TUBULAR PROTECTIVE SLEEVE

Abstract

Method for the manufacture of tubular protective sleeves, comprising the steps of providing a warp knitted tissue of filaments of three components using a Raschel type loom; and shaping the tissue so that the longitudinal edges of the tissue converge towards one another and overlap, thus defining a tubular shape, the first component comprising monofilaments and/or multifilaments of a first polymer, the third component comprising an electrical conductive material, said components being distributed throughout the thickness of the tissue such that the first is present throughout the thickness, the second throughout the thickness in respect to a median plane of the tissue, the third component extends from one side of the tissue to the interior of the tissue without reaching the opposite side, the minimum weight percentages being 7% for the first, 10% for the second, 40% for the third.

Description

The present invention relates to a method of providing a tubular protective sleeve and a sleeve.

BACKGROUND OF THE INVENTION

Known are in the art the tubular protective sleeves, made of a warp knitted fabric with filaments of three different components the first component comprising monofilaments and/or multifilaments of a first polymer, the third component comprising an electrical conductive material.

In the European Patent Application 11382361, form the same applicant, a sleeve with these features is disclosed.

However, it is a conductive wire between surfaces and if it is desired this cable to be isolating, it is necessary to add another insulating sleeve, with the cost, volume, and additional weight it involves.

DESCRIPTION OF THE INVENTION

To this end, the present invention proposes a method for the manufacture of tubular protective sleeves, comprising the steps of:

• • providing a warp knitted fabric made of three filaments components using a Raschel type loom; and
  • shaping the tissue so that the longitudinal edges of the tissue converge towards one another and overlap with each other, thus defining a tubular shape;
  • the first component comprising monofilaments and/or multifilaments of a first polymer;
  • the third component comprising an electrical conductive material;
  • said components being distributed throughout the thickness of the tissue such that:
    • the first polymer component is present throughout the thickness;
    • the second component has a symmetrical or asymmetrical distribution throughout the thickness in respect to a median plane of the tissue;
    • the third component extends from one side of the tissue to the interior of the tissue without reaching the opposite side;
  • the minimum weight percentages being as follows:
    • 7% for the first component;
    • 10% for the second component;
    • 40% for the third component;

With these features, an insulating sleeve of reduced weight and volume is obtained, which serves as shielding and which is electrically conductive in the longitudinal direction. Notably, the conductive portion may remain on one the sides or inside.

The first component groups and binds the other components, the second has insulating functions, and the third conducts electricity.

According to various optional features, in the process of the invention:

• • either the components are different, or either the first and second components are made of the same material.
  • the second component are multifilaments of a second polymer.
  • the first polymer is selected among polyphenylene sulfide, polyester, polyamide, PEEK, PTFE, ECTFE and PFA.
  • the second polymer is selected among polyester, polyamide, pps, PEEK, Meta-aramid, Para-aramid, Viscose, PTFE, ECTFE and PFA.
  • the electrical conductive material is selected among copper, tinned copper, nickel copper, aluminum and stainless steel.
  • the strips of the edges having a longitudinal direction does not comprise third component.

The invention also relates to a tubular protective sleeve, composed of a warp knitted fabric with filaments of three different components,

• • the first component comprising monofilaments and/or multifilaments of a first polymer;
  • the third component comprising an electrical conductive material;
    which is characterized in that the first, second and third components are distributed throughout the thickness of the tissue such that:
    • the first polymer component is present throughout the thickness;
    • the second component has a symmetrical or asymmetrical distribution throughout the thickness in respect to a median plane of the tissue;
    • the third component extends from one side of the tissue to the interior of the tissue without reaching the opposite side;
  • the minimum weight percentages being as follows:
    • 7% for the first component;
    • 10% for the second component;
    • 40% for the third component;

According to various optional features, in the inventive sleeve:

• • the components are different or wherein the first and second components are made of the same material.
  • the second component are multifilaments of a second polymer.
  • the first polymer is selected among polyphenylene sulfide, polyester, polyamide, PEEK, PTFE, ECTFE and PFA.
  • the second polymer is selected among polyester, polyamide, pps, PEEK, Meta-aramid, Para-aramid, Viscose, PTFE, ECTFE and PFA.
  • the electrical conductive material is selected among copper, tinned copper, nickel copper, aluminum and stainless steel.
  • the strips of the edges having a longitudinal direction does not comprise third component.

