Yarn texturing machine

Information

  • Patent Grant
  • 6799414
  • Patent Number
    6,799,414
  • Date Filed
    Tuesday, November 25, 2003
    21 years ago
  • Date Issued
    Tuesday, October 5, 2004
    20 years ago
Abstract
A texturing machine for producing a crimped yarn and which has a plurality of serially arranged yarn processing units leading to a takeup device. A threading device is provided for threading a yarn for the first time before the start of a process. For this purpose, the threading device comprises at least one guide tube and an air injector connected thereto, with the guide tube including a suction inlet for receiving the yarn. In accordance with the invention, a cutting device is arranged in the region of the suction inlet of the guide tube, with the cutting device cutting the yarn while being threaded into the suction inlet.
Description




BACKGROUND OF THE INVENTION




The invention relates to a texturing machine for producing a crimped yarn.




To improve a melt spun yarn, it is known to crimp and draw the flat yarn in a texturing process. To this end, texturing machines are used, which comprise a plurality of processing units as well as a takeup device. The processing units, such as, for example, feed systems, heaters, cooling devices, texturing units, entanglement devices, and yarn lubricators are combined in a machine frame to result in a yarn path, which often extends over two stories of a machine.




In the case of such texturing machines, special auxiliary devices are integrated in the texturing machine, so as to make it possible to thread the yarn into the processing units at the beginning of the process. For example, FR 2 695 631 A1 discloses a texturing machine, wherein the yarn is guided by a threading device between a heater and a takeup device. To this end, the threading device includes a plurality of guide tubes, which connect to injectors and guide the yarn pneumatically from the outlet of the heater to the takeup device.




However, the texturing machine as disclosed in FR 2 695 631 A1 has the disadvantage that an operator must transfer the advancing yarn from a manually guided suction gun to a suction inlet of a guide tube. In this connection, it is necessary to position the yarn very accurately on the one hand and to cut it at the same time. Missed attempts in the yarn transfer from the suction gun to the guide tube are therefore unavoidable.




It is therefore an object of the invention to further develop a texturing machine of the initially described type such that before the start of the process an operator is able to transfer the yarn in a very safe and simple manner to a threading device for advancing the yarn pneumatically.




SUMMARY OF THE INVENTION




In accordance with the invention, the above and other objects and advantages are achieved by the provision of a texturing machine which includes in the region of the suction inlet of a guide tube a cutting device, which cuts the yarn while it is being threaded into the suction inlet. The special advantage of the invention thus lies in the fact that the operator needs to position only the yarn for enabling a transfer to the threading device. The combination between the cutting device and the suction inlet of the guide tube accomplishes that both the catching of the yarn and the cutting thereof occur automatically, after a manually guided suction gun reaches the threading position.




For cutting the yarn, the cutting device may comprise movable or stationary cutting means. Preferably, a stationary cutting blade is used.




A particularly advantageous further development of the invention distinguishes itself in that a positioning of the manually guided suction gun is no longer necessary. To transfer the yarn into the suction inlet, the cutting blade of the cutting device is associated with a movable yarn guide. Both the yarn guide and the cutting blade cooperate to thread the yarn into the suction inlet. In this instance, the threading position is assumed by the yarn guide, which thus ensures that the yarn is both cut and taken into the suction inlet.




In this connection, it would be possible to form the yarn guide at a free end of an elongate wire strap, so that by pivoting the wire strap the yarn guide reaches the threading position in the range of suction of the suction inlet and cutting device.




With the use of a heater with a closed heating channel, it is possible to expand the threading device advantageously by associating the guide tube with the heater, so that the yarn inlet end of the heater forms the suction inlet for threading the yarn, thereby ensuring simultaneously that the yarn is threaded into the heating channel of the heater.




