CN105752754B - Weaving loom - Google Patents

Abstract

The present invention relates to a kind of weaving looms, have the processing group being made of multiple stations, wherein each station carries out drawing-off and deformation at least one yarn.For winding yarn, provided with two winding groups with multiple winder units, the two winding groups are disposed adjacently to one another in winding stand, wherein winder unit is orientated in a manner of parallel opposed.In order to obtain automation drum-changing for all stations, the opposed winder unit of the two winding groups all has the auxiliary device for yarn guidance, which is maintained on pivotable bracket and can be diverted the winder unit.

Description

Weaving loom

Technical field

The present invention relates to a kind of weaving loom, which includes the processing group being made of multiple stations, wherein each station Drawing-off and deformation are carried out at least one yarn；And two winding groups being made of multiple winder units, for group will to be processed Winding thread into reel, described two winding groups are disposed adjacently to one another in winding stand, and wherein winder unit is with parallel right The mode set is orientated.

Background technique

From common weaving loom a kind of known to DE 102013109530A1 (CN 103668614).

In known weaving loom, yarn treatment occurs on multiple individual stations, and organisation of working is disposed in described In station, to form thread path.Therefore, during manufacturing so-called textured yarn, usually by multiple organisation of working (examples Such as, multiple yarn guiding disks, heating unit, cooling unit, deformation unit and network unit) it is arranged in thread path, thus can be with Realize short as far as possible yarn movement and and then station arrangement compact as far as possible.In the case, it is usually only guided in each station Single yarn.When processing terminate, 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, which sets significantly more than for station Machine-wide.Therefore, in this weaving loom, these winder units are mutually overlapped cloth up and down preferably in the form of multilayer It sets, so that multiple stations are maintained in the machine-wide of winder unit in mode adjacent to each other.In the form of multilayer mutually on The winder unit that lower overlapping is kept then forms a winding group, it is associated with the processing group being made of multiple stations.Then, institute It states processing group and winding group forms machine section.

In the weaving loom disclosed in DE 102013109530A1, in order to guarantee there was only a small amount of layer in winding stand, if There are two winding groups being made of multiple winder units, they attach to the processing group being made of multiple stations.

The winder unit of the winding group is mutually opposed in winding stand, thus the operability of these individual winder units It is considerably restricted.On the one hand, it is desirable to have machine unit compact as far as possible so as to fitting machine in a space-saving manner Device；On the other hand, it is desirable to guarantee that all mechanisms have good accessibility and operability.Therefore, especially in winder unit Regular drum-changing is had to carry out, interrupts operating winding in the process, until changing the bobbin that winding finishes with new bobbin.

Summary of the invention

Therefore, the purpose of the present invention is to improve the weaving loom of type described in foreword, make it possible to two volumes in winding stand Efficient drum-changing is executed on the winder unit of winding.

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

According to the first aspect of the invention, the purpose is so realized, that is, set between the opposed winder unit of winding group At least one auxiliary device for yarn guidance is set, which is maintained on pivotable bracket and can be diverted volume Around unit to execute drum-changing.

Feature in following aspect and favourable improvement scheme of the invention is defined in the combination of feature:

According to the second aspect of the invention, the winder unit of described two winding groups is overlapped cloth with multilayer form up and down It sets, and the upper and lower arranged superposed of multiple auxiliary devices is to be distributed between the winder unit.

According to the third aspect of the invention we, the bracket is connected to rotary drive mechanism, and the bracket can be by means of institute It states rotary drive mechanism and is directed to the different location between the winder unit.

According to the fourth aspect of the invention, the winder unit of described two winding groups all has for receiving wherein one The entrance side of yarn described in root, and the auxiliary device is arranged in one opposite with the entrance side of the winder unit Side.

According to the fifth aspect of the invention, the winder unit of described two winding groups all has for receiving wherein one The entrance side of one thread, and the auxiliary device is arranged in the entrance side of the winder unit.

According to the sixth aspect of the invention, the auxiliary device has for two winder units or each winder unit At least one suction intake and a cutter device.

