KR102286454B1 - Method and apparatus for making yarn - Google Patents

Abstract

The present invention relates to a method for producing at least one yarn (3) formed by spinning at least two individual fibers (2a to 2c), wherein at least two yarns (3) to be spun to form at least one yarn (3) to be produced providing individual fibers 2a to 2c, comprising at least one spindle element or bobbin element 10 via a guide arrangement 5 comprising a plurality of, in particular cylindrical or cylindrical guide elements 5a to 5e feeding at least two provided fibers (2a to 2c) to the spinning apparatus (6); spinning the fibers (2a, 2b) fed from a spinning device (6) to form at least one yarn (3) to be produced, said at least two fibers (2a, 2b) having at least one space It is fed to the spinning device 6 via at least two separate, in particular cylindrical or cylindrical guide elements 5d, 5e, which are arranged to be spatially separated from each other in the direction.

Description

Method and apparatus for making yarn

The present invention relates to a method and apparatus for making yarn.

Methods and apparatus for producing yarns are in principle known from the prior art in a very diverse and different embodiment.

A known method for producing a yarn formed by spinning at least two individual fibers is, for example, a ring spinning method, comprising the following steps: providing at least two individual fibers to be spun to form the yarn to be produced; a yarn to be produced by feeding the at least two provided fibers to a spinning device comprising at least one spindle element through a plurality of guide devices comprising in particular cylindrical or cylindrical guide elements, and spinning the fed fibers in a spinning device comprising the step of forming

Corresponding methods of making yarns are well understood with respect to influencing the properties of the yarns that can be made thereby, but there is nevertheless a need to develop methods that enable the production of yarns with improved properties. In particular, there is a need for an improved method and there is a greater tendency to form yarns, ie neps, with improved properties for the formation of so-called neps (knop, burl) by this method. Low yarns or less hairy yarns can be produced.

The present invention is based on the object of providing an improved method for producing a yarn, particularly with regard to producing a yarn with improved properties.

This object is achieved by a method according to claim 1 . The claims dependent on claim 1 relate to possible embodiments of the method.

The methods described herein generally serve to produce at least one yarn. Naturally, a plurality of yarns can also be produced by the method in a corresponding manner.

This method includes three essential steps, which are described in more detail below. In a first step of the method, at least two separate fibers are provided which are spun together to form the yarn to be produced. The fibers may be staple fibers, for example. Fibers may also be referred to or considered as rovings or pre-yarns. When reference to “fiber” is referred to herein, it may also be understood to mean roving or pre-yarn. The fibers can in each case be supplied via a fiber feeding unit, for example a fiber bobbin, from which the fibers to be spun into the yarns within the framework of the method are unwound. The number of fiber feeding units is typically determined according to the number of fibers to be spun into yarns according to the method.

In a second step of the method, the at least two fibers provided are fed via a guide device comprising a plurality of guide elements to a spinning device comprising at least one spindle element or a bobbin element. In the second step of the method, the fibers to be spun into yarns are fed to the spinning device via a guide device. The guide device typically comprises a plurality of guide elements. The guide elements are typically arranged continuously in the fiber guiding direction so that the fibers to be guided can be guided from the first guide element to further guide elements arranged downstream therein in the fiber guiding direction. the first guide element of the guide device in the fiber guiding direction is arranged immediately downstream of each fiber feeding unit in the fiber guiding direction; The final guide element in the fiber guide direction is arranged immediately upstream of the spinning apparatus in the fiber guide direction. Even if separated in the fiber guiding direction (immediately) between the alternately arranged guide elements in the fiber guiding direction, suitable eg plate-like or plate-shaped support elements can be provided, which are to be guided to perform the desired supporting action. Suitable support elements can also be arranged, for example, between the first guide element and the fiber supply element.

Each guide element typically has a cylindrical or cylindrical geometry or basic shape; A guide element may thus be referred to or considered as a guide roller or a roll or a cylinder. Each cylindrical or cylindrical guide element is typically rotatably mounted about its axis of symmetry or central axis so that the guided movement of the fiber to be guided in the direction of the spinning apparatus is guided about the respective axis of symmetry or central axis. This may be made possible by the rotational movement of the element.

Individual, plurality or all of the guide elements may be provided with specific adhesive areas or surfaces, which, due to the adhesive effect exerted on the fibers, allow the desired guidance of the fibers, for example by means of a rubber coating, in particular in the direction of the fiber guidance. prevent or prevent undesirable lateral sliding of

In the third step of the method, the spinning of the fibers fed to a spinning device is performed in a spinning device to form the yarn to be manufactured. The spinning of the fibers to form the yarn to be manufactured typically takes place in the spun zone following the final guide element. The spinning apparatus comprises at least one spindle element or bobbin element on which a yarn formed by spinning fibers or fibers spun together is wound. The spindle element or bobbin element may be a bobbin or cop. The number of spindle elements or bobbin elements or the number of spun zones resulting therefrom is determined by the number of yarns produced.

