A crimp-connection structural body, a wire harness, a method of manufacturing a crimp-connection structural body, and a manufacturing device are provided. The crimp-connection structural body includes an insulated wire formed by covering a conductor by an insulating cover, and a crimp terminal having a crimp section allowing connection by crimp of a conductor exposed portion formed by exposing the conductor. The crimp section is formed of a closed-barrel-type crimp section, and a cross-sectional shape of the crimp section in a radial direction is formed into an approximately recessed cross-sectional shape having a crimp recessed portion formed by indenting by inclined portions inclined from positions spaced-apart from each other by a predetermined distance. The predetermined distance is set to 90% or less of an entire width of the crimp section. An opposedly facing angle made by the inclined portions is set to a value which ranges from 10° to 120° inclusive.

The invention relates to an electrical device (1, 20, 30) comprising a semi-conductive cross-linked layer (3, 4, 5, 21, 22, 23, 31, 32) produced from a polymer composition comprising: at least one polymer A comprising at least one epoxy function, and a cross-linking agent B comprising at least one reactive function that can react with the epoxy function of said polymer A in order to allow the cross-linking of said polymer A, characterised in that the polymer composition also comprises an electrically conductive filler having a specific surface area BET of at least 100 m2/g according to the ASTM standard D 6556.

The invention relates to an electrical device (1, 20, 30) comprising a semi-conductive cross-linked layer (3, 4, 5, 21, 22, 23, 31, 32) produced from a polymer composition comprising: at least one polymer A comprising at least one epoxy function, and a cross-linking agent B comprising at least one reactive function that can react with the epoxy function of said polymer A in order to allow the cross-linking of said polymer A, characterised in that the polymer composition also comprises an electrically conductive filler having a specific surface area BET of at least 100 m2/g according to the ASTM standard D 6556.

A cable assembly comprises a cable and a conductive member. The cable extends in a longitudinal direction. The cable has a first location and a second location in the longitudinal direction. The cable comprises a conductive portion and an outer cover. The outer cover covers the conductive portion. The conductive member is attached with the cable. The conductive member has a first portion, a second portion and a planar portion. The first portion is positioned at the first location in the longitudinal direction. The first portion is crimped to the outer cover. The second portion is positioned at the second location in the longitudinal direction. The second portion is crimped to the conductive portion. The planar portion extends from the first location to the second location in the longitudinal direction.

A module connector includes a first connection part and a second connection part that can be electrically conductively connected with the first connection part. The first connection part has a first attachment element and the second connection part has a second attachment element; the first attachment element can be inserted into the second attachment element. Each of the first connection part and the second connection part has a contact protection at a side facing the other connection part. The contact protection has an outer electrically insulating collar and an electrically insulating protection pin surrounded by the outer electrically insulating collar. At least one of the first connection part and the second connection part has a current bridge between the outer electrically insulating collar and the electrically insulating protection pin. The outer electrically insulating collar and the electrically insulating protection pin extend beyond the current bridge.

A tool has a pneumatic cylinder driving unit, a stationary portion, a movable portion, a loading portion, a first heating portion, and a second heating portion. The movable portion is movably connected to a first and second stationary shaft of the stationary portion, the movable portion is fixedly connected to the pneumatic cylinder driving unit by a movable shaft, the movable shaft is driven to slide axially with respect to the first and second stationary shaft by the pneumatic cylinder driving unit, the loading portion is movably connected to the second stationary shaft of the stationary portion and slides between a stationary portion body and a movable portion body, the loading portion rotates around the second stationary shaft.

A tool has a pneumatic cylinder driving unit, a stationary portion, a movable portion, a loading portion, a first heating portion, and a second heating portion. The movable portion is movably connected to a first and second stationary shaft of the stationary portion, the movable portion is fixedly connected to the pneumatic cylinder driving unit by a movable shaft, the movable shaft is driven to slide axially with respect to the first and second stationary shaft by the pneumatic cylinder driving unit, the loading portion is movably connected to the second stationary shaft of the stationary portion and slides between a stationary portion body and a movable portion body, the loading portion rotates around the second stationary shaft.

A terminal module is provided with a shielded cable including at least one coated wire, a conductive shield portion and a sheath portion for covering an outer periphery of the shield portion; an inner conductor to be connected to the coated wire, a terminal accommodating member made of resin for accommodating the inner conductor; a first outer conductor made of metal and including a tubular portion for accommodating the terminal accommodating member; and a second outer conductor made of metal and including a covering portion for covering a back end part of the tubular portion of the first outer conductor. A narrowing portion is provided in the back end part of the first outer conductor. The terminal accommodating member includes an escaping portion for avoiding interference with the narrowing portion in the process of accommodating the terminal accommodating member into the tubular portion.

A terminal of the present disclosure is to be connected to a mating terminal and includes a tube portion and a wire connecting portion provided on a rear end part of the tube portion. A resilient contact piece is provided inside the tube portion. The resilient contact piece presses the mating terminal inserted from front of the tube portion toward an inner wall of the tube portion. An upper inspection opening and a lower inspection opening are formed in side walls of the tube portion. The upper inspection opening is formed on an upper side. The lower inspection opening is formed on a lower side (other side). The resilient contact piece is partially exposed from the upper and lower inspection openings with an optical path of light entering from either one of the upper or lower inspection opening and coming out from the other secured.

A coaxial cable connector includes a connector body having a longitudinal axis passing through first and second opposed body ends, a connector center conductor for transporting a signal through the connector, and a coil spring that is coiled about the longitudinal axis. The second body end is for engaging a male coaxial cable connector, and the coil spring urges an electromagnetic shield to protrude from the second body end.