Method to produce a composite yarn consisting of textile threads and metallic wire, and composite yarn thus produced

Abstract

 Method to produce a composite yarn (11) consisting of at least one metallic wire (12) and at least two textile threads (13), the method comprising a first step (14) of coupling the metallic wire (12) with at least two pre-doubled textile threads (13) so as to produce a coupled thread (15) in which the metallic wire (12) is positioned in an intermediate zone between the two textile threads (13), and a second twisting step (16) in which the desired twists are imparted to the coupled thread (15), at least the metallic wire (12) in the coupling step being unwound by being drawn from a hank positioned on a stationary swift.
Composite yarn (11) which comprises at least one metallic wire (12) and at least two textile threads (13) and is produced with the above method, at least the metallic wire (12) in the coupling step being unwound by being drawn from a hank positioned on a stationary swift and being positioned in the vicinity of a lateral terminal position in the zone of reciprocal contact between the two textile threads (13) and being at least partly covered by the textile threads (13).

Description

[0001] This invention concerns a method to produce a composite yarn consisting of textile threads and metallic wire and concerns also the composite yarn thus produced, as set forth in the respective main claims.

[0002] The composite yarn thus produced is employed in the manufacture of knitted underwear and outer knitted garments,, shirts, jeans, furnishing fabrics, curtains, blankets, carpets and other textile products.

[0003] The state of the art covers various types of composite yarns consisting of a metallic wire associated with one or more textile threads. These composite yarns are employed in the manufacture of fabrics, knitted goods, carpets, etc. which possess the properties of providing screening against electromagnetic waves or antistatic properties and earth the body of the person who wears clothes made with such fabrics.

[0004] Moreover, these composite yarns are also employed in the production of fabrics that reduce physical pains associated with the breaking of bones inasmuch as they make normal the electrical charge of the body and reduce the differences of potential occurring in the body, for these differences of potential are the cause of pains due to the breaking of bones.

[0005] The philosophies which lead to the composite textile-metallic yarns are substantially two in number and affect the conformation of the metallic component.

[0006] A first philosophy provides for the use of segments of metallic wire which are assembled with the textile fibre component.

[0007] A second philosophy, from which this invention is derived, provides for the use of one or more continuous metallic wires.

[0008] The present invention is concerned with composite yarns employing continuous metallic wire.

[0009] The prior art document IT-BZ-92A000019 discloses a composite yarn in which at least two textile threads are wound on a taut metallic wire, which stays substantially straight substantially in the centre between the two textile threads.

[0010] This kind of yarn can be made only with a cording machine of the type used to produce cords or with a braiding machine.

[0011] The use of these machines entails a high production cost since these machines are very slow and therefore have a low output.

[0012] Other prior art exists which discloses the winding of one or more textile yarns together with metallic wire; one method of the prior art is to wind together long textile fibres or very fine textile threads with metallic wires so as to produce a composite yarn in which the metallic wire is positioned at random in the composite yarn.

[0013] This means that the metallic wire can come readily to the surface of the composite yarn, thus creating problems of use of the metal and problems of allergy and of suitability to be worn.

[0014] Another method of the state of the art is to wind together textile threads and metallic wire, the metallic wire being alone by itself or combined with a textile filament; the composite yarn thus produced does not ensure that the metallic wire becomes located in a protected and covered position within the composite yarn, and this fact too creates problems of use of the metal and problems of allergy and of suitability to be worn.

[0015] Neither of these methods ensures that the metallic wire does not come to the surface during the successive processing of the composite yarn and does not create problems and possible breakages of the metallic wire during such successive processings.

[0016] Both of these production methods involve also problems of production, output and cost.

[0017] The present applicants have studied, tested and obtained this invention so as to overcome the shortcomings of the state of the art and to achieve further advantages.

[0018] This invention is set forth and characterised in the main claims, while the dependent claims describe variants of the idea of the main solution.

[0019] The method according to the invention enables a composite yarn to be produced from a continuous metallic wire and at least two textile threads, the textile threads having a metric number (Nm) between 7,000 and 200,000 metres per kilogram.

[0020] The continuous metallic wire has a diameter which may vary between 0.010 mm. and 0.100 mm., depending on the final method of use of the composite yarn.

