EP1453996B1 - Method and device for producing a combination yarn - Google Patents

Abstract

The invention relates to a method and a device for producing an elastic combination yarn that consists of at least two yarns, one yarn (covering yarn) is a staple-spun yarn, produced from natural and synthetic fibers, and the other yarn (core yarn) is an elastic continuous-filament yarn, and both yarns are combined with each other by interlacing using a fluid. The yarns are glued with one another on their points of contact that are produced by the interlacing nodes. The invention also relates to a method for carrying out the method, which comprises yarn guides for a plurality of yarns, a preparation element, a combination element and a spooling element.

Description

The invention relates to a method and an apparatus for producing a elastic combination games, consisting of at least two threads, in which one thread (sheath thread) made of a staple fiber yarn made of natural or synthetic fibers, and the other thread (core thread) is elastic endless thread and these threads by swirling by means of a Fluids are brought together.

There are a variety of methods and devices are known in which different or similar threads are combined into a yarn and further processed. These threads are usually twisted, twisted, wound or swirled together by compressed air. These known processes have the following advantages and disadvantages:
When winding or twisting the process speeds are a maximum of 15-40m / min, while in the swirling process speeds up to 1200m / min can be achieved. These methods are particularly often used in the combination of elastic threads with threads of natural or synthetic staple fibers. Elastic yarns are used especially when the textile surface is supposed to be wrinkle-free and wrinkle-free, or when, for example, garments are to be prevented from buckling. Therefore, the yarn must have a certain restoring force. The yarns produced in this way are very different in their quality. Thus, the elastic thread during winding or twisting is protected by the surrounding sheath thread while swirling (also called Luftumwinden, Aircovering, Luftumwirbeln) of the elastic thread only more or less periodically mixed with the sheath or the sheath threads lies inside the sheath thread. Thus, a large qualitative and visual difference is visible in the fabric image and goods failure, the quality of the material in which the yarn was produced in the wrapping process, is much better, since the yarn has a good coverage through the sheath thread. The proportion of the elastic thread should be as small as possible and only so large that the restoring forces in the yarn are sufficiently high. However, both methods have the disadvantage that, in particular when using staple fiber threads as sheath thread, there is no permanent connection between the two threads to be combined. During further processing, this can cause problems that the elastic thread slips over the sheath thread lack of resistance to displacement, it thus leads to yarn tension differences in the yarn and form loops that can cause process disturbances or stoppages in further processing such as weaving or knitting. Particularly in the combination of natural fiber threads with elastic threads, there are problems in further processing, since these threads can be much less swirling in contrast to synthetic staple fiber filaments or continuous filaments and also no stable connection with the elastic core thread can be achieved.

There are already several methods have been proposed to produce staple fiber filaments with elastic filaments. Thus, WO 95/23886 describes a process in which staple fibers are fed directly to filaments in order to combine them by air-texturing with one another to form a blended yarn. However, this technique has not brought the expected success and could not be implemented in practice. The attempt to connect an endless filament yarn with a staple fiber yarn (DE 299 02 103 U1) by means of a swirl generator has not been successful. In contrast to filaments, especially natural fibers behave much stiffer and can not be opened so easily during swirling, so that the core thread is not integrated satisfactorily. In these yarns, therefore, synthesis yarn is generally fed in addition, which are then easier to fluidize, but have the disadvantage that the synthetic material content in the combination yarn is very high.

When winding natural fibers behave just as stiff, and thus slips the elastic thread over the sheath thread, so that the above Problems arise. For natural fibers, especially flax, which is very rigid behaves, therefore, the elastic thread, each with an S and Z-thread twined to make a connection between the natural fiber thread and the elastic Manufacture thread. However, this has the disadvantage that through Use of two threads doubled the yarn size and made it Fabric is very thick, which is less appreciated.

The object of the invention is to provide an elastic combination yarn, in which the elastic core thread is stable with one of natural or synthetic Fibers or fiber blends existing mantle thread connected is so that the threads can not slip against each other.