According to the seventh aspect of the invention, the auxiliary device has for yarn to be guided a winding thereto Unit guides yarn guide to two winder units.

According to the eighth aspect of the invention, the winder unit mutually opposed in one layer is maintained as about the volume It is in mirror symmetry around the winding stand center of frame.

According to the ninth aspect of the invention, the winder unit mutually opposed in one layer is maintained as mutually staggering.

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

According to the eleventh aspect of the invention, those of arranged superposed winding is single up and down in the wherein one winding group Member is identical relative to the dislocation of the opposed winder unit of winding group described in another.

According to the twelfth aspect of the invention, the winder unit of described two winding groups all has for having wound Complete bobbin carries out the doffing side of doffing, and the doffing side of the winder unit of described two winding groups is arranged in institute It states in two winding stand longitudinally outboards of winding stand.

According to the thirteenth aspect of the invention, the winder unit has bobbin pallet and bobbin in the doffing side Library.

According to the fourteenth aspect of the invention, the entrance side of the winder unit all has traversing unit, the traversing unit It is located at the corresponding driven roller of the winder unit and the front of bobbin cradle on thread path.

In order to preferably alternately complete drum-changing by auxiliary device in two winder units, winder unit is thus Can by mutually from it is closer in a manner of be placed in winding stand.Because of movable property (the auxiliary dress of the auxiliary device Setting can be guided back and forth preferably between resting guard and operating position by pivotable bracket), thus can bobbin more It changes and executes yarn guidance on each winder unit.

In the case where there are multiple stations in processing group, such weaving loom improvement project is preferably implemented: the two volumes The winder unit of winding is with arranged superposed above and below multilayer form, and arranged superposed is described to be distributed in up and down for multiple auxiliary devices Between winder unit.Therefore the drum-changing of the winder unit of upper and lower arranged superposed can carry out independently of each other.Overlapping cloth up and down The auxiliary device set can be started independently of each other in winding group.

In order to drum-changing automation and provide, the bracket of the auxiliary device is connected to rotary drive mechanism, described Bracket can be directed to the different location between the winder unit by the rotary drive mechanism.Then, the rotary driving machine Structure can be connected to the control device that winding signal is received from winder unit.Then, such as according to diameter detection or length of yarn Detection, can determine that winding terminates, the starting of drum-changing is thus caused in control device.

According to respective arrangement of the winder unit in winding stand, however, it would be possible to which there are two types of alternatives by the auxiliary device It is associated with winder unit.In the first modification, auxiliary device is arranged in that side opposed with entrance side of winder unit.Winding The entrance side of unit determines the side for receiving yarn in the case.In the case, auxiliary device is located at yarn movement side Upwards, yarn can be guided without large deviation thus during drum-changing.

But auxiliary device can also be arranged in the entrance side of winder unit.In the case, in drum-changing mistake Cheng Zhong, it might even be possible to just be able to guide yarn before yarn moves into winder unit.

In order to interrupt the winding operation in winder unit, auxiliary device has at least the one of two winder units A suction intake and a cutter device, or alternatively, auxiliary device all has a pumping for each winder unit Suction inlet and a cutter device.Therefore, yarn can be cut and can be guided by suction intake at the end of winding operation To yarn container.For this purpose, suction intake is connected to vacuum source.

In the case where needing additional yarn to guide to capture and to take over yarn, using such auxiliary device modification, That is setting yarn guide guides yarn to winder unit.In the case, auxiliary device can be optionally configured to have For a yarn guide of two winder units, or all have a yarn guide for each winder unit.

In order to handle yarn at identical conditions, such improvement project of the present invention is provided, that is, mutually right in one layer The winder unit set is arranged about the winding stand center of winding stand in mirror symmetry.

In addition, being provided to optimize the guidance of the yarn in winder unit, by mutually opposed winding list in one layer Member is arranged to mutually stagger.Therefore, identical yarn sequence and yarn guidance can be realized in mutually opposed winder unit.