[0021] The metal of which the metallic wire consists will be suitable for the end use of the textile product and therefore may be stainless steel, copper coated with silver and/or gold, aluminium which has been surface-passivated, etc.

[0022] The metallic wire may possibly be coated with a resin, which advantageously is of a conductive type.

[0023] According to a variant the metallic wire is replaced by a metallic strap.

[0024] According to a further variant the metallic strap replacing the metallic wire has on one or both of its sides a protective adhering film of polyester, viscose or nylon.

[0025] According to another variant the metallic wire or metallic strap has a cross-section of a polygonal shape.

[0026] The method according to the invention arranges for the metallic wire and textile threads to undergo a first coupling operation in which the threads and wire are united according to a desired reciprocal positioning.

[0027] The coupled threads and wire which have their axes substantially parallel and linear then undergo a twisting step in which the metallic wire and textile threads are bonded together by a number of required twists about the lengthwise axis of the resulting composite yarn.

[0028] In the method according to the invention the metallic wire and the textile threads themselves undergo twisting.

[0029] The metallic wire coupled with two textile threads becomes located in a lateral position covered by the two coupled textile threads, so that the coupled metallic wire according to the invention is within the outer periphery of the finished yarn.

[0030] These coupling and twisting operations can be carried out with the normal coupling and twisting machines used at present in the processing of textile threads, thus enabling normal and very versatile machines to be employed with high speeds of output and high outputs of the composite yarn according to the invention to be ensured at a low cost.

[0031] Moreover, with such machines it is possible to use textile threads having a metric number between 7,000 and 200,000 metres per kilogram without thereby involving an appreciable drop of the output of the machines.

[0032] The properties of the metallic wire and textile threads employed and also the parameters of the twisting step vary according to the end use of the composite yarn according to the invention.

[0033] As an example we give below some data of some possible compositions of the composite yarn according to the invention as employed in particular to produce:

• knitted underwear:
  1 metallic wire having a diameter of 0.025 mm.;
  2 textile threads having a metric number of 70,000 metres/kg.;
  the number of twists imparted to the composite yarn is within the range of 500 to 800 twists per metre;
• shirts:
  1 metallic wire having a diameter of 0.010 to 0.015 mm.;
  2 textile threads having a metric number within the range of 140,000 to 200,000 metres/kg.;
  the number of twists imparted to the composite yarn is within the range of 800 to 1000 twists per metre;
• woollen garments, inserts for blankets:
  1 metallic wire having a diameter of 0.025 to 0.040 mm.;
  2 textile threads having a metric number of 40,000 metres/kg.;
  the number of twists imparted to the composite yarn is within the range of 300 to 500 twists per metre;
• light carpets, furnishing fabrics:
  1 metallic wire having a diameter of 0.08 to 0.10 mm.;
  2 textile threads having a metric number within the range of 7,000 to 20,000 metres/kg.;
  the number of twists imparted to the composite yarn is within the range of 150 to 350 twists per metre.

[0034] The attached figures are given as a non-restrictive example and show a preferred solution of the invention as follows:

Fig.1

is a block diagram of the method to produce a composite yarn according to the invention;

Fig.2

gives a view of a yarn consisting of a metallic wire and two textile threads and made with the method according to the invention;

Fig.3

shows in an enlarged scale a cross-section along the line A-A of the composite yarn of Fig.2.

[0035] The reference number 10 in the attached figures denotes generally a method to produce a composite yarn 11 consisting of a metallic wire 12 and at least two textile threads 13.

[0036] The method 10 to produce a composite yarn 11 according to the invention includes a first coupling step 14 in which the continuous metallic wire 12 is caused to cooperate with at least two textile threads 13 so as to produce a coupled thread 15 that comprises at least two textile threads 13 and at least one metallic wire 12.

[0037] The coupling of the wire and threads takes place by first coupling the two textile threads and then by doubling the metallic wire with the coupled threads, taking care to place the metallic wire 12 between the two textile threads 13 in the first coupling step 14.

[0038] This coupling step 14 may be carried out with the common coupling machines employed in the traditional textile industry.

[0039] The coupling machines employed may be of the type with a thread-guide or of the type with a grooved roller.

