An electrical plug device includes a connector housing pluggable with a mating housing, a connection aid engageable with the mating housing, a position assurance element held at the connector housing and displaceable from an open position to a securing position, and a blocking mechanism. The connection aid is movable from a plugging position to a holding position. The connector housing in the plugging position is connectable to the mating housing. The mating housing in the holding position is held at the connector housing. The connection aid in the open position is movable from the plugging position to the holding position and in the securing position is fixated in the holding position. The blocking mechanism blocks the position assurance element in the open position and has a release element with which the blocking mechanism is released in a state of the connector housing and the mating housing being plugged together.

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.

A plug includes: a housing with a plurality of electrical plug contacts that electrically contact complementary plug contacts of a plugging module in a completely plugged-on position; and a slider movably attached to the housing, including first and second gear rack segments, and configured to engage with the plugging module such that, in response to a movement of the slider relative to the housing, a force is transmitted by the slider to the plugging module by which the plug and plugging module move towards each other or away from each other. A lever is rotationally mounted to the housing so that, responsive to a movement of the lever in one direction, the gear meshes with the first gear rack segment moving the slider in a first movement direction, and subsequently meshes with the second gear rack segment moving the slider in a second opposite movement direction.

An assembly for attaching and detaching an electronics module from a base includes a feedback assembly that provides an operator with tactile feedback on the relative positioning of the module with the base during attachment or detachment of the module to or from the base. The feedback assembly includes cams on the electronics module and a follower attached to an end of a spring arm on the base. The spring arm forms a portion of a wall that guides movement of the module along the base during attachment or detachment of the module.

A connector includes a first-housing, a second-housing, a shroud, and a stacked-gear. The stacked-gear is moveably mounted to the first-housing. The stacked-gear engages a first-gear-rack on the second-housing and a second-gear-rack on the shroud. The second-housing is mated with the first-housing when the shroud is moved along a mating-axis of the connector. The stacked-gear engages at least two teeth on the first-gear-rack and on the second-gear-rack when the second-housing is mated with the first-housing. A rotation of the stacked-gear is greater than ninety degrees when the shroud is moved from an unmated-position to a mated-position. The stacked-gear initially engages a first-side of a first-tooth of the first-gear-rack when the first-housing receives the second-housing. A uniform mating-force is maintained as the shroud is moved from an unmated-position to a mated-position. A mechanical advantage to produce the mating-force is increased as the shroud is moved from an unmated-position to a mated-position.

A connector comprising a housing and a lever. The connector is mateable with and removable from a mating connector along a first direction by operation of the lever. The housing has an inner portion, an outer portion, at least one coupling portion, a pivot, a first portion and a second portion. The housing has a lever accommodating portion between the outer portion and the inner portion in a second direction perpendicular to the first direction. The lever accommodating portion partially accommodates the lever. The pivot is positioned inside the lever accommodating portion. The pivot supports the lever so that the lever is rotatable. The at least one coupling portion has a bridge portion which is elastically deformable. The bridge portion is sandwiched between the first portion and the second portion in a plane perpendicular to the second direction.

A connector includes a first-housing, a second-housing, a shroud, and a stacked-gear. The stacked-gear is moveably mounted to the first-housing. The stacked-gear engages a first-gear-rack on the second-housing and a second-gear-rack on the shroud. The second-housing is mated with the first-housing when the shroud is moved along a mating-axis of the connector. The stacked-gear engages at least two teeth on the first-gear-rack and on the second-gear-rack when the second-housing is mated with the first-housing. A rotation of the stacked-gear is greater than ninety degrees when the shroud is moved from an unmated-position to a mated-position. The stacked-gear initially engages a first-side of a first-tooth of the first-gear-rack when the first-housing receives the second-housing. A uniform mating-force is maintained as the shroud is moved from an unmated-position to a mated-position. A mechanical advantage to produce the mating-force is increased as the shroud is moved from an unmated-position to a mated-position.

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.

An electrical connector includes a connector housing configured to receive a corresponding mating connector, a cable guide cover attached to the connector housing, and a mate assist system for assisting in mating to the corresponding mating connector. The mate assist system includes a lever moveable to assembly, open, and closed positions. The lever includes gear means connected with a slider in the connector housing. The lever moves the slider to a first, second, and third position. The lever is releasable and attachable to the connector housing only in the assembly position. The cable guide cover is attachable to the connector housing only when the lever is in the closed position. The slider has a releasing means cooperating with a releasing means of the corresponding mating connector to unblock the slider while mating and enabling movement of the lever to the closed position, thereby moving the slider to the third position.

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.