EP3149231A1 - Method and device for melt-spinning and crimping multiple threads - Google Patents

Abstract

The invention relates to a method and a device for melt-spinning and crimping multiple threads. The threads are spun in a parallel manner in a spinning device by means of multiple spinnerets and transported to a crimping device after being drawn off. The crimping device has multiple texturing nozzles in order to form a thread plug from each of the spun threads, said thread plugs then being positioned together on the circumference of a cooling drum in order to be unraveled into a respective crimped thread. In order to allow a reliable unraveling of the thread plugs with a plurality of wraps, the thread plugs on the circumference of the cooling drum are guided next to one another individually with a respective plurality of wraps. For this purpose, the texturing nozzles arranged upstream of the cooling drum are held adjacently at a crimping distance to one another.

Description

 Method and apparatus for melt spinning and crimping multiple threads

The invention relates to a method for melt spinning and crimping a plurality of threads according to the preamble of claim 1 and an apparatus for melt spinning and crimping a plurality of threads according to the preamble of claim 7.

In the production of crimped yarns in a melt spinning process, it is common for the yarns to be fed and treated together as a thread group after extrusion. In order to produce a crimping in the individual filament strands of the threads, the multifilament threads are pushed up next to one another in each case to form a thread stopper. This process step is carried out by the so-called texturing nozzles, in which the filaments of a thread are upset by means of a hot fluid within a stuffer box of the texturing to a thread plug. At the surface of the yarn plug, the filaments settle in loops and sheets and are compacted within the thread plug. To fix the crimping forming in the filaments, the yarn plugs are thermally treated. For this purpose, the yarn plugs are deposited on the circumference of a cooling drum, which is driven at a predetermined peripheral speed. The dwell time for cooling the thread plugs is essentially determined by the circumferential speed of the cooling drum on the one hand and on the other hand by the degree of wrap around the thread plugs on the circumference of the cooling drum. Since the peripheral speed of the cooling drum Due to the limited process parameters, intensive cooling can be achieved by several wraps of the yarn plug on the circumference of the cooling drum. Such a method and such a device for melt spinning and crimping a yarn sheet is known, for example, from DE 26 32 082. In the known method and in the known device, the spun threads are next to each other by means of several texturing nozzles compressed in each case a yarn plug and stored on the circumference of a cooling drum. The yarn plugs are placed directly next to each other without clearance on the circumference of the cooling drum and guided in several wraps around the circumference of the cooling drum. Due to the direct contact of the adjacent yarn plug to each other, mutual influences of the individual filaments of the yarn plug arise. Particularly in the case of thread plugs having a correspondingly low thread plug density, a loose bond of the filaments within the thread plug causes individual filaments in the adjacent wraps of the adjacent thread plug to snag on the circumference of the cooling drum. Such entanglements have a negative effect, in particular when the thread stoppers are dissolved relative to the crimped threads. Such irregularities in the structure of the crimped threads are undesirable. In addition, such entanglements create thread tension variations in the dissolution of the crimped yarns which adversely affect, for example, the entanglement process of the yarn.

It is therefore an object of the invention to provide a method and an apparatus for melt spinning and crimping several threads of the generic type to provide such in which a thermal treatment of multiple yarn plugs with several adjacent wraps around the circumference of the cooling drum and a uniform resolution of the yarn plug to crimped threads is possible.

This object is achieved according to the invention for a method in that the yarn plugs are separated on the circumference of the cooling drum, each with several wraps side by side.

The solution of the problem is characterized in the generic device in that adjacent texturing nozzles of the crimping form such a Kräuselungsabstand between them, that the yarn plugs are individually with each several wraps side by side on the circumference of the cooling drum feasible.

Advantageous developments of the invention are defined by the features and feature combinations of the respective subclaims.

The invention is characterized in that the yarn plugs are guided separately on the circumference of the cooling drum. Mutual influence of the thread plug is excluded. In particular, the resolutions of the yarn plugs are offset in the axial direction of the cooling drum. In addition, the residence time of each thread plug on the circumference of the cooling drum can be increased many times. The number of straps Conditions of the individual yarn plug is not limited and may include two, three or more wraps.

For intensive utilization of the cooling surface of a cooling drum, the method variant is preferably carried out, in which the wraps of one of the yarn plugs are guided on the circumference without spacing next to each other. Thus, the wraps of a thread plug close to the circumference of the cooling drum lead.

Such a tray is favored by the development of the device according to the invention, in which the crimping distance between the texturing is at least greater than a double guide width of the yarn plug on the circumference of the cooling drum. Thus, at least two wraps of the yarn plug can be placed without mutual interference on the circumference of the cooling drum.

