▎ 摘　　要

NOVELTY - The electrically insulated graphene conductor (1) has an electrically conductive conduction path (2) made of graphene or carbon nanotube, conduction tape, and conduction film. The conduction path is arranged continuously between two ends of the graphene conductor, and an electrically insulating insulation (3) made of boron nitride is connected to the conduction path via atomic or molecular or intermolecular forces. A transition area (4) is formed in the graphene conductor between the conduction path and electrically insulating insulation, and in which graphene or carbon nanotubes and boron nitride are present together in mixed arrangement. USE - Electrically insulated graphene conductor such as graphene fiber, graphene tape, and graphene film, arranged in electrical machine (claimed). ADVANTAGE - The conductor material and insulator are adapted to each other due to smooth transition in transition area in order to optimize heat conduction and to create material connection in sense of mutually penetrating substances. The good thermal coupling is ensured between electrically conductive conduction path and electrically insulating insulation. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for producing electrically insulated graphene conductor. DESCRIPTION OF DRAWING(S) - The drawings show schematic cross-sectional view of the electrically insulated graphene conductor. Electrically insulated graphene conductor (1) Electrically conductive conduction path (2) Electrically insulating insulation (3) Transition area (4) Base element (5)