This object is achieved according to the features of claims 1 and 14 + 17. The fact that the threads are glued at their contact points, a stable and non-slip connection between the elastic core thread and reaches the staple fiber thread in the combination yarn. It is useful the staple fiber thread in a preparation zone for association with prepared the elastic continuous thread, in order subsequently in a Vereini: tion zone to be united with the elastic thread by swirling, wherein a bonding takes place. Surprisingly, it has been shown that the Swirling filaments consisting of adhesives containing fibers, in the area of the Verwirbelungsknoten a point bonding, while between the Verwirbelungsknoten open lengths arise whose Size is determined by the distance of the nodes. If necessary, follows on the union zone a stabilization zone in which the bond the two threads is fixed. Does the staple fiber thread consist of flax or hemp fibers, so in the preparation zone, the fibers adhering to the Pectins dissolved, so that in the union zone a bond done by these pectins with the elastic continuous thread. That's it possible to stably even such stiff staple fibers with elastic threads unite. The preparation of the flax or hemp thread is preferably done with steam to dissolve the pectins. Unless the thread is your own Contains adhesives, such as cotton or synthetic fibers the case is in the preparation zone on the fiber yarn thread Adhesive applied. In this way, for example, also fiber yarns made of synthetic fibers stable and non-slip with an elastic Continuous filament. Because the elastic thread is not prepared For the union, this is usually only after the Supplied to the preparation zone of the union zone. It has, however, surprisingly shown that a common threadline of the elastic Thread and the fiber yarn thread through the preparation zone harmless is, as far as the temperatures used in the preparation not too are high. This greatly simplifies the process and the device.

The device for producing the combination yarn consists essentially a thread feed for several threads, a preparation unit, an unification unit as well a winding unit, wherein the preparation unit both a heating device as well as additionally or alternatively one Supply for adhesives includes. If necessary, the union unit can be a stabilization unit be downstream of the combination yarn before winding to fix. The device for producing the combination yarn will be greatly simplified if the preparation unit and the union unit are summarized. Furthermore friction edges are avoided, so that the elastic combination yarn a gentler treatment.

From US 4,829,757 is an apparatus for manufacturing an elastic combination yarn known from at least There are two threads, one of which thread is inelastic and the other is elastic, and these threads by swirling be united by means of an air nozzle. This known device includes a thread feeder for several Threads, a union unit and a winding unit also a preparation unit. This preparation exists but only in a humidification of the inelastic Garnes, before this the pneumatic union unit is supplied. However, this preparation is not suitable for the union of the two components by gluing, such as it is proposed according to the present invention.

Further details of the invention will be explained with reference to the drawings.

Figur 1

ein Kombinationsgarn in gespanntem Zustand

Figur 2

ein Kombinationsgarn in entspanntem Zustand

Figur 3

eine Vorrichtung zur Herstellung des Kombinationsgarnes in schematischer Darstellung

Figur 4

die Vorrichtung gemäß Figur 3 mit zusätzlichen Garnbehandlungseinrichtungen

Figur 5

die Vorrichtung gemäß Figur 4 mit kombinierter Vorbereitungs- und Vereinigungseinheit

Figur 6

eine Vorbereitungs- und eine Vereinigungseinheit für Naturfasergarn im Schnitt

Figur 7

eine Anordnung gemäß Figur 6, jedoch für ein Kombinationsgarn aus synthetischen Fasern

Figur 8

eine Vorbereitungs-, Vereinigungs- oder auch Stabilisierungseinheit im Schnitt

Figur 9 bis 11

Querschnitte AA gemäß Figur 8 mit verschiedener Ausführung der Zuströmbohrungen

Figur 12

eine Garnbehandlungsvorrichtungbestehend aus einer kombinierten Vorbereitungs- und Vereinigungseinheit im Schnitt

Figur 13

eine andere Ausfürung der Garnbehandlungsvorrichtung gemäß Figur 12

Figur 14

eine Vorbereitungseinheit mit Kräuseleinrichtung.

