The present disclosure relates to the technical field of electronic device accessories, more particularly to a connector, a data wire and an electronic device. The connector includes a first electrical connecting structure including a connecting base and an adapter board disposed thereon, and a second electrical connecting structure including a fixing base and a conductive member that are rotatably connected. The fixing base forms a clamping groove for the adapter board to be inserted into, and the conductive member is fixed in the fixing base and exposed from the clamping groove. The connecting base further includes a splint which includes portions respectively disposed on both sides of the adapter board in the thickness direction thereof, and is disposed on the outer side of the fixing base, so that the outer side thereof is the structure of the fixing base and the splint in sequence.

The present disclosure relates to the technical field of electronic device accessories, more particularly to a connector, a data wire and an electronic device. The connector includes a first electrical connecting structure including a connecting base and an adapter board disposed thereon, and a second electrical connecting structure including a fixing base and a conductive member that are rotatably connected. The fixing base forms a clamping groove for the adapter board to be inserted into, and the conductive member is fixed in the fixing base and exposed from the clamping groove. The connecting base further includes a splint which includes portions respectively disposed on both sides of the adapter board in the thickness direction thereof, and is disposed on the outer side of the fixing base, so that the outer side thereof is the structure of the fixing base and the splint in sequence.

The present disclosure provides A tower socket, comprising a top cover, a housing, a base and a power line, two ends of the housing are respectively connected to the top cover and the base, the tower socket further comprises a rotating shaft, a rotating wheel and a conductive sheet, the rotating wheel is located in the base, and one end of the rotating shaft is connected to the top cover; the other end is connected to the rotating wheel, and a hole is provided on the base; the power line passes through the hole and can be wound on the rotating wheel; the power cord is electrically connected to a plurality of terminal on the rotating wheel, the rotation of the top cover can drive the rotating shaft to rotate the rotating wheel; the conductive sheet comprises a plurality of annular ring members, and the plurality of terminals are respectively in contact with the corresponding annular ring members, and are rotatable relative to an annular ring member of the conductive sheet; The part of the top cover of the present disclosure can rotate relative to the housing and the base, the rotating shaft drives the rotating wheel to rotate, and the power line of the tower socket connected to the rotating wheel is wound on the rotating wheel, so that the power wire is retracted into the base through the hole of the base, thereby avoiding the problem that the power line of the appliance inserted into the tower socket wound around the housing or the base, and it is also convenient to move the tower socket.

A power connection assembly includes a housing, a plug, and a first and a second conductive member. The housing has a first opening. The plug is disposed in the housing, and includes a first rotating base, and a first and a second electrode terminal. The first rotating base is movably fitted into the first opening. The first and the second electrode terminal penetrate through the first rotating base to form a first and a second contact portion. The first conductive member includes a first clamping portion that includes two second elastic sheets. Each second elastic sheet has a first and a second elastic segment. The first elastic segment is L-shaped, and the second elastic segment is cylindrical. The second elastic segments of the two second elastic sheets are configured to clamp the first electrode terminal, so that the first electrode terminal electrically contacts the first conductive member.

A connector includes a housing configured to accommodate a connection terminal, a shutter that is rotatably provided in the housing and is configured to open and close a front opening of the housing, a rotation arm that is rotatably supported to the housing about a rotation axis and has an arm portion and a connection engagement portion, and a connection member that is provided so as to be rotatable together with the shutter and includes a first lever portion that is pressed and rotated by a tip end of the connection engagement portion. A pressing force of the mating connector acts on the arm portion so as to rotate the rotation arm, and thus the shutter is rotated together with the connection member rotated by the connection engagement portion so as to open the front opening.

A connector includes a housing configured to accommodate a connection terminal, a shutter that is rotatably provided in the housing and is configured to open and close a front opening of the housing, a rotation arm that is rotatably supported to the housing about a rotation axis and has an arm portion and a connection engagement portion, and a connection member that is provided so as to be rotatable together with the shutter and includes a first lever portion that is pressed and rotated by a tip end of the connection engagement portion. A pressing force of the mating connector acts on the arm portion so as to rotate the rotation arm, and thus the shutter is rotated together with the connection member rotated by the connection engagement portion so as to open the front opening.

Embodiments relate to a charging dock which allows a mobile robot to self-dock for charging more efficiently and reliably. The charging dock has a pivoting face including a disk fashioned with charging connection points. When a robot encounters the dock, the pivoting face is able to pivot to ensure the charging disk can align with corresponding charging pickup points within the robot's charging receptor. The pivoting face improves efficiency and reliability of the robot's docking procedures.

Embodiments relate to a charging dock which allows a mobile robot to self-dock for charging more efficiently and reliably. The charging dock has a pivoting face including a disk fashioned with charging connection points. When a robot encounters the dock, the pivoting face is able to pivot to ensure the charging disk can align with corresponding charging pickup points within the robot's charging receptor. The pivoting face improves efficiency and reliability of the robot's docking procedures.

A power supply connector has a first part and a second part that are connected to each other such that they can turn relative each other within a predefined and/or restricted turning angle. The first part includes a first set of plurality of conductors and the second part includes a corresponding second set of plurality of conductors, wherein the pairs of conductors are electrically connected by electrical connections including a connection tip on one of the first and the second part and a contact surface on the other one, wherein the electrical connections are provided in at least one circular shape around a turn axis of the power supply connector The turning angle between the first part and the second part is limited to the shortest angular extension of the contact surfaces and the contact surfaces are distributed such that the pair of conductors are permanently electrically connected.

A power supply connector has a first part and a second part that are connected to each other such that they can turn relative each other within a predefined and/or restricted turning angle. The first part includes a first set of plurality of conductors and the second part includes a corresponding second set of plurality of conductors, wherein the pairs of conductors are electrically connected by electrical connections including a connection tip on one of the first and the second part and a contact surface on the other one, wherein the electrical connections are provided in at least one circular shape around a turn axis of the power supply connector The turning angle between the first part and the second part is limited to the shortest angular extension of the contact surfaces and the contact surfaces are distributed such that the pair of conductors are permanently electrically connected.