[0040] The textile threads 13 or wire 12 are advantageously unwound by being drawn from a hank positioned on a stationary swift.

[0041] In fact, the unrolling of the textile threads 13 or metallic wire 12 from a hank positioned on a rotary swift leads in this case to lower unwinding speeds than is the case with unwinding from a stationary swift and therefore reduces the output of the machines.

[0042] Moreover, unrolling the metallic wire 12 from a rotary swift not only leads to the above problems of lower speeds but is also not employed owing to the fact that it induces in the metallic wire 12 tensions which tend to lengthen the metallic wire 12 and to reduce the percentage of plastic elongation which is required of the composite yarn 11 in the successive processes.

[0043] It should be noted that the invention arranges that in every successive step in the production of the composite yarn there is always unwinding from a hank positioned on a stationary swift.

[0044] In fact, to make possible the successive processings of the composite yarn 11 and to ensure that the finished fabric made with the composite yarn 11 behaves substantially like a fabric made of textile threads 13 alone, it is necessary to ensure a minimum percentage of elongation in the composite yarn 11.

[0045] The coupled thread 15 undergoes thereafter a twisting step 16, in which the metallic wire 12 and textile threads 13 forming the coupled thread 15 are bonded together by imparting a desired number of twists which wind the metallic wire 12 and threads 13 about the lengthwise axis of the composite yarn 11 thus produced.

[0046] This second twisting step 16 can be carried out with the common twisting machines employed in the traditional textile industry.

[0047] The metallic wire 12 has a diameter which may vary from 0.01 to 0.10 mm. depending on the end use of the composite yarn 11, while the textile threads 13 employed have a metric number between 7.000 to 200.000 metres/kg.

[0048] Furthermore, the number of twists imparted to the coupled thread 15 in the twisting step 16 will vary according to the end use of the composite yarn 11 and will generally range from 150 to 1000 twists per metre.

[0049] In the composite yarn 11 according to the invention the metallic wire 12 and the textile threads 13 undergo the twisting step 16 and are therefore spirally arranged about an ideal axis.

[0050] Where the composite yarn 11 according to the invention consists of a metallic wire 12 coupled to and twisted with two textile threads 13, the metallic wire 12 becomes positioned in a lateral position in the zone of mutual support of the two textile threads 13.

[0051] The metallic wire 12 becomes located in particular in an internal recess within a substantially V-shaped space 17 created at the point of mutual contact of the two twisted textile threads 13 (see Fig.3).

[0052] This positioning, owing to the method employed, entails protection of the metallic wire 12 by being covered by part of the two textile threads 13, which cover the metallic wire 12 at least partly. In any event the textile threads 13 create protective spines at the two sides of the metallic wire 12, so that the metallic wire 12 does not emerge from the spines of the textile threads 13.

[0053] This means that in the successive operations and in the finished product the metallic wire 12 practically never emerges from the composite yarn 11, thus preventing the metallic wire 12 causing problems in the successive processings of the composite yarn 11.

[0054] In fact, the metallic wire 12 is sunk in the textile yarn which thus acts as a protection, insulation and elastic absorption of the mechanical tensions which may occur in the metallic wire 12.

[0055] It should be noted that a fabric made with the yarn according to the invention behaves, when in contact with the skin, like a normal textile fabric since the textile threads are the threads which come in contact with the skin, and at the same time behaves like a Faraday cage owing to the screening effect of the metallic wire.

[0056] The method according to the invention makes it also possible to employ as metallic wire 12 a copper wire with a coating of gold and/or silver.

[0057] When the composite yarn 11 according to the invention has been knitted or woven, it may happen that the textile part of the fabric undergoes a required controlled shrinkage so that small segments of the metallic wire 12 may come to the surface; the shrinkage of the textile part may occur by washing the fabric for instance.

[0058] The metallic wire, emerging in segments from the composite yarn 11 forming the fabric, comes into contact with the wearer's skin. This contact is sought for and desired since it enables the composite yarn 11 to act not only as a Faraday cage but also as a conductor, thus making uniform the electrical charges in the body of the person wearing the garment made with the composite yarn 11 according to the invention.

[0059] In fact, it has been found that in this way the composite yarn 11 according to the invention makes possible the attenuation of the differences of electrical potential created within the body and deemed to be the cause of pains associated with the breaking of bones.

