A connector device comprises a connector and a mating connector. The connector comprises a housing formed with an axis portion and holding a power terminal and a detection terminal. The mating connector comprises a mating housing formed with a mating axis portion and holding a mating power terminal and a mating detection terminal. When the axis portion and the mating axis portion are combined, the connector is turnable from an opened position to a closed position via a predetermined position. When the connector is located at the opened position, the power terminal and the detection terminal are unconnected to the mating power terminal and the mating detection terminal, respectively. When the connector is turned to the predetermined position, the power terminal is connected to the mating power terminal. When the connector is turned to the closed position, the detection terminal is connected to the mating detection terminal.

A manual service disconnect for the in-vehicle electric current, which has a switch seat, a safety plug assembly, and a protection cover. The switch seat has a seat portion and a plug holder. The plug holder is provided with multiple power legs. The seat portion is hollow inside and has a plug port and a wire opening. The plug holder is disposed in the seat portion and faces the plug port. The power legs project from the wire opening. The safety plug assembly has a plug portion matching the seat portion and a plug head disposed on the plug portion. The protection cover is disposed on the seat portion and covers the wire opening to cover the power legs for protection.

The present disclosure provides a connector assembly. The connector assembly includes a connector housing adapted to engage with a corresponding counter-connector housing. A lever including a first lever arm and a second lever arm is pivotably and sealingly mounted to the connector housing. Each lever arm includes interlocking means for connecting the first lever arm to the second lever arm at a first location. The interlocking means of each of the first lever arm and the second lever arm are configured to define complementary symmetrical surfaces that interlock with one another when the lever arms are pivotably mounted to the connector housing. On mounting the lever arms to the connector housing, the lever is configured to move about the connector housing between an open state and a closed state to secure the counter-connector housing to the connector housing.

A connector has a housing configured to mate with a second housing, a pair of slide members movably mounted on the housing, and a lever pivotably attached to the housing and slidably coupled to the slide members. Each slide member has a cam groove in a side surface which provides an angled lead-in surface into the cam groove and cam surfaces engageable with a cam follower post of the second housing. A blocking shoulder partially blocking an opening of the cam groove to prevent entry of the cam follower post unless the cam follower post is in a correct position. When the cam follower post engages the angled lead-in surface, this provides a visual and tactile indication to a user that the connector is ready to be mated with the second housing.

A lever-type connector includes a first and second connector housing, and a lever rotatably provided on the first connector housing and which can fit or separate the first and second connector housing by a rotating operation. A flexible lock arm is provided on the first connector housing. A free end side of the lock arm includes a locking part whose rear end side is capable of locking so as to be hooked to the rear end part of a locking protrusion of the lever, and a release operation part capable of releasing a locking state of the rear end part of the locking protrusion and the rear end side of the locking part. The locking part and the release operation part are provided adjacent to each other. The release operation part is positioned below the lever at a time of locking between the locking part and the locking protrusion.

This lever-type connector comprises a first part forming a base and a second part mobile in relation to the base, the first and second parts inwardly receiving first and second contact assemblies facing one another, male and female respectfully, each provided at one end with conductors to be connected, and a cam mechanism able to move the mobile part between contact disconnection and connection positions. The cam mechanism includes a lever shaped so as to be circumscribed inside the main cross-section of the connector.

A high voltage connector is disclosed. The high voltage connector principally consists of a housing body, a shielding case, a plurality of L-shaped conductive terminals, two L-shaped signal terminals, and a seal ring. The housing body is provided with a terminal accommodating body therein, and the shielding case is embedded in the housing body for covering the terminal accommodating body. Particularly, four guide slots are formed on a lateral side of the terminal accommodating body, four prop blocks are respectively formed in the four guide slots, and the shielding case is designed to have four prop members. In case of the shielding case being disposed to cover the terminal accommodating body, the four prop members slide in the four guide slots, and then are consequently stopped by the four prop blocks, thereby being fixed in the housing body.

This service plug (1) has a connection terminal part (49), and the connection terminal part (49) has a pair of terminals (8) and an interlinking part (9) that is tailored to the spacing between the terminals (8) and joins the terminals (8) together. By removing the connection terminal part (49) from a power-supply circuit, the power-supply circuit is interrupted. The interlinking part (9) includes one or more thin interlinking plates (20) that are removably attached to the connection terminal part (49).

A lever (40) is formed with resilient arms (48) cantilevered in a direction substantially perpendicular to rotary shafts (15) of the lever (40) and intersecting with a circumferential direction about the rotary shafts (15), and locking projections (49) projecting from extending end parts of the resilient arm pieces (48) and configured to hold the lever (40) at an initial position by entering locking holes (20) and being locked. The locking hole (20) is formed with a locking edge part (21) located on a surface of a housing (10) facing the lever (40) and configured to lock the locking projection (49) and a recess (23) formed by recessing an inner surface part on a deeper side than the locking edge part (21), and the locking projection (49) is formed with a hooking portion (53) configured to enter the recess (23) while being locked to the locking edge part (21).

A connector includes a first housing, a second housing, a mate assist slider, and a cam gear. The first-housing has a first outer surface. The second housing is configured to mate with the first housing, and the second housing includes a pin extending from a second outer surface. The connector also includes a mate assist slider moveable from an unmated position to a mated position. The connector also includes a cam gear mounted to the first outer surface. The cam gear moves in response to a movement of the mate-assist-slider from the unmated position to the mated position. The cam gear has a cam slot with an inertial detent. A vibratory feedback is provided to an assembler indicative of a properly positioned connector housing when the pin is moved past the inertial detent.