According to the method, in contrast to the conventional method, the at least two fibers spun into a yarn are not through one (common) guide element, but at least two separate, arranged to be spatially separated from each other in at least one spatial direction, In particular, it is fed to the spinning apparatus via a cylindrical or cylindrical guide element. That is, the first fiber to be spun to form the yarn to be manufactured is supplied to the spinning apparatus through the first guide element, and the second fiber to be spun together with the first fiber to form the yarn to be manufactured is separated from the first guide element. It is fed to the spinning apparatus via a second guide element which is arranged to be separated in at least one spatial direction.

Thus, within the framework of the method, a guide device is used comprising at least two separate, in particular cylindrical or cylindrical guide elements, which guide elements are spaced from each other in at least one spatial direction immediately upstream of the spinning device. arranged to be separated. The guide device used within the framework of the method comprises at least two final guide elements; As will be seen below, these guide elements are generally arranged at the same height with respect to the spinning device, ie at the same distance from the spinning device, but laterally offset from each other. From the above statement it can be seen that at least two fibers are fed to the spinning apparatus via at least two separate guide elements, arranged to separate from each other in at least one spatial direction just before they come together at the point of fiber merging. By feeding the fibers to be spun into yarns through at least two separate guide elements arranged to be spatially separated from each other in at least one spatial direction, the free length of the fibers to be spun into yarns between the fiber merging point where the fibers converge and the guide device is It is possible to influence, in particular to increase the free length, which positively affects the properties of the yarn to be produced or produced. The reason that the free length of the fibers is increased is that the fiber merging point where the fibers converge is located considerably further away from the final guide element and thus considerably closer to the spinning apparatus when the fibers are fed through a separate guide element.

Corresponding fiber merging points generally represent part of a so-called spinning triangle. The fiber merging point in this case generally forms the apex of the spinning triangle towards the spinning apparatus. Thus, the shape of the spinning triangle can be modified according to the method compared to the conventional method, as it is “stretched” in the fiber guide direction due to the aforementioned increase in the free length of the fibers forming the sides of the spinning triangle.

The method is produced by means of a guide device, i.e. influencing, i.e. increasing, the free length of the fibers to be spun into yarns between each final guide element (from the fiber viewing point) and the point of fiber merging where the fibers are brought together. The properties of the yarn to be or to be produced, in particular mechanical properties, can be obtained. This is due in particular to the fact that the free length of the fibers to be spun into yarns increases (significantly) before the point of fiber merging compared to conventional methods. The (individual) fibers may already (significantly) be twisted before the point of fiber merging, which has a positive effect on the properties of the yarn to be made or to be made. With the aid of research, it has been found that, in particular, the formation of so-called neps (knobs) can be reduced in this way, and the yarns produced according to the method are thus (quite) low (quite) and (quite) less prone to nep formation. may become hairy. Thus, yarns with improved properties can be produced by the method.

The free length of each fiber between the guide device and the point of merging may for example be in the range of 4 to 20 cm, in particular 7.5 to 15 cm, preferably 10 cm. In particular, particularly advantageous fiber properties can be obtained from fiber lengths of at least 4 cm, in particular at least 6 cm. However, in principle, there may be exceptions to the upper and lower limits for these figures.

According to the method, in particular a spinning element is used, the spinning element being aligned with the space formed between the spindle element or the bobbin element by means of a spatially separated arrangement of the guide elements assigned thereto in the direction of fiber guiding, are arranged the spindle element or bobbin element is thus arranged with a lateral offset with respect to the guide element assigned thereto with respect to the fiber guiding direction; In particular, the spindle element or the bobbin element is separated from the guide element in the fiber guiding direction, but is arranged centrally between the guide elements assigned thereto. The same applies to spinning of a plurality of yarns each composed of at least two fibers. In this case, each spindle element or bobbin element is arranged in line with the space formed between the guide elements each assigned thereto by a spatially separated arrangement of the guide elements each assigned thereto in the fiber guiding direction.

As mentioned, the guide elements are generally arranged flush with respect to the spinning apparatus, but laterally offset from each other. Thus, within the framework of the method, at least two guide elements are used which are arranged to be spatially separated from one another, in particular in a direction transverse to the direction of fiber guiding, optionally in a planar or spatial direction extending at an angle. When guide elements each having a cylindrical or cylindrical basic shape are used, they are typically arranged coaxially and so that they are spatially separated from each other in the respective central axial direction. Two guide elements arranged to be spatially separated from each other in a plane or spatial direction extending transversely or at an angle to the fiber guide direction may be referred to or considered as a pair of guide elements assigned to a particular spindle element or bobbin element. In this way, each spindle element or bobbin element is supplied with fibers forming the yarn to be wound.

The free length between each point at which each fiber leaves each guide element in the direction of the point of merging may be in the range of for example 4 to 10 cm, in particular 5 to 9 cm, preferably at least about 6 cm. However, in principle, exceptions to upper and lower limits for these figures are possible.

In addition to the use of arranging and using guide elements such that the guide elements are spatially separated from each other in a plane or spatial direction extending transversely or at an angle to the fiber guiding direction, in the fiber guiding direction or in a spatial direction extending parallel to the plane It is also possible, at least in principle alternatively or additionally, that at least two guide elements arranged to be spatially separated from each other are used. Thus, at least in principle, guide elements arranged to be offset in the fiber guide direction can also be used.

