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EP3036361A1 - Apparatus for producing a plurality of synthetic threads - Google Patents

Apparatus for producing a plurality of synthetic threads

Info

Publication number
EP3036361A1
EP3036361A1 EP14750483.1A EP14750483A EP3036361A1 EP 3036361 A1 EP3036361 A1 EP 3036361A1 EP 14750483 A EP14750483 A EP 14750483A EP 3036361 A1 EP3036361 A1 EP 3036361A1
Authority
EP
European Patent Office
Prior art keywords
threads
thread
godet
groups
guide
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP14750483.1A
Other languages
German (de)
French (fr)
Other versions
EP3036361B1 (en
Inventor
Michael SCHRÖTER
Philip JUNGBECKER
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Oerlikon Textile GmbH and Co KG
Original Assignee
Oerlikon Textile GmbH and Co KG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Oerlikon Textile GmbH and Co KG filed Critical Oerlikon Textile GmbH and Co KG
Publication of EP3036361A1 publication Critical patent/EP3036361A1/en
Application granted granted Critical
Publication of EP3036361B1 publication Critical patent/EP3036361B1/en
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01DMECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
    • D01D5/00Formation of filaments, threads, or the like
    • D01D5/08Melt spinning methods
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01DMECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
    • D01D11/00Other features of manufacture
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01DMECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
    • D01D13/00Complete machines for producing artificial threads
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01DMECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
    • D01D13/00Complete machines for producing artificial threads
    • D01D13/02Elements of machines in combination
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01DMECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
    • D01D5/00Formation of filaments, threads, or the like
    • D01D5/12Stretch-spinning methods
    • D01D5/16Stretch-spinning methods using rollers, or like mechanical devices, e.g. snubbing pins