Figur 15

eine Vorbereitungseinheit mit Staucheinrichtung.

Show it:

FIG. 1

a combination yarn in a stretched state

FIG. 2

a combination yarn in a relaxed state

FIG. 3

a device for producing the combination yarn in a schematic representation

FIG. 4

the apparatus of Figure 3 with additional yarn handling equipment

FIG. 5

the device according to Figure 4 with combined preparation and union unit

FIG. 6

a preparation and a union unit for natural fiber yarn in section

FIG. 7

an arrangement according to Figure 6, but for a combination yarn of synthetic fibers

FIG. 8

a preparation, union or stabilization unit on average

FIGS. 9 to 11

Cross sections AA according to Figure 8 with different design of the inlet bores

FIG. 12

a yarn treating device consisting of a combined preparation and combining unit in section

FIG. 13

another embodiment of the yarn treatment device according to FIG. 12

FIG. 14

a preparation unit with crimping device.

FIG. 15

a preparation unit with compression device.

FIG. 1 shows a combination yarn 15, consisting of a sheath thread 1 and an elastic core thread 2 punctiform with the sheath thread 1 glued over a certain length 4. The sheath thread 1 is a fiber yarn thread. Preferably, this is made of flax or hemp fibers. These fibers have a natural plant glue (pectins), according to the invention is activated in order to combine with the elastic thread to cause a bond. FIG. 1 shows the combination yarn 15 in FIG stretched state, wherein the adhesive is represented by dots 3. Over a length of 5, the two threads 1 and 2 are only loose or not at all connected with each other. FIG. 2 shows the combination yarn 15 according to FIG 1 in relaxed state. Due to the restoring force of the elastic thread 2 and the bonding with the adhesive 3 in area 4 forms the outer Thread 1 loops 6. The difference between the open stretched length 5 and the open relaxed length 5a shows the stretchable region of the Garnes. The open lengths 5 and 4 closed lengths arise by the union of the two threads in the union unit 8, in which the two threads are swirled together by supplying compressed air. The closed lengths 4 correspond to the swirling nodes, which arise in such a Verwirbelungsprozeß. The distance of Node determines the size of the open lengths 5, so that by choice the number of nodes per unit length can be varied. However, after staple yarns are insufficient with other threads to swirl and thereby unite, the by the swirling resulting, but still unstable compound stabilized by gluing. The result is a stable, displacement-resistant connection with the elastic Thread 2, which is also resistant in the further processing of the combination yarn or in use of the finished piece of goods.

The device for producing such a combination yarn consists generally from the following subsystems:

yarn feed:

The threads 1 and 2 to be combined are each from the gate deducted overhead and to a combination Gam 15, 115 merged. On the gate or around the gate may be a device 10 be arranged for conditioning or conditioning of the threads. Here The threads can be made by applying chemical or natural fluids for the further treatment will be prepared. Elastic threads 2, used by the Coil run poorly or can not be pulled off overhead, such as elastane threads or other elastic threads, as well as some Threads made of natural fibers are placed on delivery mechanisms and by a Coil or fed from a cops in the spinning device.

For each thread delivery mechanisms LW are provided in the spinning device, which are usually designed as Galettenantriebe with which to be introduced Amount of thread as well as the required thread tension by change the delivery speeds can be adjusted. Depending on the thread material between the individual treatment stages additional supply plants LW and / or other thread tension regulating elements such. B. dancer arm or thread brake used. The surfaces and materials of LW delivery mechanisms are for an optimal and gentle thread run and for optimal yarn tension ratios to the individual yarns and the respective Position adjusted in the threadline. So it is beneficial in case of inelastic Yarns, such as natural fiber yarns as surface material for the Drive rollers soft, rubbery material to use while at synthetic yarns with higher elasticity drive rollers made of metal or coated metal can be used.

