A plug connector comprises a first plug, a second plug, and a securing device configured to mechanically secure the first plug to the second plug. The second plug has a receptacle with a ramp surface and a locking surface. The securing device has a lever pivotably mounted on the first plug. The lever pivotably bears a connecting element which has a securing cam on a free end of the connecting element. The receptacle of the second plug receives the securing cam and the ramp surface of the receptacle cooperates with the free end of the connecting element to forcibly guide the securing cam behind the locking surface of the receptacle when the first plug and the second plug are plugged together.

An ROV, diver, or stab, wet mateable connector plug front end housing includes a housing front section; a locator mount section; and a seal section axially in series with one another. The housing front section includes a plug coarse alignment feature on an outer surface of the housing front section, adjacent to a front surface of the housing front section and radially outward of a central axis of the housing. There is a circumferential groove on the outer surface of the housing front section, axially displaced from and rearward of the coarse alignment feature, the groove being adapted to receive a latch of a wet-mateable connector receptacle front end housing. The plug coarse alignment feature includes a bullnose feature. A plug fine alignment feature is formed in the outer surface of the housing front section, aligned with and located radially outward of the central axis of the housing.

A dry mate cable connection includes a data cable. The data cable includes a plurality of electrical conductors and at least one electrically insulating outer layer surrounding each data conductor, whereby the data conductors are electrically insulated from one another. The cable includes a termination end. The outer layer of each conductor is physically in contact with an outer layer of an adjacent conductor, except at the termination end. The plurality of electrical conductors at the termination end are physically separated from one another by a single electrically insulating overmoulded cable termination housing. The housing is in contact with at least part of the electrically insulating layers of each of the electrical conductors.

An electrical connector includes a connector housing and a U-shaped lever, comprising a crossbar and two sidebars extending from the ends of the crossbar. A pair of first gear wheel elements. Each one of the first gear wheel elements is integrally formed at respective ends of the sidebars and are rotatable around a pair of first rotation pins extends to the outside from opposing outer side walls of the connector housing. The first gear wheel elements each comprise a first set of gear teeth for meshing with a teethed rack of a counter electrical connector. The first gear wheel elements each comprise a second set of gear teeth for meshing with second gear wheel elements.

An electrical connector comprises a contact-carrying body having a plurality of electrical terminals, a slide member slidably mounted within the contact-carrying body and having a rack, an upper body mounted to the contact-carrying body, and a lever pivotally mounted on the upper body. The lever has a toothed wheel engaging the rack; movement of the lever between an inoperative position and an operative position moves the slide member between a retracted position and an advanced position. The lever has arms and a handle. Each arm of the lever has a telescoping structure including a first arm portion and a second arm portion slidably mounted to the first arm portion and connected to the handle. A movable portion including the second arm portion of each arm and the handle is movable with respect to each of the first arm portions between an elongated lever position and a shortened lever position.

A plug connector inserted in or extracted from a receptacle connector includes a casing and a lever member attached to the casing. The lever member has a fulcrum part supported pivotably to the casing, an engaging part that is located closer to the receptacle connector than the fulcrum part in an insertion-extraction direction and that can engage with an engaged part of the receptacle connector, and an operating part that is located on the opposite side from the receptacle connector with respect to the fulcrum part in the insertion-extraction direction and that, when pressed, can release the engaging part from engagement with the engaged part.

A plug connector pluggable together with a counter connector includes a connector housing having a guiding member and a lever device. The lever device has a lever transferrable from a plug position to a securing position, a coupling that is movable by the lever to engage the counter connector, and a lever extension attached to the lever and extendable and/or retractable with respect to the lever. A swivel movement of the lever out of the securing position is blocked by the lever extension retracted with respect to the lever. The guiding member blocks a shifting of the lever extension if the lever is moved out of the plug position and is not in the securing position.

An unlocking structure for a pluggable module (1XA) which mainly comprises a push/pull handle (11A), an unlocking plate (12), a casing (13, 14), and a part incorporating a motion block piece (15X). Pushing the push/pull handle (11A) moves the unlocking plate (12) toward the rear end of the casing (13, 14) to unlock the module, and then pulling the push/pull handle (11A) allows the module to be removed; in the unlocked state, the unlocking plate (12) can be reset by means of rotating the push/pull handle (11A). This unlock and reset operation provides a complete operation mechanism for the module, as not only is it able to plug in and unplug the module with cable attached, but also able to conveniently operate a reset in situ, while maximally avoiding misoperations and accidents, and the related operations being simple and easy.

An electrical connector comprises a contact-carrying body having a plurality of electrical terminals, a slide member slidably mounted within the contact-carrying body and having a rack, an upper body mounted to the contact-carrying body, and a lever pivotally mounted on the upper body. The lever has a toothed wheel engaging the rack; movement of the lever between an inoperative position and an operative position moves the slide member between a retracted position and an advanced position. The lever has arms and a handle. Each arm of the lever has a telescoping structure including a first arm portion and a second arm portion slidably mounted to the first arm portion and connected to the handle. A movable portion including the second arm portion of each arm and the handle is movable with respect to each of the first arm portions between an elongated lever position and a shortened lever position.

A lever-type connector has a male housing (10) including a bottom wall (11) formed with through hole (23, 24) and a receptacle (12) extending forward from an outer periphery of the bottom wall (11). A female housing (30) is capable of fitting into the receptacle (12). A lever (33) is mounted on the female housing (30) and connects the male and female housings (10, 30) by being rotated from an initial position to a connection position. An arm (36) of the lever (33) is between an outer surface of the female housing (30) and an inner surface of the receptacle (12). First and second closing portions (40, 41) are on the arm (36) and are configured to close a clearance between an upper opening (13) of the receptacle (12) and the lever (33) by being above the through holes (23, 24) with the lever (33) at the connection position.