The utilization of the cooling surface of a cooling drum can be further improved by adjacent wraps of adjacent yarn plugs are guided along the circumference with or without distance next to each other. Since the dissolution zones of the thread plugs are separated from one another by the respective wraps, even a guidance of the thread plug wraps of adjacent thread plugs is possible without spacing. However, in order to allow a safe storage of the yarn plug, a small distance is preferably selected between adjacent wraps of adjacent yarn plug. The handling for applying the yarn plugs to the circumference of the cooling drum is preferably carried out separately in individual steps. In this case, in particular, the method variant has proved successful, in which at least the crimped thread of one of the thread plugs is received by a stationary suction device during the application of the thread plugs. The yarn plugs can be selected so as to be successively placed on the circumference in several wraps around the jacket of the cooling drum.

For this purpose, the device according to the invention has a stationary suction device for the temporary guidance of individual threads on the discharge side of the cooling drum. Thus, at the start of the process, individual crimped threads can be picked up and removed via the suction device for a short time after the thread plug has been put in place.

For the crimping, the method variant has proven particularly useful in which the spun threads are stretched together with several wraps on a godet unit with at least one driven godet side by side and in which the stretched threads after expiry of the godet shell in a straight yarn path run parallel to each other in the texturing nozzles. This allows the drawn threads to be guided and textured directly in the straight threadline without any deflection. Thus, the threads can be deducted on the one hand as a group of threads after spinning and lead without rerouting under the same conditions for crimping. The device according to the invention is particularly suitable in its development, in which the godet unit associated with the spinning device has at least one driven godet jacket, on the circumference of which the spun threads can be guided, each with the crimping distance between them. The threads can be parallel during stretching and curling.

In order to perform the dissolution of the yarn plug to the crimped threads as possible under the same conditions, is also provided that the cooling drum downstream of a galette unit is arranged with at least one driven godet casing on the circumference of the crimped threads with each crimping distance between them feasible are.

The quality of the threads produced can be further improved by providing a post-treatment device arranged downstream of the crimping device with a plurality of swirling aggregates, in which the swirling aggregates are held to one another with the croaking spacing. Thus, the treatment, the crimping and the aftertreatment in the production of melt-spun crimped threads can be carried out essentially without deflections and without additional thread guiding means. The method according to 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.

They show: Fig. 1 shows schematically a view of a first embodiment of the device according to the invention

 Fig. 2.1

to

 Fig. 2.3 shows schematically several partial views of the embodiment of Fig. 1 at a process start

 Fig. 3 shows schematically a view of a further embodiment of the device according to the invention

In Fig. 1, a first embodiment of the device according to the invention for melt spinning and crimping a plurality of threads is shown schematically. The device consists of a spinning device 1, a drawing device 8, a crimping device 11 and an aftertreatment device 16, which are arranged one behind the other to form a yarn path.

Usually, the crimped threads are wound up into coils after a post-treatment. Such a winding device is not shown at this point. Here, the threads can be wound together on a winding spindle or separately on separate winding spindles.

The spinning device 1 is shown schematically in this embodiment by a spinning beam 2 with three juxtaposed on the underside of the spinning beam 2 spinnerets 3.1, 3.2 and 3.3. The spinning beam 2 is usually designed to be heated and has a melt distribution system and one or more spinning pumps. One supplied by a melt source Melt is fed via an inlet 4 to the spinnerets 3.1 to 3.3.

Immediately below the spinning beam 2, a cooling device 5 is provided in order to cool the filament strands extruded by the spinnerets 3.1 to 3.3. The cooling device 5 are assigned in the lower area a plurality of collective yarn guides 6.1 to 6.3, in order to merge the filament bundles produced per spinneret 3.1 to 3.3 in each case to form a thread 21.

The threads 21 are withdrawn together as a group of threads from the spinning device 1. For this purpose, the drawing device 8 has a first godet unit 9.1. The godet unit 9.1 is formed by two projecting galette coats 10.1 and 10.2, which are mounted on one side and coupled to a respective drive. The godet coats 10.1 and 10.2 of the godet unit 9.1 are preferably designed to be heated.

The godet unit 9.1 is associated with a second godet unit 9.2, which is likewise formed from two godet shells 10.1 and 10.2. The godet coats 10.1 and 10.2 of the godet unit 9.2 are coupled to a drive and preferably also designed to be heated. The godet units 9.1 and 9.2 are usually driven at a differential speed to co-stretch the yarns 21 as a group of yarns. The drawing device 8 follows in the yarn path the crimping device 11, which has a plurality of texturing nozzles 12.1, 12.2 and 12.3 in this embodiment. The texturing nozzles 12.1, 12.2 and 12.3 each have a delivery nozzle 13 and a stuffer box 14. Such texturing nozzles are well known, so that only the function will be explained at this point.