Preparation unit:

Sheath or carrier yarns into which core yarns are bound and fixed are to be in a special device for association with the core yarn physically and / or chemically prepared. For this purpose, the Thread by means of a fluid, such as air, steam, water, oil with temperature For example, it has been shown that in natural fibers like Flax or hemp fibers, where usually the fibers are difficult to open are, with water vapor the natural binders (Pflanzenleim) dissolved werden.werden and the fibers for the introduction of the elastic thread 2 very docile can be made. The elastic core thread 2 can with the staple fiber thread 1, 101 together by the preparation unit 7 or only later the sheath thread 1, 101 are supplied.

This depends on the preparation that the sheath thread 1, 101 undergoes, and whether this can influence the core thread. Too high temperatures can z. B. damage the elastic core thread 2.

The preparation unit 7 can also be used as a mechanical compression device 71 be formed or also a crimping 72, 72 'include.

Association Unit:

In the union unit 8, the elastic core thread 2 becomes the sheath thread 1, 101 combined and glued. This bonding takes place more surprising Pointwise periodically independent of the Verwirbelungsknoten of whether adhesives are continuous or periodic over the run length of the sheath thread 1, 101 are distributed when the two threads by means of a Fluids, such as with air, are swirled together in the preparation unit 7 previously treated with steam flax or hemp thread 1 is with easy to open the compressed air supplied for the swirling. simultaneously At this time, the elastic core thread 2 becomes the center of the opened natural fiber thread 1 introduced. The compressed air makes the natural binders Cooled adhesive and hardened, so that the elastic thread 2 with the sheath thread 1 is glued stable. Be special adhesives in the Preparation unit 7 applied because the fibers no or - such. at Cotton - not enough natural adhesives, these can Adhesives are also chosen so that they after processing the Garnes are removable again.

Stabilization Unit:

In the stabilization unit 9, the combination yarn 115 with a Fluid or another heater applied. This will make the in the combination unit 8 generated state of the combination yarn 115th stabilized and / or optimized the flow properties for further processing. If Resine as an adhesive z. B. in synthetic fibers in the preparation unit 7 was applied to the sheath thread 101, the stabilization takes place by heat treatment. If in union unit 8 the Hemp or flax fiber combination yarn 15 with cold Air was swirled, this is usually done by a fixation already done and a stabilization unit 9 is not required.

Winding device LW6:

The combined yarn 15, 115 is wound up for further processing. Depending on the requirements of the processor, the coil structure can be freely defined become. The coils can be parallel, conical, with constant or be created constantly changeable crossing angle.

FIG. 3 shows an apparatus for producing the combination yarn 15 in FIG schematic representation. From the coil 1a, the sheath thread 1, the one Staple fiber is deducted by means of the delivery LW1a overhead and the preparation unit 7 supplied. Here, the thread 1 by means of a Fluids, preferably steam, or other heating elements of a temperature exposed to the pectins of flax or hemp fibers 1 for bonding to trigger with the elastic thread 2. Then the so prepared Thread 1 in the union unit 8, in which both threads 1 and 2 be united by swirling. The triggered pectins of hemp or Flax 1 cause this in the closed lengths (node) a Bonding 3, as shown in Figs. 1 and 2.

The elastic thread 2 is unwound from a yarn package 2a, which is driven by a delivery LW0, and is supplied by a delivery LW1b fed to the preparation unit 7 of the union unit 8, where it is swirled with the staple fiber yarn 1 and glued. The thread 2 but can also be performed on the preparation unit 7: It has Surprisingly, that for the preparation of the flax or Hemp thread 1 required temperatures the elastic thread 2 not affect. However, the bonding is better when the delivery plant LW1a is designed as a heated galette and there already preparatory Heating to trigger the pectin takes place.

