In an open position, a power-supply terminal and a detection terminal are not connected to a mating power-supply terminal and a mating detection terminal, respectively. In a predetermined position, the power-supply terminal is connected to the mating power-supply terminal while the detection terminal is not connected to the mating detection terminal. In a closed position, the power-supply terminal and the detection terminal are connected to the mating power-supply terminal and the mating detection terminal, respectively. When the connector is turned toward the predetermined position from the closed position, a first regulating portion regulates a first regulated portion to prevent the connector from reaching the predetermined position. When the connector is turned toward the predetermined position after the regulation is released, a second regulating portion regulates a second regulated portion to prevent the connector from being turned toward the open position beyond the predetermined position.

A curved surface display device and a curved surface display method, which belong to the field of display technology. The curved display device comprises a display panel, a motor, a first arc lever and a second arc lever. A first end of the first arc lever and the second arc lever are connected with the motor through a connector, and a second end of the first arc lever and second arc lever are connected with the casing of the device. The connector is used for pulling the first end of the first arc lever and the first end of the second arc lever with rotation of the motor, such that the first arc lever and the second arc lever rotate around their pivots respectively, thus realizing automatic bending of the casing, which meets the user's requirement of adjusting the curvature of the curved surface display device.

An electrical connector includes an insulating body having at least one terminal slot, and at least one terminal received in the terminal slot. The terminal slot is provided with a first inner wall and a second inner wall. The terminal has a fixing portion. The fixing portion is sequentially provided with a bonding section and a thinned section. A thickness of the thinned section is smaller than that of the bonding section. The bonding section forms interference fit with the second inner wall. The thinned section forms interference fit with the first inner wall, and extends to the second inner wall. In a direction perpendicular to the second inner wall, a gap exists between the thinned section and the second inner wall.

A power distribution unit (PDU) includes a housing, a power input extended from the housing, and at least one electrical receptacle removably attached to the housing and configured to be electrically connected to the power input. The at least one electrical receptacle can include a base surface and an inner core extended from the base surface. The inner core can include an outer surface configured to mate with a first connector type. An outer wall can be positioned around the inner core, the outer wall including an inner surface configured to receive a connector type. The outer wall can include a first end and a second end each positioned on a common side. A locking mechanism can be extended between the first and second ends, the locking mechanism including a locking catch arm configured to pivot and engage with a shoulder of an electrical plug.

An electrical connector includes an insulating body having at least one terminal slot, and at least one terminal received in the terminal slot. The terminal slot is provided with a first inner wall and a second inner wall. The terminal has a fixing portion. The fixing portion is sequentially provided with a bonding section and a thinned section. A thickness of the thinned section is smaller than that of the bonding section. The bonding section forms interference fit with the second inner wall. The thinned section forms interference fit with the first inner wall, and extends to the second inner wall. In a direction perpendicular to the second inner wall, a gap exists between the thinned section and the second inner wall.

A cable holder includes a holder body and cable-holding portions that couple with one or more cables. The cable-holding portions hold portions of two or more cables in a predetermined spacing and arrangement with respect to one another.

A connector system is described herein. The connector system includes cam lever devices to assist the mating of the connector bodies of the connector system to one another. The handles of the cam lever devices are movable from an extended position that provides increased leverage to a retracted position that can be used to stow the handles after the connector bodies of the connector system have been successfully mated. A method of assembling such a connector system is also described herein.

An electrical connector assembly, comprises a first connector, and a second connector mounted onto the first connector, a frame surrounding the connectors, a locking member, an actuator, a first lever assemble the locking member to the frame, and a second lever assemble the actuator to the frame. The locking member locks the second lever, a user must firstly press the first lever to make the locking member release the second lever, and next press the second lever to bring the actuator rotate, and then the actuator upwardly push the second connector to apart the second connector from the first connector.

A connector structure (100) for a flexible light strip (10) includes a cable joint (110) and an insulation body (200). The cable joint (110) includes a housing (120) and a plurality of conductive terminals (130) assembled in the housing (120). Each of the conductive terminals (130) includes a piercing portion (150). The insulation body (200) has a first end (210) and a second end (220) communicating with the first end (210). The flexible light strip (10) is inserted into the first end (210), and the housing (120) is inserted into the second end (220). The piercing portion (150) is parallel to the flexible light strip (10) and correspondingly pierces the flexible light trip (10) to be electrically coupled to the same. Therefore, the connector structure (100) achieves fast assembly and improves efficiency and reliability for connection.

The general field of the invention is that of the locking and extraction devices for an electrical connector in an electronic casing, said electronic casing comprising the electrical socket corresponding to said electrical connector, the connection and the extraction of the electrical connector being performed in a determined direction, parallel to the electrical contacts of the electrical connector. The connector according to the invention is mounted in a mechanical assembly comprising at least one shoulder. The electronic casing comprises a mechanical structure comprising at least one mobile gripping jaw arranged so as to grasp the shoulder of the connector and to impart thereon a translational movement in said determined direction, thus facilitating the connection or the extraction of said electrical connector in its electrical socket.