Since in the production of the crimped yarn, every contact of the yarn for its guidance causes tensions and an engagement of the yarn, an advantageous further development of the invention provides that the suction inlet of the guide tube or suction inlet of the heater are in alignment with the path of the yarn leaving an upstream feed system. This permits inserting the yarn into the suction inlet directly from the feed system without a further guidance and deflection of the yarn.




In a particularly preferred further development of the invention, the feed system is formed by a godet unit, which is looped by the yarn several times, and arranged on a pivotal support that mounts at the same time the yarn guide for threading the yarn. With that, it is possible to thread on the one hand the yarn into the feed system in a simple manner, and to transfer it on the other hand simultaneously to the threading device or suction inlet of the guide tube by pivoting the support.




To realize as much as possible a compact construction of the texturing machine, an advantageous further development provides to arrange the guide tube or the heater on the underside of a frame section. This frame section is formed by a processing module mounting at least one portion of the processing units, and by a takeup module mounting the takeup device. The suction inlet of the guide tube could be arranged in the region of the processing module. The yarn would then pneumatically advance through the guide tube to the adjacent takeup module.




To guide the yarn as far as the takeup device, at least one second guide tube may be provided with a second injector, the second guide tube being positioned downstream of the first guide tube and immediately upstream of the takeup device.




The takeup device preferably includes a suction device, which has an intake opening facing a blow outlet of the second guide tube, preferably in one plane. This permits guiding the yarn automatically into the takeup device. Once the yarn is held in the suction device, for example, a yarn guide could engage the yarn and start a catching or a winding procedure.




An advantageous further development is suitable for transferring the yarn in the region of a feed system from a first guide tube to a second guide tube in a highly reliable manner. In this development, the blow outlet of the first guide tube and the suction inlet of the second guide tube face each other in one plane upstream or downstream of a feed system.




Once the yarn is transferred, it would be possible to realize an automatic threading of the yarn in the feed system, for example, by a threading device.




The method of the present invention is characterized in that it is possible to feed the yarn to a guide tube with a threading device, independently of an operator, in a very safe and reproducible manner.











BRIEF DESCRIPTION OF THE DRAWINGS




In the following, the invention is described in greater detail with reference to several embodiments of the texturing machine according to the invention and to the attached drawings, in which:





FIG. 1

is a schematic view of a first embodiment of the texturing machine according to the invention;





FIG. 2

is a schematic view of a further embodiment of the texturing machine according to the invention; and





FIG. 3

is a schematic partial view of the embodiment of FIG.


2


.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS





FIG. 1

schematically illustrates a processing station of a yarn texturing machine according to the invention. The texturing machine comprises a plurality of side by side processing stations, in each of which a yarn is textured and wound. Each of the processing stations is thus identically constructed, so that in the following the individual processing units are described with reference to the path of the yarn in one processing station.




In a creel


3


, a mandrel


2


mounts a feed yarn package


1


. The feed yarn package


1


holds a flat thermoplastic yarn


36


. From the feed yarn package


1


, the yarn


36


is withdrawn overhead by a first feed system


5


. To this end, a yarn guide


4


is arranged downstream of feed yarn package


1


. From the feed system


5


, the yarn


36


enters a texturing zone. The texturing zone is formed by a texturing unit


8


, a heating device


6


, and a cooling device


7


. In the present embodiment, the texturing unit


8


is realized as a false twist unit, so that the false twist produced in the yarn


36


is set within heater


6


and cooling device


7


. A deflection roll


9


precedes the texturing unit


8


.




A second feed system


10


withdraws the yarn


36


from the texturing zone, and advances it into an aftertreatment zone. In the aftertreatment zone, a second heater


11


is provided, which is followed by a third feed system


14


. The feed system


14


is realized as a godet unit comprising a godet


16


and a guide roll


17


.




The feed systems


5


and


10


are constructed, for example, as so-called nip-type feed systems, in which the yarn advances between a driven feed roll and a pressure roll lying against the circumference of the feed roll.