It is, however, preferable that the dislocation between two opposed winder units is less than the width for the bobbin being wound, thus into Intersect to the operating position of yarn and auxiliary device.

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

In principle, it is possible to which multiple winding groups independently to be distributed to a processing group in weaving loom with machine type.For Improve automation winder unit, preferably so realizes improvement project of the invention, that is, the winder unit of two winding groups is equal Doffing side with the doffing side for winding the bobbin doffing finished, and the winder unit of the two winding groups is arranged in volume In two winding stand longitudinally outboards of frame.Thus it is possible to realize effective automation measure.

In addition, each winder unit has bobbin support in doffing side to guarantee that bobbin is drawn off with bare bobbin with providing in turn Disk and bobbin library.Thus in automation weaving loom, Cylinder feeder and bobbin draw off and can carry out from same channel.In this situation Under, each winding group is associated with an individual worker channel.

In winding group, multiple winder units all have traversing unit in their entrance side, and the traversing unit is in yarn It is located at before driven roller and movable bobbin cradle on thread path.Therefore, yarn can be wound into cross winding bobbin.

Detailed description of the invention

In order to which the present invention is explained further, hereinafter reference will be made to the drawings some exemplary realities of weaving loom of the invention are described in detail Apply mode, in which:

Fig. 1 schematically shows the cross-sectional view of the first illustrative embodiments of weaving loom according to the present invention,

Fig. 2 is schematically shown specifically the longitudinal section 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 another illustrative embodiments of weaving loom according to the present invention,

Fig. 6 schematically shows the top view of the winding stand of the illustrative embodiments of Fig. 5,

Fig. 7 schematically shows the cross-sectional view of another illustrative embodiments of weaving loom according to the present invention.

Reference signs list

1.1,1.2 stations

2 loom frameworks

2.1 processing frames

2.2 winding stand

2.3 support frame

3 worker channels

4 original silk racks

5 doffing channels

6.1,6.2 conveying 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 reheating units

14 network units

15.1,15.2 auxiliary devices

16 are fed for package

17 yarns

18 spare packages

19 bobbin cradles

20 bobbin pallets

21 bobbin libraries

22 conveying axis

23 driven rollers

24 pressure rolls

25 traversing units

26 brackets

27 bobbins

28.1,28.2 winding stand longitudinally outboards

29 winding stand centers

30.1,30.2 half of machine

31 rotary drive mechanisms

32 entrance sides

33 doffing sides

35 guiding mechanisms

36 suction intakes

37 cutter devices

38 yarn guides

Specific embodiment

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

The illustrative embodiments of the weaving loom, which have, to be disposed adjacently to one another in loom framework 2 and forms processing group Multiple stations.Fig. 1 shows the cross-machine of one of station 1.1.The configuration of the station is identical, therefore under Station 1.1 as the example of all stations is described in text by referring to Fig.1.

In station 1.1, yarn 17 is received from the package 16 that is fed in original silk rack 4 by the first conveying device 6.1 first. First conveying device 6.1 and subsequent conveying device 6.2 form so-called deformed area, deform yarn 17 in the deformed area. In the deformed area formed by conveying device 6.1 and 6.2, heating unit 8, cooling unit 9 and deformation unit 10 are mobile in yarn It is continuously arranged on direction.Further, yarn 17 is directed to network unit 14, then defeated in third conveying device 6.3 and the 4th It send and is directed over reheating unit 13 between device 6.4.Reheating unit 13 forms secondary treatment region, thus in yarn The shrink process to yarn 17 is completed when line tension (yarn tension can be adjusted between conveying device 6.3 and 6.4) is lower.

Reheating unit 13 and conveying device 6.3 are only for being optional for the secondary treatment situation of yarn.If Thread material does not need to receive secondary treatment, then station 1.1 is designed to do not have reheating unit 13 and conveying device 6.3。

Winder unit 11.1 is set in the end of station 1.1, belongs to first volume winding 12.1 and is set up directly on conveying After device 6.4.Yarn 17 is guided to winder unit 11.1 via guiding mechanism 35.Then, yarn 17 is by means of winding group 12.1 winder unit 11.1 is wound into bobbin 27.