Definitions

  • the invention relates to a device for producing a plurality of synthetic threads optionally as monofilaments or composite threads according to the preamble of claim 1.
  • the synthetic filaments needed for the textile industry are made with different devices for melt spinning multifilament threads depending on their use.
  • POY yarns Pre Oriented Yarn
  • the POY threads represent a precursor to a texturing process, which is then preferably carried out with texturing machines.
  • the synthetic threads which are suitable for further processing into a flat structure after a melt spinning process, are referred to as so-called FDY threads (Füll DrawnYarn). Such threads are stretched after the melt spin at least in a stretching device with multiple godets. In that regard, the devices used for this purpose have a plurality of godets, which pull off, suture and relax the threads.
  • Another yarn type required in the textile industry is the so-called effect yarns.
  • Such effect yarns are formed by combining a plurality of yarns having different physical properties. In this way, certain yarn effects, such as, for example, structural effects, gloss effects or color effects, can be produced directly in the melt spinning process, so that these composite yarns can also be processed directly into textile fabrics.
  • the effect yarns are subject to the fashion influences, so that their demand and use is subject to very strong fluctuations.
  • the known device for producing a plurality of synthetic threads now offers the possibility of optionally producing PO Y threads, FD Y threads or effect yarns.
  • the PO Y yarns and FD Y yarns are referred to herein as monofilaments because each of them is formed of a plurality of filaments all having identical physical properties.
  • the fancy yarns are referred to herein as composite yarns, since they are formed from at least two different filament bundles in their physical properties.
  • several spinneret groups are used in the known device, which are independently connected to a respective melting source. Each of the spinneret groups is associated with one of two yarn collecting devices which cooperate with godet systems arranged therewith.
  • the godet systems are associated with two separate on winding machines with two groups of winding stations. In order to produce either monofilaments or composite threads, conversion measures are required in the known device. Thus, in the production of composite yarns one of the winding machines is implemented such that the yarn sheet of Composite threads can be picked up by a godet system and wound into coils. In addition, a conversion of the godet systems is required in order to produce either monofilaments with a POY property or a FD Y property can.
  • WO 2005 05 22 26 AI discloses a device in which only monofilaments are produced in large numbers by two spinneret groups.
  • the spinneret groups are associated with a yarn collecting device and a godet system for the production of monofilaments with a POY property.
  • this device is completely unsuitable for producing either monofilaments or composite threads.
  • Another object of the invention is to provide a device for producing a plurality of synthetic threads, in which a high-flexibility production of monofilaments and composite threads is possible according to need.
  • a common yarn collecting device is arranged in a yarn path between the spinneret groups and the godets, that the yarn collecting device has a first take-off godet godet for forming a first vertical roll. len yarn guide plane and one of the deduction galette the yarn path downstream effetsgalette or guide roller is assigned to form a further thread running plane.
  • the invention has the particular advantage that only a yarn collection device and a godet system is arranged between the spinning device and the take-up device in order to produce either monofilaments or composite yarns with the desired physical properties.
  • the device according to the invention can be produced without conversion measures for producing a plurality of monofilaments having a POY property, monofilaments having an FDY property or composite threads having special effects.
  • the yarn sheets can be introduced into the godet system immediately after the yarn collection device or can only be transferred into a partial region of the godet system by a downstream guide godet.
  • the threads are fed to the godet system via both thread running planes.
  • a location is defined by the thread collecting device upstream of the godets, in which all thread groups can be detected together.
  • the device according to the invention is preferably designed such that the withdrawal godet and the downstream ordered Systemssgalette or guide roller is arranged relative to the yarn collecting device such that the clamped yarn running planes between them form an angle in the range of 0 ° - 15 °.
  • the yarn guide of the threads can be advantageously ensured by the configuration of the yarn collecting device, which has at least one Kammfaden inhabit for guiding the threads and a thread cutting device with a Fadenabsaugung.
  • the combed yarn guide allows a guide of a plurality of threads with a predetermined distance between the threads.
  • the threads can be guided parallel to each other at a small distance in the range of 4 mm to 10 mm parallel to each other over the gills.
  • the godets are preferably arranged according to a development of the invention to a yarn path with simple wrap, with further of the withdrawal godet in the yarn course downstream engineerssgaletten are held for splaying and guiding the threads laterally next to the thread running planes. This ensures that, depending on the inlet height of the threads, which are defined by the withdrawal godet or the guide godet, the treatment of the threads is carried out differently.
  • a swirling device is arranged between two guide teeth having a plurality of treatment channels for the optional swirling of monofilaments or composite threads.
  • Such swirling devices are preferably held at the end of a godet system in order to produce the thread closure on the monofilaments or the composite threads prior to winding.
  • the extrusion of the threads can be carried out in any manner through a plurality of spinneret groups.
  • the spinneret groups can in this case be formed by a plurality of multiple spinnerets, each with a plurality of melt inlets, which are held in rows on a spinning beam.
  • Such multiple spinnerets have the particular advantage that the threads can be produced side by side in close pitch.
  • the winding point groups are distributed on at least two separate on winding machines, which face each other mirror-symmetrically and are independently controllable.
  • the composite threads can preferably be wound up with only one of the winding machines.
  • both winding machines are used to operate the winding head groups.
  • An extremely compact arrangement of the device can be achieved by the development of the invention, in which the godets are held on a support frame above the on winding machine such that the threads in the winding point groups of a front end region of the winding machine can be fed.
  • the yarn sheet can be advantageous to perform over several pulleys the winding points. It has been found that the treatment of the monofilaments with FDY characteristic is preferably carried out on non-prepared threads. This allows additional heat energy, which is usually required for heating wetted threads, to be saved.
  • the development of the invention is particularly preferred in which the yarn collecting device is assigned a first preparation station for preparing the threads and in which a second preparation station for preparing the threads is provided between the guide godets and for which the preparation station is independent of each other are formed controllable.
  • a second preparation station for preparing the threads is provided between the guide godets and for which the preparation station is independent of each other are formed controllable.
  • FIG. 1 shows schematically a cross-sectional view of a first embodiment of the device according to the invention.
  • FIG. 2 schematically shows a longitudinal sectional view of the exemplary embodiment from FIG. 1.
  • 3 shows schematically a view of the godet system of the embodiment of Figure 1 in several operating situations.
  • FIG. 4 schematically shows a cross-sectional view of a further exemplary embodiment of a spinning device.
  • Figure 5 schematically shows several views of another embodiment of a spinning device of the device according to the invention.
  • FIG. 1 shows the device in a cross-sectional view and in FIG. 2 in a longitudinal section.
  • the device shown in FIGS. 1 and 2 has two groups of spinnerets 2 and 3.
  • the spinneret group 2 and the spinneret group 3 each comprise a total of four separate spinnerets in a row-shaped arrangement.
  • the two spinneret groups 2 and 3 and their spinnerets are formed by multiple spinnerets 4.1 to 4.4.
  • Each of the multiple spinning nozzles 4.1 to 4.4 thus contains in each case a spinneret 2.1 of the spinneret group 2 and a spinneret 3.1 of the spinneret group 3.
  • Such multiple spinnerets 4.1 to 4.4 are distinguished by the fact that two spinnerets are integrated in a nozzle package, which are fed via separate melt inlets.
  • the multiple spinning nozzles 4.1 to 4.4 with the spinneret groups 2 and 3 are arranged in a spinning beam 1.
  • the spinning beam 1 is designed to be heatable, wherein the spinning beam 1 is preferably connected via an inlet and a drain to a heat transfer circuit.
  • a driven spinning pump 5 is arranged, which is designed as a multiple pump and is connected via a plurality of distributor lines 7 with the spinnerets 2.1 to 2.4 and 3.1 to 3.4.
  • the spinning pump 5 is connected via a melt inlet 6 with a melt source such as an extruder.
  • the cooling device 8 is designed in this embodiment as a so-called Querstromanblasung.
  • a blow chamber 11 with a blown wall 10 facing the extruded filaments is formed laterally of the spinneret groups 2 and 3 below the spinneret.
  • the blow chamber 11 is connected to a source of cooling air and generates via the blowing wall 10 a flowing into a cooling duct 9 cooling air flow.
  • the cooling shaft 9 extends below the spinneret groups 2 and 3. Below the cooling shaft 9, each spinneret of the spinneret groups 2 and 3 is assigned a respective thread guide 12, in order to carry out bundling of the extruded filaments per thread.
  • the yarn guides 12 is associated with a yarn collection device 16 in the yarn path through which the extruded through the spinneret threads are brought to a treatment distance from each other. In that regard, takes place between the yarn guides 12 below the cooling shaft 9 and the thread collecting device 16, a deflection of the threads instead. This deflection of the threads allows a common treatment of the threads ever as required, as one thread group or as two separate thread groups with relatively narrow thread pitch between the threads.
  • the yarn collecting device 16 is formed by a Kammfaden investigating 17, each having separate guide grooves for each thread.
  • the combed yarn guide 17 is coupled to a linear drive 18, so that the combed yarn guide 17 can be guided between an operating position and an articulation position.
  • the comb thread guide 17 cooperates with a thread cutting device 19 and a thread suction device 20.
  • the entire yarn sheet of the two thread groups can be severed together at a yarn breakage by the thread cutting device 19 and lead over the thread suction 20 to a waste container.
  • the yarn collecting device 16 is downstream of a godet 21 in the yarn path.
  • FIG. 3.1 shows the godet system shown in FIG. 1 enlarged.
  • the following description applies to the figures 1 to 3.1.
  • the godet system 21 has, in the direction of yarn travel, a first take-off godet 22 which, with the yarn collecting device 16, tensions a vertical first yarn guide plane 23.1.
  • the withdrawal godet 22 is followed by a plurality of guide godets 24.1, 24.2, 24.3 and 24.4 arranged one below the other.
  • the guide godets 24.1 to 24.4 form a draw zone in the godet system 21, a guide roller 25 being arranged between the guide godets 24.2 and 24.3.
  • the guide godets 24.1 to 24.4 and the guide Role 25 are arranged to form an S-shaped yarn path, so that the yarn sheet on the circumference of the guide godets 24.1 to 24.4 can be guided with a simple loop.
  • two further guide godets 24.5 and 24.6 are arranged for further yarn guidance.
  • the godet godet 24.5 downstream of the take-off godet 22 is arranged on the godet system 21 in such a way that a second yarn running plane 23.2 is set between the yarn collecting device 16 and the guide godet 24.5.
  • the second thread running level 23.2 is shown in dashed lines in Figures 1 and 3.1.
  • the take-off godet 22 and the downstream guide godet 24.5 are arranged relative to the yarn collecting device 16 in such a way that an angle extends between the yarn running planes 23.1 and 23.2. In Figure 3.1, the angle is shown with the label ⁇ .
  • the thread running planes spanned between the yarn collecting device 16 and the drawing godet 22 and the guide godet 24.5 are suitable for separating the yarn sheet of both spinneret groups 2 and 3 and for removing them separately.
  • the order of Abzugsgalette 22 and the constitusgalette 24.5 relative to the yarn collecting device 16 is selected such that extending between the yarn running planes 23.1 and 23.2 angle ⁇ in the range of 0 ° to 15 ° is located.
  • all prepared by the godets 22 and 24.5 Means for the treatment of the threads are used independently of the leadership of the threads in the godet 21.
  • a preparation station 13.2 is arranged between the guide godets 24.4 and 24.5.
  • the preparation station 13.2 has a wetting agent 14.2 and a dosing 15.2 to perform wetting in the preparation station 13.2 optionally on the guided between the godets 24.4 and 24.5 threads wetting.
  • the preparation station 13.2 interacts with a second preparation station 13.1.
  • the preparation station 13.1 is assigned directly to the yarn guides 12 below the cooling shaft 9 in order to wet the freshly extruded filaments after cooling.
  • the preparation station 13.1 also has a wetting agent 14.1 and a dosing 15.1.
  • the preparation station 13.1 is also designed controllable, so that optionally the threads are wettable after cooling.
  • a turbulence device 26 is arranged upstream of a last guide godet 24.6.
  • the swirling device 26 has a plurality of treatment channels 27, in each of which a compressed air for swirling the threads can be fed.
  • Such turbulators 26 are well known and will therefore not be further explained at this point.
  • the treatment channels 27 of the swirling devices 26 are designed in such a way that either individual threads or a plurality of threads can be guided therein.
  • the turbulators 26 can be advantageous to create multiple monofilaments or multiple composite threads.
  • the pallets of the godet system 21 are arranged on a carrier plate 29, which is supported on a carrier frame 28.
  • the support plate 29 is particularly suitable for holding the guide shells 44 of the godets on a front side and the godet drives 45 on a rear side.
  • the usually executed encapsulations of the guide sheaths 44, which are heated and unheated executable, and the encapsulations of the godet drives 45 are not shown here.
  • winding machines 30.1 and 30.2 are arranged in mirror symmetry to one another.
  • the winding machines 30.1 and 30.2 are framed by the support frame 28, wherein the support plate 29 is arranged with the godet system 21 at a front end face of the winding machines 30.1 and 30.2.
  • the winding machines 30.1 and 30.2 are constructed identically and each contain a winding point group 31 and 32.
  • the winding head group 31 of the winding machine 30.1 is shown in FIG.
  • the winding station group comprises a total of four winding points 31.1 to 31.4.
  • the winding stations 31.1 to 31.4 are formed along a winding spindle 33.1.
  • the winding stations 31.1 to 31.4 each have a traversing device 35 and a deflection roller 36 in order to wind the yarns supplied via the deflection roller 36.
  • the threads are deposited in the winding stations 31.1 to 31.4 by a pressure roller 34 on the surfaces of the coils 38.
  • the winding stations 31.1 to 31.4 is associated with a second winding spindle 33.2, wherein both winding spindles 33.1 and 33.2 are held on a winding turret 37.
  • a continuous winding of the threads in the winding points 31.1 to 31.4 can be realized.
  • the winding machine 30.2 is formed identically with a second winding point group 32, wherein here also four winding points 32.1 to 32.4 are provided.
  • the number of spinnerets and the number of spools per group are exemplary. In principle, more than four threads can be spun as a thread group, stretched and wound up.
  • the exemplary embodiment of the device according to the invention shown in FIGS. 1 and 2 is shown in an operating situation in which a plurality of monofilaments with an FD Y characteristic are produced. For this purpose, the threads spun by the two spinneret groups 2 and 3 are pulled off together as a group of threads through the withdrawal godet 22.
  • the bundling is carried out by the yarn guides 12 and the merger by the yarn collecting device 16.
  • the preparation station 13.1 is deactivated, so that the threads are removed in a dry state from the spinnerets of the spinneret groups 2 and 3.
  • the threads, which are identified by the reference numeral 46, are guided in an S-shaped threadline through the giletsy system 21, wherein at least the guide sgaletten 24.1 to 24.4 have a heated guide shell.
  • the guide godets 24.2 and 24.3 are driven at a greater differential speed for stretching the threads.
  • the threads are wetted in the second preparation station 13.2 and then guided over the guide godets 24.5 and 24.6 to the winding point groups 31 and 32.
  • the threads are treated individually in the swirling device 26, so that in each case a monofilament having FD Y properties can be produced from each of the threads extruded through the spinneret groups 2 and 3.
  • FIGS. 3.2 and 3.3 the threadline situation is shown on the godet system 21 in producing a composite thread.
  • a first thread group 47.1 in the first thread running plane 23.1 is introduced via the withdrawal godet 22 into the godet system 21.
  • Thread group 47.1 is stretched in the following guide godets.
  • a second thread group 47.2 in the second thread running plane 23.2 is introduced directly from the yarn collecting device 16 via the guide godet 24.5 in the godet 21.
  • the threads of the thread group 47.2 thus receive a PO Y characteristic.
  • the second thread group 47.2 is guided together with the already drawn thread group 47.1 such that in each case a thread with a FD Y characteristic and a thread with the POY characteristics are passed together through a treatment channel 27 of the swirling device 26.
  • the two monofilaments can be combined so advantageous to a composite thread.
  • the threads of the thread groups 47.1 and 47.2 can be added merge a group of multiple composite threads.
  • the composite threads are then wound into coils in the winding positions of one of the winding setting groups 31 or 32.
  • the device shown in Figures 1 and 2 can be used alternatively for producing a plurality of composite threads.
  • the threads of the thread group 47.1 are preferably wetted by the preparation station 13.2 and the threads of the thread group 47.2 preferably by the preparation station 13.1.
  • FIGS. 1 and 2 can also be used alternatively without modifications for the production of monofilaments having a POY characteristic.
  • the yarn path in the pallet system 21 which adjusts itself is shown in the illustration in FIG. 3.3.
  • the threads 46 which are extruded through the spinnerets of the spinneret groups 2 and 3, are guided together in the second thread running plane 23.2 and pulled off by the guide godet 24.5. After the turbulence of the threads in the swirling device 26, they are guided via the last guide godet 24.6 to the winding points of the winding setting groups 31 and 32.
  • the last guide godet 24.6 is preferably held laterally to the winding points of the winding actuating groups 31 and 32 in the lower region of the godet system 21 so that the yarns can be distributed substantially out of a horizontal distribution plane onto the winding locations.
  • the device according to the invention shown in Figures 1 and 2 is designed to be particularly compact and easy to use.
  • the devices for melt spinning, stripping and stretching shown in FIGS. 1 and 2 and for winding up the threads are exemplary.
  • the essential feature here is that the device for melt spinning a common yarn collection device and a godet system with a godet assembly, which with the yarn collecting device two thread collection Running levels forms the optional entry into various godet arrangements for the treatment of the threads, are assigned.
  • the godets of the gillet system 21 are therefore preferably equipped with individual drives in order to be able to set certain peripheral speeds depending on the application and the process.
  • the guide godets can also be replaced by driven guide rollers, so it is also possible to form the second thread running plane between the yarn collecting device and a driven guide roller.
  • an arrangement of the spinning device as shown for example in FIG. 4, can also be used to melt-melt the threads.
  • the spinneret groups 3 and 4 are formed by separate spinnerets 2.1 and 3.1, which are held side by side on a spinning beam 1.
  • a cooling shaft 9 is formed, on both sides in each case a blast wall 10.1 and 10.2, each with a blast chamber 11.1 and 11.2.
  • the spinnerets 2.1 and 3.1 thread guide 12 and wetting agents 14.1 and 14.2 of the first preparation station 13.1 assigned.
  • the wetting agents 14.1 are assigned to the spinnerets of group 2 and the wetting agents 14.2 to the spinnerets of group 3.
  • the wetting agents 14.1 and 14.2 are connected to separate dosing means 15.1 and 15.2, so that the first preparation station 13.1 can be used selectively to wet a group of threads or both sets of threads.
  • spinning devices are also possible, as shown for example in FIG. 5.1 and FIG. 5.2.
  • FIG. 5.1 shows the cross-sectional view
  • FIG. 5.2 shows a cross-sectional view of a spinning device, such as would alternatively be used in the device illustrated in FIGS. 1 and 2.
  • two spinning beams 1.1 and 1.2 are arranged parallel next to one another, each of the spinning beams 1.1 and 1.2 each holding a plurality of spinning nozzles of a spinning nozzle group 2 and 3.
  • the spinneret groups 2 are also shown by four spinnerets 2.1, 2.2, 2.3 and 2.4.
  • the arranged below the spinning beam 1.1 and 1.2 cooling device 8 has in this embodiment, each spinneret 2.1 to 2.4 and 3.1 to 3.4 each have a screen cylinder 39, which is arranged in an upper pressure chamber 40.
  • the screen cylinders 39 penetrate the pressure chamber 40 as far as an underside, to which a pipe socket 43 connects in each case to the screen cylinders 39.
  • the pipe sockets 43 are embedded in a distribution chamber 41, which is coupled on the one hand via a cooling air connection 42 with a cooling air source and on the other hand has a connection to the pressure chamber 40.
  • to cool the extruded filaments a radially from outside to inside flowingdeluft- ström generated.
  • the cooling device 8 shown in FIGS. 5.1 and 5.2 is selected according to the desired type of yarn, so that the cooling devices shown in the exemplary embodiments are interchangeable.
  • the yarn guides 18 and the wetting agent 14.1 of the preparation station 13.1 are combined in order to carry out bundling of the threads. Basically you can However, all variants shown for bundling in the embodiments shown are used alternatively.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Spinning Methods And Devices For Manufacturing Artificial Fibers (AREA)
  • Yarns And Mechanical Finishing Of Yarns Or Ropes (AREA)

Abstract

The invention relates to an apparatus for producing a plurality of synthetic threads optionally as mono-threads or composite threads, having a number of groups of spinnerets for spinning at least two groups of threads. The spinneret groups are assigned a number of godets for taking off and/or drafting the threads and a number of groups of winding stations for winding up the threads as mono-threads or as composite threads. In order optionally to be able to produce mono-threads or composite threads without taking readjustment measures, according to the invention a common thread collecting device is arranged in a thread run between the spinneret groups and the godets, wherein the thread collecting device is assigned a first take-off godet of the godets in order to form a first vertical thread-run plane and a guide roller or guide godet arranged downstream of the take-off godet in the thread run in order to form a further thread-run plane.