The feed system


14


is followed by a takeup device


20


. The takeup device


20


comprises a pivotally supported package holder


24


, the free end of which mounts a tube


23


. For winding a package, the tube


23


lies against the circumference of a drive roll


22


, which is driven by a drive at a substantially constant circumferential speed. Upstream of the contact point of yarn


36


on a package is a yarn traversing device


21


, which reciprocates the yarn within the package width. Such yarn traversing devices can comprise a traversing yarn guide, which is driven by a cross-spiraled roll, or a traversing yarn guide, which is driven by a belt drive.




To be able to thread the yarn


36


in a processing station at the start of a process, the texturing machine comprises a threading device for pneumatically advancing the yarn


36


. This threading device is essentially formed by guide tubes


12


and


18


. To this end, the guide tube


12


with an injector


13


connects to the outlet of the second heater


11


, thereby forming at the inlet end of heater


11


a suction inlet


33


, through which an air stream is taken in upon activation of injector


13


. The suction inlet


33


in the inlet region of heater


11


is associated with a cutting device consisting of a cutting blade


31


and a holder


32


. The cutting blade


31


is attached to holder


32


. Upstream of the suction inlet


33


and cutting blade


31


is a yarn guide


29


, which connects to an actuator


30


. The actuator


30


is used to move yarn guide


29


in the direction of suction inlet


33


.




The guide tube


12


connected to heater


11


comprises at its opposite end a blow outlet


34


. The blow outlet


34


terminates at an inlet end of feed system


14


. Opposite thereto, at the outlet end of feed system


14


, a suction inlet


28


of second guide tube


18


is arranged. In this arrangement, the blow outlet


34


of the first guide tube


12


and the suction inlet


28


of the second guide tube


18


face each other in one plane. The guide tube


18


connects to an injector


19


, which generates in guide tube


18


an air stream that is directed in the direction of the advancing yarn. The guide tube


18


ends directly upstream of takeup device


20


. The blow outlet


27


at the end of guide tube


18


faces, in one plane, an intake opening


26


of a suction device


25


. The suction device


25


is associated with the takeup device


20


for receiving and removing the yarn


36


during package doffs.





FIG. 1

shows the processing station of the illustrated embodiment of the texturing machine directly before the start of the process. In this instance, the advancing yarn


36


has already passed through the processing units


5


,


6


,


7


,


8


,


10


,


11


, and


14


which are successively arranged in its path. Within the takeup device


20


, the suction device


25


takes in the yarn


36


and removes it to a waste container.




For threading the yarn


36


, same is first manually guided by means of a suction gun


35


. Once the yarn


36


is threaded in processing units


5


,


6


,


7


,


8


, and


10


, it is inserted by means of suction gun


35


into a guide groove of yarn guide


29


(shown in phantom lines). This concludes the threading procedure by an operator. The subsequent threading of yarn


36


as far as the takeup device


20


occurs automatically. To this end, the actuator


30


moves the yarn guide


29


in the direction of the suction inlet


33


of heater


11


. In this process, the yarn


36


enters the range of suction of suction inlet


33


. At the same time, the cutting blade


31


of the cutting device cuts the yarn end advancing between suction inlet


33


and the held suction gun


35


. The yarn


36


now advances in guide tube


12


to blow outlet


34


. The yarn


36


that is ejected from guide tube


12


, is taken in by the suction inlet


28


of the second guide tube


18


. With the use of a threading device


15


, it is now possible to thread the yarn


36


that already advances parallel to the feed system


14


, automatically into the godet unit. The threading device


15


could comprise, for example, a pivot drive and a pivotal yarn guide, which threads the yarn into feed system


14


by looping it several times.




Once the yarn


36


is received by guide tube


18


, it is ejected from the blow outlet


27


by the air current generated in guide tube


18


, and received by the intake opening


26


of suction device


25


. This concludes the threading procedure of yarn


36


in the processing station of the texturing machine. The process can now be started by pivoting package holder


24


and transferring the yarn to the yarn traversing device


21


or an auxiliary device.