After the union and bonding, this is made from the two threads 1 and 2 formed combination yarn 15 through the winding unit LW6 to form a coil wound. The tension of the sheath thread 1 required for the process is determined by the speeds of the delivery LW1a and the winder LW6 defined. The stretching or transmission of the elastic thread 2 is determined by the speeds of the delivery mechanisms LW0 and LW1b. The tension of the elastic thread necessary for the union 2 in the area of union unit 8 is determined by the speeds defined by supplier LW1b and LW6. The schematically shown in Figure 3 Device is in its composition as a minimum requirement for to understand the implementation of the process.

FIG. 4 shows another device for producing a combination game 115 according to the invention with additional delivery mechanisms LW 2a and LW 2b, as well as LW 3, LW 4 and LW 5 for optimizing the thread tensions, which are necessary in the individual areas, as well as a device for Air conditioning 10 and another device 9 for stabilizing the united threads 2 and 101 to the combination thread 115.

According to FIG. 4, the yarn package 1a is seated in an air-conditioning unit 10, in FIG which regulates the air condition with respect to temperature and humidity becomes. The staple fiber thread 101 is made of synthetic fibers, wherein Synthetic fibers here are understood to mean all man-made fibers be, so also viscose fibers. Additionally, in this air conditioning unit 10, the yarn package 1a or the staple fiber yarn 101 also directly with fluids, such as water, steam, or chemical preparations, be wetted. The supply of the air conditioning fluid via the supply line 14. This air conditioning are the drainage properties and strength values of the yarns improved. This also affects natural fiber yarns advantageous.

The sheath thread 101 is withdrawn from the coil 1a with a delivery mechanism LW1a, which is followed by another delivery mechanism LW2a serving to remove thread tension irregularities, that come from the coil 1a, to eliminate In the preparation unit 7, the thread 101 is depending on the fiber material exposed to a temperature by means of a fluid or other heating elements, to prepare this for the unifying and bonding process. Since this fiber material does not own adhesive 3, are in the preparation unit 7 via a feed 11 adhesive 30 on the Thread 101 applied. Subsequently, the thread 101 passes over another Delivery unit LW3 into union unit 8. Via this delivery unit LW 3 now also the elastic thread 2 is fed. Through the interposition of the LW3 supplying plant can the tension for the preparation process as can be set independently for the unification process.

The yarn package 2a with the elastic yarn 2 is driven by the supplier LW0. With the speeds of the delivery LW0 and LW1b becomes defines the stretching or overfeeding of the elastic yarn 2, while supply LW2b again to calm the elastic thread 2 serves and this past the preparation unit 7 on the delivery plant LW3 promotes in the unification unit 8. Here, the elastic thread 2 connected to the sheath thread 101 by swirling by compressed air. The Supply of compressed air via a supply line 12. The generated in this way Combination yarn 115 runs over another Galette LW4 in one Stabilization unit 9 and is exposed in this a temperature, the is generated by means of a fluid or heater, depending on the desired fixation of the combination yarn 115. Then it runs so stabilized Combination yarn 115 via another delivery LW5 and is by means of the winding unit LW6 wound up. The delivery plants between the individual Garnbehandlungsstufen 7,8,9 are not necessarily, but become depending on the requirement, whether in the respective yarn treatment zone ensures a certain tension of the combined threads 2 and 101 which differs from the other Gambehandlungszone.

Fig. 5 shows another apparatus for producing a combination yarn 15 according to the invention, in which the preparation unit 7 and the Union unit 8 summarized in a single Garnbehandlungsvorrichtung 16 are. The threads 1 and 2 pass together through the yarn treating apparatus 16 and are to treat the corresponding Exposed to temperatures generated by the supply of heating fluids. The required fluids are supplied through the supply lines 11 and 12. This version has the advantage that the overall device is considerably simplified and especially the threadline is cheaper, so that damage be avoided by inlet edges and the like. Surprisingly shown that the heat treatment of hemp or flax yarn in the Preparation unit 7 does not affect the elastic thread 2, wherein However, has proved to be particularly advantageous if - as above mentioned - for flax or hemp fibers the upstream Galette LW1a for Preheating the staple fiber yarn 1 is heated.