Description

Vorrichtung zur Herstellung einer Mehrzahl synthetischer Fäden  Device for producing a plurality of synthetic threads
Die Erfindung betrifft eine Vorrichtung zur Herstellung einer Mehrzahl synthetischer Fäden wahlweise als Monofäden oder Verbundfäden gemäß dem Oberbegriff des Anspruchs 1. The invention relates to a device for producing a plurality of synthetic threads optionally as monofilaments or composite threads according to the preamble of claim 1.
Eine gattungsgemäße Vorrichtung ist aus der DE 10 2009 038 496 AI be- kannt. A generic device is known from DE 10 2009 038 496 AI known.
Die für die Textilindustrie benötigten synthetischen Fäden werden je nach ihrer Verwendung mit unterschiedlichen Vorrichtungen zum Schmelz spinnen multifiler Fäden hergestellt. So ist es üblich, bei der Herstellung von so genannten POY-Fäden (Pre Oriented Yarn) eine Fadenschar nach dem Schmelzspinnen durch zwei Galetten abzuziehen und anschließend zu Spulen aufzuwickeln. Die POY-Fäden stellen ein Vorprodukt zu einem Textu- rierprozess dar, der anschließend vorzugsweise mit Texturiermaschinen ausgeführt wird. The synthetic filaments needed for the textile industry are made with different devices for melt spinning multifilament threads depending on their use. Thus, it is customary in the production of so-called POY yarns (Pre Oriented Yarn) to pull off a yarn sheet after melt spinning through two godets and then to wind it up into coils. The POY threads represent a precursor to a texturing process, which is then preferably carried out with texturing machines.
Die synthetischen Fäden, die nach einem Schmelzspinnprozess direkt zur Weiterverarbeitung in ein flächiges Gebilde geeignet sind, werden als so genannte FDY-Fäden (Füll DrawnYarn) bezeichnet. Derartige Fäden werden nach dem Schmelz spinnen zumindest in einer Streckeinrichtung mit mehreren Galetten verstreckt. Insoweit weisen die dazu verwendeten Vorrichtungen eine Mehrzahl von Galetten auf, die die Fäden abziehen, vers- trecken und relaxieren. Ein weiterer in der Textilindustrie benötigter Fadentyp stellen die so genannten Effektgarne dar. Derartige Effektgarne werden durch zusammenführen von mehreren Fäden mit unterschiedlichen physikalischen Eigenschaften gebildet. Damit können bestimmte Garneffekte, wie beispielsweise Struktureffekte, Glanzeffekte oder Farbeffekte direkt im Schmelzspinnpro- zess erzeugt werden, so dass auch diese Verbundfäden unmittelbar zu texti- len Flächengebilden verarbeitet werden können. Die Effektgarne unterliegen jedoch den Modeeinflüssen, so dass deren Bedarf und Verwendung sehr starken Schwankungen unterliegt. The synthetic threads, which are suitable for further processing into a flat structure after a melt spinning process, are referred to as so-called FDY threads (Füll DrawnYarn). Such threads are stretched after the melt spin at least in a stretching device with multiple godets. In that regard, the devices used for this purpose have a plurality of godets, which pull off, suture and relax the threads. Another yarn type required in the textile industry is the so-called effect yarns. Such effect yarns are formed by combining a plurality of yarns having different physical properties. In this way, certain yarn effects, such as, for example, structural effects, gloss effects or color effects, can be produced directly in the melt spinning process, so that these composite yarns can also be processed directly into textile fabrics. However, the effect yarns are subject to the fashion influences, so that their demand and use is subject to very strong fluctuations.
Die bekannte Vorrichtung zur Herstellung einer Mehrzahl synthetischer Fäden bietet nun die Möglichkeit, wahlweise PO Y-Fäden, FD Y-Fäden oder Effektgarne herzustellen. Die PO Y-Fäden und FD Y-Fäden werden hier als Monofäden bezeichnet, da sie jeweils aus einer Vielzahl von Filamenten gebildet sind, die alle identischen physikalischen Eigenschaften aufweisen. Demgegenüber werden die Effektgarne hier als Verbundfäden bezeichnet, da sie aus zumindest zwei in ihren physikalischen Eigenschaften unterschiedlich ausgebildeten Filamentbündeln gebildet sind. Um wahlweise Monofäden oder Verbundfäden herzustellen, werden bei der bekannten Vorrichtung mehrere Spinndüsengruppen eingesetzt, die unabhängig voneinander mit jeweils einer Schmelzquelle verbunden sind. Den Spinndüsengruppen ist jeweils eine von zwei Fadensammeieinrichtungen zugeordnet, die mit dazu geordneten Galettensystemen zusammenwirken. Den Galettensystemen sind zwei separate Auf Spulmaschinen mit zwei Gruppen von Wickelstellen zugeordnet. Um wahlweise Monofäden oder Verbundfäden herstellen zu können, sind bei der bekannten Vorrichtung Umbaumaßnahmen erforderlich. So wird bei der Herstellung von Verbundfäden eine der Aufspulmaschinen derart umgesetzt, dass die Fadenschar der Verbundfäden von einem Galettensystem aufgenommen und zu Spulen gewickelt werden kann. Zudem ist ein Umbau der Galettensysteme erforderlich, um wahlweise Monofäden mit einer POY-Eigenschaft oder einer FD Y-Eigenschaft herstellen zu können. The known device for producing a plurality of synthetic threads now offers the possibility of optionally producing PO Y threads, FD Y threads or effect yarns. The PO Y yarns and FD Y yarns are referred to herein as monofilaments because each of them is formed of a plurality of filaments all having identical physical properties. In contrast, the fancy yarns are referred to herein as composite yarns, since they are formed from at least two different filament bundles in their physical properties. In order to produce either monofilaments or composite threads, several spinneret groups are used in the known device, which are independently connected to a respective melting source. Each of the spinneret groups is associated with one of two yarn collecting devices which cooperate with godet systems arranged therewith. The godet systems are associated with two separate on winding machines with two groups of winding stations. In order to produce either monofilaments or composite threads, conversion measures are required in the known device. Thus, in the production of composite yarns one of the winding machines is implemented such that the yarn sheet of Composite threads can be picked up by a godet system and wound into coils. In addition, a conversion of the godet systems is required in order to produce either monofilaments with a POY property or a FD Y property can.
Grundsätzlich sind im Stand der Technik auch Vorrichtungen zur Herstellung von synthetischen Fäden bekannt, bei welchen die Fäden aus mehreren Spinndüsengruppen erzeugt werden. So geht aus der WO 2005 05 22 26 AI eine Vorrichtung hervor, bei welcher ausschließlich Monofäden in großer Anzahl durch zwei Spinndüsengruppen erzeugt werden. Den Spinndüsengruppen sind eine Fadensammeieinrichtung sowie ein Galettensystem zur Herstellung von Monofäden mit einer POY-Eigenschaft zugeordnet. Diese Vorrichtung ist jedoch völlig ungeeignet, um wahlweise Monofäden oder Verbundfäden zu erzeugen. In principle, devices for the production of synthetic threads are known in the prior art, in which the threads are produced from a plurality of spinneret groups. Thus, WO 2005 05 22 26 AI discloses a device in which only monofilaments are produced in large numbers by two spinneret groups. The spinneret groups are associated with a yarn collecting device and a godet system for the production of monofilaments with a POY property. However, this device is completely unsuitable for producing either monofilaments or composite threads.
Es ist nun Aufgabe der Erfindung, eine Vorrichtung zur Herstellung einer Mehrzahl synthetischer Fäden wahlweise als Monofäden oder Verbundfäden der gattungsgemäßen Art bereitzustellen, bei welcher keine Umbaumaßnahmen der Einrichtungen erforderlich sind. It is an object of the invention to provide an apparatus for producing a plurality of synthetic threads optionally as monofilaments or composite threads of the generic type, in which no conversion measures of the facilities are required.
Ein weiteres Ziel der Erfindung liegt darin, eine Vorrichtung zur Herstellung einer Mehrzahl synthetischer Fäden bereitzustellen, bei welcher mit hoher Flexibilität eine bedarfsgerechte Herstellung von Monofäden und Verbundfäden möglich ist. Another object of the invention is to provide a device for producing a plurality of synthetic threads, in which a high-flexibility production of monofilaments and composite threads is possible according to need.
Diese Aufgabe wird erfindungsgemäß dadurch gelöst, dass eine gemeinsame Fadensammeieinrichtung in einem Fadenlauf zwischen den Spinndüsengruppen und den Galetten angeordnet ist, dass der Fadensammeleinrich- tung eine erste Abzugsgalette der Galetten zur Bildung einer ersten vertika- len Fadenlaufebene und eine der Abzugsgalette dem Fadenlauf nachgeordnete Führungsgalette oder Führungsrolle zur Bildung einer weiteren Fadenlaufebene zugeordnet ist. Vorteilhafte Weiterbildungen der Erfindung sind durch die Merkmale und Merkmalskombinationen der jeweiligen Unteransprüche definiert. This object is achieved according to the invention in that a common yarn collecting device is arranged in a yarn path between the spinneret groups and the godets, that the yarn collecting device has a first take-off godet godet for forming a first vertical roll. len yarn guide plane and one of the deduction galette the yarn path downstream Führungsgalette or guide roller is assigned to form a further thread running plane. Advantageous developments of the invention are defined by the features and feature combinations of the respective subclaims.
Die Erfindung besitzt den besonderen Vorteil, dass zwischen der Spinneinrichtung und der Aufwickeleinrichtung nur eine Fadensammeieinrichtung und ein Galettensystem angeordnet ist, um wahlweise Monofäden oder Verbundfäden mit den gewünschten physikalischen Eigenschaften zu erzeugen. Die erfindungsgemäße Vorrichtung lässt sich ohne Umbaumaßnahmen zur Herstellung einer Mehrzahl von Monofäden mit einer POY- Eigenschaft, Monofäden mit einer FDY-Eigenschaft oder Verbundfäden mit Spezialeffekten herstellen. Durch die Zuordnung einer ersten Abzugsgalette und einer nachgeordneten Führungsgalette zu der Fadensammeieinrichtung lässt sich je nach Fadentyp eine der Fadenlaufebenen zu Führung der Fäden nutzen. Somit lassen sich die Fadenscharen in Abhängigkeit von der Behandlungsfolge an den Galetten unmittelbar nach der Fadensamme- leinrichtung in das Galettensystem einführen oder erst durch eine nachgeordnete Führungsgalette in einen Teilbereich des Galettensystems überführen. Zur Herstellung von Verbundfäden werden die Fäden über beiden Fadenlaufebenen dem Galettensystem zugeführt. Durch die den Galetten vorgeordnete Fadensammeieinrichtung ist zudem eine Stelle definiert, in wel- eher alle Fadenscharen gemeinsam erfassbar sind. The invention has the particular advantage that only a yarn collection device and a godet system is arranged between the spinning device and the take-up device in order to produce either monofilaments or composite yarns with the desired physical properties. The device according to the invention can be produced without conversion measures for producing a plurality of monofilaments having a POY property, monofilaments having an FDY property or composite threads having special effects. By assigning a first take-off godet and a downstream guide godet to the yarn collecting device, one of the yarn running planes can be used to guide the yarns, depending on the yarn type. Thus, depending on the treatment sequence on the godets, the yarn sheets can be introduced into the godet system immediately after the yarn collection device or can only be transferred into a partial region of the godet system by a downstream guide godet. To produce composite threads, the threads are fed to the godet system via both thread running planes. In addition, a location is defined by the thread collecting device upstream of the godets, in which all thread groups can be detected together.