In the arrangement shown in

FIG. 1

, it is also possible to associate the cutting blade


31


with the suction inlet


33


in the inlet region of heater


11


in such a manner that a transfer and cutting of the yarn is already effected by advancing the yarn


36


thereto by means of suction gun


35


. In this case, the yarn guide


29


would not be needed.




In the embodiment shown in

FIG. 1

, the frame sections, which mount the processing units, are left out for the sake of clarity. In contrast,

FIG. 2

is a view of an embodiment of the texturing machine according to the invention, which shows the machine frame for accommodating the processing units. The embodiment of the texturing machine of

FIG. 2

comprises a feed module


38


, a processing module


39


, and a takeup module


40


, which are arranged in a machine frame with frame sections


37


.


1


,


37


.


2


,


37


.


3


. The feed module


38


is supported by frame section


37


.


1


, and the takeup module


40


by frame section


37


.


3


. The frame sections


37


.


1


and


37


.


3


are interconnected by frame section


37


.


2


, which is arranged above feed module


38


and processing module


39


. Between the processing module


39


and feed module


38


, a servicing aisle


42


is formed below frame section


37


.


2


.




In the frame section


37


.


2


, the processing module


39


is arranged on the side facing servicing aisle


42


and the takeup module


40


on the opposite side thereof. A doffing aisle


43


is provided along the takeup module


40


.




In its longitudinal direction (the drawing plane of

FIG. 2

corresponds to the transverse plane), the texturing machine comprises a plurality of processing stations, one for each yarn. The takeup devices


20


occupy a width of three processing stations. For this reason, three takeup devices


20


overlie one another in a column in the takeup module


40


.




The processing units arranged in the machine frame


37


, are basically identical with the foregoing embodiment, so that in the following only their essential differences are described. The first feed system


5


on feed module


38


is associated with a creel


3


, which accommodates three feed yarn packages


1


, one above the other. The creel


3


also holds a reserve yarn package in facing relationship with each feed yarn package


1


. In the direction of the advancing yarn, downstream of the first feed system


5


, a heater


6


and a cooling device


7


extend, which are successively arranged in one plane and supported by frame section


37


.


2


above the servicing aisle


42


. In this arrangement, the yarn advances between creel


3


, feed system


5


, and heater


6


over a plurality of deflection rolls


9


.


1


,


9


.


2


, and


9


.


3


.




The processing module


39


mounts, one below the other in the direction of the advancing yarn, a texturing unit


8


, as well as two successive feed systems


10


.


1


and


10


.


2


.




On the underside of frame section


37


.


3


, the third feed system


14


on takeup module


40


is arranged in facing relationship with feed system


10


.


2


. From the third feed system


14


, the yarn advances to the takeup device


20


, which is arranged on the takeup module


40


. In comparison with the above-described embodiment, the takeup device


20


includes a tube magazine


41


and auxiliary devices not shown, so as to be able to perform an automatic package doff.




For threading the yarn, the frame section


37


.


3


mounts a threading device, which is formed by guide tubes


12


and


18


and their associated injectors


13


and


19


.




The suction end of guide tube


12


as well as the feed system


10


.


2


upstream thereof are schematically illustrated in

FIG. 3

which is a partial view of FIG.


2


. The feed system


10


.


2


comprises a driven godet


49


and a guide roll


50


, which are arranged on a support


44


. At its one end, the support


44


is held on a pivot axle


46


and can be pivoted between a contacting position and a threading position.

FIG. 2

illustrates the support


44


in the threading position, and

FIG. 3

shows it shortly before reaching the threading position. The free end of support


44


mounts the yarn guide


29


. In the threading position, the support


44


moves the yarn


29


directly in front of the suction inlet


33


of guide tube


12


. Associated with the suction inlet


33


of guide tube


12


is cutting blade


31


, which is attached to holder


32


.




For threading the yarn on feed system


10


.