As mentioned, the fibers are gathered at the fiber merging point. Likewise, as mentioned, the fiber merging points form the apex of the spinning triangle towards the spinning apparatus. The angle of the spinning triangle in the apex region towards the spinning apparatus typically ranges from 0 to 90° or from 1 to 90°; In particular, the angle is less than 90°, in particular less than 45°, in particular less than 30°. The angle between the at least two fibers after leaving each guide element typically ranges from 0 to 90° or from 1 to 90°; In particular, the angle is less than 90°, in particular less than 45°, in particular less than 30°. Thus, the angle is typically an acute angle.

Within the framework of the method, it is possible for at least three fibers to be spun together to form a yarn. At least three fibers are typically gathered at the fiber merging point. Thus, the yarn can be made from at least two fibers (multi-fiber yarn).

Spinning of at least three fibers can be carried out to form a yarn according to the method, in which at least two fibers are fed together to the spinning apparatus via a first guide element and at least one further fiber is fed in at least one spatial direction. or it can be carried out to be fed through a further guide element arranged to be spatially separated from the first guide element in a plane. Accordingly, at least two fibers can be fed through the first guide element and at least one further fiber can be fed through the further guide element. In this regard, a uniform or non-uniform splitting of the fibers over a given number of guide elements is possible, so that for an exemplary feed of four fibers and an exemplary use of two guide elements, the two fibers may be separated from the first guide element. and two fibers are fed through the second guide element or three fibers are fed through the first guide element and one fiber is fed through the second guide element.

Alternatively, the spinning of at least three fibers may be effected to form a yarn according to the method of the invention, which comprises three separate guide elements arranged such that the at least three fibers are separated from each other in at least one spatial direction or plane. can be achieved by being fed to the spinning device through fed through a second guide element arranged to be spatially separated from the at least one third fiber through a third guide element arranged to be spatially separated from the second guide element in at least one spatial direction or plane . Thus, each fiber can also be fed through a separate guide element.

Within the framework of the method, it is possible for at least two fibers and at least one filament, which may be single or multi-filaments, to be spun together to form a yarn. The at least two fibers and at least one filament are typically brought together at the point of fiber merging. Thus, the yarn may be made from at least two fibers and at least one filament. Suitable filaments may be continuous filaments. Suitable filaments may be made of or comprise an elastic filamentary material, and the filament may be, for example, a filament of elastane (sometimes commercially referred to as Lycra), polyamide, polyester or polypropylene. there is.

The spinning of at least two fibers and at least one filament according to the method comprises at least two fibers being fed to the spinning device via two separate guide elements arranged to be separated from each other in at least one spatial direction or plane, at least This can be done by feeding one filament from a filament storage unit, such as for example a filament bobbin (separate), in particular spool-shaped or spool-shaped, or via a third guide element separate from two separate guide elements. there is.

Naturally, it is possible for at least two fibers to be fed to the spinning apparatus with a pre-tension created by the drafting of the fibers, in particular by longitudinal drafting. The same applies to the filament supply. In particular, in this case it is possible to implement different drafting zones or zones, for example a pre-drafting zone and a main-drafting zone, in which the fibers and/or filaments undergo drafting to different degrees. will go through

Within the framework of the method, fibers having identical and unequal chemical and/or geometric and/or physical, in particular mechanical properties, may be spun together to form yarns. Accordingly, the fibers spun by the method of the invention have at least one chemical property, ie at least one property related to the chemical property of the fiber, for example the chemical composition and/or at least one geometric property, ie the fiber in particular. at least one property related to the geometry of the fiber, for example fiber diameter, and/or at least one physical, in particular mechanical property, i.e. at least one property related in particular to the physical, in particular mechanical property of the fiber, for example fiber strength may be different.

At this point, within the framework of the process of the invention in principle all natural fibers, ie, for example alpaca fibers, cotton fibers, cashmere fibers, mohair fibers, silk fibers, linen fibers, wool fibers, in particular new wool fibers, and/ Alternatively, artificial (synthetic) fibers, for example plastic fibers, in particular polyamide fibers, polyester fibers, polypropylene fibers, viscose fibers, can be spun together to form the yarn to be manufactured. In particular, mixtures of natural and artificial fibers are also possible. The fibers may be continuous or staple fibers depending on availability.

The (individual) fibers may also be made of or comprise at least two chemically and/or geometrically and/or physically different fiber materials. Accordingly, suitable fibers, also referred to as blended fibers (blended rovings), may for example consist of a first fibrous material (roving material) and at least one additional fibrous material (roving material). The first fiber material may for example be a natural fiber material, for example wool and the further fiber material may for example be an artificial (synthetic) fiber material, for example polyamide, polyester or polypropylene. As mentioned, the fibers may be continuous or staple fibers depending on availability.

In addition to the above methods, the present invention also relates to yarns made or made by the described methods and to textile products formed using or comprising at least one such yarns made by the described methods. Textile products can be semi-finished products (precursors) or finished products (final products).

The invention also relates to an apparatus for producing at least two individual fibers, in particular a yarn formed by spinning by the method described. Accordingly, all statements made with respect to the method apply mutatis mutandis to the apparatus.