Um bei Abziehen und Überführen der Fäden aus der Spinneinrichtung möglichst größere Auslenkungen zu vermeiden, ist die erfindungsgemäße Vorrichtung bevorzugt derart ausgebildet, dass die Abzugsgalette und die nach- geordnete Führungsgalette oder Führungsrolle derart relativ zur Fadensammeieinrichtung angeordnet ist, dass die aufgespannten Fadenlaufebenen zwischen sich einen Winkel im Bereich von 0° - 15° einschließen. Die Fadenführung der Fäden lässt sich dabei vorteilhaft durch die Ausgestaltung der Fadensammeieinrichtung gewährleisten, die zumindest einen Kammfadenführer zur Führung der Fäden und eine Fadenschneidvorrichtung mit einer Fadenabsaugung aufweist. Der Kammfadenführer ermöglicht eine Führung einer Vielzahl von Fäden mit einem vorbestimmten Abstand zwischen den Fäden. So können die Fäden mit geringem Abstand im Bereich von 4 mm bis 10 mm parallel nebeneinander gemeinsam über die Ga- letten geführt werden. In order to avoid the greatest possible deflections when removing and transferring the threads from the spinning device, the device according to the invention is preferably designed such that the withdrawal godet and the downstream ordered Führungsgalette or guide roller is arranged relative to the yarn collecting device such that the clamped yarn running planes between them form an angle in the range of 0 ° - 15 °. The yarn guide of the threads can be advantageously ensured by the configuration of the yarn collecting device, which has at least one Kammfadenführer for guiding the threads and a thread cutting device with a Fadenabsaugung. The combed yarn guide allows a guide of a plurality of threads with a predetermined distance between the threads. Thus, the threads can be guided parallel to each other at a small distance in the range of 4 mm to 10 mm parallel to each other over the gills.
Die Galetten werden bevorzugt gemäß einer Weiterbildung der Erfindung zu einem Fadenlauf mit einfacher Umschlingung angeordnet, wobei weitere der Abzugsgalette im Fadenlauf nachgeordnete Führungsgaletten zum Vers- trecken und Führen der Fäden seitlich neben den Fadenlaufebenen gehalten sind. Damit lässt sich gewährleisten, dass je nach Einlaufhöhe der Fäden, die durch die Abzugsgalette beziehungsweise die Führungsgalette definiert sind, die Behandlung der Fäden unterschiedlich ausgeführt wird. The godets are preferably arranged according to a development of the invention to a yarn path with simple wrap, with further of the withdrawal godet in the yarn course downstream Führungsgaletten are held for splaying and guiding the threads laterally next to the thread running planes. This ensures that, depending on the inlet height of the threads, which are defined by the withdrawal godet or the guide godet, the treatment of the threads is carried out differently.
Um den Zusammenhalt der Filamente bei den Monofäden oder den Verbundfäden zu verbessern, ist die Weiterbildung der Erfindung vorgesehen, bei welcher eine Verwirbelungseinrichtung zwischen zwei Führung sgalet- ten angeordnet ist, die mehrere Behandlungskanäle zur wahlweisen Verwir- belung von Monofäden oder Verbundfäden aufweist. Derartige Verwirbe- lung seinrichtungen werden bevorzugt am Ende eines Galettensystems gehalten, um den Fadenschluss an den Monofäden oder den Verbundfäden vor dem Aufwickeln zu erzeugen. Die Extrusion der Fäden lässt sich in beliebiger Art und Weise durch mehrere Spinndüsengruppen ausführen. Die Spinndüsengruppen können hierbei durch mehrere Mehrfachspinndüsen mit jeweils mehreren Schmelzeinlässen gebildet sein, die reihenförmig an einem Spinnbalken gehalten sind. Derartige Mehrfachspinndüsen besitzen den besonderen Vorteil, dass die Fäden in enger Teilung nebeneinander erzeugt werden können. In order to improve the cohesion of the filaments in the monofilaments or the composite threads, the development of the invention is provided, in which a swirling device is arranged between two guide teeth having a plurality of treatment channels for the optional swirling of monofilaments or composite threads. Such swirling devices are preferably held at the end of a godet system in order to produce the thread closure on the monofilaments or the composite threads prior to winding. The extrusion of the threads can be carried out in any manner through a plurality of spinneret groups. The spinneret groups can in this case be formed by a plurality of multiple spinnerets, each with a plurality of melt inlets, which are held in rows on a spinning beam. Such multiple spinnerets have the particular advantage that the threads can be produced side by side in close pitch.
Alternativ besteht jedoch auch die Möglichkeit, die Spinndüsen der Spinn- düsengruppen auf mehrere Spinnbalken verteilt anzuordnen, die nebeneinander gehalten sind. Alternatively, however, it is also possible to arrange the spinnerets of the spinning nozzle groups distributed over several spinning beams, which are held next to one another.
Um am Ende des Prozesses je nach Bedarf alle Monofäden oder alle Verbundfäden aufwickeln zu können, ist des Weiteren vorgesehen, dass die Wickelstellengruppen auf zumindest zwei separate Auf Spulmaschinen verteilt sind, die sich spiegelsymmetrisch gegenüberstehen und unabhängig voneinander steuerbar sind. So lassen sich beispielsweise die Verbundfäden bevorzugt mit nur einer der Aufspulmaschinen aufwickeln. Bei der Herstellung von Monofäden werden jedoch vorzugsweise beide Aufspulmaschinen zum Betrieb der Wickelstellengruppen genutzt. In order to be able to wind all monofilaments or all composite threads at the end of the process as required, it is further provided that the winding point groups are distributed on at least two separate on winding machines, which face each other mirror-symmetrically and are independently controllable. Thus, for example, the composite threads can preferably be wound up with only one of the winding machines. In the production of monofilaments, however, preferably both winding machines are used to operate the winding head groups.
Eine äußerst kompakte Anordnung der Vorrichtung lässt sich durch die Weiterbildung der Erfindung erreichen, bei welcher die Galetten an einem Trägergestell oberhalb der Auf Spulmaschine derart gehalten sind, dass die Fäden in den Wickelstellengruppen von einem Stirnendenbereich der Aufspulmaschine zuführbar sind. Damit entfällt die Aufspreizung der Fadenschar von einem Behandlungsabstand zu einem Wickelabstand. Die Fadenschar lässt sich vorteilhaft über mehrere Umlenkrollen den Wickelstellen zuführen. Es hat sich gezeigt, dass die Behandlung der Monofäden mit FDY- Charakteristik bevorzugt an nicht präparierten Fäden ausgeführt wird. Damit lassen sich zusätzliche Wärmeenergien, die üblicherweise zum Erwär- men benetzter Fäden erforderlich ist, einsparen. Für diesen Fall ist die Weiterbildung der Erfindung besonders bevorzugt, bei welcher der Fadensammeieinrichtung eine erste Präparations Station zum Präparieren der Fäden zugeordnet ist und bei welcher zwischen den Führungsgaletten eine zweite Präparations Station zum Präparieren der Fäden vorgesehen ist und bei wel- eher die Präparationsstation unabhängig voneinander steuerbar ausgebildet sind. Damit besteht die Möglichkeit, die Fäden unmittelbar nach dem Extrudieren und vor dem Verstrecken oder nach dem Verstrecken oder in den beiden Präparationsstationen zu präparieren. Damit ist eine hohe Flexibilität zu Herstellung der Fäden gewährleistet. An extremely compact arrangement of the device can be achieved by the development of the invention, in which the godets are held on a support frame above the on winding machine such that the threads in the winding point groups of a front end region of the winding machine can be fed. This eliminates the spreading of the yarn sheet of a treatment distance to a winding distance. The yarn sheet can be advantageous to perform over several pulleys the winding points. It has been found that the treatment of the monofilaments with FDY characteristic is preferably carried out on non-prepared threads. This allows additional heat energy, which is usually required for heating wetted threads, to be saved. In this case, the development of the invention is particularly preferred in which the yarn collecting device is assigned a first preparation station for preparing the threads and in which a second preparation station for preparing the threads is provided between the guide godets and for which the preparation station is independent of each other are formed controllable. This makes it possible to prepare the threads immediately after the extrusion and before stretching or after stretching or in the two preparation stations. This ensures a high degree of flexibility for producing the threads.
Die Erfindung wird anhand einiger Ausführungsbeispiele der erfindungsgemäßen Vorrichtung unter Bezug auf die beigefügten Figuren nachfolgend näher erläutert. The invention will be explained in more detail below with reference to some embodiments of the device according to the invention with reference to the accompanying figures.
Es stellen dar: They show:
Figur 1 schematisch eine Querschnittsansicht eines ersten Ausführungsbeispiels der erfindungsgemäßen Vorrichtung. 1 shows schematically a cross-sectional view of a first embodiment of the device according to the invention.
Figur 2 schematisch eine Längsschnittansicht des Ausführungsbeispiels aus Figur 1. Figur 3 schematisch eine Ansicht des Galettensystems des Ausführungsbeispiels aus Figur 1 in mehreren Betriebssituationen. FIG. 2 schematically shows a longitudinal sectional view of the exemplary embodiment from FIG. 1. 3 shows schematically a view of the godet system of the embodiment of Figure 1 in several operating situations.
Figur 4 schematisch eine Querschnittsansicht eines weiteren Ausführungs- beispiels aus einer Spinneinrichtung. FIG. 4 schematically shows a cross-sectional view of a further exemplary embodiment of a spinning device.
Figur 5 schematisch mehrere Ansichten eines weiteren Ausführungsbeispiels einer Spinneinrichtung der erfindungsgemäßen Vorrichtung. Figure 5 schematically shows several views of another embodiment of a spinning device of the device according to the invention.
In den Figuren 1 und 2 ist ein erstes Ausführungsbeispiel der erfindungsgemäßen Vorrichtung zur Herstellung einer Mehrzahl synthetischer Fäden schematisch in mehreren Ansichten dargestellt. In Figur 1 ist die Vorrichtung in einer Querschnittsansicht und in Figur 2 in einer Längsschnittan- sieht gezeigt. In soweit kein ausdrücklicher Bezug zu einer der Figuren gemacht ist, gilt die nachfolgende Beschreibung für beide Figuren. In Figures 1 and 2, a first embodiment of the inventive device for producing a plurality of synthetic threads is shown schematically in several views. FIG. 1 shows the device in a cross-sectional view and in FIG. 2 in a longitudinal section. In so far as no explicit reference is made to one of the figures, the following description applies to both figures.