It is maintained on loom framework 2 by the organisation of working that station 1.1 and the unshowned adjacent stations of Fig. 1 are constituted.For This purpose, loom framework 2 are made of multiple portions, and are formed in processing frame 2.1, winding stand 2.2 and support frame 2.3 On, support frame as described above is arranged on processing frame 2.1 and winding stand 2.2.

As that can be learnt from the view of Fig. 1, Fig. 2 and Fig. 3, two winding groups with multiple winder units 11.1 to 11.6 12.1 and 12.2 are arranged in winding stand 2.2 in mode adjacent to each other, and these winder units are in a manner of parallel opposed Orientation.First winding stand longitudinally outboard of the winder unit 11.1,11.2 and 11.3 of first volume winding 12.1 along winding stand 2.2 28.1 with the formal lower arranged superposed of multilayer.

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

As will be especially learnt 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 There is the machine-wide indicated by reference letter B on winding stand 2.2.Machine-wide B is formed for the numerous of each processing group The grid of station.Then, it includes totally six stations that Fig. 4, which shows processing group 7,.These stations 1.1 to 1.6 are on loom framework 2 Machine-wide B is formed, which corresponds to the machine-wide B of winding group 12.1.The two winding groups 12.1 and 12.2 Winder unit 11.1 to 11.6 is attached in the station 1.1 to 1.6 of processing group 7.

Fig. 1, Fig. 2 and the configuration having the same of winder unit shown in Fig. 3 11.1 to 11.6 are simultaneously designed to auto reeling Unit.Each winder unit 11.1 to 11.6 of the two winding groups 12.1,12.2 all has bobbin cradle 19,20 and of bobbin pallet Bobbin library 21.Bobbin cradle 19 is pivotally maintained in winding stand 2.2 at shaft and cooperates with motor driven rolls 23. On thread path, traversing unit 25 is equipped in the front of driven roller 23.It is single that driven roller 23 and traversing unit 25 are arranged in winding The entrance side 32 of member 11.1, bobbin pallet 20 and bobbin library 21 are arranged in the doffing side 33 of winder unit 11.1.

Especially as shown in Figure 1, the winder unit 11.1 to 11.3 of winding group 12.1 is attached with its entrance side 32 to winding stand 2.2 winding stand center 29.It is located at the winder unit 11.4,11.5 and 11.6 in multilayer in a manner of opposed equally with its entrance side 32 attach to the winding stand center 29 of winding stand 2.2.

As one of the illustrative embodiments of weaving loom of the invention, the winding stand center 29 of winding stand 2.2 forms institute State the plane of mirror symmetry between two winding groups 12.1,12.2.

At the winding stand center 29 of winding stand 2.2, for the cylinder in a wherein winder unit 11.1 to 11.6 Multiple auxiliary devices 15.1,15.2 and 15.3 of yarn guidance are carried out in sub- replacement process with the formal lower overlapping cloth of multilayer It sets.In each layer, one of them described auxiliary device 15.1 to 15.3 is maintained at the phase of described two winding groups 12.1,12.2 Mutually between opposed winder unit 11.1 to 11.6.Then, opposed 11.1 He of winder unit of the lower layer in winding stand 2.2 11.4 are associated with auxiliary device 15.1, and the opposed winder unit 11.2 and 11.5 in the middle layer in winding stand 2.2 is associated with auxiliary Device 15.2, and the opposed winder unit 11.3,11.6 on upper layer is associated with auxiliary device 15.3.

As can be especially learnt from the view of Fig. 2 and Fig. 3, auxiliary device 15.1,15.2 and 15.3 having the same is set Meter.