The device is a guide device comprising as essential components a plurality of, in particular cylindrical or cylindrical guide elements, a guide element configured to guide a plurality of fibers to a spinning device arranged downstream thereof in the guide direction, and a spindle or bobbin axis A spinning device arranged downstream of a guide device in a fiber guiding direction comprising at least one spindle element or bobbin element rotatably mounted therearound, comprising spinning together at least two of these fibers fed through the guide device and a spinning apparatus configured to form a yarn.

The device is distinguished by the fact that the guide device comprises at least two separate, in particular cylindrical or cylindrical guide elements, arranged to be spatially separated from each other in at least one spatial direction or plane, through which at least two The fibers can be fed or fed to the spinning apparatus. The guide device thus comprises at least two separate, in particular cylindrical or cylindrical guide elements, arranged to be spatially separated from each other in at least one spatial direction or plane. The guide device thus comprises at least two final guide elements, which are typically arranged flush with respect to the spinning device but laterally offset from one another.

The apparatus may be formed or comprise, for example, a ring spinning machine or apparatus.

The spindle element or bobbin element of the spinning apparatus is arranged in particular to be aligned with the space formed between the guide elements by the spatially separated arrangement of the guide elements allocated thereto in the fiber guiding direction. each spindle element or bobbin element of the spinning apparatus is thus arranged to have a lateral offset with respect to the guide element assigned thereto with respect to the fiber guiding direction; In particular, the spindle element or the bobbin element is separated from the guide element in the fiber guiding direction, but is arranged centrally between the guide elements assigned thereto. The same applies to spinning a plurality of yarns from each of at least two fibers. In this case, each spindle element or bobbin element is arranged in alignment with the space formed between the guide elements each assigned thereto by a spatially separated arrangement of the guide elements each assigned thereto in the fiber guiding direction, respectively.

In this way, the free length of the fibers to be spun into the yarn between the guide device and exiting the fiber merging point where the fibers are gathered, as already mentioned in relation to the method, which has a positive effect on the properties of the produced or produced yarns. can increase Thus, yarns with improved properties can be produced using the apparatus of the present invention.

As mentioned, the guide elements are arranged at the same height, in particular with respect to the spinning apparatus, but laterally offset from each other. The device thus comprises at least two guide elements arranged to be spatially separated from each other in a spatial direction or plane extending in particular transversely to the fiber guiding direction, optionally also at an angle. If the device of the invention comprises in each case guide elements having a cylindrical or cylindrical basic shape, they are generally arranged coaxially and arranged such that they are spatially separated from each other in the respective central axial direction. Two guide elements arranged to be spatially separated from each other in a spatial direction or plane extending at an angle in the transverse direction or in the fiber guide direction may be referred to or considered as a pair of guide elements assigned to a particular spindle element or bobbin element, , through which fibers forming the yarn to be wound on the respective spindle element or bobbin element can be supplied.

Alternatively or additionally, at least in principle, the device may comprise at least two guide elements arranged to be spatially separated from each other in the fiber guide direction or in a spatial direction extending parallel to the plane. Therefore, at least in principle, the device may also comprise a guide element arranged to be offset in the fiber guide direction.

The apparatus of the invention may comprise a drafting apparatus configured for drafting, in particular longitudinal drafting, of fibers fed to the spinning apparatus. The drafting device may be functionally and/or structurally integrated into the guide device. By means of the drafting device, different drafting zones or zones in which fibers are drafted to different degrees, for example pre-drafting zones and main-drafting zones, can be realized.

The invention is explained in more detail with the aid of exemplary embodiments of the drawings. The drawing is as follows.

1 and 2 are schematic diagrams of an apparatus for making yarn according to an exemplary embodiment;
3 is an enlarged view of detail III shown in FIG. 1 ,
FIG. 4 is an enlarged view of detail IV shown in FIG. 2 .

1 shows a schematic diagram of an apparatus 1 for producing a yarn 3 formed by spinning at least two individual fibers 2a , 2b according to an exemplary embodiment. 1 shows a schematic plan view of a device 1 . 3 shows an enlarged view of detail III shown in FIG. 1 .

Said device 1 , which is for example formed as or comprising a ring spinning machine, has the following components: at least two fiber feeding units 4a , 4b , which in the direction of fiber guiding indicated by the arrow P a guide device 5 arranged downstream, and a spinning device 6 arranged downstream of the guide device 5 in the direction of fiber guiding. The functional interaction of the aforementioned components of the device 1 will be described in more detail below.

To form the yarn 3 to be produced, by means of a fiber feeding unit 4a, 4b, which can be for example a fiber bobbin and within the framework of the method the fibers 2a, 2b to be spun into yarn 3 can be unwound. Separate fibers 2a, 2b are provided which are spun together for this purpose. Fibers 2a, 2b may also be referred to or considered as rovings or pre-yarns. In the exemplary embodiment, purely by way of example, only two fiber feeding units 4a, 4b are shown; However, the principles described below can be arbitrarily extended to two or more fiber feeding units 4a, 4b and thus to two or more fibers 2a, 2b. The number of fiber feeding units 4a, 4b depends on the number of fibers 2a, 2b to be spun into yarn 3 according to the method.

