Disclosed is a fast self-adaptive rotary plug-in underwater force-bearing connector, which comprises a plug part and a socket part, wherein the plug part comprises a plug housing, a pin arranged in the plug housing, and a push-pull sleeve, a rotary sleeve, a front retaining ring, a ratchet lock nut and a rear retaining ring arranged outside the plug housing; the socket part comprises a socket housing and a jack arranged in the socket housing; the pin and the jack cooperate to connect the plug part and the socket part. The fast self-adaptive rotary plug-in underwater force-bearing connector of the present application can work under the working condition of a large tensile force and has a high reliability.

Disclosed is a fast self-adaptive rotary plug-in underwater force-bearing connector, which comprises a plug part and a socket part, wherein the plug part comprises a plug housing, a pin arranged in the plug housing, and a push-pull sleeve, a rotary sleeve, a front retaining ring, a ratchet lock nut and a rear retaining ring arranged outside the plug housing; the socket part comprises a socket housing and a jack arranged in the socket housing; the pin and the jack cooperate to connect the plug part and the socket part. The fast self-adaptive rotary plug-in underwater force-bearing connector of the present application can work under the working condition of a large tensile force and has a high reliability.

An extendable electrical outlet enclosure with a tubular main body, a bezel, a cap, at least one extension tube, and a back plate. The tubular main body has a first end, a second end, and a wall extending between the first end and second end. The tubular main body also has an electrical device support that extends inward from the wall and defines a separation between an electrical plug section and a wiring section. The bezel surrounds an opening in the main body at the first end and allows the cap to removably mount to the electrical enclosure. The at least one extension tube attaches to the tubular main body at the second end and has a leading end, a trailing end, and an outer wall extending between the leading end and the trailing end. The back plate couples with the at least one extension tube at the trailing end.

An extendable electrical outlet enclosure with a tubular main body, a bezel, a cap, at least one extension tube, and a back plate. The tubular main body has a first end, a second end, and a wall extending between the first end and second end. The tubular main body also has an electrical device support that extends inward from the wall and defines a separation between an electrical plug section and a wiring section. The bezel surrounds an opening in the main body at the first end and allows the cap to removably mount to the electrical enclosure. The at least one extension tube attaches to the tubular main body at the second end and has a leading end, a trailing end, and an outer wall extending between the leading end and the trailing end. The back plate couples with the at least one extension tube at the trailing end.

A plug adapter includes a housing, a conductive terminal assembly and a phase detection module. The conductive terminal assembly and the phase detection module are installed in the housing. The conductive terminal assembly includes a live conductive member, a neutral conductive member, and an earth conductive member. The live conductive member is integrally formed with a live conductive socket and a live conductive pin. The neutral conductive member is integrally formed with a neutral conductive socket and a neutral conductive pin. The earth conductive member is integrally formed with an earth conductive socket and an earth conductive pin. The plug adapter is not easy to burn out due to overheating.

A connector includes a terminal-equipped electric wire having a terminal connected to an end portion of an electric wire, housing to accommodate the terminal and to hold the terminal-equipped electric wire and a heat transfer member having elasticity. The housing includes a first housing having a terminal accommodating portion, and a second housing to hold the terminal-equipped electric wire. The second housing includes a resin holder to be mounted on an electric wire connection portion of the terminal and the end portion of the electric wire, and a metal holder to be externally mounted on the resin holder. The heat transfer member is disposed in a compressed and deformed state between an outer circumferential surface of at least: one of the electric wire connection portion of the terminal and the end portion of the electric wire and an inner circumferential surface of the second housing.

The present disclosure provides an adapter assembly. Portion of the main body of the plug adapter is penetrated through the opening and exposed to the exterior of the accommodation space. Each protrusion is penetrated through the concave and exposed to the exterior of the accommodation space. Each protrusion exposed to the exterior of the accommodation space is connected with the position-limiting portion through the rotation of the plug adapter. Each fastening element is plugged into the first hole and the second hole. The plug adapter is fastened to the casing through the fastening element and the connection between the protrusion and the position-limiting portion. The adapter assembly includes two impact bearing points. One is formed by the fastening element, and the other is formed by the connection between the protrusion and the position-limiting portion. The stability and the waterproof capability of the adapter assembly are enhanced.

The present disclosure provides an adapter assembly. Portion of the main body of the plug adapter is penetrated through the opening and exposed to the exterior of the accommodation space. Each protrusion is penetrated through the concave and exposed to the exterior of the accommodation space. Each protrusion exposed to the exterior of the accommodation space is connected with the position-limiting portion through the rotation of the plug adapter. Each fastening element is plugged into the first hole and the second hole. The plug adapter is fastened to the casing through the fastening element and the connection between the protrusion and the position-limiting portion. The adapter assembly includes two impact bearing points. One is formed by the fastening element, and the other is formed by the connection between the protrusion and the position-limiting portion. The stability and the waterproof capability of the adapter assembly are enhanced.

An electrical connector is provided. The electrical connector capable of electromagnetic interference (EMI) shielding may include a female connector including a female portion in which a plurality of terminals are disposed; a male connector including a male portion including a plurality of pins electrically connected with the terminals; and a shielding member disposed between the female connector and the male connector, wherein the male portion includes an inner surface forming a space in which the pins are positioned and an end surface connected to the inner surface, the shielding member is formed of a conductive elastic body, a portion of the shielding member is disposed between the inner surface of the male portion and an outer surface of the female portion so as to be in contact with the inner surface of the male portion and the outer surface of the female portion.

A medical imaging device connector assembly for connecting a medical imaging device to a terminal of a medical imaging system is provided. The medical imaging device connector assembly includes a top housing having a first base cutout; a bottom housing configured to couple to the top housing, the bottom housing including a second base cutout; a base housing positioned within the first and second base cutouts; a plurality of printed circuit boards (PCBs) disposed between the top housing and the bottom housing; an electrical connector positioned within the base housing; and an elastic seal member surrounding a circumference of the base housing. When the top housing is coupled to the bottom housing, the elastic seal member is compressed by the plurality of PCBs in a first direction and by the top and bottom housings in a second direction perpendicular to the first direction to prevent fluid ingress.