An assembled electrical connector has a base having a terminal stage formed on a top thereof, an upper cap, a first conductive terminal mounted in a center of the terminal stage, and a second conductive terminal externally assembled on the base. The second conductive terminal is a ring sheet, surrounds the terminal stage, and is electrically isolated from the first conductive terminal via the terminal stage. The upper cap is tubular and is connected on the top of the base. The second conductive terminal abuts against an internal surface of the upper cap. Because the second conductive terminal is externally assembled on the terminal stage of the base and is not combined with the base via insert molding, the second conductive terminal does not need to use a machining product.

An electric vehicle has a charging flap module. The electric vehicle includes a body having a body interior, which has a body element having an outer skin. The body element has an element opening, in which a charging cradle of the charging flap module is arranged. The charging cradle is designed to be fixed to the body and to incorporate a charging flap. The charging flap is designed to be movable in a guided manner between an open position and a closed position for opening and closing a cradle opening of the charging cradle. For guiding the charging flap, the charging cradle includes at least one guide rail, which is arranged in the charging flap module integrated into the housing so that it is protected against penetrating dirt and/or water.

A charging port housing for selectively connecting a charging cable provided for charging an electrically drivable motor vehicle including a lower shell which can be positioned at a charging opening of a motor vehicle body. The lower shell includes a socket opening for receiving a plug socket for the charging cable, and an upper shell fastened to the lower shell. The upper shell includes a through-opening for passing the charging cable to the plug socket, wherein at least one drain opening bounded by both the lower shell and the upper shell is provided for the gravity-driven drainage of liquid. Configuring the drain opening as a recess between the shells of the charging port housing makes it possible to cost-effectively implement a water drainage of splash water entering via the through-opening, and thus enable a cost-effective protection of electrical components of a motor vehicle against dust and splash water.

An outer conductor of a coaxial connector includes a main body and a first connection part connected to an end of the main body. The first connection part is cylindrical and has a partition slit extending in an axial direction. A protrusion is formed on an inner side of a distal end of the first connection part and is electrically connectable with a mating outer conductor inserted into the first connection part. An outer diameter of the first connection part is smaller than an outer diameter of the main body. An inner diameter of a portion of the first connection part other than the protrusion is constant.

A waterproof connector comprises a terminal, a housing and a seal member. The housing is provided with an attachment portion. When the attachment portion is viewed along a front-rear direction, the attachment portion has an outer circumferential shape including first sides and first coupling portions. The seal member is formed of elastic material and is attached to the attachment portion. When the seal member is viewed along the front-rear direction, the seal member has a closed-ring shape including second sides and second coupling portions. The second sides correspond to the first sides, respectively. The second sides include at least one specific second side. L.sub.1 > L.sub.2, where L.sub.2 is a length of each of the second sides in a state before the seal member is attached to the attachment portion, and L.sub.1 is a length of the corresponding first side.

The seal spring of the present invention has a dual functionality. The seal spring provides both a sealing property and spring function in use within an electrical connector system, which is accomplished by its elastomeric qualities, The seal spring is preferably comprised of Silicone, EPDM rubber or materials and compositions that provide similar performance during use, or the like. The seal spring of the present invention is not limited or defined into a spring section or a seal section by its geometry. Shown is an implementation of the seal spring within a conductive female housing and connector assembly. The seal spring compresses and provides adequate spring force against a disk ferrule assembly, pressing the disk ferrule assembly, with a wire shield, against a conductive female outer housing, providing a grounding scheme for the connector assembly. The seal spring also seals against the female outer housing and a wire.

A device for the sealed closing of an opening for one or more elongate parts to pass through includes a sealing and/or clamping element with at least two interacting first and second parts that are axially displaceable relative to one another, and a pressure contour acting axially onto the sealing and/or clamping element. A first axial displacement of the pressure contour and an axial displacement of the at least one second part relative to the at least one first part causes a first change in geometry of the at least one first part transversely to the displacement direction. Also, a further axial displacement of the pressure contour causes a further change in geometry of the at least one first part transversely to the displacement direction such that the opening is sealed around the one or more elongate parts passing therethrough.

A bridge element (3) for establishing an electrical connection and at least one mechanical connection between an actuator (1) and a bridge element (3) for a transmission control unit of a transmission includes first electrical contacts (5a, 6a) and second electrical contacts (5b, 6b), which are connected to the first electrical contacts (5a, 6a) with electrical conductors (5, 6), and at least first mechanical connecting elements (7, 8) proximate the first electrical contacts (5a, 6a).

A wire harness includes a connector and a grommet. The connector includes an inner member having an annular plate-shaped flange. The inner member includes a first divided inner part, a second divided inner part, a deformable hinge that connects one end of the first divided inner part and one end of the second divided inner part to each other, and a lock portion that is formed on a fitting portion between the other end of the first divided inner part and the other end of the second divided inner part. The lock portion is formed on a portion where the other end of the first divided inner part and the other end of the second divided inner part are fitted to each other by sliding movement in accordance with a twisting of the hinge about a first axis.

A textile interconnection system for a textile substrate. The textile substrate may include at least one conductive fibre configured to transmit at least one of a power or data signal. The textile interconnection system includes a textile receptacle projecting from the textile substrate to define a cavity for receiving a controller device. The textile interconnection system includes a textile docking device received within the textile receptacle and coupled to the at least one conductive fibre of the textile substrate to electrically interconnect the received controller device and the textile substrate. The textile interconnection system includes a housing coupled to the textile docking device and received within the textile receptacle to mechanically interconnect the received controller device and the textile substrate.