Each auxiliary device 15.1,15.2 and 15.3 all has pivotable bracket 26, which is connected to Rotary drive mechanism 31.Bracket 26 has movable yarn guide 38, cutter device 37 and suction intake 36 in its top side, is pumped into Mouth 36 is connected to yarn container not shown here by pipeline.Yarn guide 38, cutter device 37 and suction intake 36 pass through Bracket 26 is maintained at resting guard.Once bobbin 27 winds in a wherein winder unit and finishes, then pass through rotation driving Mechanism 31 come make bracket 26 pivot so that yarn guide 38, cutter device 37 and suction intake 36 towards corresponding winder unit with Execute drum-changing.

In Fig. 3, the auxiliary device 15.3 in operating position is illustrated with dashed lines.In the case, yarn guide 38, cut It cuts device 37 and suction intake 36 is worked well and prepared and towards winder unit 11.3.

It is not shown here function during drum-changing of the auxiliary device 15.3 in winder unit 11.3.Such as in US This sequence for the more creeling in winder unit is sufficiently disclose and described in 6,189,826.Therefore, referring to the public affairs Document is opened, only substantially describes the sequence herein.

In order to execute drum-changing, stop traversing unit 25 first.At the same time, bobbin cradle 19 turns to cylinder together with bobbin 27 Sub- pallet 20.In the case, yarn guide 38 start to work so as in the form of ring by the yarn feeding of feeding to cutter device 37 and suction intake 36.Yarn is cut off, so that the yarn of feeding can be continuously vented via suction intake 36.

After bobbin is laid down and bobbin cradle 19 receives the new bobbin from bobbin library 21, which is maintained at drive On the circumferential surface of dynamic roller 23 and driven.In order to roll up upper yarn, yarn is received by yarn guide 38 again and yarn is brought to bobbin cradle Yarn device is held in the month on 19 to take over yarn.Thus terminate drum-changing, and auxiliary device 15.3 is refitted in resting guard.

In order to optimize yarn guidance when drum-changing, in winding stand 2.2, in the volume of two winding groups 12.1,12.2 Dislocation is formed between unit 11.1 to 11.3 and winder unit 11.4 to 11.6.Fig. 3 shows the dislocation with reference letter V. Dislocation V between two winding groups 12.1 and 12.2 allows to improve by center auxiliary device 15.1 to 15.3 mutually opposed Yarn guidance at winder unit.

As that 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 Frame longitudinally outboard 28.1 and 28.2.Therefore wind the bobbin 27 that finishes via worker channel 3 and can directly fall from winding stand 2.2 Cylinder channel 5 is removed.In addition, the worker channel 3 for being located at winding stand 2.2 and processing between frame 2.1 can be used for operating processing Organisation of working in the station 1.1 to 1.6 of group 7.

Fig. 4 schematically shows the organisation of working towards worker channel 3 on processing frame 2.1.Fig. 4 shows processing group 7 Adjacent station 1.1 to 1.6.At processing frame 2.1, processing group 7 has machine-wide B, which is equal to winding The machine-wide of group 12.1.In the upper-side area of processing frame 2.1, the deformation unit 10 of station 1.1 to 1.6 is retained phase Mutually dislocation, to realize space as narrow as possible.It is second in the form of circulating type conveying device after deformation unit 10 Conveying device 6.2 and third conveying device 6.3, each above-mentioned conveying device all have driving yarn guiding disk and deflection roll.Network list Member 14 is arranged between conveying device 6.2 and 6.3.In this arrangement form, station 1.1 of every one thread 17 in processing group 7 It is individually handled on to 1.6.

It is not shown here the underside area of processing frame 2.1.Reheating unit 13 is arranged in the underside area, this two Secondary heating unit has multiple heating pipes of the heat treatment for yarn 17.

As can be especially learnt from Fig. 2 and Fig. 3, the 4th conveying device 6.4 is formed by the conveying axis 22 of center driven, Pressure roll 24 is equipped on the circumferential surface of the conveying axis for each winder unit 11.1 to 11.6.The yarn of feeding from station Line is then guide further between conveying axis 22 and one of pressure roll 24.

