Securing electrical conductors

US 6,977,055 B2
Filed: 04/25/2003
Issued: 12/20/2005
Est. Priority Date: 10/25/2000
Status: Expired due to Fees

First Claim

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1. A method of continuously forming an electrical cable, the method comprising:

introducing an electrical insulating material comprising a thermoplastic resin into a gap formed adjacent a peripheral surface of a rotating mold roll, the mold roll defining an array of cavities therein, the insulating material being introduced under pressure and temperature conditions selected to cause the insulating material to at least partially fill the cavities to form fastener element stems integrally with and extending from one broad surface of a strip of said insulation material;

while introducing at least two longitudinally continuous and spaced apart electrical conductors to the gap so as to cause the insulating material to envelop and electrically isolate the conductors and cause the conductors to become an integral part of the strip of insulation material from which the fastener element stems extend.

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Abstract

An elongated electrical cable or flexible circuit board includes an electrically conductive path and an insulating body encompassing and electrically isolating the conductive path, the insulating body including an exposed surface having an array of fastener elements extending therefrom, the fastener elements arranged and constructed to engage mating fastener elements associated with a supporting surface to selectively secure the cable or flexible circuit board to the supporting surface. The fastener elements can be loop-engageable fasteners and/or loops. Such a cable or flexible circuit board is continuously formed by introducing an electrical insulating material including a thermoplastic resin into a gap formed adjacent a peripheral surface of a rotating mold roll, the mold roll defining an array of cavities therein, the insulating material being introduced under pressure and temperature conditions selected to cause the insulating material to at least partially fill the cavities to form fastener element stems integrally with and extending from one broad side of a strip of said insulation material; while introducing conductive wires and/or a conductive path formed on or within a substrate to the gap so as to cause the insulating material to envelop and electrically isolate the conductive path and/or to cause the conductive path to become an integral part of the strip of insulation material from which the fastener element stems extend.

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21 Claims

1. A method of continuously forming an electrical cable, the method comprising:
- introducing an electrical insulating material comprising a thermoplastic resin into a gap formed adjacent a peripheral surface of a rotating mold roll, the mold roll defining an array of cavities therein, the insulating material being introduced under pressure and temperature conditions selected to cause the insulating material to at least partially fill the cavities to form fastener element stems integrally with and extending from one broad surface of a strip of said insulation material;
  
  while introducing at least two longitudinally continuous and spaced apart electrical conductors to the gap so as to cause the insulating material to envelop and electrically isolate the conductors and cause the conductors to become an integral part of the strip of insulation material from which the fastener element stems extend.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The method of claim 1 wherein the cavities of the mold roll are shaped to mold distal heads on said fastener element stems, said distal heads being shaped to overhang the broad surface of the strip of insulating material so as to be engageable with exposed loop fibers.
  - 3. The method of claim 1 wherein each of said stems defines a tip portion, the method further comprising deforming said tip portion of a plurality of said stems to form engaging heads overhanging the broad side of the strip of insulating material, the engaging heads being shaped to be engageable with exposed loop fibers.
  - 4. The method of claim 1 wherein the gap comprises a nip defined between the rotating mold roll and a counter-rotating pressure roll.
  - 5. The method of claim 1 wherein the gap comprises a nip defined between the rotating mold roll and a counter-rotating mold roll, each of said rotating mold roll and said counter-rotating mold roll defining an array of cavities therein, the insulating material being introduced under pressure and temperature conditions selected to cause the insulating material to at least partially fill the array of cavities of each of said rotating and said counter-rotating mold roll to form fastener element stems integrally with and extending from each of opposite broad sides of the strip of said insulation material.
  - 6. The method of claim 1 wherein the insulating material comprises a layer of thermoplastic resin and a film backing, the film backing carrying the electrical conductors on a surface thereof, the layer of thermoplastic resin being introduced to the gap directly adjacent the rotating mold roll, the film backing carrying the electrical conductors being introduced to the gap under pressure and temperature conditions which cause the film backing to become permanently bonded to the thermoplastic resin to envelop and electrically isolate the conductors.
  - 7. The method of claim 1 wherein the insulating material comprises a first and a second film of thermoplastic resin, wherein the electrical conductors and the first and second films are introduced to the gap with the electrical conductors disposed between the first and the second film, said first film being introduced directly adjacent the rotating mold roll under temperature and pressure conditions that cause the first and second films to become permanently bonded to each other in a manner enveloping and electrically isolating the conductors.
  - 8. The method of claim 1 further comprising downstream of the gap, longitudinally severing the electrical insulation material after solidification to form two electrical cables, each cable containing at least one said conductor.

9. A method of continuously forming an electrical cable, the method comprising:
- introducing molten resin into a gap formed adjacent a rotating mold roll, the mold roll having a peripheral surface defining an array of molding cavities therein, under pressure and temperature conditions selected to cause the resin to fill the mold cavities and form an array of fastener element stems integrally molded with and extending from a broad strip of resin;
  
  while simultaneously introducing a preformed electrical ribbon-type cable to the gap adjacent the mold roll, such that the broad strip of resin becomes permanently bonded to a broad side of the ribbon-type cable such that the fastener element stems are exposed.

