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A COMPOSITE YARN COMPRISING AT LEAST TWO SINGLE ELASTIC FILAMENTS AND A PLURALITY OF INELASTIC ELEMENTS

20220195638 · 2022-06-23

    Inventors

    Cpc classification

    International classification

    Abstract

    A composite yarn (100) comprising at least two single elastic filaments (101) and a plurality of inelastic elements (103), wherein said inelastic elements (103) comprise a plurality of inelastic filaments and/or a bundle of inelastic filaments, and said single elastic filaments (101) and said inelastic filaments (103) are connected to each other by intermingling.

    Claims

    1. A composite yarn (100) comprising at least two single elastic filaments (101) and a plurality of inelastic elements (103), wherein: said inelastic elements (103) comprise a plurality of inelastic filaments and/or a bundle of inelastic filaments; said single elastic filaments (101) and said inelastic filaments (103) are connected to each other by intermingling.

    2. The composite yarn (100) according to claim 1, essentially consisting in elastic filaments (101) and said inelastic elements (103), coupled via intermingling.

    3. The composite yarn (100) according to claim 1 or 2, wherein each of said inelastic elements comprise at least one polyester filament and/or a polyamide filament.

    4. The composite yarn (100) according to any preceding claim comprising a number of entanglement points greater than 50 entanglement points per meter, more preferably greater than 80 entanglement points per meter, most preferably greater than 100 entanglement points per meter, preferably up to 150 entanglement points per meter.

    5. The composite yarn (100) according to any preceding claim, wherein the inelastic filaments (101) are drafted, preferably with a draft between 1.1 and 6.9, more preferably 2 to 6, even more preferably 3 to 5.

    6. The composite yarn (100) according to any preceding claim, wherein the draft of the inelastic elements (103) is 1.6, more preferably less than 5, even more preferably less than 4.

    7. The composite yarn (100) according to any preceding claim, wherein the draft of the inelastic elements (103) is less than the draft of the elastic filaments (101).

    8. The composite yarn (100) according to any preceding claim, wherein the inelastic elements (103) are texturized.

    9. The composite yarn (100) according to any preceding claim, wherein said inelastic elements (103) comprise bi-component filaments, preferably selected between: PET/PTT, PBT/PTT, PET/PTMT.

    10. The composite yarn (100) according to any preceding claim, comprising at least three elastic filaments (101), preferably at least five elastic filaments (101), more preferably at least ten elastic filaments, more preferably a number of elastic filaments (101) comprised between 2 and 50.

    11. The composite yarn (1) according to any preceding claim, wherein said elastic filaments (101) have a count comprised between 2 to 100 denier, more preferably 10 to 100 deniers.

    12. The composite yarn (1) according to any preceding claim, further comprising at least a bundle of elastic filaments intermingled with the inelastic elements (103), or wherein the elastic filaments consist of single elastic filaments.

    13. A fabric (200), preferably a woven fabric, comprising a composite yarn according to any preceding claim.

    14. An article (300), preferably a garment, comprising a fabric (200) according to claim 12.

    15. A process for producing a composite yarn (100) comprising the steps of: a. providing a plurality of inelastic elements (103), said inelastic elements comprising a plurality of inelastic filaments or a bundle of inelastic filaments; b. providing at least at least two separate single elastic filaments (101); c. intermingling said single elastic filaments (101) and said inelastic elements (103), preferably via air-jet intermingling; d. collecting the composite yarn (100) obtained via said intermingling step.

    16. A process according to claim 15, wherein no further yarn or roving or sliver is added to the composite yarn (100) between said steps c and d.

    17. A process according to claim 15 or 16, comprising the step of texturing the inelastic elements (103).

    18. The process according to any claims 15 to 17, wherein said inelastic elements (103) are overfed during said step c, preferably at a percentage between 1.2% and 7.0%.

    19. A composite yarn obtainable by means of a process according to any claims 15 to 18.

    Description

    [0026] Exemplary and non-limiting embodiments are now discussed with reference to the following figures, wherein:

    [0027] FIG. 1 is a schematic view of a portion of a composite yarn according to an embodiment of the invention;

    [0028] FIG. 2 is a schematic view of a possible apparatus for producing a composite yarn as per FIG. 1;

    [0029] FIG. 3 is a schematic view of an intermingling device, that may be used in an apparatus as per FIG. 2;

    [0030] FIG. 4 is a schematic view of a garment obtained comprising a fabric comprising in turn a composite yarn as per FIG. 1;

    [0031] FIG. 5 is a schematic section view of tree single filaments;

    [0032] FIG. 6 is a schematic view of a bundle of continuously connected elastic filaments.