Fig. 6 shows a preparation unit 7 and a downstream Unification unit 8 for producing a combination yarn 15, consisting of a staple fiber thread 1 and an elastic thread 2 in Cut. Both units 7 and 8 have a trained as a thread channel 17 Garnbehandlungskammer 17 on. The staple fiber yarn 1 is made of hemp or flax and passes through the preparation unit 7. Via a supply line 11 and a bore 18 is fluid - in this case water vapor - supplied. As a result of the fibers own plant glue 3, softened and dissolved. The elastic thread 2 is either also through the preparation unit 7 or past this with the staple fiber yarn 1 passed through the union unit 8, depending on how the elastic thread 2 tolerates the temperatures for triggering the pectins. In the thread channel 17 of the union unit 8 is connected via a supply line 12 and a Bore 18 compressed air introduced, the elastic thread 2 with the staple fiber thread 1 swirls and connects with it. Here comes the elastic Thread 2 to lie so that it is largely covered by the staple fiber thread 1 becomes. By cooling the staple fiber thread 1 due to the compressed air the previously softened plant glue 3 is solidified again, and it finds an adhesion of the staple fiber thread 1 with the elastic thread 2 at the nodes take place as contact points. Through the Verwirbelungsvorgang takes place a periodic point connection in the area of the so-called "Verwirbelungsknoten", as shown in Figures 1 and 2, the frequency of Node is of parameters such as yarn tension, barometric pressure, size of feed hole, and the length of the swirl chamber. So that can the distance of the Verwirbelungsknoten and thus the size of the open lengths 5 be adapted to the wishes. It can be more or less stretchable combination yarns 15, 115 produce.

If a combination yarn 115 is made from a staple fiber thread 101 in which the staple fibers have no or not enough adhesive of their own have, such. As synthetic fibers or cotton or mixtures From this, the staple fiber thread 101 becomes in the preparation chamber 7 wetted with an adhesive 30 and then in the union chamber 8 swirled together with the elastic thread 2.

Fig. 7 shows such a preparation unit 7 and the downstream Unification unit 8 for producing the combination yarn 115, consisting of a synthetic fiber thread 101 and an elastic thread 2, on average. The two threads 101 and 2 are joined together by the preparation unit 7 led. In this preparation unit 7, the two Threads 101 and 2 applied with an adhesive 30, which over the Line 11 is supplied. This adhesive or binder 30 may be so be that it washed out after the processing process again and can be removed. Then the two are wetted with adhesive 30 Threads 101 and 2 of the union unit 8 fed and there with each other swirled.

However, in order to supply the adhesive 30 only to the staple fiber thread 101, it is recommended that the elastic thread 2 on the preparation unit. 7 passing directly into the union unit 8, as for example is shown by the unbroken line in FIG.

FIG. 8 is a longitudinal sectional view generally showing the structure of a yarn treating apparatus; FIG. Both as a preparation unit 7 or as union unit 8 or stabilization unit 9 can be used. This device exists from a channel-like Gambehandlungskammer 17 and one or a plurality of supply bores 18 through which fluid for heating, vortexing or Stabilizing or adhesive can be supplied. In the figures 9 to 11 are exemplary embodiments of the device according to FIG. 8 shown in cross-section AA, in which the supply via one, two or three Zuführbohrungen 18 takes place. There may also be more holes 18 be provided, which are additionally axially offset (not shown). As a result, depending on Gamtype optimal loading and thus a achieved good penetration of the threads with the respective fluid. The holes 18 can also be at a different angle to the axis of the yarn channel 17 are shown as shown, so that the supplied fluid to the threads a Promoting effect or braking effect.