Claims

1. Method to produce a composite yarn (11) consisting of at least one metallic wire (12) and at least two textile threads (13), the method being characterized in that it comprises a first step (14) of coupling the metallic wire (12) with at least two pre-doubled textile threads (13) so as to produce a coupled thread (15) in which the metallic wire (12) is positioned in an intermediate zone between the two textile threads (13), and a second twisting step (16) in which the desired twists are imparted to the coupled thread (15), at least the metallic wire (12) in the coupling step being unwound by being drawn from a hank positioned on a stationary swift.

2. Method as in Claim 1, in which the textile threads (13) are unwound by being drawn from a stationary swift in the coupling step.

3. Method as in Claim 1 or 2, in which the metallic wire (12) has a diameter between 0.01 and 0.10 mm.

4. Method as in any claim hereinbefore, in which the textile threads (13) have a metric number between 7,000 and 200,000 metres/kg.

5. Method as in any claim hereinbefore, in which the composite yarn (11) to make knitted underwear comprises a metallic wire (12) having a diameter of 0.025 mm., and two textile threads (13) having a metric number of 70,000 metres/kg.; while the number of twists imparted to the composite yarn (11) in the twisting step (16) is within a range of 500 to 800 twists per metre.

6. Method as in any of Claims 1 to 4 inclusive, in which the composite yarn (11) for production of shirts comprises a metallic wire (12) having a diameter of 0.010 to 0.015 mm. and two textile threads (13) having a metric number within a range of 140,000 to 200,000 metres/kg., while the number of twists imparted to the composite yarn (11) in the twisting step (16) is within a range of 800 to 1000 twists per metre.

7. Method as in any of Claims 1 to 4 inclusive, in which the composite yarn (11) for production of woollen garments and inserts for blankets comprises a metallic wire (12) having a diameter of 0.025 to 0.040 mm. and two textile threads (13) having a metric number of 40,000 metres/kg., while the number of twists imparted to the composite yarn (11) in the twisting step (16) is within the range of 300 to 500 twists per metre.

8. Method as in any of Claims 1 to 4 inclusive, in which the composite yarn (11) for production of light carpets or furnishing fabrics comprises a metallic wire (12) having a diameter of 0.08 to 0.10 mm.and two textile threads (13) having a metric number within the range of 7,000 to 20,000 metres/kg., while the number of twists imparted to the composite yarn (11) in the twisting step (16) is within the range of 150 to 350 twists per metre.

9. Method as in any claim hereinbefore, in which the fabric produced with the textile yarn of the claims hereinbefore undergoes a step of controlled shrinkage of the textile portion thereof.

10. Composite yarn (11) which comprises at least one metallic wire (12) and at least two textile threads (13) and is characterised in that it is produced with the method of any claim hereinbefore, and in that at least the metallic wire (12) in the coupling step is unwound by being drawn from a hank positioned on a stationary swift and is positioned in the vicinity of a lateral terminal position in the zone of mutual contact between the two textile threads (13), and in that the metallic wire (12) is at least partly covered by the textile threads (13).

11. Composite yarn (11) as in Claim 10, in which the metallic wire (12) consists of silver-coated copper.

12. Composite yarn (11) as in Claim 10 or 11, in which the metallic wire (12) consists of gold-coated copper.

13. Composite yarn (11) as in Claim 10, in which the metallic wire (12) consists of stainless steel.

14. Composite yarn (11) as in Claim 10, in which the metallic wire (12) consists of aluminium which is advantageously passivated.

15. Composite yarn (11) as in Claim 10, in which the metallic wire (12) is coated with a resin which is advantageously conductive.

16. Composite yarn (11) as in Claim 10, in which the metallic wire (12) consists of a metallic strap.

17. Composite yarn (11) as in Claim 16, in which the metallic strap includes a coating film adhering to at least one side of the strap, the coating film consisting of polyester or viscose or nylon.

18. Composite yarn (11) as in any of Claims 10 to 17 inclusive, in which the metallic wire (12) has a circular cross-section.

19. Composite yarn (11) as in any of Claims 10 to 18 inclusive, in which the metallic wire (12) has a polygonal cross-section.

Drawing