2


, the support


44


is pivoted to a threading position that extends into servicing aisle


42


, as is shown in phantom lines in FIG.


2


. By means of suction gun


35


, the operator loops the yarn several times about feed system


10


.


2


, and inserts it from its takeoff point on feed system


10


.


2


into the yarn guide


29


at the end of wire strap


45


. Subsequently, the support


44


is pivoted to the threading position, which represents at the same time the operating position of feed system


10


.


2


. In this process, the yarn guide


29


moves the yarn


36


in front of suction inlet


33


. The yarn


36


is then cut by cutting blade


31


in its length that advances toward a suction gun, and pneumatically advanced through guide tube


12


.




As shown in

FIG. 2

, the blow outlet


34


at the end of guide tube


12


faces a deflection plate


48


. Arranged at an angle of about 90° therewith is the suction inlet


28


of the second guide tube


18


.


1


,


18


.


2


, or


18


.


3


. In the intersections with the blow direction of the first guide tube


12


and with the suction direction in the second guide tube, the deflection plate


48


extends preferably with a deflection curvature corresponding to the direction. This accomplishes that the loose yarn, which is ejected from the blow outlet


34


of guide tube


12


, can be directly taken in by the activated suction inlet


28


of second guide tube


18


.


1


,


18


.


2


, or


18


.


3


.




At its opposite end, the guide tube


18


comprises a blow outlet


27


in facing relationship with a suction system of takeup device


20


, which is not shown.




In the texturing machine shown in

FIG. 2

, the yarn is guided in each processing station through the successively arranged guide tubes


12


and


18


.


1


,


18


.


2


, and


18


.


3


. In the region of takeup module


40


, successive guide tubes


18


.


1


,


18


.


2


, and


18


.


3


are shown, which guide a yarn to respective ones of the takeup devices


20


.




The embodiments shown in

FIGS. 1 and 2

of the texturing machine are exemplary in the arrangement and configuration of the processing units. Basically, it is possible to drive, for example, adjacent feed systems jointly or each by an individual drive. Important is that the arrangement of the processing units in the texturing machine is such that it permits a simple and reproducible threading of the yarn by means of a threading device for advancing the yarn pneumatically. For example, the embodiment of

FIG. 2

could be supplemented with a second heater, which would be arranged between the feed systems


10


.


2


and


14


. Likewise possible are additional processing units, such as an entanglement device, which could be arranged between the feed systems


10


.


1


and


10


.


2


, or yarn lubrication devices upstream of the takeup devices


20


.




The cutting device shown in the embodiments and consisting of a stationary cutting blade and a holder, is likewise exemplary. The cutting device could also comprise a movable cutting blade, which cooperates, for example, with a stationary yarn guide. It is also possible that the cutting device includes a plurality of cutting blades for cutting the yarn by the operating principle of scissors.