    DETAILED DESCRIPTION OF EXEMPLARY EMBDODIMENTS

    [0033] A composite yarn 100 comprises at least two single elastic filaments 101.

    [0034] Three single elastic filaments (monofilaments) are schematically shown in FIG. 5. As above discussed, providing single elastic filaments is different from a bundle B of continuously connected filaments, schematically shown in FIG. 6, where all the filaments behave like a single element. Contrary to that, even if intermingled, as better discussed later, single elastic filaments (monofilaments) retain some independency of movement one from the other, in particular at a distance from the connection points P provided by intermingling.

    [0035] Preferably, the number of elastic filaments is equal or greater than two, and it is preferably equal or greater than three, more preferably equal or greater than seven, eve more preferably equal or greater than ten and up to 50.

    [0036] Some embodiments of the present invention are provided with a number of single elastic filaments comprised between 2 and 50.

    [0037] The single elastic filaments are preferably elastomeric filaments, i.e. filaments that can be stretched repeatedly at room temperature to at least twice their original length and which after removal of the tensile force will immediately and forcibly return to approximately their original length. According to an aspect, the elastic filaments 101 are polyurethane filaments, such as elastane filaments.

    [0038] The count of each elastic filament 101 is preferably comprised between 2 to 100 denier, preferably 10 to 100 denier, more preferably 10 to 70 denier.

    [0039] The composite yarn 100 comprises a plurality of inelastic elements 103. In the shown embodiment, the inelastic elements 103 are part of a bundle of inelastic filaments. As a result, in the shown embodiment, an inelastic element corresponds to an inelastic filament. Different embodiments may provide that an inelastic element is a bundle of connected (e.g. bonded) inelastic filaments. Count of each inelastic filament is lower than the count of the elastic filament 101. Preferred inelastic filaments have a count comprised between 0.5 and 3 den.

    [0040] In general, the composite yarn 100 comprises a plurality of inelastic elements 103, where the inelastic element can be a single inelastic filament or a bundle of inelastic filaments.

    [0041] The inelastic elements 103 are preferably single filaments (monofilaments) of partially oriented yarn (POY), known in the art. Preferable filaments for the inelastic elements 103 are selected from polyester filaments and polyamide (nylon) filaments, or filament made in polyester or polyamide copolymers. The inelastic filaments are preferably textured filaments.

    [0042] The inelastic elements 103 may also comprise filaments that are bi-component filaments, such as PBT/PTT or PET/PTT or PET/PTMT bi-component filaments.

    [0043] The elastic filaments 101 and the inelastic elements 103 are connected to each other at a plurality of points P, via intermingling, to provide the final composite yarn 100. As a result, in the final composite yarn 100, there are portions of the single elastic filaments 101 that are not connected to the inelastic element 103 (i.e. between two subsequent connection points P), and that can behave in substantially independent manner one from the other. As above mentioned, to help providing such an independency, it is preferred that, as shown in the figures, the elastic filaments 101 are fed as independent filaments, or at least in a non-twisted state, to the intermingling device.

    [0044] As mentioned, the inelastic elements comprise (or consist in) inelastic filaments. The number and/or the total count of the inelastic filaments is preferably greater than respectively the number and/or the total count of the elastic filaments, even if, as mentioned, the count of one inelastic filament of the yarn has preferably a count lower than the count of one elastic filament of the yarn.

    [0045] In other words, the percentage in volume of the inelastic filaments in the final composite yarn is greater than (at worst equal to) the percentage in volume of the elastic filaments in the final composite yarn and/or the percentage in weight of the inelastic filaments in the final composite yarn is greater than (at worst equal to) the percentage in weight of the elastic filaments in the final composite yarn. Intermingling is preferably provided via air jet intermingling.

    [0046] The composite yarn 100 is typically used to provide a fabric 200, preferably a woven fabric. An aspect of the invention relates to an article 300, typically a garment, that comprises such a fabric 200. According to possible embodiments, as the one shown in FIG. 2, during the process for producing a composite yarn according to the present invention, the inelastic elements 103 are provided by one or more sources 1, e.g. one or more bobbins. In the shown embodiment, a single source 1 provides a bundle of separate inelastic elements (i.e. inelastic filaments) 103.

