A method and apparatus for securing an electrical connection formed by a mating structure including prongs of a male assembly and receptacles of a female assembly are provided. In certain embodiments, the electrical connection can be secured by frictional engagement between the plug and receptacle housings. This can be accomplished by forcing a wedge into an interface between the housings or expanding a locking element, such as an elastomeric ring, into the interface. Such locking and releasing of the secure connection can be actuated using a locking nut.

An enclosure assembly for isolating an electrical interface includes a cover plate adapted to frame the electrical interface or a box form having an open end leaving open access to the electrical interface, and a dome cover dimensionally and geometrically adapted to connect to the cover plate or box form via a pair of materially flexible, locking tabs having thicker interfacing edges and thinner tab bodies spaced-apart and aligning with a pair of connector through slots on the cover plate or box form, the cover dome lock able to the cover plate or box form.

The locking fastening device for two-part electrical connectors with axial coupling includes two male mistake-proofing mechanisms and two female mistake-proofing mechanisms included in the parts. The mistake-proofing mechanisms are positioned on both sides of the contacts of the two parts of the male and female electrical connector and respectively includes at least a protuberance and a bore axially cooperative to produce the fastening of the parts, during coupling.

An electromotive drive for motor vehicle applications. In particular, the electromotive drive is part of a locking device of an electric connection device for electric or hybrid motor vehicles. For this purpose, an electric motor and a multistage transmission which is arranged downstream of the electric motor are provided as drive elements for acting on an actuating element, and a drive housing which houses drive elements is also provided. The actuating element is a locking element of the locking device for example. The drive housing is equipped with inner and/or edge-side protrusions. The protrusions have direct bearing points for individual drive elements or all of the drive elements.

A retainer apparatus includes a post having a first end to be received by an opening of a wall plate cover of an outlet and a second end opposite the first end. At least a portion of the post has a plurality of grooves positioned between the first end and the second end. The plurality of grooves forming a retainer-receiving portion. A plug retainer is moveably coupled to the post. The plug retainer to slide along the retainer-receiving portion in a linear direction relative to the grooves when the plug retainer is moved relative to the retainer-receiving portion of the post.

An electrical wall plate may include one or more of the following features. A face plate comprising at least one electrical device opening extending through the face plate. At least one box mounting screw opening configured to receive at least one box mounting screw to fasten the face plate to an electrical device. A power connector extending in a direction away from the face plate and configured to connect with the electrical device. A camera integrated with the face plate and in electrical connection with the power connector and configured to operate by power obtained from the electrical device when the power connector is connected to the electrical device. A camera movement control feature may comprise externally-engageable components coupled to the face plate and configured to movably position the camera or a camera lens by pan or tilt to point in different directions.

A sealed cable feedthrough of a plug connector includes a housing having an opening receiving a cable, a cover partially covering the opening, the cover having a through hole receiving the cable along an insertion direction, and a seal member sealing an interface between the housing and the cover. The seal member has a tubular member with a through hole receiving the cable along the insertion direction. The tubular member is arranged within the through hole of the cover and extends along a direction parallel to the insertion direction. The tubular member seals an interface between the cover and the cable.

A retention clip includes a clip body having a retention portion configured to releasably engage and releasably secure a plug. The retention portion includes clips extending from the clip body. The clips are configured to engage and releasably secure the clip body to the plug. The clip body further includes at least one post extending from the clip body. The at least one post is configured to secure the clip body to a connector element of a support structure by coupling with the connector element.

A safety assembly having a cover plate for mounting to a pre-existing electrical receptacle and a safety housing for removably attaching to the cover plate. The safety housing is a unitary construction having a front end and a back-end wall with four side walls extending therebetween to provide an open interior, wherein the front end is substantially open and configured for securing to the cover plate. The cover plate has one or more pairs of slots positioned near an opening in the cover plate for exposing a socket of the electrical receptacle and the safety housing comprises one or more attachment mechanisms configured to removably engage with the one or more pairs of slots to removably couple the safety housing the cover plate.

The application comprises a mechanism for transformation of the movement in rotation by a tool of an interface part housed in the casing of a connector into movement in translation in a plane perpendicular to the coupling direction of a locking cap for locking the casing of the connector to that of a complementary connector.