By means of the delivery nozzle 13, the drawn thread is guided into a delivery channel and preferably conveyed by means of a preferably heated fluid hot air as a fiber stream in the adjacent stuffer box 14. Within the stuffer box 14, the drawn thread is upset to a thread plug, wherein the individual filaments of the thread create in loops and arcs on the surface of the yarn plug and are compressed by the air flow. The compression chamber 14 includes a plurality of openings in the upper region in order to be able to remove the air flow used to convey the thread. The thread stopper formed in the stuffer box 14 is led out on an outlet side and deposited on the circumference of a downstream cooling drum 15.

As is apparent from the illustration in FIG. 1, the texturing nozzles 12.1, 12.2 and 12.3 are arranged at a distance from one another above a cooling drum 15. The distance between two adjacent texturing nozzles 12.2 and 12.3 is indicated in FIG. 1 by the code letter K and is referred to below as the crimping distance. The yarn plugs 22.1, 22.2 and 22.3 produced on the undersides of the texturing nozzles 12.1 to 12.3 become with the crimping distance K at the circumference of the cooling drum 15 filed. The crimp spacing K is chosen such that a plurality of wraps of the respective yarn plug 22.1, 22.2 and 22.3 are feasible in the space between two adjacent yarn plug trays. In this embodiment, two wraps each of the yarn plugs 22.1, 22.2 and 22.3 are shown on the circumference of the cooling drum 13. For reasons of clarity, the crimp spacing was deliberately chosen to be very large in order to illustrate the selective guidance of the yarn plugs on the circumference of the cooling drum 15.

The cooling drum 15 is preferably connected to a suction device, by which a suction flow is generated from outside to inside through the jacket of the cooling drum 15. For this purpose, the cooling drum 15 has an air-permeable jacket.

The cooling drum 15 is assigned to a drain side a stationary suction device 23, which is shown in this embodiment by a suction nozzle 24 and a vacuum source 25. The suction device 23 is provided to facilitate the application of the yarn plug at the periphery of the cooling drum at the beginning of a process. The function of the suction device 23 and the application of the yarn plug 22.1, 22.2 and 22.3 on the circumference of the cooling drum 15 will be explained in more detail below. The crimping device 11 is assigned an aftertreatment device 16, by means of which the yarn plugs 22.1, 22.2 and 22.3 are respectively dissolved into a crimped yarn 26.1, 26.2 and 26.3 and through which an aftertreatment especially a thermal aftertreatment under low tensile stress is eliminated. leads. For this purpose, the aftertreatment device 16 has two godet units 17.1 and 17.2, which each have a driven godet casing 18 and a deflection roller 19. The gilet jacket 18 and the deflection roller 19 are arranged cantilevered, the godet jacket 18 being coupled to a drive. Between the godet units 17.1 and 17.2 a plurality of swirling aggregates 20.1, 20.2 and 20.3 are arranged. The Verwirbelungsaggregate 20.1, 20.2 and 20.3 also have between them the Kräuselungsabstand K, so that the threads are in an isolated leadership with multiple wraps on the godet unit 17.1 parallel in a straight line run guidable. Thus, the crimped threads 26.1, 26.2 and 26.3 during the dissolution of the yarn plugs 22.1, 22.2 and 22.3 in the straight yarn path on the circumference of the cooling drum 15 are deducted.

After turbulence, the threads are 26.1 to 26.3 taken in parallel run by the godet unit 17.2 and also isolated with multiple wraps side by side on the godet 18 and the guide roller 19 out. At the end of the process, the crimped threads are usually wound into coils, wherein the coils can be wound together on a winding spindle or separately on a plurality of winding spindles.

In the exemplary embodiment of the device according to the invention shown in FIG. 1, several threads are spun parallel to one another from a plurality of spinnerets 3.1 to 3.3 by the spinning device 1. The spinnerets 3.1 to 3.3 of the spinning device 1 are each held with a spinning distance from one another to the spinning beam 2. The spun threads 21 are withdrawn together as a group of threads through the godet unit 9.1 of the drawing device 8. Previously, after being cooled, the threads are brought together by a squirrel guide 7 to a treatment distance which is smaller than the spinning distance between the adjacent spinnerets 3.1 and 3.2. In this case, the crimping distance K is already set as the treatment distance, so that the spun threads are stretched parallel to one another as a group of threads through the sprocket units 9.1 and 9.2 and fed to the crimping device 11. In that regard, there is a separation of the threads on the godet unit en 9.1 and 9.2, so that the spun yarns are guided on the godet coats 10.1 and 10.2 with several wraps side by side.