The guide device 5 is configured to guide the provided fibers 2a, 2b to a spinning device 6 arranged downstream thereof in the direction of fiber guiding. To this end, the guide device 5 is, in each exemplary embodiment shown in the figure, a plurality of, example The fibers 2a, 2b to be guided, including five, can be guided from the first guide element 5a to further guide elements 5b to 5e arranged downstream in the fiber guiding direction. The first guide element 5a in the fiber guiding direction is arranged immediately downstream of the respective fiber feeding unit 4a, 4b in the fiber guiding direction, and the last guide element 5d, 5e in the fiber guiding direction is a fiber guiding is arranged immediately upstream of the spinning device 6 in the direction. Between the guide elements 5a to 5e arranged one after the other (immediately) in the fiber guide direction, a suitable, for example plate-shaped or plate-shaped support element 7 , albeit separated in the fiber guide direction, is provided so that the fibers to be guided are provided. It performs the desired supporting action for (2a, 2b). In the exemplary embodiment shown in the figure, a suitable support element 7 is arranged, for example, between the first guiding element 5a and the fiber feeding units 4a, 4b.

The guide elements 5a to 5e each have a cylindrical or cylindrical geometry or basic form; The guide elements 5a to 5e may thus be referred to or considered as guide rollers or rolls or cylinders. The guide elements 5a to 5e are respectively rotatably mounted about an axis of symmetry or a central axis so that the guiding movement of the fibers 2a, 2b to be guided towards the spinning apparatus 6 is centered on the respective axis of symmetry or central axis. This can be made possible by the rotational movement of the guide elements 5a to 5e.

Individually, a plurality or all of the guide elements 5a to 5e have an undesirable effect of the fibers 2a, 2b in the fiber, ie in the direction of the fiber guide, for example due to the adhesive effect exerted on the fibers 2a, 2b. A specific adhesion area or surface (not shown) may be provided, achieved by a rubber coating that allows the desired guidance of the fibers 2a , 2b by preventing or preventing lateral slippage.

1 and 3 , also the same applies to the exemplary embodiments shown in FIGS. 2 and 4 - (optional) drafting elements of the drafting apparatus not specified ( capacitors) 8a, 8b, 9a, 9b are exemplified. Thus, the fibers 2a, 2b can be fed to the spinning apparatus 6 with a pre-tension generated by the drafting of the fibers 2a, 2b, in particular longitudinal drafting. In this case, it is possible to implement different drafting zones or zones by means of different drafting elements 8a, 8b, 9a, 9b, ie, for example, a pre-drafting zone and a main drafting zone, wherein the fibers 2a , 2b) can be drafted to different degrees. Drafting elements 8a, 8b, 9a, 9b may be drafting elements structurally modified in particular for the method described herein, which may be used for guiding or degrading the fibers 2a, 2b required for the method described herein. Rafting is allowed.

The spinning device 6 is configured to spin together the fibers 2a , 2b fed to the spinning device via the guide device 5 to form the yarn 3 . To this end, the spinning apparatus 6 comprises a spindle element or bobbin element 10 rotatably mounted about a spindle or bobbin axis (not shown) on which the yarn 3 can be wound. there is. A thread guide or monitor 16 is provided upstream of the spindle element or bobbin element 10 in the exemplary embodiment shown in the figures.

As can be seen with the aid of the figures, the device 1 is dependent on the fact that the guide device 5 comprises at least two individual guide elements 5d, 5e arranged to be spatially separated from each other in at least one spatial direction. , through which the fibers 2a, 2b can be fed or fed to the spinning apparatus 6 . It can be seen that the guide elements 5d, 5e are the last guide elements 5d, 5e before the spinning apparatus 6 in the fiber guide direction. The guide elements 5d, 5e are arranged flush with respect to the spinning device 6 but laterally offset from one another (see in particular FIG. 3 ).

Using the apparatus 1 shown in the figure, a method for producing a yarn 3 with improved yarn properties formed by spinning two fibers 2a, 2b can be implemented. Exemplary embodiments of such methods are described in greater detail below.

In a first step of the method, the individual fibers 2a, 2b, which are spun together to form the yarn 3 to be produced, are provided via a fiber feeding unit 4a, 4b.

In the second step of the method, the provided fibers 2a , 2b are fed to a spinning device 6 via a guide device 5 .

In the third step of the method, the fibers 2a , 2b fed to the spinning device 6 are spun in the spinning device 6 to form the yarn 3 to be manufactured. The spinning of the fibers 2a, 2b takes place in the spinning zone 11 after the final guide elements 5d, 5e. The produced yarn 3 is wound on a spindle element or bobbin element 10 .

With the aid of the drawings, the spinning device 6 through two separate guide elements 5d, 5e arranged so that the fibers 2a, 2b spun into the yarn 3 according to the above method are spatially separated from each other in the spatial direction. is supplied to The figure shows that a first fiber 2a, which is spun to form a yarn 3, is fed through a first guide element 5d to a spinning device 6 and a first fiber 2b to form a yarn 3 and the second fibers 2b to be spun are fed to the spinning apparatus 6 via a second guiding element 5e arranged to be separated from the first guiding element 5d.