Die in den Figuren 1 und 2 dargestellte Vorrichtung weist zwei Gruppen von Spinndüsen 2 und 3 auf. Die Spinndüsengruppe 2 und die Spinndüsen- gruppe 3 umfassen jeweils insgesamt vier separate Spinndüsen in einer rei- henförmigen Anordnung. Wie insbesondere aus der Darstellung in Figur 2 hervorgeht, werden die beiden Spinndüsengruppen 2 und 3 und deren Spinndüsen durch Mehrfachspinndüsen 4.1 bis 4.4 gebildet. Jede der Mehrfachspinndüsen 4.1 bis 4.4 enthält somit jeweils eine Spinndüse 2.1 der Spinndüsengruppe 2 und eine Spinndüse 3.1 der Spinndüsengruppe 3. Derartige Mehrfachspinndüsen 4.1 bis 4.4 zeichnen sich dadurch aus, dass in einem Düsenpaket zwei Spinndüsen integriert sind, die über separate Schmelzeeinlässe gespeist werden. Die Mehrfachspinndüsen 4.1 bis 4.4 mit den Spinndüsengruppen 2 und 3 sind in einem Spinnbalken 1 angeordnet. Der Spinnbalken 1 ist beheizbar ausgebildet, wobei der Spinnbalken 1 bevorzugt über einen Zulauf und einen Ablauf an einem Wärmeträgerkreislauf angeschlossen ist. An der Ober- seite des Spinnbalkens 1 ist eine angetriebene Spinnpumpe 5 angeordnet, die als eine Mehrfachpumpe ausgeführt ist und über mehrere Verteilerleitungen 7 mit den Spinndüsen 2.1 bis 2.4 und 3.1 bis 3.4 verbunden ist. Die Spinnpumpe 5 ist über einen Schmelzezulauf 6 mit einer Schmelzequelle z.B. einem Extruder verbunden. The device shown in FIGS. 1 and 2 has two groups of spinnerets 2 and 3. The spinneret group 2 and the spinneret group 3 each comprise a total of four separate spinnerets in a row-shaped arrangement. As can be seen in particular from the illustration in FIG. 2, the two spinneret groups 2 and 3 and their spinnerets are formed by multiple spinnerets 4.1 to 4.4. Each of the multiple spinning nozzles 4.1 to 4.4 thus contains in each case a spinneret 2.1 of the spinneret group 2 and a spinneret 3.1 of the spinneret group 3. Such multiple spinnerets 4.1 to 4.4 are distinguished by the fact that two spinnerets are integrated in a nozzle package, which are fed via separate melt inlets. The multiple spinning nozzles 4.1 to 4.4 with the spinneret groups 2 and 3 are arranged in a spinning beam 1. The spinning beam 1 is designed to be heatable, wherein the spinning beam 1 is preferably connected via an inlet and a drain to a heat transfer circuit. On the upper side of the spinning beam 1, a driven spinning pump 5 is arranged, which is designed as a multiple pump and is connected via a plurality of distributor lines 7 with the spinnerets 2.1 to 2.4 and 3.1 to 3.4. The spinning pump 5 is connected via a melt inlet 6 with a melt source such as an extruder.
Unterhalb des Spinnbalkens 1 ist eine Abkühlvorrichtung 8 angeordnet. Die Abkühlvorrichtung 8 ist in diesem Ausführungsbeispiel als eine so genannte Querstromanblasung ausgeführt. Hierzu ist seitlich zu den Spinndüsengruppen 2 und 3 unterhalb des Spinnbalkens eine Blaskammer 11 mit einer den extrudierten Filamenten zugewandten Blaswand 10 ausgebildet. Die Blaskammer 11 ist an eine Kühlluftquelle angeschlossen und erzeugt über die Blaswand 10 ein in einen Kühlschacht 9 einströmenden Kühlluftstrom. Der Kühlschacht 9 erstreckt sich unterhalb der Spinndüsengruppen 2 und 3. Unterhalb des Kühlschachtes 9 ist jeder Spinndüse der Spinndüsengruppen 2 und 3 jeweils ein Fadenführer 12 zugeordnet, um eine Bündelung der extrudierten Filamente pro Faden auszuführen. Below the spinner 1 a cooling device 8 is arranged. The cooling device 8 is designed in this embodiment as a so-called Querstromanblasung. For this purpose, a blow chamber 11 with a blown wall 10 facing the extruded filaments is formed laterally of the spinneret groups 2 and 3 below the spinneret. The blow chamber 11 is connected to a source of cooling air and generates via the blowing wall 10 a flowing into a cooling duct 9 cooling air flow. The cooling shaft 9 extends below the spinneret groups 2 and 3. Below the cooling shaft 9, each spinneret of the spinneret groups 2 and 3 is assigned a respective thread guide 12, in order to carry out bundling of the extruded filaments per thread.
Den Fadenführern 12 ist im Fadenlauf eine Fadensammeieinrichtung 16 zugeordnet, durch welche die durch die Spinndüsen extrudierten Fäden auf einen Behandlungsabstand zueinander gebracht werden. Insoweit findet zwischen den Fadenführern 12 unterhalb des Kühlschachtes 9 und der Fa- densammeleinrichtung 16 eine Auslenkung der Fäden statt. Diese Auslenkung der Fäden ermöglicht eine gemeinschaftliche Behandlung der Fäden je nach Erfordernis als eine Fadengruppe oder als zwei separate Fadengruppen mit relativ engem Fadenabstand zwischen den Fäden. The yarn guides 12 is associated with a yarn collection device 16 in the yarn path through which the extruded through the spinneret threads are brought to a treatment distance from each other. In that regard, takes place between the yarn guides 12 below the cooling shaft 9 and the thread collecting device 16, a deflection of the threads instead. This deflection of the threads allows a common treatment of the threads ever as required, as one thread group or as two separate thread groups with relatively narrow thread pitch between the threads.
In diesem Ausführungsbeispiel ist die Fadensammeieinrichtung 16 durch einen Kammfadenführer 17 gebildet, der zu jedem Faden jeweils separate Führungsnuten aufweist. Der Kammfadenführer 17 ist mit einem Linearantrieb 18 gekoppelt, so dass der Kammfadenführer 17 zwischen einer Betriebs Stellung und einer Auslenkstellung führbar ist. In der Auslenkstellung wirkt der Kammfadenführer 17 mit einer Fadenschneidvorrichtung 19 und einer Fadenabsaugung 20 zusammen. So lässt sich beispielsweise die gesamte Fadenschar der beiden Fadengruppen gemeinsam bei einem Fadenbruch durch die Fadenschneideinrichtung 19 durchtrennen und über die Fadenabsaugung 20 zu einem Abfallbehälter führen. Der Fadensammeieinrichtung 16 ist im Fadenlauf ein Galettensystem 21 nachgeordnet. In this embodiment, the yarn collecting device 16 is formed by a Kammfadenführer 17, each having separate guide grooves for each thread. The combed yarn guide 17 is coupled to a linear drive 18, so that the combed yarn guide 17 can be guided between an operating position and an articulation position. In the deflection position, the comb thread guide 17 cooperates with a thread cutting device 19 and a thread suction device 20. Thus, for example, the entire yarn sheet of the two thread groups can be severed together at a yarn breakage by the thread cutting device 19 and lead over the thread suction 20 to a waste container. The yarn collecting device 16 is downstream of a godet 21 in the yarn path.
Zur Erläuterung des Galettensystems 21 wird zusätzlich zu der Figur 3.1 Bezug genommen, die das in Figur 1 gezeigte Galettensystem vergrößert darstellt. Insoweit gilt die nachfolgende Beschreibung für die Figuren 1 bis 3.1. To explain the godet system 21, reference is additionally made to FIG. 3.1, which shows the godet system shown in FIG. 1 enlarged. In that regard, the following description applies to the figures 1 to 3.1.
Das Galettensystem 21 weist in Fadenlaufrichtung eine erste Abzugsgalette 22 auf, die mit der Fadensammeieinrichtung 16 eine vertikale erste Faden- lauf ebene 23.1 aufspannt. Der Abzugsgalette 22 folgen mehrere untereinander angeordnete Führungsgaletten 24.1, 24.2, 24.3 und 24.4. Die Füh- rungsgaletten 24.1 bis 24.4 bilden in dem Galettensystem 21 eine Streckzone, wobei zwischen den Führungsgaletten 24.2 und 24.3 eine Führungsrolle 25 angeordnet ist. Die Führungsgaletten 24.1 bis 24.4 sowie die Führungs- rolle 25 sind zu einem S-förmigen Fadenlauf angeordnet, so dass die Fadenschar am Umfang der Führungsgaletten 24.1 bis 24.4 mit einfacher Umschlingung führbar sind. Im unteren Bereich des Galettensystems 21 sind zwei weitere Führungsgaletten 24.5 und 24.6 zur weiteren Fadenführung angeordnet. Die der Abzugsgalette 22 nachgeordnete Führungsgalette 24.5 ist an dem Galettensys- tem 21 derart angeordnet, dass sich zwischen der Fadensammeieinrichtung 16 und der Führungsgalette 24.5 eine zweite Fadenlaufebene 23.2 einstellt. Die zweite Fadenlauf ebene 23.2 ist in den Figuren 1 und Figur 3.1 gestrichelt dargestellt. In dem Galettensystem 21 ist die Abzugsgalette 22 und die nachgeordnete Führungsgalette 24.5 derart relativ zur Fadensammeleinrich- tung 16 angeordnet, dass sich zwischen den Fadenlaufebenen 23.1 und 23.2 ein Winkel erstreckt. In Figur 3.1 ist der Winkel mit der Kennzeichnung α dargestellt. The godet system 21 has, in the direction of yarn travel, a first take-off godet 22 which, with the yarn collecting device 16, tensions a vertical first yarn guide plane 23.1. The withdrawal godet 22 is followed by a plurality of guide godets 24.1, 24.2, 24.3 and 24.4 arranged one below the other. The guide godets 24.1 to 24.4 form a draw zone in the godet system 21, a guide roller 25 being arranged between the guide godets 24.2 and 24.3. The guide godets 24.1 to 24.4 and the guide Role 25 are arranged to form an S-shaped yarn path, so that the yarn sheet on the circumference of the guide godets 24.1 to 24.4 can be guided with a simple loop. In the lower part of the godet system 21, two further guide godets 24.5 and 24.6 are arranged for further yarn guidance. The godet godet 24.5 downstream of the take-off godet 22 is arranged on the godet system 21 in such a way that a second yarn running plane 23.2 is set between the yarn collecting device 16 and the guide godet 24.5. The second thread running level 23.2 is shown in dashed lines in Figures 1 and 3.1. In the godet system 21, the take-off godet 22 and the downstream guide godet 24.5 are arranged relative to the yarn collecting device 16 in such a way that an angle extends between the yarn running planes 23.1 and 23.2. In Figure 3.1, the angle is shown with the label α.
Die zwischen der Fadensammeieinrichtung 16 und der Abzugsgalette 22 sowie der Führungsgalette 24.5 aufgespannten Fadenlaufebenen sind geeignet, um die Fadenschar beider Spinndüsengruppen 2 und 3 zu separieren und getrennt abzuziehen. Alternativ besteht jedoch auch die Möglichkeit, alle Fäden der Spinndüsengruppen 2 und 3 gemeinsam in der Fadenlaufebene 23.1 über die Abzugsgalette 22 oder gemeinsam durch die Fadenlaufebene 23.2 über die Führungsgalette 24.5 zu führen. Um beim Abzug keine ungewünschten Ablenkungen an den Fäden zu erhalten, ist die An- Ordnung der Abzugsgalette 22 und die Führungsgalette 24.5 relativ zu der Fadensammeieinrichtung 16 derart gewählt, dass sich der zwischen den Fadenlaufebenen 23.1 und 23.2 erstreckende Winkel α im Bereich von 0° bis 15° liegt. Insoweit können alle von den Galetten 22 und 24.5 vorbereiteten Einrichtungen zur Behandlung der Fäden unabhängig von der Führung der Fäden in dem Galettensystem 21 genutzt werden. The thread running planes spanned between the yarn collecting device 16 and the drawing godet 22 and the guide godet 24.5 are suitable for separating the yarn sheet of both spinneret groups 2 and 3 and for removing them separately. Alternatively, however, it is also possible to guide all the threads of the spinneret groups 2 and 3 together in the thread running plane 23.1 via the take-off godet 22 or together through the thread running plane 23.2 via the guide godet 24.5. In order to obtain the trigger no unwanted deflections on the threads, the order of Abzugsgalette 22 and the Führungsgalette 24.5 relative to the yarn collecting device 16 is selected such that extending between the yarn running planes 23.1 and 23.2 angle α in the range of 0 ° to 15 ° is located. In that regard, all prepared by the godets 22 and 24.5 Means for the treatment of the threads are used independently of the leadership of the threads in the godet 21.
Wie insbesondere aus den Darstellungen in Figur 1 und 3.1 hervorgeht, ist zwischen den Führungsgaletten 24.4 und 24.5 eine Präparationsstation 13.2 angeordnet. Die Präparationsstation 13.2 weist ein Benetzungsmittel 14.2 sowie ein Dosiermittel 15.2 auf, um in der Präparationsstation 13.2 wahlweise an den zwischen den Führungsgaletten 24.4 und 24.5 geführten Fäden eine Benetzung durchzuführen. As can be seen in particular from the illustrations in FIGS. 1 and 3.1, a preparation station 13.2 is arranged between the guide godets 24.4 and 24.5. The preparation station 13.2 has a wetting agent 14.2 and a dosing 15.2 to perform wetting in the preparation station 13.2 optionally on the guided between the godets 24.4 and 24.5 threads wetting.
