, i.e. rotating shaft 26 is attached troops to a unit to entrance side 32.For this, Fig. 6 illustrates the illustrative embodiments of the winder unit 11.1 to 11.6 of two winding groups 12.1,12.2.Illustrative embodiments according to Fig. 6 is essentially identical with the illustrative embodiments according to Fig. 1, therefore explains difference at this, in other side with reference to foregoing.

In the illustrative embodiments shown in Fig. 6, the layout of the winder unit 11.1 to 11.3 of winding group 12.1 and the winder unit 11.4 to 11.6 of winding group 12.2 are attached as making entrance side 32 near the winding stand center of winding stand 2.2.Bobbin cradle 19 is now held in rotating shaft 26 place, and this rotating shaft is arranged in the entrance side 32 of winder unit 11.1 to 11.6.Drum-changing can carry out in winder unit 11.1 to 11.6 so that bobbin cradle 19 can with relatively small degree motion.

It practice, this weaving loom is preferably incorporated in so-called reciprocating machine, to obtain high density station in building.The weaving loom of the present invention is particularly suitable as so-called reciprocating machine.Thus, Fig. 7 illustrates illustrative embodiments, and now these loom frameworks 2 and 2 ' are directly laid in the way of against each other.Being separated to form specular axis between loom framework 2 and 2 ', two halves machine 30.1 and 30.2 is that specular is arranged about this specular axis.The half machine 30.1 on right side has the design identical with the illustrative embodiments according to Fig. 1, therefore with reference to above description.Second half machine 30.2 is specular in having the layout of the organisation of working, station and the winder unit that similarly configure.

Although the difference of the weaving loom of the present invention is inter alia, in that multiple winding group is respectively provided with multiple winder units of the upper and lower arranged superposed of multilayer form, but ensure that uniform as far as possible yarn guides at each station.The on-unit when processing beginning is helped it addition, guide at the center that yarn sheet is carried out by winding stand central authorities and be assigned.

Claims (11)

1. a weaving loom, this weaving loom has:

The processing group being made up of multiple stations, wherein at least one one thread is carried out drawing-off and deformation by each station；And

Two the winding groups being made up of multiple winder units, for by the winding thread into reel of described processing group, said two winding group is disposed adjacently to one another in winding stand, wherein, described winder unit orientation in the way of parallel opposed,

It is characterized in that, the described winder unit of said two winding group is respectively provided with the entrance side for receiving a wherein one thread, and the described entrance side of the described winder unit of said two winding group is designed to be located in those sides at the winding stand center of described winding stand.

2. weaving loom according to claim 1, it is characterised in that between described winding group, is provided with one for the yarn guidance unit by yarn distribution to described winder unit in the described winding stand center of described winding stand.

3. weaving loom according to claim 1, it is characterised in that between described winding group, is provided with multiple for the yarn guidance unit by yarn distribution to described winder unit in the described winding stand center of described winding stand.

4. according to the weaving loom one of claims 1 to 3 Suo Shu, it is characterized in that, the described winder unit of said two winding group is respectively provided with the doffing side for the complete bobbin of winding carries out doffing, and the described doffing side of the described winder unit of said two winding group is arranged in two winding stand longitudinally outboards of described winding stand.

5. weaving loom according to claim 4, it is characterised in that described winder unit all has bobbin pallet and bobbin storehouse in described doffing side.

6., according to the weaving loom one of claim 1 to 5 Suo Shu, it is characterised in that the entrance side of described winder unit is respectively provided with traversing unit, this traversing unit is positioned at the front driving roller and bobbin cradle of corresponding described winder unit on thread path.

7. weaving loom according to claim 6, it is characterised in that the described bobbin cradle of described winder unit is all connected to described winding stand via rotating shaft, described rotating shaft is associated with described entrance side or described doffing side in described winder unit.

8. according to the weaving loom one of claim 1 to 7 Suo Shu, it is characterized in that, the described winder unit of said two winding group is with the upper and lower arranged superposed of multilayer form, and it is specular that described winder unit mutually opposing in a layer is retained as the described winding stand center about described winding stand.

9. according to the weaving loom one of claim 1 to 7 Suo Shu, it is characterised in that the described winder unit of said two winding group is with the upper and lower arranged superposed of multilayer form, and described winder unit mutually opposing in a layer is retained as and mutually staggers.

10. weaving loom according to claim 9, it is characterised in that the dislocation between two opposed described winder units is less than the width of the described bobbin of one of them winding.

11. the weaving loom according to claim 10 or 11, it is characterised in that in a described winding group, those winder units of upper and lower arranged superposed are identical relative to the dislocation of the opposed described winder unit of winding group another described wherein.