Claims
  • 1. A yarn texturing machine comprisinga plurality of yarn processing units which are serially arranged along a yarn path of travel leading to a takeup device, a threading device for initially threading a yarn along at least a portion of the path of travel, said threading device comprising a guide tube and an air injector connected to the guide tube, with the guide tube including a suction inlet for taking in the yarn and a blow outlet for ejecting the yarn, and a cutting device positioned adjacent the suction inlet for cutting the yarn while it is being initially threaded into the suction inlet.
  • 2. The yarn texturing machine of claim 1 wherein the cutting device comprises a cutting blade and a movable yarn guide positioned to move the yarn into engagement with the cutting blade to cut the yarn and so that the cut end of the yarn is drawn into the suction inlet.
  • 3. The yarn texturing machine of claim 2 wherein the yarn guide is mounted at the free end of a pivotally mounted elongate strap, and wherein the yarn may be pivoted to a threading position where the retained yarn engages the cutting blade and is within a range of suction of the suction inlet.
  • 4. The yarn texturing machine of claim 1 wherein the guide tube includes a heater having a closed heating channel and an inlet end, and such that the inlet end of the heater forms the suction inlet.
  • 5. The yarn texturing machine of claim 1 wherein the plurality of yarn processing units include a feed system positioned upstream of the guide tube and so that the yarn leaving the feed system is aligned with the suction inlet.
  • 6. The yarn texturing machine of claim 5 wherein said feed system comprises a godet unit which is mounted on a pivotal support, and wherein the cutting device comprises a cutting blade and a yarn guide, with one of said cutting blade and yarn guide being mounted to the pivotal support and the other of the cutting blade and yarn guide being fixedly mounted adjacent said suction inlet.
  • 7. The yarn texturing machine of claim 6 wherein the godet unit comprises a driven godet and an associated guide roll which are looped by the yarn.
  • 8. The yarn texturing machine of claim 1 further comprising a processing module which mounts at least a portion of the yarn processing units, and a takeup module which mounts the takeup device, with said processing module and said takeup module being joined to form a frame section which is arranged between a doffing aisle which is adjacent the takeup module and a servicing aisle which is adjacent the processing module.
  • 9. The yarn texturing machine of claim 8 wherein the guide tube is arranged on the underside of the frame section and forms at least a portion of a yarn path between the processing module and the takeup module.
  • 10. The yarn texturing machine of claim 1 further comprising a second threading device for initially threading the yarn along a portion of the yarn path of travel downstream of said first mentioned threading device, said second threading device comprising a second guide tube and an air injector connected to the second guide tube, and with the second guide tube positioned for advancing the yarn to the takeup device.
  • 11. The yarn texturing machine of claim 10 wherein the second guide tube includes a blow outlet, and wherein the takeup device includes a suction device which has an opening which is aligned with the blow outlet of the second guide tube.
  • 12. The yarn texturing machine of claim 10 wherein the second guide tube includes a suction inlet and a blow outlet, and wherein said plurality of yarn processing units includes a feed system positioned between the blow outlet of the first mentioned guide tube and the suction inlet of the second guide tube.
  • 13. The yarn texturing machine of claim 12 wherein the blow outlet of the first mentioned guide tube and the suction inlet of the second guide tube are aligned with each other.
  • 14. The yarn texturing machine of claim 12 wherein said feed system includes a driven feed godet and a guide roll, and a threading device for looping the yarn around the godet and guide roll.
  • 15. A method of threading an advancing yarn onto a texturing apparatus which comprises a plurality of yarn processing units which are serially arranged along a yarn path of travel leading to a takeup device, comprising the steps ofpositioning a guide tube along a portion of the yarn path of travel and generating an air flow within the tube so that the tube defines a suction inlet and a blow outlet, engaging the advancing yarn with a yarn guide and moving the yarn guide and the engaged yarn to a threading position immediately upstream of the suction inlet of the guide tube and so that the yarn is cut by a cutting blade with the cut end being engaged by the suction effect at the suction inlet of the guide tube.
  • 16. The method of claim 15 wherein the plurality of processing units comprise a yarn heater positioned to form at least an upstream end portion of the guide tube.
Priority Claims (1)
Number Date Country Kind
101 31 815 Jun 2001 DE
CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of International Patent Application PCT/EP02/06504 filed Jun. 13, 2002, and which designates the United States. The disclosure of the referenced application is expressly incorporated herein by reference.

US Referenced Citations (6)
Number Name Date Kind
3577721 Schmick et al. May 1971 A
3946546 Venot Mar 1976 A
3991545 Ritter et al. Nov 1976 A
3999360 Forin et al. Dec 1976 A
4412371 Hagen et al. Nov 1983 A
5675879 Nagao et al. Oct 1997 A
Foreign Referenced Citations (3)
Number Date Country
2 226 489 Nov 1974 FR
2 388 747 Nov 1978 FR
2 695 631 Mar 1994 FR
Continuations (1)
Number Date Country
Parent PCT/EP02/06504 Jun 2002 US
Child 10/722707 US