Wie aus den Darstellungen in Figur 1 und Figur 2 hervorgeht, wirkt die Präparations Station 13.2 mit einer zweiten Präparationsstation 13.1 zusammen. Die Präparations Station 13.1 ist unmittelbar den Fadenführern 12 unterhalb des Kühlschachtes 9 zugeordnet, um die frisch extrudierten Fila- mente nach dem Abkühlen zu benetzen. Die Präparations Station 13.1 weist ebenfalls ein Benetzungsmittel 14.1 und ein Dosiermittel 15.1 auf. Die Präparationsstation 13.1 ist ebenfalls steuerbar ausgeführt, so dass wahlweise die Fäden nach dem Abkühlen benetzbar sind. Wie aus den Darstellungen in den Figuren 1, 2 und 3.1 hervorgeht, ist einer letzten Führungsgalette 24.6 eine Verwirbelungseinrichtung 26 vorgeordnet. Die Verwirbelungseinrichtung 26 weist eine Mehrzahl von Behandlungskanälen 27 auf, in welchen jeweils eine Druckluft zur Verwirbelung der Fäden einspeisbar ist. Derartige Verwirbelungseinrichtungen 26 sind hinlänglich bekannt und werden daher an dieser Stelle nicht weiter erläutert. Die Behandlungskanäle 27 der Verwirbelungseinrichtungen 26 sind dabei derart beschaffen, dass wahlweise einzelne Fäden oder mehrere Fäden darin führbar sind. So lässt sich die Verwirbelungseinrichtungen 26 vorteilhaft dazu nutzen, um mehrere Monofäden oder mehrere Verbundfäden zu erzeugen. As can be seen from the illustrations in FIG. 1 and FIG. 2, the preparation station 13.2 interacts with a second preparation station 13.1. The preparation station 13.1 is assigned directly to the yarn guides 12 below the cooling shaft 9 in order to wet the freshly extruded filaments after cooling. The preparation station 13.1 also has a wetting agent 14.1 and a dosing 15.1. The preparation station 13.1 is also designed controllable, so that optionally the threads are wettable after cooling. As can be seen from the illustrations in FIGS. 1, 2 and 3.1, a turbulence device 26 is arranged upstream of a last guide godet 24.6. The swirling device 26 has a plurality of treatment channels 27, in each of which a compressed air for swirling the threads can be fed. Such turbulators 26 are well known and will therefore not be further explained at this point. The treatment channels 27 of the swirling devices 26 are designed in such a way that either individual threads or a plurality of threads can be guided therein. Thus, the turbulators 26 can be advantageous to create multiple monofilaments or multiple composite threads.
Wie aus den Darstellungen in Figur 1 und Figur 2 hervorgeht, sind die Ga- letten des Galettensystems 21 an einer Trägerplatte 29 angeordnet, das sich an einem Trägergestell 28 abstützt. Die Trägerplatte 29 ist besonders geeignet, um an einer Vorderseite die Führungsmäntel 44 der Galetten und an einer Rückseite die Galettenantriebe 45 zu halten. Die üblicherweise ausgeführten Kapselungen der Führungsmäntel 44, die beheizt und unbeheizt ausführbar sind, sowie die Kapselungen der Galettenantriebe 45 sind hier nicht dargestellt. As can be seen from the illustrations in FIG. 1 and FIG. 2, the pallets of the godet system 21 are arranged on a carrier plate 29, which is supported on a carrier frame 28. The support plate 29 is particularly suitable for holding the guide shells 44 of the godets on a front side and the godet drives 45 on a rear side. The usually executed encapsulations of the guide sheaths 44, which are heated and unheated executable, and the encapsulations of the godet drives 45 are not shown here.
Unterhalb des Galettensystems 21 sind zwei Auf Spulmaschinen 30.1 und 30.2 spiegelsymmetrisch zueinander angeordnet. Die Aufspulmaschinen 30.1 und 30.2 sind von dem Trägergestell 28 umrahmt, wobei die Trägerplatte 29 mit dem Galettensystem 21 an einem vorderen Stirnendbereich der Aufspulmaschinen 30.1 und 30.2 angeordnet ist. Below the godet system 21, two winding machines 30.1 and 30.2 are arranged in mirror symmetry to one another. The winding machines 30.1 and 30.2 are framed by the support frame 28, wherein the support plate 29 is arranged with the godet system 21 at a front end face of the winding machines 30.1 and 30.2.
Die Aufspulmaschinen 30.1 und 30.2 sind identisch aufgebaut und enthal- ten jeweils eine Wickelstellengruppe 31 und 32. So ist in Figur 1 die Wickelstellengruppe 31 der Aufspulmaschine 30.1 dargestellt. Die Wickelstellengruppe umfasst insgesamt vier Wickelstellen 31.1 bis 31.4. Die Wickelstellen 31.1 bis 31.4 sind entlang einer Spulspindel 33.1 ausgebildet. Die Wickelstellen 31.1 bis 31.4 weisen jeweils eine Changiereinrichtung 35 und eine Umlenkrolle 36 auf, um die über die Umlenkrolle 36 zugeführten Fäden zu wickeln. Die Fäden werden dabei in den Wickelstellen 31.1 bis 31.4 durch eine Andrückwalze 34 an den Oberflächen der Spulen 38 abgelegt. Den Wickelstellen 31.1 bis 31.4 ist eine zweite Spulspindel 33.2 zugeordnet, wobei beide Spulspindeln 33.1 und 33.2 an einem Spulrevolver 37 gehalten sind. Somit lässt sich ein kontinuierliches Aufwickeln der Fäden in den Wickelstellen 31.1 bis 31.4 realisieren. The winding machines 30.1 and 30.2 are constructed identically and each contain a winding point group 31 and 32. Thus, the winding head group 31 of the winding machine 30.1 is shown in FIG. The winding station group comprises a total of four winding points 31.1 to 31.4. The winding stations 31.1 to 31.4 are formed along a winding spindle 33.1. The winding stations 31.1 to 31.4 each have a traversing device 35 and a deflection roller 36 in order to wind the yarns supplied via the deflection roller 36. The threads are deposited in the winding stations 31.1 to 31.4 by a pressure roller 34 on the surfaces of the coils 38. The winding stations 31.1 to 31.4 is associated with a second winding spindle 33.2, wherein both winding spindles 33.1 and 33.2 are held on a winding turret 37. Thus, a continuous winding of the threads in the winding points 31.1 to 31.4 can be realized.
Die Aufspulmaschine 30.2 ist identisch mit einer zweiten Wickelstellengruppe 32 ausgebildet, wobei hier ebenfalls vier Wickelstellen 32.1 bis 32.4 vorgesehen sind. An dieser Stelle wird darauf hingewiesen, dass die Anzahl der Spinndüsen und die Anzahl der Wickelstellen pro Gruppe beispielhaft sind. Grundsätzlich können auch mehr als vier Fäden als eine Fadengruppe gesponnen, verstreckt und aufgewickelt werden. Das in Figur 1 und 2 dargestellte Ausführungsbeispiel der erfindungsgemäßen Vorrichtung ist in einer Betriebssituation gezeigt, bei welcher eine Mehrzahl von Monofäden mit einer FD Y- Charakteristik hergestellt werden. Hierzu werden die durch die beiden Spinndüsengruppen 2 und 3 gesponnenen Fäden gemeinsam als eine Fadenschar durch die Abzugsgalette 22 ab- gezogen. Auf dem Weg zur Abzugsgalette 22 erfolgt die Bündelung durch die Fadenführer 12 sowie die Zusammenführung durch die Fadensammeieinrichtung 16. Die Präparationsstation 13.1 ist deaktiviert, so dass die Fäden in einem trockenen Zustand von den Spinndüsen der Spinndüsengruppen 2 und 3 abgezogen werden. Die Fäden, die mit dem Bezugszeichen 46 gekennzeichnet sind, werden in einem S-förmigen Fadenlauf durch das Ga- lettensy stem 21 geleitet, wobei zumindest die Führung sgaletten 24.1 bis 24.4 einen beheizten Führungsmantel aufweisen. Insbesondere die Füh- rungsgaletten 24.2 und 24.3 werden mit einer größeren Differenzgeschwindigkeit zum Ver strecken der Fäden angetrieben. Nach dem Verstrecken werden die Fäden in der zweiten Präparations Station 13.2 benetzt und anschließend über die Führungsgaletten 24.5 und 24.6 zu den Wickelstellengruppen 31 und 32 geführt. Zuvor werden die Fäden ein- zeln in der Verwirbelungseinrichtung 26 behandelt, so dass aus jedem der durch die Spinndüsengruppen 2 und 3 extrudierten Fäden jeweils ein Monofaden mit FD Y-Eigenschaften herstellbar ist. The winding machine 30.2 is formed identically with a second winding point group 32, wherein here also four winding points 32.1 to 32.4 are provided. It should be noted here that the number of spinnerets and the number of spools per group are exemplary. In principle, more than four threads can be spun as a thread group, stretched and wound up. The exemplary embodiment of the device according to the invention shown in FIGS. 1 and 2 is shown in an operating situation in which a plurality of monofilaments with an FD Y characteristic are produced. For this purpose, the threads spun by the two spinneret groups 2 and 3 are pulled off together as a group of threads through the withdrawal godet 22. On the way to the withdrawal godet 22, the bundling is carried out by the yarn guides 12 and the merger by the yarn collecting device 16. The preparation station 13.1 is deactivated, so that the threads are removed in a dry state from the spinnerets of the spinneret groups 2 and 3. The threads, which are identified by the reference numeral 46, are guided in an S-shaped threadline through the giletsy system 21, wherein at least the guide sgaletten 24.1 to 24.4 have a heated guide shell. In particular, the guide godets 24.2 and 24.3 are driven at a greater differential speed for stretching the threads. After stretching, the threads are wetted in the second preparation station 13.2 and then guided over the guide godets 24.5 and 24.6 to the winding point groups 31 and 32. Previously, the threads are treated individually in the swirling device 26, so that in each case a monofilament having FD Y properties can be produced from each of the threads extruded through the spinneret groups 2 and 3.
Da die Herstellung von Verbundfäden oder Monofäden im Wesentlichen durch die Behandlung der Fäden im Galettensystem bestimmt ist, wird nachfolgend unter Bezug auf die Figuren 3.2 und 3.3 die alternative Betriebsweise der erfindungsgemäßen Vorrichtung nach Figur 1 und 2 beschrieben. In Figur 3.2 ist die Fadenlauf Situation an dem Galettensystem 21 bei Herstellung eines Verbundfadens gezeigt. In diesem Ausführungsbeispiel wird eine erste Fadengruppe 47.1 in der ersten Fadenlauf ebene 23.1 über die Ab- zugsgalette 22 in das Galettensystem 21 eingeführt. Die Fadengruppe 47.1 wird in den nachfolgenden Führungsgaletten verstreckt. Demgegenüber wird eine zweite Fadengruppe 47.2 in der zweiten Fadenlaufebene 23.2 direkt von der Fadensammeieinrichtung 16 über die Führungsgalette 24.5 in das Galettensystem 21 eingeführt. Die Fäden der Fadengruppe 47.2 erhalten somit eine PO Y-Charakteristik. An der Führungsgalette 24.5 wird die zweite Fadengruppe 47.2 gemeinsam mit der bereits verstreckten Fadengruppe 47.1 derart geführt, dass jeweils ein Faden mit einer FD Y- Charakteristik und ein Faden mit der POY-Charkteristik gemeinsam durch einen Behandlungskanal 27 der Verwirbelungseinrichtung 26 geführt werden. Die beiden Einzelfäden lassen sich so vorteilhaft zu einem Verbundfaden zusammenführen. Somit lassen sich die Fäden der Fadengruppen 47.1 und 47.2 zu einer Gruppe mehrerer Verbundfäden zusammenführen. Die Verbundfäden werden dann in den Wickelstellen einer der Wickelstellgruppen 31 oder 32 zu Spulen aufgewickelt. So lässt sich die in Figur 1 und 2 dargestellte Vorrichtung alternativ zur Herstellung mehrerer Verbundfäden einsetzen. In diesem Fall werden die Fäden der Fadengruppe 47.1 bevorzugt durch die Präparations Station 13.2 und die Fäden der Fadengruppe 47.2 bevorzugt durch die Präparationsstation 13.1 benetzt. Since the production of composite threads or monofilaments is essentially determined by the treatment of the threads in the godet system, the alternative mode of operation of the inventive device according to FIGS. 1 and 2 will be described below with reference to FIGS. 3.2 and 3.3. In Figure 3.2, the threadline situation is shown on the godet system 21 in producing a composite thread. In this exemplary embodiment, a first thread group 47.1 in the first thread running plane 23.1 is introduced via the withdrawal godet 22 into the godet system 21. Thread group 47.1 is stretched in the following guide godets. In contrast, a second thread group 47.2 in the second thread running plane 23.2 is introduced directly from the yarn collecting device 16 via the guide godet 24.5 in the godet 21. The threads of the thread group 47.2 thus receive a PO Y characteristic. At the guide godet 24.5, the second thread group 47.2 is guided together with the already drawn thread group 47.1 such that in each case a thread with a FD Y characteristic and a thread with the POY characteristics are passed together through a treatment channel 27 of the swirling device 26. The two monofilaments can be combined so advantageous to a composite thread. Thus, the threads of the thread groups 47.1 and 47.2 can be added merge a group of multiple composite threads. The composite threads are then wound into coils in the winding positions of one of the winding setting groups 31 or 32. Thus, the device shown in Figures 1 and 2 can be used alternatively for producing a plurality of composite threads. In this case, the threads of the thread group 47.1 are preferably wetted by the preparation station 13.2 and the threads of the thread group 47.2 preferably by the preparation station 13.1.