FIG. 12 shows a yarn treatment device 16, in which the preparation unit 7 and the fixing unit 8 in a single device summarized are. Here go through the mantle thread 1 or 101 and the elastic thread 2 together the yarn treatment chamber I 17. The threads are first with a via the feed 11 and the bore 18 supplied fluid and then with another, via the supply line Treated 12 and the second bore 18 supplied fluid. This exercise has the advantage that no friction edges between the treatment stages are that can cause yarn damage. Of course, the ones are Outlets of the device designed to protect the thread and low friction.

Fig. 13 shows another embodiment of the yarn treating apparatus 16, in which the preparation unit 7 and the union unit 8 also are summarized. Here are the sections 17 and 17a of the yarn treatment chamber different diameters or dimensions, like they are needed for the particular treatment level. The yarn treatment chamber 17 or 17a normally has a circular cylindrical cross section. However, it may also have other cross-sectional shapes, e.g. semicircular, rectangular (not shown). The supply holes 18 can have as different cross-sectional shapes as well as sizes (not shown), depending on what should be supplied by them.

FIG. 14 shows the preparation unit 7 supplemented by a crimping device, which consists of two gears 72, 72 '. The hemp or linen thread 1 runs out of the Gambehandlungskammer 17 between the intermeshing Gears 72, 72 'and is thereby crimped. This ripple has the advantage that the thread 1 becomes more supple and elastic and thus the combination yarn 15 in the fabric as much dimensionally stable proves so that bulges go back again and the piece of goods also less crumpling tendency shows than when the relatively stiff Flax or hemp yarn 1 has not experienced this treatment.

FIG. 15 shows another preparation unit in the form of a compression device 71 with a conically in the direction of yarn travel tapered yarn treatment chamber 171, in which the sheath thread 1 enters. Through the narrow Output 172 accumulates the thread 1 and thereby becomes in the yarn treatment chamber 171 compressed. At the same time can through the supply hole 18 a fluid, with a hemp or flax fiber yarn preferably Steam are introduced to release the pectins as a natural adhesive. This has about the same effect as that described in FIG Crimper.

The described embodiments are exemplary. The invention is not on limited to these embodiments. In place of a mantled thread can also several sheath threads are used. Are these sheath threads of different material, for example, the one a fiber yarn of natural Fibers and the other sheath of synthetic staple fibers or blends with natural staple fibers, that's the preparation adjust accordingly. It can thus for the individual sheath threads 1, 101 several, the material of the sheath thread respectively adapted preparation units 7 be provided. The same applies to the union unit 8, wherein at the same time using a sheath thread 101 from Synthetic fibers and a sheath thread 1 made of natural fibers, the union unit 8 optionally additionally provided with an adhesive supply must be or provide a further union unit 8 is provided on the sheath thread 101 is tuned from synthetic fibers. The same applies Sheath threads of fiber blends.

Claims (25)

