A connector has a detector (11) is provided in a housing (10) for movement in a front-rear direction, and can move from a standby position to a detection position when the housing (10) is connected properly to a mating housing (90). The detector (11) includes two side walls (53) arranged to face each other in a width direction with a lock arm (15) provided on the housing (10) therebetween. A detecting body (42) is assembled with the lock arm (15) between the side walls (53) and can tilt together with the lock arm (15). Couplings (59) have tilting fulcrums (66) configured to resiliently deform when the detecting body (42) is tilted. The couplings (59) extend in oblique directions intersecting the width direction from the side walls (53) to corresponding side surfaces of the detecting body (42).

A connector includes a cable tray configured to receive and retain a cable in a stable position and couple with a top cap configured to create an electrical connection with the cable as the top cap is manipulated in a predetermined manner while coupled with the cable tray. An upper surface of the cable tray is configured to receive the cable (e.g., while the cable is generally parallel with the longitudinal axis of the cable tray). The cable tray also includes a finger extending beyond the first end for some distance longitudinally. The finger includes a protrusion that protrudes to some extent in a transverse direction so that a cable-accommodating gap is defined between the protrusion and the first end. The protrusion is configured to bear against the cable and retain the cable in the stable position when the cable is inserted between the protrusion and the first end (before, during and/or after an electrical connection is established).

A coaxial connector includes: a first joint and a second joint, a locking flange arranged at one end portion of the second joint; and a quick locking and separating mechanism that includes: a locking member fixedly arranged on a first end portion of the first joint and provided with a depression for accommodating the locking flange of the second joint; and a sliding sleeve arranged around the first joint and being slidable between a locking position in which the sliding sleeve locks the locking flange of the second joint in the depression of the locking member so as to connect the first joint and the second joint and an unlocking position in which the sliding sleeve allows the locking flange of the second joint to disengage from the depression of the locking member so as to allow the first joint to be separated from the second joint.

A power module may be attached to and detached from a network extender. The power module may include one or more power connectors that are specific to one or more countries/regions. The power module may include one or more other interfaces (e.g., Ethernet port, etc.). The power module may include a power connector and a male local area network connector on a first surface. The power module may include a local area network port on a second surface, wherein the local area network port is conductively connected to the male local area network connector via a local area network port access.

An electronic equipment includes a device and a cable. The device includes a casing, a fixing element, a sealing element, an electronic element and a first connecting portion. The fixing element is disposed inside the casing and includes a first snapping portion. The sealing element is sandwiched between the casing and the fixing element. The first connecting portion connects the electronic element located inside the casing. The cable includes a second connecting portion, a wiring portion and a body connected between the second connecting portion and the wiring portion. The body penetrates through an opening of the casing and an opening of the sealing element. The body has a second snapping portion and a pressing zone. When the second snapping portion snaps with the first snapping portion, the second connecting portion connects the first connecting portion, and the sealing element presses against the pressing zone.

An elbow connector receives a cable assembly having a lug with a lug aperture. The elbow connector includes a receiving cavity for the lug and a fastener assembly. The fastener assembly has a latch, a spring, and a fastener. The fastener moves toward the lug. The latch has a bumper for engaging the lug and an obstruction element for engaging the fastener. The latch pivots between (i) a blocking position in which the obstruction element inhibits a certain movement of the fastener, and (ii) a non-blocking position in which the obstruction element is free of the fastener allowing the fastener to be fastened to the lug via the lug aperture. The latch is biased toward the blocking position by the spring and transitions to the non-blocking position in response to the lug moving the bumper to a position at which the lug aperture is aligned with the fastener.

The present application discloses a tool-free mounting structure for a fan connector. The mounting structure includes a fan frame and a fan connector, the fan connector including a male connector and a female connector, a front side wall of the fan frame being provided with a first avoiding hole, and a front end of the female connector extending to a front side of the fan frame through the first avoiding hole. A rear end of the female connector is provided with a limiting structure, the female connector is provided with a first limiting column, the front side wall of the fan frame is sandwiched between the first limiting column and the limiting structure, and the front side wall of the fan frame is provided with a second avoiding hole configured to allow the first limiting column to pass through.

A driver for driving a light engine of a luminaire is provided. The driver comprises a driver assembly with a driver circuit for converting an input current provided by a power supply into an output current for driving the light engine, a housing for receiving the driver assembly, and a driver interface being detachably engageable with a driver bracket. The driver interface comprises a mechanical interface for mechanically coupling the driver to a mechanical interface of the driver bracket and an electrical interface for electrically coupling the driver to an electrical interface of the driver bracket in such a way that the input current from the power supply to the driver circuit and the output current from the driver circuit to the light engine can flow via the driver interface. Further, a driver bracket and a luminaire are provided.

An apparatus for mounting an object having one or more electrical contacts within a vehicle, the object. The apparatus comprises a base configured to receive the object, the base comprising a mounting surface and a docking surface. A docking connector is coupled to the docking surface and is configured to electrically connect with the one or more electrical contacts of the object. The docking connector is movable relative to the docking surface between a first position and a second position. When the docking connector is electrically connected with the one or more electrical contacts of the object, a second main surface of the object is positioned obliquely relative to the mounting surface in the first position of the docking connector and the second main surface of the object is aligned in contact with the mounting surface in the second position of the docking connector.

A connector includes a connector body, terminals installed in the connector body, and lock devices fit to the connector body. The connector body includes mating guide parts that are formed on both ends of the connector body in a longitudinal direction and are fit in mating-connector-side mating guide parts formed on both ends of a mating connector body of a mating connector in the longitudinal direction. The lock devices include sliders attached to the mating guide parts to be slidable in the longitudinal direction of the connector body. The sliders each include a pair of right and left locking protrusions. When the connector body is mated with the mating connector body, the locking protrusions engage with mating reinforcement brackets installed on the mating connector body.