A backshell housing includes a pair of housing parts including a first housing part and a second housing part friction welded to one another. A cable passage of the first housing part is continuous with a cable passage of the second housing part.

A connector (F) includes a housing (10), terminal fittings (72) fixed to front end parts of wires (71) and inserted into the housing (10) from behind and a slack holding portion (43) formed on the housing (10) and configured to hold the wires (71) drawn out backward from the housing (10) in a slackened state. If the wire (71) vibrates behind the housing (10), the wire (71) held in the slackened state by the slack holding portion (43) is resiliently deformed to change a curvature thereof near the housing (10). Vibration energy of the wire (71) is attenuated by the wire (71) itself being resiliently deformed.

A connector (F) includes an inner housing (11) configured to accommodate terminal fittings (72). An outer housing (37) is separate from the inner housing (11) and is configured to surround the inner housing (11). A lock arm (17) is formed on an outer surface of the inner housing (11) and is configured to lock the inner housing (11) and a mating housing (80) in a connected state by being locked to the mating housing (80). Protecting portions (45, 46) are formed on the outer housing (37) and are arranged near a lock releasing portion (22) of the lock arm (17).

A connector (F) includes a housing (10), and terminal accommodating chambers (13) are formed in the housing (10). Terminal fittings (72) are fixed individually fixed to front end parts of the wires (71) and are inserted into the respective terminal accommodating chambers (13) from behind. Rubber plugs (61) are fit externally on the front end parts of the wires (71) and are configured to seal clearances between outer peripheries of the wires (71) and inner peripheries of the terminal accommodating chambers (13). Vibration damping rings (64) are formed on rear end parts of the rubber plugs (61). Vibration damping rings adjacent to each other are held resiliently held in contact with each other.

A connector for receiving a ribbon cable is provided. The connector includes a housing including an open top, a cable organizer, and a cover. The cable organizer is configured to be positioned within an interior of the housing and configured to receive the ribbon cable upon an upper surface thereof. The cover is configured to selectively cover the open top of the housing to enclose the cable organizer within the interior of the housing. The cover is coupled to the housing and includes a latch configured to engage the housing and the cable organizer and move in a both vertical direction relative to the housing and rotate relative to the housing.

A connector assembly with rounded edges, in which an end of a female connector is formed in a round shape and a guide groove having an inner dimension receiving a wire is formed at an end portion to guide the wire to be curved to correspond to the round shape at a wire harness inlet end and guide the curved wire to be received in the guide groove, thereby guiding reduction of tension of the curved wire and prevention of interference with an external structure.

A terminal of the present disclosure is the terminal to be connected to a wire including a core and includes a terminal body and a sliding portion. The terminal body includes a sandwiching portion. The sliding portion is slidable in a front-rear direction between a partial locking position and a full locking position. The sliding portion includes a pressurizing portion configured to press the sandwiching portion at the full locking position to sandwich the core in a first direction by the sandwiching portion, at least a pair of first contact portions configured to contact the core in the first direction when the core is inserted into the sliding portion, and at least a pair of second contact portions configured to contact the core in a second direction intersecting the first direction when the core is inserted into the sliding portion.

A joint connector includes the plurality of wires extending in an extending direction, a plurality of terminals to be respectively connected to front end parts of the plurality of wires in the extending direction, a lower housing for accommodating the plurality of terminals, a busbar to be disposed in the lower housing, and an upper cover to be assembled with the lower housing. The busbar includes a plurality of tabs. Each of the plurality of terminals includes a tube portion, into which each of the plurality of tabs is inserted, and a wire connecting portion to be connected to each of the plurality of wires. The plurality of wires drawn out rearward in the extending direction from the lower housing include bent portions folded forward in the extending direction. The upper cover includes wire pressing portions for holding the plurality of wires folded forward in the extending direction.

A joint connector 10 to be connected to wires 11 includes a lower housing 30 and an upper cover 60. The lower housing 30 accommodates terminals 12 to be respectively connected to front end parts in an extending direction of the wires 11. The upper cover 60 is assembled to close an upper surface of the lower housing 30. The lower housing 30 or the upper cover 60 includes a lower guide portion 36 or an upper guide portion 69 for bending the wires 11 by contacting the wires 11 with the lower housing 30 and the upper cover 60 assembled.

A connector comprises a locator configured to position a cable. The locator has a front-end surface, a first surface and a second surface and is formed with a positioning groove. The first surface and the second surface are located at opposite sides of the locator, respectively, in the upper-lower direction (Z-direction). The positioning groove has a front groove, a rear groove and a coupling groove. The front groove is recessed rearward from the front-end surface and extends from the first surface to the coupling groove along the upper-lower direction. The rear groove is recessed from the second surface along the upper-lower direction and extends rearward from the coupling groove. When the locator positions the cable, the front groove receives a front regulated portion of the cable, and the rear groove receives a rear regulated portion of the cable.