Thus, within the framework of the method, a guide device 5 comprising at least two individual guide elements 5d , 5e arranged to be spatially separated from each other in the spatial direction immediately before the spinning device 6 is used. As mentioned, the guide elements 5d, 5e are arranged at the same height with respect to the spinning device 6 , ie at the same distance from the spinning device 6 , but laterally offset from each other. Since, as mentioned, the guide elements 5d, 5e have a cylindrical or cylindrical geometry or basic shape, in the exemplary embodiment shown in the figures, the guide elements are arranged coaxially and the guide elements are positioned along the respective central axis. Spatially separated from each other in the direction of and thus extending transversely to the fiber guiding direction in a parallel arrangement is such that they are separated from each other in the spatial direction. Two guide elements 5d, 5e arranged to be spatially separated from each other in a spatial direction extending transverse to the fiber guide direction may be referred to or considered as a pair of guide elements assigned to a particular spindle element or bobbin element 10, , via said spindle element or bobbin element, the respective spindle element or bobbin element 10 is fed with fibers 2a , 2b forming the yarn 3 to be wound.

The fibers on which the fibers 2a, 2b are gathered by feeding the fibers 2a, 2b to be spun into the yarn 3 via separate guide elements 5d, 5e arranged so that the fibers are spatially separated from each other in the spatial direction. It is possible to influence, in particular increase, the free length L of the fibers 2a , 2b to be spun between the merging point 12 and the leaving guide device 5 , which in particular increases the produced or produced yarn 3 ) has a positive effect on the characteristics of The increase in the free length L of the fibers 2a, 2b causes the fiber merging point 12 to be much further away from the final guide elements 5d, 5e and significantly closer to the spinning apparatus 6 compared to the conventional method. is due to the fact

The fiber merging point 12 represents a part of the so-called spinning triangle. The fiber merging point 12 forms the apex of the spinning triangle towards the spinning apparatus 6 . Therefore, the shape of the spinning triangle can be deformed according to the method compared to the conventional method, since the spinning triangle is “stretched” in the fiber guide direction by the above-described increase in the free space L of the fibers 2a, 2b. , forming the sides of the spinning triangle.

The angle α of the spinning triangle in the apex region opposite to the spinning device 6 is less than 90°, in particular less than 45°, in particular less than 30°. Accordingly, the angle α between the fibers 2a, 2b after leaving the guide elements 5d, 5e is less than 90°, in particular less than 45°, in particular less than 30°. Therefore, the angle α is an acute angle.

The method influences the free length L of the fibers 2a, 2b to be spun between the fiber exit guide device 5 , ie the final guide element 5d, 5e and the fiber merging point 12 , ie in particular It is based on the results of studies that by increasing the properties, in particular mechanical properties, of the yarn 3 to be produced or produced can be obtained. This is in particular due to the fact that the free length L of the fibers 2a, 2b to be spun increases (significantly) before the fiber merging point 12 compared to the conventional method. The (individual) fibers 2a , 2b may already (significantly) be twisted before the fiber merging point 12 , which positively affects the properties of the yarn 3 to be produced or to be produced.

The free length L of the respective fibers 2a, 2b between the guide device 5 and the merging point 12 at which the fibers 2a, 2b is gathered is for example in the range of 4 to 20 cm, in particular 7.5 to 15 cm. , preferably in the range of 10 cm.

The free length L′ between each point 14 , 15 at which the fibers 2a , 2b leaves the respective guide element 5d , 5e in the direction of the merging point 12 is, for example, from 4 to 10 cm, in particular in the range of 5 to 9 cm, preferably at least about 6 cm.

With the aid of the drawings, a spinning device 6 is used according to the method, the spindle element or bobbin element 10 being guided by a spatially separated arrangement of guide elements 5d, 5e assigned thereto in the direction of fiber guiding. It is arranged in line with the space 13 formed between the elements 5d and 5e. The spindle element or bobbin element 10 is thus offset laterally with respect to the guide elements 5d, 5e (relative to the fiber guiding direction), in particular the spindle or bobbin element 10 is a guiding element in the fiber guiding direction Separated from (5d, 5e), but arranged centrally between the guide elements (5d, 5e) assigned thereto.

3, finally, indicated by the dashed line, it is in principle that additional fibers (dotted line) can be guided through the respective final guide elements 5d, 5e, but these are other spindle elements or bobbin elements (not shown), ie a further spindle element or bobbin element, typically arranged parallel to the spindle element or bobbin element 10 of the spinning apparatus 6 , ie to another other spinning area. It is also applicable that the fibers to be spun into yarns 3 into these other spinning areas are fed via separate guiding elements in the same way as in the figure.

FIG. 2 shows a schematic diagram of an apparatus 1 for producing a yarn 3 formed by spinning at least two individual fibers 2a , 2b according to a further exemplary embodiment. 2 shows a schematic plan view of the device 1 . FIG. 4 shows an enlarged view of detail IV shown in FIG. 2 .