As that can learn from the view of Fig. 1, the remaining organisation of working in station 1.1 to 1.6 is maintained at processing frame The top of frame 2.1 and winding stand 2.2 is located on support frame 2.3.But can specifically mention herein, organisation of working station 1.1 to Distribution and arrangement in 1.6 are only exemplary.To weaving loom of the invention importantly, being associated with the two of a processing group A winding group is placed in a winding stand.

Original silk rack 4 is positioned laterally adjacent with loom framework 2, which is that the holding of each station 1.1 to 1.6 is fed for Package 16 and spare package 18.Package 16 and spare package 18 are fed in the case with the formal lower arranged superposed of multilayer.

In the illustrative embodiments of such as Fig. 1 to weaving loom of the present invention as shown in Figure 4, only describing has totally six One processing group of station.In principle, this weaving loom can have multiple processing groups.In this case, these processing group edges Machine longitudinal direction side is disposed adjacently to one another, and each processing group is associated with two winding groups for winding bobbin.

In the illustrative embodiments of weaving loom of the invention as shown in Figure 1, auxiliary device 15.1,15.2 and 15.3 It is associated with the entrance side 32 of the winder unit 11.1 to 11.6 of winding group 12.1,12.2.In the case, auxiliary device 15.1 Same side is arranged in for winder unit to 15.3 and traversing unit 25.But in principle it is also possible that these auxiliary devices 15.1 to 15.3 and traversing unit 25 be associated with it is not ipsilateral in winder unit.Fig. 5 and Fig. 6 is with the cross-sectional view of winding stand and bows View shows such illustrative embodiments.According to the illustrative embodiments of Fig. 5 and Fig. 6 substantially with the example according to Fig. 1 Property embodiment it is identical, therefore this explain difference.

In the illustrative embodiments of weaving loom of the invention as shown in Figure 5, the winding list of winding group 12.1,12.2 Member 11.1 to 11.6 is maintained as so that winding stand center 29 of the entrance side 32 far from winding stand 2.2.Auxiliary device 15.1 to 15.3 are arranged in winding stand center 29, are located between two winding groups 12.1 and 12.2.

In the case, yarn 17 is supplied to winder unit 11.1 by two individual conveying devices 6.4,6.5 To 11.6.In winding stand 2.2, individual guiding mechanism 35 is equipped with behind conveying device 6.4,6.5, so as to by yarn 17 It supplies to winder unit 11.1 to 11.6.

As that can be learnt from the view of Fig. 6, in winding stand 2.2, the winder unit 11.1 of first volume winding 12.1 to 11.3 and volume Two winding 12.2 winder unit 11.4 to 11.6 be maintained as it is mutually opposed, without any dislocation.Winding is single Member 11.1 to 11.3 and winder unit 11.4 to 11.6, which are parallel to each other, to be orientated and is co-located in a cross-machine.

The design having the same of auxiliary device 15.1 to 15.3, Fig. 6 merely illustrate auxiliary device 15.3.Auxiliary device 15.1 It is essentially identical with previous illustrative embodiments to 15.3.But it in the case, is provided with and leads for each winder unit Yarn device 38, cutter device 37 and suction intake 36.Then, there are two yarn guide 38, two that mirror symmetry is arranged for the tool of bracket 26 Cutter device 37 and two suction intakes 36.Drum-changing can be thus carried out simultaneously in two winder units 11.6 and 11.3.

In the structural embodiment of winder unit 11.1 to 11.6 as shown in Figure 5 and Figure 6, auxiliary device 15.1 to 15.3 can also be respectively advantageously designed to only cutter device 37 and suction intake 36, they are for example protected in a manner of mobilizable It holds on bracket 26, and corresponding winder unit will be turned to when carrying out drum-changing.Then, when bobbin cradle is just being pivoted When, yarn can be to be automatically guided to cutter device and suction intake.It, can be by means of by staying in the yarn in traversing unit In capture and volume of the control of traversing unit to realize yarn.