BRIEF DESCRIPTION OF THE FIGURES

For a better understanding of what has been disclosed some drawings are attached in which, schematically and solely by way of non-limiting example, a practical case of embodiment is represented.

FIGS. 1 to 8 show schematics of eight tissue embodiments according to the invention.

DESCRIPTION OF PREFERRED EMBODIMENTS

The invention relates to a method for the manufacture of tubular protective sleeves, comprising the steps of:

• • providing a warp knitted tissue T of filaments of three components 1, 2 3 using a Raschel type loom; and
  • shaping the tissue T so that the longitudinal edges of the tissue converge towards one another and overlap, thus defining a tubular shape;
  • the first component comprising 1 monofilaments and/or multifilaments of a first polymer;
  • the third component comprising 3 an electrical conductive material;
  • said components being distributed 1, 2 and 3 throughout the thickness of the tissue T such that:
    • the first component 1 of polymer is present throughout the thickness;
    • the second component 2 has a symmetrical or asymmetrical distribution throughout the thickness in respect to a median plane of the tissue;
    • the third component 3 extends from one side of the tissue T to the interior of the tissue T without reaching the opposite side;
  • the minimum weight percentages being as follows:
    • 7% for the first component 1;
    • 10% for the second component 2;
    • 40% for the third component 3;

Ranges of Materials

• The title of the plastic fibres of monofilament are comprised between 0.10 mm and 0.50 mm.
• The title of the plastic fibres of multifilament are comprised between 86 dTex and 2200 dTex.
• The title of the metallic fibres of monofilament are comprised between 0.05 mm and 0.30 mm.
• The title of the metallic fibres of multifilament are comprised between 10 dTex and 10000 dTex.
• The dimensions of the metallic sheets are: thickness comprised between 0.05 mm and 0.50 mm and width comprised between 0.50 mm and 5 mm.
• The title of the aramid fibres are comprised between 10 dTex and 5000 dTex.

Embodiments Table

In this table and in the attached figures, P1 means Comb 1, P2 means Comb 2, P3 means Comb 3, P4 means Comb 4, P5 means Comb 5 and P6 means Comb 6.

Weaves

Materials

N

PT1

PT2

PT3

PT4

PT5

PT6

PT1

PT2

PT3

PT4

PT5

PT6

1

Chain

Tricot s.4 ag.

Vertical

Laying

Monof.

Monof.

Monof.

Meta-

stitches

laying

in.4 ag.

PPS

PPS

CuNi

aramid

in

0.18 mm

0.18 mm

0.15 mm

1350

dTex

2

Chain

Laying in.4

Tricot

Vertical

Laying

Monof.

Meta-

Monof.

Monof.

Monof.

stitches

ag.

s.4 ag.

laying

in.4 ag.

PPS

aramid

PPS

CuNi

CuNi

in

0.18 mm

1350

0.18 mm

0.15 mm

0.15 mm

dTex

3

Chain

Tricot s.4 ag.

Tricot

Vertical

Laying

Monof.

Meta-

Monof.

Monof.

Monof.

stitches

s.4 ag.

laying

in.3 ag.

PPS

aramid

PPS

CuNi

CuNi

in

0.18 mm

1350

0.18 mm

0.15 mm

0.15 mm

dTex

4

Chain

Laying in.4

Tricot

Vertical

Laying

Laying

Monof.

Meta-

Monof.

Monof.

Monof.

Meta-

stitches

ag.

s.4 ag.

laying

in.3 ag.

in.3

PPS

aramid

PPS

CuNi

CuNi

aramid

in

ag.

0.18 mm

1350

0.18 mm

0.15 mm

0.15 mm

1350

dTex

dTex

5

Chain

Vertical

Tricot

Vertical

Laying

Monof.

Meta-

Monof.

Monof.

Monof.

stitches

alternate

s.3 ag.

laying

in.4 ag.

PPS

aramid

PPS

CuNi

CuNi

laying in 2

in

0.18 mm

2500

0.18 mm

0.15 mm

0.15 mm

passes

dTex

6

Chain

Tricot s.3 ag.

Vertical

Laying

Multif.

Monof.

Monof.

Meta-

stitches

laying

in.4 ag.