1. A method for the manufacture of an elastic combination thread consisting of at least two threads of which one thread (the jacket thread) is a staple thread (1, 101) manufactured from natural and/or synthetic fibres, and the other thread (the core thread) is a continuous elastic thread (2), and that these threads are brought together through whirling by means of a fluid wherein the threads (1, 101, 2) adhere together at their points of contact (4).
2. A method in accordance with claim 1 wherein the staple fibre thread (1, 101) is prepared in a preparation zone for combination with the endless elastic thread (2) and, in its prepared condition, is combined through whirling in a combination zone with the elastic thread (2), in the course of which adhesion occurs.
3. A method in accordance with claim 2, wherein the spacing between the interconnecting nodes determines the size of the open lengths (5, 5a).
4. A method in accordance with one or more of claims 1 to 3 wherein the combination zone follows a stabilisation zone in which the adhesion between the two threads is fixed.
5. A method in accordance with one or more of claims 1 to 4, wherein the fixing results from cooling.
6. A method in accordance with claim 5, wherein the cooling results from blowing in cold air.
7. A method in accordance with one or more of claims 1 to 6, wherein the staple fibre thread (1) consists of fibres to which adhesive is attached, and in which the adhesive (3) attached to the fibres is released in the preparation zone with the result that adhesion to the endless elastic thread (2) takes place in the combination zone.
8. A method in accordance with claim 7 wherein the staple fibre thread (1) consists of flax or hemp fibres.
9. A method in accordance with one or more of claims 1 to 8 wherein the staple fibre thread (1) is treated with steam in the preparation zone.
10. A method in accordance with one or more of claims 1 to 6 or 9 wherein adhesive (30) is applied in the preparation zone to the fibre thread (101) with the result that adhesion to the endless elastic thread (2) takes place in the combination zone.
11. A method in accordance with one or more of claims 1 to 10 wherein the fibre thread (1) is exposed to mechanical compression or crimping treatment in the preparation zone.
12. A method in accordance with one or more of claims 1 to 11 wherein the elastic thread (2) is passed through the preparation zone together with the fibre thread (1, 101).
13. A method in accordance with one or more of claims 1 to 12 wherein the combination thread (151) passes through a stabilisation zone after the combination zone.
14. Apparatus for the manufacture of an elastic combination thread consisting of at least two threads of which one thread (the jacket thread) is a staple thread (1, 101) manufactured from natural or synthetic fibres, and the other thread (the core thread) is a continuous elastic thread (2), and that these threads are brought together through whirling by means of a fluid, in which the apparatus has a thread supply unit for more than one thread, a preparation unit (7), a combination unit (8) and a winding unit (LW6) wherein the preparation unit (7) includes heating equipment.
15. Apparatus in accordance with claim 14 wherein the preparation unit (7) contains a chamber (17) through which the thread (1, 101) to be treated passes, with a feed unit (18) through which a fluid (11) which has been raised in temperature is supplied.
16. Apparatus in accordance with one of claims 14 or 15 wherein the preparation unit (7) includes a chamber (17) through which the thread (1, 101) to be treated passes, with a feed unit (18) through which an adhesive (30) is supplied.
17. Apparatus for the manufacture of an elastic combination thread consisting of at least two threads of which one thread (the jacket thread) is a staple thread (1, 101) manufactured from natural or synthetic fibres, and the other thread (the core thread) is a continuous elastic thread (2), and that these threads are brought together through whirling by means of a fluid in which the apparatus has a thread supply unit for more than one thread, a preparation unit (7), a combination unit (8) and a winding unit (LW6) wherein the preparation unit (7) includes a chamber (17) through which the thread (1, 101) to be treated passes, with a feed unit (18) through which an adhesive (30) is supplied.
18. Apparatus in accordance with one or more of claims 14 to 17 wherein the combination unit (8) is followed by a stabilisation unit (13).
19. Apparatus in accordance with one or more of claims 14 to 18 wherein the preparation unit (7) and the combination unit (8) are combined to form a thread treatment unit (16).
20. Apparatus in accordance with one or more of claims 14 to 19 wherein the preparation unit (7) includes a crimping unit (72, 72').
21. Apparatus in accordance with one or more of claims 14 to 19 wherein the preparation unit (7) takes the form of a mechanical compression unit (71).
22. Apparatus in accordance with one or more of claims 14 to 21 wherein the thread supply system includes equipment for conditioning (10) the threads (1, 101, 110) that are to be supplied.
23. Apparatus in accordance with one or more of claims 14 to 22 wherein in front of the preparation unit (8) a delivery device (LW1a, LW2a) is arranged that has heated rollers.
24. Apparatus in accordance with the one or more of claims 14 to 23 wherein a delivery device (LW3, LW4, LW5) is positioned between the preparation unit (7) and the combination unit (8) and between that and the winding unit (LW6).
25. Apparatus in accordance with claim 24 wherein a delivery device (LW4) is positioned between the combination unit (8) and the stabilisation unit (9).

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