In the crimping device 11, the texturing nozzles 12.1 to 12.3 are arranged with the crimping distance K relative to each other so that the yarn plugs 22.1 to 22.3 emerging on an outlet side of the texturing nozzles 12.1 to 12.3 are separated from one another at the circumference of the cooling drum 15 by the crimping distance. The crimping distance K is selected such that each of the yarn plugs 22.1 to 22.3 can be guided with several wraps around the circumference of the cooling drum 15. In the exemplary embodiment illustrated in FIG. 1, two wrappings of the thread plugs 22.1 to 22.3 on the circumference of the cooling drum 15 are shown as an example.

To break up the thread plugs, the crimped threads 26.1 to 26.3 are separated with several wraps on the gas withdrawn letteeinheit 17.1 and supplied to the subsequent Verwirbe- aggregating units 20.1 to 20.3.

The method according to the invention and the device according to the invention according to the exemplary embodiment according to FIG. 1 are characterized in particular by the fact that the threads spun as a group of threads are treated, crimped and post-treated under essentially the same conditions. Particularly in the case of crimping, an intensive thermal treatment can be carried out on each of the threads, in which the upset thread can be guided on the circumference of the cooling drum 15 with a plurality of wraps.

In order to facilitate the application of the yarn plug to the cooling drum, especially at the beginning of the process, a suction device 23 with a suction nozzle 24 and a vacuum source 25 is provided on the outlet side of the cooling drum 15. The function of the illustrated suction device is explained in more detail in the following figures 2.1 to 2.3. In FIGS. 2.1 to 2.3, a section of the exemplary embodiment from FIG. 1 is shown schematically in each case. In that regard, the illustrated devices are identical to the aforementioned embodiment. When creating a yarn sheet in a melt spinning process, it is common that the spun yarns are continuously picked up and guided by a hand injector 27. When creating in the crimping device 11 is first at the texturing 12.1 of the first yarn plug 22.1 by short-term closing formed the texturing 12.1 and then laid in several wraps on the circumference of the cooling drum 15. On the outlet side of the yarn plug 22.1 withdrawn crimped thread 26.1 is received on the suction nozzle 24 with the suction device 23 and continuously fed to a waste container. This situation is shown in FIG. 2.1.

This process is then repeated on the thread plug 22.2 and 22.3. In this case, the crimped yarn 26.2 is also taken up by the suction nozzle 24 and removed. The crimped yarn 26.3 of the yarn plug 22.3 remains in a hand injector 27. This situation is shown in FIG. 2.2. In order to continue the application process of the yarn sheet, the crimped yarns 26.1 and 26.2 are separated separately from the inlet into the suction nozzle 24 and taken over by the hand injector 27. Now the application process of the yarn sheet to the subsequent units can be continued. This situation is shown in FIG. 2.3.

In the embodiment of the device according to the invention shown in FIG. 1, the crimping distance is at the same time the treatment distance during stretching and during the aftertreatment of the threads. In principle, it should be mentioned at this point that the invention is not limited to such a thread guide in a melt spinning process. Thus, it is also possible during the drawing of the threads and / or during the aftertreatment of the threads to guide the threads to a changed treatment distance. In Fig. 3 for this purpose, a further embodiment of the device according to the invention is shown, as they would be executable, for example, in a melt spinning process. In Fig. 3, only the godet unit 9.2 and the subsequent crimping 11 is shown schematically. The godet unit is also in this embodiment by two driven godet coats

10.1 and 10.2 formed, but the axes are not arranged axially parallel to the cooling drum 15 of the crimping device 11. In this embodiment, the crimping device 11 has two texturing nozzles 12.1 and 12.2 to receive and curl two spun yarns 21. The texturing nozzles 12.1 and

12.2 are arranged adjacent to a crimping distance K, so that the yarn plugs 22.1 and 22.2 produced on the outlet side of the texturing nozzles 12.1 and 12.2 are deposited on the circumference of the cooling drum 15 in isolated fashion. Each of the yarn plugs are guided with a multiple wrap around the circumference of the cooling drum 15. The guide width of the yarn plug 22.1 on the circumference of the cooling drum 15 is shown in FIG. 3 with the code letter S. In order to be able to guide the yarn plug 22.1 with several wraps around the circumference of the cooling drum 15, the curl spacing K between the texturing nozzles must be at least greater than a double guide width S. The number of selected wraps of the yarn plug 22.1 thus determines the curl spacing K between the texturing nozzles 22.1 and 22.2. In the exemplary embodiment shown in FIG. 3, K> 3xS.

