To provide a connector assembly and a fitting connector capable of improving workability of insertion and removal.

In the wafer connector according to one embodiment, in a case where the first wafer connector is stacked with the second wafer connector including the second flexible arm, when the first flexible arm moves between the latch engagement position and the latch disengagement position in a state where the first engaging portion of the first wafer connector is engaged with the engaging portion of the second wafer connector, the second flexible arm also moves between the latch engagement position and the latch disengagement position.

A conductor assembly structure for a rail-type terminal device includes a conductor assembly and an insulating housing. The conductor assembly structure can reduce manufacturing waste and has a larger contact surface and a better electric conduction effect. The conductor assembly has a base portion that can be pivotally connected with a conductive connector, and a first area and a second area connected to the base portion. The first area and the second area are respectively formed with a bowed portion and a first section and a second section connected to the bowed portion to be snapped onto a grounding mounting rail. At least one of the first area and the second area is provided with a load arm and an elastic member connected to the load arm for increasing the elastic fixing effect (force) of the first section and/or the second section on the grounding mounting rail.

A conductor assembly structure for a rail-type terminal device includes a conductor assembly and an insulating housing. The conductor assembly structure can reduce manufacturing waste and has a larger contact surface and a better electric conduction effect. The conductor assembly has a base portion that can be pivotally connected with a conductive connector, and a first area and a second area connected to the base portion. The first area and the second area are respectively formed with a bowed portion and a first section and a second section connected to the bowed portion to be snapped onto a grounding mounting rail. At least one of the first area and the second area is provided with a load arm and an elastic member connected to the load arm for increasing the elastic fixing effect (force) of the first section and/or the second section on the grounding mounting rail.

A connector includes a housing and a terminal held by the housing and having a mounting part adapted to be mounted on a connecting member. The housing has a recess part in which a for-connection portion of the connecting member is housed and held and a protrusion protruding higher than the thickness of the for-connection portion and defining the recess part. The protrusion is located only at a peripheral edge portion of the housing.

A first connector has first rear engagement parts exposed toward the rear of the first connector, along with first front engagement parts exposed towards the front of the first connector. A second connector has second rear engagement parts and second front engagement parts. In the mating state between the first connector and the second connector, the second rear engagement parts are disposed on the rear side of the first rear engagement parts so as to engage with the first rear engagement parts, while the second front engagement parts are disposed on the front side of the first front engagement parts so as to engage with the first front engagement parts.

A first connector has first rear engagement parts exposed toward the rear of the first connector, along with first front engagement parts exposed towards the front of the first connector. A second connector has second rear engagement parts and second front engagement parts. In the mating state between the first connector and the second connector, the second rear engagement parts are disposed on the rear side of the first rear engagement parts so as to engage with the first rear engagement parts, while the second front engagement parts are disposed on the front side of the first front engagement parts so as to engage with the first front engagement parts.

A male housing (12) includes a housing body (23) with a fitting space (28) that accommodates tabs (20) of male terminal fittings (11). An accommodation space (29) is rearward of the fitting space (28) and accommodates a sealing plug (17). An outer peripheral portion (24) of the male housing (12) defines an outer periphery of the accommodation space (29). An inner surface of the outer peripheral portion (24) closely contacts the sealing plug (17), and plate locks (44) project into the fitting space (28). A moving plate (14) to be locked by the plate locks (44) is arranged in the fitting space (28). The male housing (12) includes communication spaces (35) between the housing body (23) and the outer peripheral portion (24) and behind the plate locks (44). The communication spaces (35) allow communication between the fitting space (28) and the accommodation space (29).

A magnetic adapter for a cable connector includes a main body having an opening, a compression surface exposed within the opening and configured to compress a biasing retention clip of the cable connector, at least one locking surface configured to secure the biasing retention clip in a second non-locking position; and at least one magnet adjacent the opening. When the biasing retention clip is positioned within the opening, the compression surface causes the biasing retention clip to move from a first locking position where the retention clip is in a fully biased position to the second non-locking position where the retention clip is compressed.

An electrical connector with biased latch and method. The electrical connector has a housing and a latch which extends from the housing. The latch has a latching region and a biasing region. The latching region has a latching projection with a reference surface. The biasing region has a biasing member. The cooperation of the biasing member with a mating electrical connector and the reference surface with the mating electrical connector prevents the unwanted movement of the electrical connector relative to the mating electrical connector.

An electrical connector with biased latch and method. The electrical connector has a housing and a latch which extends from the housing. The latch has a latching region and a biasing region. The latching region has a latching projection with a reference surface. The biasing region has a biasing member. The cooperation of the biasing member with a mating electrical connector and the reference surface with the mating electrical connector prevents the unwanted movement of the electrical connector relative to the mating electrical connector.