In the process of mounting a joint terminal (5) into a first terminal accommodating portion (16) of a housing (15), tab terminals (6) of the joint terminal (5) move forward along tab entrance paths (26) formed in the housing (15). The tab entrance path (26) is formed with a cam portion (27) spiral about an axis thereof. As the tab terminal (6) moves forward in the tab entrance path (26), a follower portion (8) formed at an intermediate position of the tab terminal (6) is guided by the cam portion (27). Thus, the tab terminal (6) is twisted about an axis. In this way, resilient contact pieces (14) of female terminals (9A, 9B) face the tab terminals (6) in a plate surface direction of the tab terminals (6) and are connected to the tab terminals (6).

A dual row low profile high voltage connector, having a minimal height and meeting high voltage requirements and a method of assembling thereof, includes a male housing and a female housing, and further includes a terminal position assurance (TPA) device and a connector position assurance (CPA) device, the TPA device ensuring that a terminal, housed within the female housing, provides a secondary lock, so as to ensure that the terminal is secured or locked within the female housing. The CPA device assures that the male and female housings remain locked. The terminal is housed within the female housing to meet a minimal height requirement and having dual rows of terminals inserted therein the female. The TPA device and the CPA device function in pre-lock or full-lock positions. A method also improves clearance and creepage by allowing a clearance or electrical path to extend around an inserted TPA between terminals.

A contact carrier retains a crimp contact inserted therein at a central collar of the crimp contact in a particularly stable manner and at the same time absorb the highest possible plugging forces. The contact carrier has an insulating body and a retaining plate, which can be mounted thereon on the connection side. Furthermore, the contact carrier has at least one detent element, which, in the unassembled state, can assumed both a position locking the plug contact and a position releasing the plug contact. The detent element is part of the insulating body. The retaining plate also has at least one blocking element, which, in the assembled state, fixes the detent element in the position thereof locking the plug contact and thus prevents the transition of the detent element from the locking position into the releasing position.

A connector, including a plug terminal of a plug connected to a first electric signal line and inserted in a terminal hole of a plug body, a socket terminal of a socket connected to a second electric signal line and inserted in a terminal hole of a socket body, a plug holder of the plug, and a socket holder of the socket, where the plug holder and the socket holder are connected to each other, where the plug terminal is press fitted in and electrically connected to the socket terminal, where a position in an axial center direction is controlled by sandwiching one end portion of at least one of the plug terminal and the socket terminal between the body and a terminal holder made of an insulating material.

It is aimed to provide a connector capable of properly exhibiting functions of a detection piece. A connector is provided with a housing (10) including a cavity (16), a terminal fitting (40) to be inserted into the cavity (16) from behind and including a tubular box portion (41) having open front and rear surfaces, a tab (31) of a mating terminal fitting (30) being inserted into the box portion (41) from front, and a retainer (60) to be mounted into the housing (10) and including a detection piece (64) capable of coming into contact with a rear end of the box portion (41). The detection piece (64) includes a recess (73) for avoiding interference with the tab (31) passed through the box portion (41).

It is aimed to enable a functional member to be properly mounted on a housing. A connector includes terminal fittings (24) and a housing (10) into which the terminal fittings (24) are to be mounted. The housing (10) is formed with a lock arm (15) having a rear end part serving as an operating portion (18) for unlocking. The housing (10) includes a protecting portion (20) for covering the operating portion (18). The protecting portion (20) is formed with a receiving portion (23). A retainer (30) is mounted on a rear end part of the housing (10). The retainer (30) is formed with a fit-in portion (38) fittable to the receiving portion (23) when the retainer (30) is properly mounted on the housing (10).

By a simple configuration, contact members can be well retained with a housing in a mutually opposed state, and productivity can be improved. When the contact members in the mutually opposed state are to be attached to the housing, a contact retainer prepared by molding in advance is used by disposing the contact retainer in part of the contact opposed region. As a result, the contact members are stably retained in the mutually opposed state even in injection molding molds. Even in a case in which the contact members normally cannot be retained in the mutually opposed state in the injection molding molds, the housing and the contact members can be integrally molded by well retaining the contact members in the mutually opposed state by using the contact retainer and a contact retainer auxiliary and executing an injection molding process.

A connector includes a first housing, a second housing and a fitting assuring member. The second housing includes a first locking protrusion portion having a first slope. The fitting assuring member includes a first assuring locking portion that gets over the first locking protrusion portion to be thereby locked to the first locking protrusion portion when the first housing and the second housing are fitted to each other. The first assuring locking portion begins to slide on the first slope before completion of the fitting, and stays on the first slope until the completion of the fitting.

A joint connector is provided. The joint connector includes a housing, receptacle terminals configured to be inserted into the housing and a retainer configured to be slidably inserted into the housing and displace the receptacle terminals in an insertion direction to fix the position of the receptacle terminals. Accordingly, defects that include an insertion of the terminals during fastening of the retainer to the housing are detected and the receptacle terminals are compressed by the retainer. The shapes of a top surface and a bottom surface of the retainer are formed in an asymmetrical structure to prevent an inverse insertion of the retainer. Simultaneously, a quality problem due to delamination of the retainer is prevented.

A contact for an electrical connector comprises a body extending in a longitudinal direction. The body has a front surface. The front surface includes a first front section and a second front section. The second front section is offset with respect to the first front section in the longitudinal direction.