The crimping distance K between the texturing nozzles 12.1 and 12.2 can be selected such that the adjacent circumference slings of the adjacent yarn plug 22.1 and 22.2 without substantial distance directly next to each other on the circumference of the cooling drum 15 are performed. Alternatively, however, it is also possible to maintain a distance between adjacent wrappings of the thread plugs 22.1 and 22.2.

The feeding of the spun threads in this embodiment takes place independently of the crimping distance K. Thus, the threads can be guided on the godet unit 9.2 and during the stretching with a substantially smaller treatment distance.

It is also possible to combine the crimped threads 26.1 and 26.2 after the dissolution of the thread plugs 22.1 and 22.2 for the aftertreatment to a smaller thread spacing. It is essential here that relatively long residence times for the heat treatment can be realized for the crimping so that the yarn plugs 22.1 and 22.2 can be guided at relatively high process speeds on the circumference of the cooling drum 15.

Claims

claims

1. A method for spinning spun and crimping a plurality of threads, in which the threads of a plurality of spinnerets are spun and pulled side by side, in which the threads are then crimped for crimping side by side by means of several texturing nozzles in each case to a yarn plug and wherein the yarn plugs in front of a Dissolving to be deposited in each case a crimped thread on the circumference of a cooling drum,

 characterized in that

 the yarn plugs are separated on the circumference of the cooling drum with several wraps each side.

2. The method according to claim 1,

 characterized in that

 the wraps of one of the yarn plugs are guided around the circumference without spacing next to each other.

3. The method according to claim 2,

 characterized in that

 adjacent wraps adjacent yarn plug on the circumference with or without distance are led side by side.

4. The method according to any one of claims 1 to 3,

 characterized in that

 At the beginning of a process, the thread plugs are applied one after the other separately to the circumference of the cooling drum.

Method according to claim 4,

characterized in that

during application of the thread plugs, at least the crimped thread of one of the thread plugs is received by a stationary suction device.

Method according to claim 5,

characterized in that

the crimped threads after applying all the thread plugs together by means of a hand injector for applying to a godet unit.

Method according to one of claims 1 to 6,

characterized in that

the spun yarns are stretched for stretching in each case with several wraps on a godet unit with at least one driven godet casing side by side and that the stretched yarns are run parallel to each other in the texturing nozzles after expiration of the godet shell in a straight yarn path.

Apparatus for melt spinning and crimping a plurality of threads, comprising a spinning device (1) with a plurality of spinnerets (3.1 - 3.3), at least one godet unit (9.2), a crimping device (11) with a plurality of texturing nozzles (12.1-12.2) and a cooling drum (15 ) for receiving the yarn plugs (22.1, 22.2) produced by the texturing nozzles (12.1, 12.2), characterized in that

 adjacent texturing nozzles (12.1, 12.2) of the crimping device (11) form such a crimping distance (K) between them that the yarn plugs (22.1, 22.2) can be guided side by side on the circumference of the cooling drum (15) with a plurality of wraps.

9. Apparatus according to claim 8,

 characterized in that

 the crimp spacing (K) between the texturing nozzles (12.1, 12.2) is at least greater than a double guide width (S) of one of the yarn plugs (22.1, 22.2) on the circumference of the cooling drum (15).

10. Device according to one of claims 8 or 9,

 characterized in that

 the cooling drum (15) on a discharge side a stationary suction device (23) for temporarily guiding individual threads (26.1, 26.2) is assigned.

11. Device according to one of claims 8 to 10,

 characterized in that

 the cooling drum (15) downstream of a galette unit (17.1) with at least one driven godet casing (18) is arranged on the circumference of which the crimped threads (26.1, 26.2) can be guided, each with the crimping distance (K) between them.

12. Device according to one of claims 8 to 11, characterized in that

 the crimping device (11) is arranged downstream of a post-treatment device (16) with a plurality of swirling units (20.1, 20.2), wherein adjacent swirling aggregates (20.1, 20.2) are held to one another with the crimping distance (K).

13. Device according to one of claims 8 to 12,

 characterized in that

 the godet unit (9.1) assigned to the spinning device (1) has at least one driven godet casing (10.1), on the circumference of which the spun yarns (21) can be guided, each with the crimping distance (K) between them.