10. A method of continuously forming an electrical cable, the method comprising:
- providing a fastener tape of continuous length, the fastener tape comprising a base and an array of loop-engageable fastener elements, the base being of thermoplastic resin and defining a first and a second, opposite, broad surface, the array of loop engageable fastener elements comprising protrusions of the thermoplastic resin of the first surface;
  
  providing a backing film of continuous length, the backing film defining a broad surface, the broad surface of the backing film being arranged to face the second broad surface of the fastener tape;
  
  disposing a plurality of spaced apart electrical conductors of continuous length between the second broad surface of the fastener tape and the broad surface of the backing film; and
  
  passing the fastener tape, backing film and conductor through a nip defined in part by a roller defining recesses arranged to receive at least some of the protrusion, thereby permanently attaching the fastener tape to the backing film with the plurality of conductors enveloped therebetween to form a laminate, with the conductors being electrically isolated from one another and the received protrusions extending from one surface of the laminate.
- View Dependent Claims (11, 12)
- - 11. The method of claim 10, wherein said step of permanently attaching the fastener tape to the backing film comprises disposing a layer of electrically insulating adhesive between the second broad surface of the fastener tape and the broad surface of the backing film to cause the layer of adhesive to electrically isolate the plurality of conductors from one another while permanently bonding the fastener tape to the backing film to envelop the plurality of conductors therebetween.
  - 12. The method of claim 10, wherein said step of permanently attaching the fastener tape to the backing film comprises heat welding along locations between said conductors.

13. A method of forming an electrical cable, the method comprising:
- introducing a strip of molten electrical insulation material into a gap formed adjacent a peripheral surface of a rotating roll;
  
  while introducing a continuous strip of loop material having hook-engageable fiber portion to the gap along the surface of the roll, under conditions selected to cause the loop material to become at least partially embedded in the electrical insulation material to permanently bond the loop material to the resin while leaving the hook-engageable fiber portions exposed for engagement; and
  
  introducing at least two longitudinally continuous and spaced apart electrical conductors to the gap so as to cause the insulating material to envelop and electrically isolate the conductors in the gap to form a multi-conductor electrical cable having engageable loops extending from an outer surface thereof.

14. A method of forming a flexible circuit board with integral hook fastener elements, the method comprising:
- introducing an elongated flexible circuit including a substrate and at least one electrically conductive path to a gap adjacent a peripheral surface of a mold roll, the mold roll having hook fastener element stem forming cavities extending inwardly from said peripheral surface, while simultaneously, introducing a thermoplastic resin into said gap directly adjacent said peripheral surface under temperature and pressure conditions causing said thermoplastic resin to at least partially fill said stem forming cavities and to permanently bond to said substrate; and
  
  stripping the permanently joined thermoplastic resin and substrate from said mold roll to expose said fastener element stems.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21)
- - 15. The method of claim 14, wherein said conductive path is electrically insulated within said substrate prior to being introduced to the gap.
  - 16. The method of claim 14, wherein a portion of said conductive path is exposed within the substrate for making an electrical connection with said conductive path.
  - 17. The method of claim 16, wherein said portion of said conductive path is exposed prior to entering the gap.
  - 18. The method of claim 16, wherein said portion of said conductive path is exposed by partial removal of the substrate after stripping the thermoplastic resin from the mold roll.
  - 19. The method of claim 14, wherein said conductive path is disposed on an exterior surface of said substrate prior to being introduced to the gap, said thermoplastic resin being of an electrically insulating material, said conductive path being enveloped by said thermoplastic resin and said substrate.
  - 20. The method of claim 14, wherein said conductive path is comprised of continuous strips of conductive material.
  - 21. The method of claim 14, wherein said conductive path is comprised of discontinuous strips of conductive material that are electrically joined by electrical components.

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Current Assignee
Velcro BVBA
Original Assignee
Velcro Industries BV (Chartwell Industries Ltd)
Inventors
Labrecque, Michel, DeMain, John, Gallant, Christopher M., Clarner, Mark A.
Primary Examiner(s)
ORTIZ, ANGELA Y

Application Number

US10/423,816
Publication Number

US 20040016565A1
Time in Patent Office

970 Days
Field of Search

264/166, 264/167, 264/171.13, 264/289.3, 264/272.14, 264/272.15, 264/272.17, 174/68.1, 174/250, 174/254, 174/72.R, 174/72.TR, 174/209, 174/DIG.33
US Class Current

264/167
CPC Class Codes

B29C 2043/465   having one or more cavities...

B29C 43/222   characterised by the shape ...

B29C 43/28   incorporating preformed par...

B29L 2031/729   Hook and loop-type fasteners

B60R 16/0207   Wire harnesses

B60R 16/0215   Protecting, fastening and r...

H01B 7/08   Flat or ribbon cables

H01B 7/40   with arrangements for facil...

H05K 1/0393   Flexible materials H05K1/03...

H05K 2201/09118   Moulded substrate

H05K 2201/209   Auto-mechanical connection ...

H05K 2203/0113   Female die used for pattern...

H05K 2203/0143   Using a roller; Specific sh...

H05K 2203/1545   Continuous processing, i.e....

H05K 3/0014   Shaping of the substrate, e...

H05K 3/0058   Laminating printed circuit ...

H05K 3/202   using self-supporting metal...

H05K 3/326   the printed circuit having ...

H05K 3/365   by abutting, i.e. without a...

Y10T 428/2933   Coated or with bond, impreg...

Securing electrical conductors

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

53 Citations

21 Claims

Specification

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Securing electrical conductors

First Claim

3 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

53 Citations

21 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links