With the aid of FIG. 2 , it can be seen that in FIGS. 2 , 4 , it is also possible within the framework of a method in which at least three fibers 2a - 2c are spun together to form a yarn 3 . At least three fibers 2a - 2c converge at a fiber merging point 12 . Thus, the yarn 3 can be made from at least two fibers 2a to 2c (multi-fiber yarn).

Spinning of the at least three fibers 2a - 2c to form the yarn 3, as shown in Figs. The spinning device 6 is fed and at least one further fiber 2b is fed through a further guide element 5e arranged to be spatially separated from the first guide element 5d in the spatial direction. Accordingly, the at least two fibers 2a, 2c can be fed via the first guide element 5d and the at least one further fiber 2b can be fed via the further guide element 5e. In this regard, it is possible to split the fibers 2a to 2c evenly or non-uniformly over a given number of guide elements. As further shown in FIG. 4 , for an exemplary supply of four fibers (the fourth fiber is indicated by a dashed line) and an exemplary number of two guide elements 5d, 5e, two fibers are combined with the first guide element. (5d) and two fibers can be fed through the second guide element 5e, or three fibers can be fed through the first guide element 5d, one fiber It can be fed through the second guide element 5e.

Although not shown in the figures, the spinning of at least three fibers 2a to 2c according to the method of the invention alternatively comprises three separate guide elements in which at least three fibers 2a to 2c are separated from each other in at least one spatial direction. It can be embodied to be fed to the spinning apparatus 6 via at least one second fiber 2b through a second guide element, and at least one third fiber 2c through a third guide element arranged to be spatially separated from the second guide element in at least one spatial direction. ) can be implemented by supplying Each fiber 2a to 2c can thus also be fed via a separate guide element.

4 , it is finally indicated that at least two fibers 2a - 2c and at least one filament 17 are spun together to form a yarn 3 within the framework of a method. At least two fibers 2a to 2c and at least one filament 17 are gathered at a fiber merging point 12 . Thus, the yarn 3 can be made from at least two fibers 2a to 2c and at least one filament 17 .

Spinning of at least two fibers 2a to 2c and at least one filament 17 according to the method comprises two separate guide elements 5d, in which at least two fibers 2a to 2c are separated from each other in the spatial direction, 5e) to the spinning device 6 , at least one filament 17 is supplied from a filament storage unit 18 , in particular from a filament storage unit 18 , in the form of a spool or spool shape, for example a filament bobbin, or Alternatively, it may be implemented by being supplied through a third guide element separate from the two separate guide elements 5d and 5e.

Although not shown in the figures, alternatively or in addition to the described arrangement of the guide elements 5d, 5e such that the guide elements are spatially separated from each other in a spatial direction extending transverse to the fiber guide direction, alternatively or in addition to, at least in principle, At least two guide elements 5d, 5e arranged to be spatially separated from each other in a spatial direction extending parallel to the fiber guiding direction are used. Thus, at least in principle, guide elements 5d, 5e arranged to be offset in the fiber guide direction can also be used.

Within the framework of the method, fibers ( 2a , 2b ) having identical and unequal chemical and/or geometric and/or physical and in particular mechanical properties can be spun together to form yarn ( 3 ).

Within the framework of the method of the invention, all natural fibers, for example alpaca fibres, cotton fibres, cashmere fibres, mohair fibres, silk fibres, linen fibres, wool fibres, in particular novel wool fibres and/or artificial (synthetic) fibres, i.e., For example, plastic fibers, particularly polyamide fibers, polyester fibers, polypropylene fibers or viscose fibers, can be spun together to form the yarn to be manufactured. In particular, mixtures of (individual or plural) natural and (individual or plural) artificial fibers are also possible. These fibers may be continuous or staple fibers depending on availability.

The (individual) fibers 2a , 2b may also be made of or comprise at least two chemically and/or geometrically and/or physically different fiber materials. Corresponding fibers 2a, 2b, also referred to as blended fibers (blended rovings) can thus be made, for example, of a first fibrous material (roving material) and at least one further fibrous material (roving material).

Claims (21)

