An inspection apparatus for inspecting a cable end of a cable, with and without a connected crimp contact, includes a mirror apparatus with a central axis along which the cable end can be arranged for checking the cable end. The mirror apparatus includes a plurality of mirror elements arranged at a predetermined angle to each other and arranged at a predetermined angle to the central axis, each mirror element having a mirror arranged along the central axis for viewing the cable end from a different viewpoint. The inspection apparatus includes a camera for generating images of the cable end from the different viewing angles of the mirrors. At least a portion of each of the mirror elements is held in a respective position in the mirror apparatus by magnets.

An integrated photovoltaic cable having a connecting terminal and a housing injection-molded on the connecting terminal. The connecting terminal has a connecting sheet, a through hole, and a plurality of U-shape groove sheets. Exposed conductors obtained by peeling front ends of the photovoltaic cable are respectively placed into corresponding U-shape groove sheets and crimped by a crimping plier. A manufacturing method for manufacturing the integrated photovoltaic cable includes three steps of manufacturing a connecting terminal, crimping photovoltaic wires, and injection molding a housing. An improvement of the cable connecting structure simplifies the production, improves the connecting quality, and reduces a volume of an adapter. The conductor end and the U-shape groove are firmly and conveniently connected to ensure the connection quality, reduce a contact resistance of a connecting wire, and cause a smaller volume of the adapter.

A wire cutter apparatus includes a first rotatable wire guiding tube for receiving the leading end of a wire. The first tube has a wire entrance and a wire exit and is rotatable around the wire entrance whereby the wire exit is movable between a first wire exit position coinciding with a longitudinal feeding axis and a second wire exit position spaced away from the longitudinal feeding axis. The apparatus includes a similar, second rotatable wire guiding tube. A first crimping press receives the leading end of the wire when the wire exit is in the second wire exit position. The first crimping press and the second crimping press are both at least partially located between the longitudinal feeding axis and a first side wall.

A device for assembling an electrical plan connector on a first cable end and/or on a second cable end of an electrical cable having one or more inner conductors. The device has at least two independent processing modules for processing the electrical cable. The device also has a common transport unit for transporting the electrical cable between at least two of the processing modules along a transport direction.

A device for assembling an electrical plan connector on a first cable end and/or on a second cable end of an electrical cable having one or more inner conductors. The device has at least two independent processing modules for processing the electrical cable. The device also has a common transport unit for transporting the electrical cable between at least two of the processing modules along a transport direction.

An integrated photovoltaic cable having a connecting terminal and a housing injection-molded on the connecting terminal. The connecting terminal has a connecting sheet, a through hole, and a plurality of U-shape groove sheets. Exposed conductors obtained by peeling front ends of the photovoltaic cable are respectively placed into corresponding U-shape groove sheets and crimped by a crimping plier. A manufacturing method for manufacturing the integrated photovoltaic cable includes three steps of manufacturing a connecting terminal, crimping photovoltaic wires, and injection molding a housing. An improvement of the cable connecting structure simplifies the production, improves the connecting quality, and reduces a volume of an adapter. The conductor end and the U-shape groove are firmly and conveniently connected to ensure the connection quality, reduce a contact resistance of a connecting wire, and cause a smaller volume of the adapter.

An integrated photovoltaic cable having a connecting terminal and a housing injection-molded on the connecting terminal. The connecting terminal has a connecting sheet, a through hole, and a plurality of U-shape groove sheets. Exposed conductors obtained by peeling front ends of the photovoltaic cable are respectively placed into corresponding U-shape groove sheets and crimped by a crimping plier. A manufacturing method for manufacturing the integrated photovoltaic cable includes three steps of manufacturing a connecting terminal, crimping photovoltaic wires, and injection molding a housing. An improvement of the cable connecting structure simplifies the production, improves the connecting quality, and reduces a volume of an adapter. The conductor end and the U-shape groove are firmly and conveniently connected to ensure the connection quality, reduce a contact resistance of a connecting wire, and cause a smaller volume of the adapter.

A machine includes a first feeding station feeding at least one electrical wire, and a crimping station having at least one crimping tool. The machine further includes an insulation displacement connection (IDC) connection station, and a movable holding and transfer device having at least one actuator. The holding and transfer device receives an electrical wire from the first feeding station and transfers one or both ends of a first wire from the feeding station to one or both of the crimping station and the IDC connection station.

A machine includes a first feeding station feeding at least one electrical wire, and a crimping station having at least one crimping tool. The machine further includes an insulation displacement connection (IDC) connection station, and a movable holding and transfer device having at least one actuator. The holding and transfer device receives an electrical wire from the first feeding station and transfers one or both ends of a first wire from the feeding station to one or both of the crimping station and the IDC connection station.

A female connector structure is provided with a shielded cable configured such that an outer periphery of a coated wire including a core and an insulation coating is surrounded by a braided wire, a female terminal including a wire barrel to be connected to the core and a connecting tube portion and to be connected to a mating terminal, an insulating dielectric for surrounding an outer periphery of the connecting tube portion of the female terminal, a rear outer conductor including a shield connecting portion to be electrically connected to the braided wire and a dielectric crimping portion to be crimped to at least a part of the dielectric from outside, and a front outer conductor including a front tube portion for surrounding an outer periphery of the dielectric and a rear outer conductor locking portion for locking at least a part of the dielectric crimping portion from outside.