Die in der Figur 1 und 2 dargestellte Vorrichtung lässt sich jedoch auch al- ternativ ohne Umbauten zur Herstellung von Monofäden mit einer POY- Charakteristik einsetzen. Der sich dabei einstellende Fadenlauf in dem Ga- lettensy stem 21 ist in der Darstellung in Figur 3.3 gezeigt. Hier werden die Fäden 46, die durch die Spinndüsen der Spinndüsengruppen 2 und 3 extru- diert sind, gemeinsam in der zweiten Fadenlauf ebene 23.2 geführt und durch die Führungsgalette 24.5 abgezogen. Nach der Verwirbelung der Fäden in der Verwirbelung seinrichtung 26 werden diese über die letzte Führungsgalette 24.6 zu den Wickelstellen der Wickelstellgruppen 31 und 32 geführt. Die letzte Führungsgalette 24.6 ist im unteren Bereich des Galet- tensystems 21 bevorzugt seitlich zu den Wickelstellen der Wickelstellgrup- pen 31 und 32 gehalten, so dass die Fäden im Wesentlichen aus einer horizontalen Verteilebene heraus auf die Wickelstellen verteilt werden können. Die in den Figuren 1 und 2 dargestellte erfindungsgemäße Vorrichtung ist besonders kompakt und bedienungsfreundlich ausgeführt. Die in den Figuren 1 und 2 dargestellten Einrichtungen zum Schmelzspinnen, Abziehen und VerStrecken sowie zum Aufwickeln der Fäden sind beispielhaft. Wesentlich hierbei ist, dass der Einrichtung zum Schmelz spinnen eine gemeinsame Fadensammeieinrichtung sowie ein Galettensystem mit einer Galettenanordnung, die mit der Fadensammeieinrichtung zwei Faden- laufebenen bildet zum wahlweisen Einlauf in verschiedene Galettenanord- nungen zur Behandlung der Fäden, zugeordnet sind. Die Galetten des Ga- lettensystems 21 sind daher vorzugsweise mit Einzelantrieben ausgerüstet, um je nach Einsatz und Prozess bestimmte Umfangsgeschwindigkeiten ein- stellen zu können. Die Führungsgaletten können auch durch angetriebene Führungsrollen ersetze werden, so besteht auch die Möglichkeit, die zweite Fadenlaufebene zwischen der Fadensammeieinrichtung und einer angetriebenen Führungsrolle auszubilden. Zum Schmelz spinnen der Fäden lässt sich alternativ auch eine Anordnung der Spinneinrichtung wählen, wie sie beispielsweise in Figur 4 dargestellt ist. In diesem Beispiel sind die Spinndüsengruppen 3 und 4 durch jeweils getrennte Spinndüsen 2.1 und 3.1 gebildet, die nebeneinander an einem Spinnbalken 1 gehalten sind. Unterhalb der Spinndüsen 3.1 und 2.1, die an der Unterseite des Spinnbalkens 1 reihenförmig zu mehreren nebeneinander oder versetzt zueinander die Spinndüsengruppen 2 und 3 bilden, ist ein Kühlschacht 9 gebildet, der zu beiden Seiten jeweils eine Blaswand 10.1 und 10.2 mit jeweils einer Blaskammer 11.1 und 11.2 aufweist. Unterhalb des Kühlschachtes 9 sind den Spinndüsen 2.1 und 3.1 Fadenführer 12 und Benetzungsmittel 14.1 und 14.2 der ersten Präparationsstation 13.1 zugeordnet. Die Benetzungsmittel 14.1 sind den Spinndüsen der Gruppe 2 und die Benetzungsmittel 14.2 den Spinndüsen der Gruppe 3 zugeordnet. Die Benetzungsmittel 14.1 und 14.2 sind mit separaten Dosiermitteln 15.1 und 15.2 verbunden, so dass die erste Präparationsstation 13.1 wahlwiese zum Benetzen einer Fadenschar oder beider Fadenscharen einsetzbar ist. Es sind jedoch auch Spinneinrichtungen möglich, wie sie beispielsweise in der Figur 5.1 und Figur 5.2 gezeigt sind. Die Figur 5.1 zeigt die Querschnittsansicht und die Figur 5.2 eine Querschnittsansicht einer Spinneinrichtung, wie sie beispielsweise alternativ in der in Figur 1 und 2 dargestell- ten Vorrichtung einsetzbar wäre. In diesem Ausführungsbeispiel sind zwei Spinnbalken 1.1 und 1.2 parallel nebeneinander angeordnet, wobei jeder der Spinnbalken 1.1 und 1.2 jeweils mehrere Spinndüsen einer Spinndüsengruppe 2 und 3 hält. So sind in diesem Ausführungsbeispiel die Spinndüsengruppen 2 ebenfalls durch vier Spinndüsen 2.1, 2.2, 2.3 und 2.4 gezeigt. Die unterhalb der Spinnbalken 1.1 und 1.2 angeordnete Abkühl Vorrichtung 8 weist in diesem Ausführungsbeispiel zu jeder Spinndüse 2.1 bis 2.4 und 3.1 bis 3.4 jeweils einen Siebzylinder 39 auf, der in einer oberen Druckkammer 40 angeordnet ist. Die Siebzylinder 39 durchdringen die Druckkammer 40 bis zu einer Unterseite, an welcher sich ein Rohrstutzen 43 je- weils den Siebzylindern 39 anschließt. Die Rohrstutzen 43 sind in einer Verteilkammer 41 eingelassen, die einerseits über einen Kühlluftanschluss 42 mit einer Kühlluftquelle gekoppelt ist und die andererseits eine Verbindung zur Druckkammer 40 aufweist. Insoweit wird zur Abkühlung der extrudierten Filamente ein radial von außen nach innen fließender Kühlluft- ström erzeugt. However, the apparatus shown in FIGS. 1 and 2 can also be used alternatively without modifications for the production of monofilaments having a POY characteristic. The yarn path in the pallet system 21 which adjusts itself is shown in the illustration in FIG. 3.3. Here, the threads 46, which are extruded through the spinnerets of the spinneret groups 2 and 3, are guided together in the second thread running plane 23.2 and pulled off by the guide godet 24.5. After the turbulence of the threads in the swirling device 26, they are guided via the last guide godet 24.6 to the winding points of the winding setting groups 31 and 32. The last guide godet 24.6 is preferably held laterally to the winding points of the winding actuating groups 31 and 32 in the lower region of the godet system 21 so that the yarns can be distributed substantially out of a horizontal distribution plane onto the winding locations. The device according to the invention shown in Figures 1 and 2 is designed to be particularly compact and easy to use. The devices for melt spinning, stripping and stretching shown in FIGS. 1 and 2 and for winding up the threads are exemplary. The essential feature here is that the device for melt spinning a common yarn collection device and a godet system with a godet assembly, which with the yarn collecting device two thread collection Running levels forms the optional entry into various godet arrangements for the treatment of the threads, are assigned. The godets of the gillet system 21 are therefore preferably equipped with individual drives in order to be able to set certain peripheral speeds depending on the application and the process. The guide godets can also be replaced by driven guide rollers, so it is also possible to form the second thread running plane between the yarn collecting device and a driven guide roller. Alternatively, an arrangement of the spinning device, as shown for example in FIG. 4, can also be used to melt-melt the threads. In this example, the spinneret groups 3 and 4 are formed by separate spinnerets 2.1 and 3.1, which are held side by side on a spinning beam 1. Below the spinnerets 3.1 and 2.1, which form on the underside of the spinner 1 in rows to several side by side or offset to each other spinneret groups 2 and 3, a cooling shaft 9 is formed, on both sides in each case a blast wall 10.1 and 10.2, each with a blast chamber 11.1 and 11.2. Below the cooling shaft 9, the spinnerets 2.1 and 3.1 thread guide 12 and wetting agents 14.1 and 14.2 of the first preparation station 13.1 assigned. The wetting agents 14.1 are assigned to the spinnerets of group 2 and the wetting agents 14.2 to the spinnerets of group 3. The wetting agents 14.1 and 14.2 are connected to separate dosing means 15.1 and 15.2, so that the first preparation station 13.1 can be used selectively to wet a group of threads or both sets of threads. However, spinning devices are also possible, as shown for example in FIG. 5.1 and FIG. 5.2. FIG. 5.1 shows the cross-sectional view and FIG. 5.2 shows a cross-sectional view of a spinning device, such as would alternatively be used in the device illustrated in FIGS. 1 and 2. In this exemplary embodiment, two spinning beams 1.1 and 1.2 are arranged parallel next to one another, each of the spinning beams 1.1 and 1.2 each holding a plurality of spinning nozzles of a spinning nozzle group 2 and 3. Thus, in this embodiment, the spinneret groups 2 are also shown by four spinnerets 2.1, 2.2, 2.3 and 2.4. The arranged below the spinning beam 1.1 and 1.2 cooling device 8 has in this embodiment, each spinneret 2.1 to 2.4 and 3.1 to 3.4 each have a screen cylinder 39, which is arranged in an upper pressure chamber 40. The screen cylinders 39 penetrate the pressure chamber 40 as far as an underside, to which a pipe socket 43 connects in each case to the screen cylinders 39. The pipe sockets 43 are embedded in a distribution chamber 41, which is coupled on the one hand via a cooling air connection 42 with a cooling air source and on the other hand has a connection to the pressure chamber 40. In that regard, to cool the extruded filaments a radially from outside to inside flowing Kühlluft- ström generated.
Die in den Figuren 5.1 und 5.2 dargestellte Abkühl Vorrichtung 8 wird entsprechen dem gewünschten Garntyp gewählt, so dass die in den Ausführungsbeispielen gezeigten Abkühlvorrichtungen gegeneinander austausch- bar sind. The cooling device 8 shown in FIGS. 5.1 and 5.2 is selected according to the desired type of yarn, so that the cooling devices shown in the exemplary embodiments are interchangeable.
Bei dem Ausführungsbeispiel nach Figur 5.1 und Figur 5.2 sind die Fadenführer 18 und das Benetzungsmittel 14.1 der Präparationsstation 13.1 kombiniert, um eine Bündelung der Fäden auszuführen. Grundsätzlich können jedoch alle gezeigten Varianten zur Bündelung bei den gezeigten Ausführungsbeispielen alternativ eingesetzt werden. In the embodiment according to FIG. 5.1 and FIG. 5.2, the yarn guides 18 and the wetting agent 14.1 of the preparation station 13.1 are combined in order to carry out bundling of the threads. Basically you can However, all variants shown for bundling in the embodiments shown are used alternatively.
B ezug szeichenliste Reference sign list
1, 1.1, 1.2 Spinnbalken 1, 1.1, 1.2 Spinning beams
2 Spinndüsengruppe 2 spinneret group
2.1, 2.2, 2.3, 2.4 Spinndüse 2.1, 2.2, 2.3, 2.4 Spinneret
3 Spinndüsengruppe 3 spinneret group
3.1, 3.2, 3.3, 3.4 Spinndüse 3.1, 3.2, 3.3, 3.4 Spinneret
4.1, 4.2, 4.3, 4.4 Mehrfachspinndüse 4.1, 4.2, 4.3, 4.4 multiple spinneret
5, 5.1, 5.2 Spinnpumpe 5, 5.1, 5.2 spinning pump
6, 6.1, 6.2 Schmelzezulauf  6, 6.1, 6.2 Melt feed
7 Verteilerleitung  7 distribution line
8 Abkühlvorrichtung 8 cooling device
9 Kühlschacht 9 cooling shaft
10, 10.1, 10.2 Blaswand  10, 10.1, 10.2 Blowing wall
11, 11.1, 11.2 Blaskammer  11, 11.1, 11.2 Blow chamber
12 Fadenführer  12 thread guides
13.1, 13.2 Präparationsstation 13.1, 13.2 Preparation station
14.1, 14.2 B enetzung smittel14.1, 14.2 Composition
15.1, 15.2 Dosiermittel 15.1, 15.2 dosing agent
16 Fadensammeieinrichtung 16 yarn collecting device
17 Kammfadenführer17 combed yarn guides
18 Linearantrieb 18 linear drive
19 Fadenschneidvorrichtung 19 Thread cutter
20 Fadenabsaugung 20 thread extraction
21 Galettensystem  21 godet system
22 Abzugsgalette  22 withdrawal godet
23.1, 23.2 Fadenlaufebene  23.1, 23.2 threadline
24.1 bis 24.6 Führungsgalette  24.1 to 24.6 Guide Galette
25 Führungsrolle 26 Verwirbelung seinrichtung 27 B ehandlung skanal 28 Trägergestell 25 leadership role 26 Swirling device 27 Handling skanal 28 Carrier frame
29 Trägerplatte 29 carrier plate
30.1, 30.2 Aufspulmaschine 30.1, 30.2 winding machine
31 Wickelstellengruppe31 winding point group
31.1 bis 31.4 Wickelstelle 31.1 to 31.4 winding station
32 Wickelstellengruppe 32 winding point group
32.1 bis 32.4 Wickelstelle 32.1 to 32.4 winding station
33.1, 33.2 Spulspindel 33.1, 33.2 winding spindle
34 Andrückwalze 34 pressure roller
35 Changiereinrichtung 36 Umlenkrolle 35 traversing device 36 deflection roller
37 Spulrevolver 37 winding turret
38 Spule 38 coil
39 Siebzylinder 39 sieve cylinder
40 Druckkammer 40 pressure chamber
41 Verteilkammer 41 distribution chamber
42 Kühlluf tan schlus s 43 Rohrstutzen 42 Cooling fan connection 43 Pipe socket
44 Führungsmantel 44 guide sheath
45 Galettenan trieb 45 Galettenan drove
46 Faden 46 thread
47.1, 47.2 Fadengruppe  47.1, 47.2 Thread group

