In a particular implementation, an electric power device includes a body, a receptacle configured to receive a plug, and a source connector configured to be coupled to a power source. The electric power device further includes a casing coupled to the body and movable with respect to the body between a first position in which the casing defines an enclosed chamber and access to the receptacle is inhibited and a second position in which the casing is configurable to enable access to the receptacle for receipt of the plug. A transition from the first position to the second position is configured to cause the receptacle to be electrically decoupled from the source connector when the casing is at the second position, and a transition from the second position to the first position is configured to cause the receptacle to be electrically coupled to the source connector when the casing is at the first position.

The present disclosure is directed to an internal conductor configured as a movable element, thereby providing a connector for preventing the occurrence of the breakdown or damage of a pin of a male connector.

A connector comprises a first connector and a second connector to be connected with the first connector. The first connector includes a first housing, a holding portion, and a stopper. The second connector includes a second housing, a held portion, and an engagement portion. At the waiting position, the first connector and the second connector are movable between positions in a wall contact state, at which the leading end of the second connector is in contact with the wall defining the receiving space of the first connector, and positions in a stopped state, at which the stopper of the first connector and the engagement portion of the second connector are in contact with each other.

A connector and a connection adapter capable of securely fixing a handheld terminal and its peripheral and at the same time form a communication path are provided. The connector connects a handheld terminal and a reader, and includes, a first connector to be placed on a back surface of the handheld terminal, and a second connector to be placed at the reader. The first connector and the second connector have a locking structure configured to slide relatively in a planar direction of the back surface of the handheld terminal for mutually locking, and terminals are configured to electrically connect after the sliding.

An electric connection plug (5, 5, 5) for an electric cable (3) for use with an electric terminal (20, 21, 20, 21) of a battery module (2, 2). The plug includes a conductive fitting (51, 51, 51) engaged with a rotatable wheel (56, 56, 56) for selectively rotating the fitting to threadingly mechanically and electrically connect to plug to the battery terminal. The cable mechanically and electrically connects to the plug allowing rotation of the wheel and fitting without rotation of the cable while threadingly engaging and disengaging the plug to the battery terminal.

Assembly comprising a first part and a second part movable relative to each other in translation along a connection axis between a locked configuration and an unlocked configuration. The first part comprises one of a rail and a groove, and the second part comprises the other, the rail being configured to slide axially in the groove. The assembly comprises a ring rotatably mounted on the first part about the connection axis, the ring comprising at least one pin. The second part defines a locking ramp, a first housing and an unlocking ramp. The assembly comprises a return system for exerting a return force on the ring to a position of rest. The locking ramp and the first housing are so designed that a manual movement causes a first sliding of the pin on the locking ramp, and an automatic movement of the ring angularly in one direction between the position of rest and a first intermediate position, then an automatic displacement of the ring angularly in the opposite direction from the first intermediate position to a locking position under the action of the return system, the pin being received in the first housing, the first housing defining a first axial stop designed to block the pin axially. The unlocking ramp is so designed that a manual movement of the rotating ring in said direction from the locking position releases the pin from the first housing and causes a second sliding of the pin on the unlocking ramp, the unlocking ramp reacting axially on the pin to move the first part and the second part away from each other from the locked configuration.

An electrical outlet has a female member with at least two electrically conductive contact sleeves for the reception of the pins on a plug inserted in the female member and a connector arrangement for connection of the electrical outlet to a mains supply. The female member is movable relative to the connector arrangement between a first mode, in which the contact sleeves are electrically disconnected from the mains supply, and a second mode, in which contact sleeves are electrically connected to a mains supply. The connector arrangement include a connection ring and a mounting plate. The connector arrangement further include connection plates, whose number corresponds to the number of contact sleeves on the female member, wherein each contact sleeve is brought in or out of contact with a connection plate by movement of the female member.

The present disclosure relates to a bayonet-type bundled RF connector assembly comprising: a male connector including a male connector body and a sleeve sleeved on the male connector body, wherein a first elastic member is provided in a gap between the male connector body and the sleeve, and the male connector body is provided with a plurality of first through holes; a plurality of unit male connectors for connecting a plurality of male connector cables, each unit male connector mounted in a respective first through hole; a plurality of second elastic members, each surrounding a respective one of the plurality of unit male connectors; and a female connector mated with the male connector, wherein the female connector includes a female connector body provided with a plurality of second through holes; and a plurality of unit female connectors for connecting a plurality of female connector cables, each of the unit female connectors mounted in a respective second through hole; wherein the sleeve of the male connector is connected to the female connector body of the female connector by a bayonet connection of a pin and a slot, and the first elastic member secures engagement between the pin and the slot, and each of the plurality of unit male connectors is urged into contact with a respective one of the plurality of unit female connectors by a second elastic member.

A welding power cable includes at least one welding power source, a welding torch, and a workpiece. The welding power cable is provided with an outer casing for protecting and insulating an electrically conductive cable, wherein the electrically conductive cable is situated within the casing. The end face of the welding power cable is provided with an electrically conductive contacting means for establishing an electrically conductive contact with the welding power source in particular, and a connection means for establishing a detachable mechanical connection, in particular between the welding power source and the welding power cable. This provides an option for connecting and disconnecting such a welding power cable to/from a welding power source in a quick and reliable manner while keeping the torsional stress on the welding power cable in the area of the connection to the welding power source.

A power inlet and connector interface useful to transfer power between a power source and a vehicle. In one form the vehicle includes a battery, such as a lithium-ion battery, capable of being charged with high powers. In some forms the battery can be charged with 1 MW, 2 MW, 3 MW and higher power transfers. The power inlet can include a door the coves a power receptacle useful to receive the connector, and a translatable carriage useful to define at least part of the power receptacle. In some forms a cover is included. The power receptacle can include a wall having a passage to permit the insertion of power connector pins, the wall moving with movement of the carriage. When the connector is inserted into the power receptacle, insertion of the pins can be made via relative movement of the pins on the vehicle side with passages in the connector.