PPS

PPS

CuNi

aramid

in

500

0.18 mm

0.15 mm

1350

dTex

dTex

7

Chain

Vertical

Tricot

Vertical

Laying

Laying

Multif.

Meta-

Monof.

Multif.

Monof.

Meta-

stitches

alternate

s.3 ag.

laying

in.3 ag.

in.3

PPS

aramid

PPS

CuNi

CuNi

aramid

laying in 2

in

ag.

500

2500

0.18 mm

2000

0.15 mm

1350

passes

dTex

dTex

dTex

dTex

8

Chain

Tricot s.5 ag.

Vertical

Vertical

Laying

Monof.

Monof.

Monof.

Monof.

Meta-

stitches

laying

laying

in.5 ag.

PPS

PPS

CuNi

PTFE

aramid

in

in

0.18 mm

0.18 mm

0.15 mm

0.25 mm

1350

dTex

Although reference has been made to specific embodiments of the invention, it will be apparent to one skilled in the art that the described procedure and the sleeve are capable of numerous variations and modifications, and that all the details mentioned can be replaced by other technically equivalent, without departing from the scope of protection defined by the appended claims.

Claims

1-14. (canceled)

15. A method for the manufacture of tubular protective sleeves, comprising the steps of: wherein a first component of said three components comprises monofilaments and/or multifilaments of a first polymer; wherein a third component of said three components comprises an electrically conductive material; wherein said three components are distributed throughout a thickness of the tissue such that: wherein the minimum weight percentages of each of the three components is as follows:

providing a warp knitted tissue made of filaments of three components using a Raschel type loom; and

shaping the tissue so that the longitudinal edges of the tissue converge towards one another and overlap, thus defining a tubular shape;

the first component is present throughout the thickness; a second component of said three components has a symmetrical or asymmetrical distribution throughout the thickness in respect to a median plane of the tissue; the third component extends from one side of the tissue to the interior of the tissue without reaching the opposite side; and

7% for the first component; 10% for the second component; 40% for the third component.

16. The method according to claim 15, wherein the three components are made of different materials.

17. The method according to claim 15, wherein the first and second components are made of the same material.

18. The method according to claim 15, wherein the second component comprises multifilaments of a second polymer.

19. The method according to claim 15, wherein the first polymer is selected among polyphenylene sulfide, polyester, polyamide, PEEK, PTFE, ECTFE and PFA.

20. The method according to claim 18, wherein the second polymer is selected among polyester, polyamide, pps, PEEK, Meta-aramid, Para-aramid, Viscose, PTFE, ECTFE and PFA.

21. The method according to claim 15, wherein the electrically conductive material is selected among copper, tinned copper, nickel copper, aluminum and stainless steel.

22. The method according to claim 15, wherein the strips of the edges of the tissue having a longitudinal direction do not comprise the third component.

23. A tubular protective sleeve, comprising a warp knitted tissue made of filaments of three components;

wherein a first component of said three components comprises monofilaments and/or multifilaments of a first polymer;

wherein a third component of said three components comprises an electrically conductive material;

wherein said three components are distributed throughout a thickness of the tissue such that: the first component is present throughout the thickness; a second component of said three components has a symmetrical or asymmetrical distribution throughout the thickness in respect to a median plane of the tissue; the third component extends from one side of the tissue to the interior of the tissue without reaching the opposite side; and

wherein the minimum weight percentages of each of the three components is as follows: 7% for the first component; 10% for the second component; 40% for the third component.

24. The sleeve according to claim 23, wherein the three components are made of different materials.

25. The sleeve according to claim 23, wherein the first and second components are made of the same material.

26. The sleeve according to claim 23, wherein the second component comprises multifilaments of a second polymer.

27. The sleeve according to claim 23, wherein the first polymer is selected among polyphenylene sulfide, polyester, polyamide, PEEK, PTFE, ECTFE and PFA.

28. The sleeve according to claim 26, wherein the second polymer is selected among polyester, polyamide, pps, PEEK, Meta-aramid, Para-aramid, Viscose, PTFE, ECTFE and PFA.

29. The sleeve according to claim 23, wherein the electrically conductive material is selected among copper, tinned copper, nickel copper, aluminum and stainless steel.

30. The sleeve according to claim 23, wherein the strips of the edges of the tissue having a longitudinal direction do not comprise the third component.