Claims

Patentansprüche Patent claims
Vorrichtung zur Herstellung einer Mehrzahl synthetischer Fäden wahlweise als Monofäden oder Verbundfäden mit mehreren Gruppen von Spinndüsen (2, 3) zum Spinnen von zumindest zwei Gruppen von Fäden (47.1, 47.2), mit mehreren den Spinndüsengruppen (2, 3) zugeordneten Galetten (21) zum Abziehen und/oder VerStrecken der Fäden und mit mehreren Gruppen von Wickelstellen (31, 32) zum Aufwickeln der Fäden als Monofäden oder als Verbundfäden, dadurch gekennzeichnet, dass eine gemeinsame Fadensammeieinrichtung (16) in einem Fadenlauf zwischen den Spinndüsengruppen (2, 3) und den Galetten (21) angeordnet ist, dass der Fadensammeieinrichtung (16) eine erste Abzugs- galette (22) der Galetten (21) zur Bildung einer ersten vertikalen Fadenlaufebene (23.1) und eine der Abzugsgalette (22) im Fadenlauf nach geordnete Führungsgalette (24.5) oder Führungsrolle zur Bildung einer weiteren Fadenlauf ebene (23.2) zugeordnet ist. Device for producing a plurality of synthetic threads, either as monofilaments or composite threads, with several groups of spinnerets (2, 3) for spinning at least two groups of threads (47.1, 47.2), with several godets (21) assigned to the spinneret groups (2, 3) for pulling off and/or stretching the threads and with several groups of winding points (31, 32) for winding the threads as monothreads or as composite threads, characterized in that a common thread collecting device (16) in a thread path between the spinneret groups (2, 3) and the godets (21) are arranged so that the thread collecting device (16) has a first take-off godet (22) of the godets (21) to form a first vertical thread running plane (23.1) and a guide godet arranged downstream of the take-off godet (22) in the thread run ( 24.5) or guide roller to form a further thread running level (23.2) is assigned.
Vorrichtung nach Anspruch 1, dadurch gekennzeichnet, dass die Abzugsgalette (22) und die nachgeordnete Führungsgalette (24.5) oder Führungsrolle derart relativ zur Fadensammeieinrichtung (16) angeordnet sind, dass die aufgespannten Fadenlaufebenen (23.1, 23.2) zwischen sich einen Winkel (a) im Bereich von 0° bis 15° einschließen. Device according to claim 1, characterized in that the take-off godet (22) and the downstream guide godet (24.5) or guide roller are arranged relative to the thread collecting device (16) in such a way that the spanned thread running planes (23.1, 23.2) have an angle (a) between them Include range from 0° to 15°.
Vorrichtung nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass die Fadensammeieinrichtung (16) zumindest einen Kammfadenführer (17) zu Führung der Fäden und eine Fadenschneidvorrichtung (19) mit einer Fadenabsaugung (20) aufweist. Device according to claim 1 or 2, characterized in that the thread collecting device (16) has at least one comb thread guide (17) for guiding the threads and a thread cutting device (19) with a thread suction device (20).
Vorrichtung nach einem der Ansprüche 1 bis 3, dadurch gekennzeichnet, dass die Galetten (21) zu einem Fadenlauf mit einer einfachen Um- schlingung angeordnet sind, wobei weitere der Abzugsgalette (22) im Fadenlauf nachfolgende Führungsgaletten (24.1 -24.6) zum Verstecken und Führen der Fäden seitlich neben den Fadenlaufebenen (23.1, 23.2) gehalten sind. Device according to one of claims 1 to 3, characterized in that the godets (21) form a thread path with a simple change. looping are arranged, with further guide godets (24.1 -24.6) following the take-off godet (22) in the thread path being held laterally next to the thread path levels (23.1, 23.2) for hiding and guiding the threads.
Vorrichtung nach einem der Ansprüche 1 bis 4,dadurch gekennzeichnet, dass eine Verwirbelungseinrichtung (26) zwischen zwei Führungsgaletten (24.5, 24.6) angeordnet ist, die mehrere Behandlungskanäle (27) zum wahlweisen Verwirbeln von Monofäden oder Verbundfäden aufweist. Device according to one of claims 1 to 4, characterized in that a swirling device (26) is arranged between two guide godets (24.5, 24.6), which has a plurality of treatment channels (27) for selectively swirling monofilaments or composite threads.
Vorrichtung nach einem der Ansprüche 1 bis 5, dadurch gekennzeichnet, dass die Spinndüsengruppen (2.3) durch mehrere Mehrfachspinndüsen (4.1 - 4.4)mit jeweils mehreren Schmelzeinlässen (7) gebildet sind, welche Mehrfachspinndüsen (4.1 - 4.4) reihenförmig an einem Spinnbalken (1) gehalten sind. Device according to one of claims 1 to 5, characterized in that the spinneret groups (2.3) are formed by a plurality of multiple spinnerets (4.1 - 4.4), each with a plurality of melt inlets (7), which multiple spinnerets (4.1 - 4.4) are arranged in rows on a spinning beam (1). are held.
Vorrichtung nach einem der Ansprüche 1 bis 6, dadurch gekennzeichnet, dass die Spinndüsen (2.1, 3.1) der Spinndüsengruppen (2, 3) auf mehrere Spinnbalken (1.1, 1.2) verteilt angeordnet sind. Device according to one of claims 1 to 6, characterized in that the spinnerets (2.1, 3.1) of the spinneret groups (2, 3) are arranged distributed over several spinning beams (1.1, 1.2).
Vorrichtung nach einem der Ansprüche 1 bis 8, dadurch gekennzeichnet, dass die Wickelstellengruppen (31, 32) auf zumindest zwei separate Auf Spulmaschinen (30.1, 30.2) verteilt sind, die sich spiegelsymmetrisch gegenüberstehen und unabhängig voneinander steuerbar sind. Device according to one of claims 1 to 8, characterized in that the winding point groups (31, 32) are distributed over at least two separate winding machines (30.1, 30.2), which face each other in mirror symmetry and can be controlled independently of one another.
Vorrichtung nach Anspruch 8, dadurch gekennzeichnet, dass die Galet- ten (21) an einem Trägergestell (28, 29) oberhalb der Aufspulmaschine (30.1, 30.2) derart gehalten sind, dass die Fäden den Wickelstellengruppen (31, 32) von einem Stirnendbereich der Aufspulmaschinen (30.1, 30.2) zuführbar sind. Device according to claim 8, characterized in that the godets (21) are held on a support frame (28, 29) above the winding machine (30.1, 30.2) in such a way that the threads are supplied to the winding point groups (31, 32) from a front end region of the Winding machines (30.1, 30.2) can be fed.
10. Vorrichtung nach einem der Ansprüche 1 bis 9, dadurch gekennzeichnet, dass der Fadensammeieinrichtung (16) eine erste Präparation Station10. Device according to one of claims 1 to 9, characterized in that the thread collecting device (16) has a first preparation station
(13.1) zum Präparieren der Fäden zugeordnet ist und dass zwischen den Führungsgaletten (24.4, 24.5) eine zweite Präparationsstation(13.1) is assigned for preparing the threads and that between the guide godets (24.4, 24.5) there is a second preparation station
(13.2) zum Präparieren der Fäden und dass die Präparationsstatio- nen(13.1, 13.2) unabhängig voneinander steuerbar ausgebildet sind. (13.2) for preparing the threads and that the preparation stations (13.1, 13.2) are designed to be independently controllable.
EP14750483.1A 2013-08-22 2014-08-12 Apparatus for producing a plurality of synthetic yarns Not-in-force EP3036361B1 (en)

Applications Claiming Priority (2)

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DE102013014508 2013-08-22
PCT/EP2014/067240 WO2015024817A1 (en) 2013-08-22 2014-08-12 Apparatus for producing a plurality of synthetic threads

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EP3036361A1 true EP3036361A1 (en) 2016-06-29
EP3036361B1 EP3036361B1 (en) 2018-06-06

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JP (1) JP6490074B2 (en)
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ES (1) ES2686137T3 (en)
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Publication number Publication date
EP3036361B1 (en) 2018-06-06
JP2016531216A (en) 2016-10-06
CN105556009B (en) 2018-01-30
JP6490074B2 (en) 2019-03-27
CN105556009A (en) 2016-05-04
WO2015024817A1 (en) 2015-02-26
ES2686137T3 (en) 2018-10-16

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