FABRIC WITH ELECTRICAL COMPONENTS

• Main Authors: UESATO LIA M, ROBIN FRANCK, KEATING STEVEN J, BAUMANN MICHAEL, ROSENBERG ANDREW L, WALKER JOSEPH B, SUNSHINE DANIEL D, PODHAJNY DANIEL A, FISCHER HELEN WACHTER, WENDISCH BERTRAM, KINDLON DAVID M, BINDER FELIX, GRENA BENJAMIN J, SCHLAPFER ULRICH, CREWS KATHRYN P, LATTA MARTIN, HOEN STORRS T, CHATHAM KYLE L, GOMES DIDIO V
• Format: Patent
• Language: Chinese; English
• Published: 15.09.2020
• Subjects: BRAID; BRAIDING; BRAIDING MACHINES; BRAIDING OR MANUFACTURE OF LACE, INCLUDING BOBBIN-NET ORCARBONISED LACE; KNITTING; LACE; LACE-MAKING; LOOMS; METHODS OF WEAVING; NON-WOVEN FABRICS; TEXTILES; TRIMMINGS; WEAVING; WOVEN FABRICS

Interlacing equipment (120) may be used to form fabric (12) and to create a gap (66) in the fabric. The fabric may include one or more conductive strands (80c). An insertion tool (54) may be used to align an electrical component (26) with the conductive strands (80c) during interlacing operations. A soldering tool may be used to remove insulation from the conductive strands to expose conductive segments on the conductive strands. The soldering tool may be used to solder the conductive segments to the electrical component (26). The solder connections (82) may be located in grooves (50) in the electrical component. An encapsulation tool may dispense encapsulation material (260) in the grooves to encapsulate the solder connections. After the electrical component (26) is electrically connectedto the conductive strands (80c), the insertion tool (54) may position and release the electrical component in the gap. A component retention tool (220) may temporarily be used to retain the electrical component (26) in the g