    [0047] Each source of inelastic filaments may have different counts/denier of filaments and at final product there may be combination of different counts/denier of total filaments such as 40D/4F (40 Denier with 4 Filaments)+30D/3F (30 Denier with 3 Filaments) The inelastic elements 103 can be passed through a guide 3, e.g. a tube, and drafted via drafting means 2, e.g. one or more drafting rollers.

    [0048] Each of the elastic filament may be drawn with different levels of draft ratios before being intermingled.

    [0049] The inelastic elements 103 may be also heat treated, e.g. via a heating element 4, possibly followed by a cooling element 5, e.g. a heating chamber and a cooling chamber through which the inelastic elements 103 are passed. Temperature of the first heating element can be between 180 and 210° C.

    [0050] Sensor(s) 6 may be provided to verify whether a breakage of the inelastic elements occurs during the process, so as to monitor and avoid that they are no more withdrawn from the source 1. Further sensors 7 may be provided to verify the tension of the inelastic elements 103.

    [0051] Elastic filaments 101 are withdrawn from one or more relevant sources 11. It is possible, such as in the shown embodiment, that a single source 11 (e.g. a single bobbin) is provided with a plurality of single elastic filaments 101, in a known manner. As a result, for at least a part of their path, the single elastic filaments 101 and the inelastic elements 103 run along different and separate paths.

    [0052] The inelastic elements 103 and the single elastic filaments 101 are then connected together at a plurality of connection points P via an intermingling device 8, preferably an air-jet intermingling device.

    [0053] As mentioned, the intermingling device provides a plurality of connection points P between the filaments of the final yarn. In particular, as known, intermingling provides a plurality of connection pints P (knots) between the filaments 101, 103 of the final yarn. There are known ways and testing machines to measure the number of entanglement, i.e. knots, per meter on a yarn, e.g. by evaluating the variations in the thickness of the yarns. As an example, in ITEMAT+ by Textechno H. Stein (Moenchengladbach, DE; https://www.textechno.com) in an “interlace test” a yarn is passed between two cylinders at a pre-determined elongation, to evaluate the number of the intermingling points. At each intermingling point there is provided an entanglement or knot of the elastic and inelastic filaments that remains also when the yarn is tensioned or stretched and that can be sensed by the testing machine in the otherwise smooth yarn.

    [0054] Preferably, when tested with a similar machine, and when stretched with an elongation at 6.0%, a yarn according to the invention is provided with at least 50 connection points (i.e. knots) per meter, more preferably at least 80 connection points/knots per meter, even more preferably at least 100 entanglements/knots per meter. A suitable number of knots is in the range of up to 120 knots/meter e.g. 80 to 120 knots/meter.

    [0055] According to a preferred aspect, the inelastic elements 103 are overfed to the intermingling device 8, preferably at a percentage between 1.2% and 7.0%.

    [0056] Before intermingling, the elastic filaments 101 can be passed together in a drafting device 9, e.g. a drafting roller. Preferably, the drafting of drafting device 9 (applied to both elastic filaments 101 and inelastic elements 103) is greater than the drafting applied to the inelastic elements 103 by drafting device 2 (placed upstream of the drafting device 9). In particular, the drafting applied to drafting device 9 can be between 1.5 and 1.8 greater than the drafting applied by drafting device 2.

    [0057] Preferably, the draft of the elastic filaments 101 is between 1.1 and 6.9 more preferably 2 to 6, even more preferably 3 to 5. Regarding the inelastic elements 103, draft is preferably lower than 6, more preferably lower than 5, even more preferably lower than 4. In addition, the elastic filaments 101 are preferably drafted more than inelastic elements 103.

    [0058] In addition, before being connected to the elastic filaments 101, the inelastic elements 103 may be texturized, via a texturing device 10. Any suitable texturizing device, such as a friction discs device, may be used.

    [0059] After intermingling, a composite yarn is formed, where the single elastic filaments 101 and inelastic elements 103 are connected via intermingling.

    [0060] Further finishing processes may be carried out, e.g. a heat treatment via a heating chamber 16 and/or a further drafting via one or more drafting device 13, and/or application of a finishing agent, e.g. an oil or a similar element, via a finishing device 14.

    [0061] The composite yarn 100 is finally collected on a collecting element 15; typically it is wound on a bobbin.

    [0062] In an embodiment, during the production process, substantially no further yarns, rovings, slivers or similar textile elements are added to the composite yarn 1, that can thus be used in such a form, i.e. essentially comprising the single elastic filaments 101 (and possible the bundle of elastic filaments) and the inelastic elements 103 as a yarn to manufacture a fabric, in particular a woven fabric 200, for an article 300, such as a garment.