In fact, the weaving loom is preferably incorporated into so-called reciprocating machine, to obtain high density in building Station.Weaving loom of the invention is particularly suitable as so-called reciprocating machine.In this regard, Fig. 7 shows exemplary embodiment party Formula, these loom frameworks 2 and 2 ' are directly placed in a manner of against each other at this time.Separation between loom framework 2 and 2 ' Mirror symmetry axis is formed, two halves machine 30.1 and 30.2 is mirror symmetry arrangement about the mirror symmetry axis.Right side Half machine 30.1 has design identical with the illustrative embodiments according to Fig. 1, therefore referring to above description.The other half machine Device 30.2 is mirror symmetry in terms of the arrangement of organisation of working, station and the winder unit with same configuration.

The difference of weaving loom of the invention in particular, in that, although multiple winding groups all have is overlapped cloth with multilayer form up and down The multiple winder units set, but automatic drum-changing is ensured in each station.In addition, the center for being located at winding stand center assists Device facilitates the on-unit when processing beginning.

Claims (14)

1. a kind of weaving loom, which is included

The processing group being made of multiple stations, wherein each station carries out drawing-off and deformation at least one yarn；And

Two winding groups being made of multiple winder units, it is described two for by the winding thread into reel of the processing group Winding group is disposed adjacently to one another in winding stand, wherein and the winder unit is orientated in a manner of parallel opposed,

It is characterized in that, being provided between opposed two winder unit of the winding group for the multiple auxiliary of yarn guidance An auxiliary device in device is helped, wherein the auxiliary device is maintained on pivotable bracket and can alternately be turned to Described two winder units are to execute drum-changing.

2. weaving loom according to claim 1, which is characterized in that the winder unit of described two winding groups is with multilayer Formal arranged superposed down, and the upper and lower arranged superposed of multiple auxiliary devices is to be distributed between the winder unit.

3. weaving loom according to claim 1 or 2, which is characterized in that the bracket is connected to rotary drive mechanism, institute The different location between the winder unit can be directed to by means of the rotary drive mechanism by stating bracket.

4. weaving loom according to claim 1, which is characterized in that the winder unit of described two winding groups all has For receiving the entrance side of a wherein yarn, and the auxiliary device be arranged in the winder unit with it is described enter The opposite side in mouth side.

5. weaving loom according to claim 1, which is characterized in that the winder unit of described two winding groups all has For receiving the entrance side of a wherein one thread, and the auxiliary device is arranged in the entrance side of the winder unit.

6. weaving loom according to claim 1, which is characterized in that the auxiliary device have for two winder units or At least one suction intake of each winder unit and a cutter device.

7. weaving loom according to claim 6, which is characterized in that the auxiliary device has for guiding yarn to it In a winder unit or guide yarn guide to two winder units.

8. weaving loom according to claim 1, which is characterized in that the mutually opposed winder unit is protected in one layer It holds to be in mirror symmetry about the winding stand center of the winding stand.

9. weaving loom according to claim 1, which is characterized in that the mutually opposed winder unit is protected in one layer It holds to mutually stagger.

10. weaving loom according to claim 9, which is characterized in that the dislocation between two opposed winder units Less than the width of the bobbin of one of winding.

11. weaving loom according to claim 9 or 10, which is characterized in that weighed up and down in the wherein one winding group It is identical that laying up, which those of sets winder unit relative to the dislocation of the opposed winder unit of winding group described in another,.

12. weaving loom according to claim 1, which is characterized in that the winder unit of described two winding groups has There is the bobbin for finishing to winding to carry out the doffing side of doffing, and the winder unit of described two winding groups is described Doffing side is arranged in two winding stand longitudinally outboards of the winding stand.

13. weaving loom according to claim 12, which is characterized in that the winder unit has cylinder in the doffing side Sub- pallet and bobbin library.

14. weaving loom according to claim 1, which is characterized in that the entrance side of the winder unit all has traversing list Member, the traversing unit are located at the corresponding driven roller of the winder unit and the front of bobbin cradle on thread path.