A method for producing at least one yarn (3) formed by spinning at least two individual fibers (2a to 2c), the method comprising:
- providing at least two individual fibers (2a to 2c) to be spun to form at least one yarn (3) to be produced,
- at least two provided fibers 2a to 2c in a spinning device 6 comprising at least one spindle element or bobbin element 10 via a guide device 5 comprising a plurality of guide elements 5a to 5e supplying;
- spinning the supplied fibers (2a, 2b) in a spinning apparatus (6) to form at least one yarn (3) to be produced,
A method in which the at least two fibers (2a, 2b) are fed to the spinning device (6) via at least two separate guide elements (5d, 5e) arranged to be spatially separated from each other in at least one spatial direction,
The spinning leaves the guide device 5 by feeding the fibers 2a, 2b to be spun into yarns via at least two separate guide elements 5d, 5e arranged to be spatially separated from each other in at least one spatial direction. A method, characterized in that it forms the apex of the spinning triangle towards the device (6) and increases the free length of the fibers (2a, 2b) to be spun into yarns between the fiber merging points (12) formed when the fibers are brought together. The method of claim 1,
The spindle element or bobbin element 10 of the spinning device 6 used is such that the guide elements ( Method, characterized in that arranged in line with the space (13) formed between 5d, 5e). The method of claim 1,
Method, characterized in that at least two guide elements (5d, 5e) are used, arranged to be spatially separated from each other in a spatial direction extending transverse to the fiber guide direction. 4. The method of claim 3,
Coaxially arranged guide elements (5a to 5e), each having a cylindrical or cylindrical basic shape, are used, characterized in that the guide elements are arranged to be spatially separated from each other in the direction of the respective central axis of the guide element. , method. The method of claim 1,
Method, characterized in that at least two guide elements (5d, 5e) are used, arranged to be spatially separated from each other in a spatial direction extending parallel to the fiber guide direction. The method of claim 1,
Method, characterized in that the angle α of the spinning triangle in the region of the apex facing the spinning device (6) is less than or equal to 90°. 7. The method of claim 6,
Method, characterized in that the free length (L) of each fiber (2a, 2b) between the guide device (5) and the merging point (12) is in the range of 4 to 20 cm. 7. The method of claim 6,
The free length L' between each point 14 , 15 at which each fiber 2a , 2b leaves the respective guide element 5d , 5e in the direction of said merging point 12 is 4 to 10 cm A method, characterized in that the range of. The method of claim 1,
Method, characterized in that at least three fibers (2a to 2c) are spun together to form at least one yarn (3). 10. The method of claim 9,
At least two fibers 2a, 2c are fed together to the spinning apparatus 6 via a first guide element 5d, and at least one further fiber 2b is fed to the first guide element in at least one spatial direction ( Method, characterized in that it is fed via a further guide element (5e) arranged to be spatially separated from 5d). 10. The method of claim 9,
the at least three fibers (2a to 2c) are fed to the spinning device (6) via three separate guide elements arranged to be separated from each other in at least one spatial direction,
At least one first fiber 2a is fed through the first guide element and at least one second fiber 2b is a second guide element arranged to be spatially separated from the first guide element in at least one spatial direction. Method, characterized in that the at least one third fiber (2c) is fed through a third guide element arranged to be spatially separated from the second guide element in at least one spatial direction. The method of claim 1,
Method, characterized in that at least two fibers (2a, 2b) and at least one filament (17) are spun together to form at least one yarn (3). 13. The method of claim 12,
The at least two fibers ( 2a , 2b ) are fed to the spinning device ( 6 ) via two separate guide elements ( 5d , 5e ) arranged to be separated from each other in at least one spatial direction, at least one filament ( 17 ) ) is fed from the filament storage unit (18) or via a third guide element separate from the two separate guide elements (5d, 5e). A yarn (3) produced by the method according to any one of claims 1 to 13. 15. A textile product formed from or comprising at least one yarn (3) according to claim 14. Apparatus (1) for producing at least one yarn (3) formed by spinning at least two individual fibers (2a, 2b),
- a guide device (5) comprising a plurality of guide elements (5a to 5e) configured to guide a plurality of fibers (2a to 2c) from the guide device (5) to a spinning device (6) arranged downstream; guide device (5);
- at least one spindle element (6) arranged downstream of the guide device (5), configured to spin together at least two of the fibers (2a, 2b) fed through the guide device, or A device (1) comprising a spinning device (6), comprising a bobbin element (10) to form at least one yarn (3),
The guide device 5 comprises at least two individual guide elements 5d, 5e arranged to be spatially separated from each other in at least one spatial direction, through which at least two fibers 2a, 2b pass. may or may be supplied to the spinning device (6),
The spinning leaves the guide device 5 by feeding the fibers 2a, 2b to be spun into yarns via at least two separate guide elements 5d, 5e arranged to be spatially separated from each other in at least one spatial direction. Apparatus, characterized in that it forms the apex of the spinning triangle towards the apparatus (6) and increases the free length of the fibers (2a, 2b) to be spun into yarns between the fiber merging points (12) where the fibers are brought together and formed. 17. The method of claim 16,
The spindle element or bobbin element 10 of the spinning device 6 is provided with the guide elements 5d, 5e by means of a spatially separated arrangement of the guide elements 5d, 5e assigned to the spinning device in the direction of fiber guiding. Device, characterized in that it is arranged in line with the space (13) formed therebetween. 17. The method of claim 16,
Device, characterized in that at least two guide elements (5d, 5e) are arranged to be spatially separated from each other in a plane or in a spatial direction extending transverse to the fiber guiding direction. 19. The method of claim 18,
The guide elements 5d, 5e each have a cylindrical or cylindrical basic shape and are arranged coaxially,
Device, characterized in that the guide elements (5d, 5e) are arranged to be spatially separated from each other in the direction of the respective central axis. 17. The method of claim 16,
Device, characterized in that the two guide elements (5d, 5e) are arranged to be spatially separated from each other in a spatial direction extending parallel to the fiber guide direction. 21. The method according to any one of claims 16 to 20,
Device, characterized in that it comprises a drafting device configured for the drafting of the fibers (2a, 2c) fed to the spinning device (6).

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