An angled type connector assembly includes a receptacle connector mounted upon a printed circuit board and having an insulative housing with an oblique opening to receive a plug connector, and a bottom opening through which the mating pads on the printed circuit board is upwardly exposed. The plug connector includes two rows of contacts respectively mechanically and electrically connected to the corresponding two rows of wires. The plug connector forms an oblique mating end or interface relative to an extending direction of the plug, on which the contacting sections of the contacts are exposed to mate with the corresponding mating pads on the printed circuit board.

An electrical connector includes a non-conductive housing, electrical contacts and a flange. The non-conductive housing has spaced openings on a front face thereof configured to receive corresponding spaced members of an electrical plug. The electrical contacts include contact clips disposed in the spaced openings and configured to receive corresponding of the spaced members of the electrical plug, and contact members extending beyond the non-conductive housing and spaced independently of a spacing of the spaced members of the electrical plug to be received in the spaced openings. The flange has a predetermined shape, outlining the non-conductive housing and configured to be inserted in a correspondingly shaped standardized receptacle.

An electrical pin and sleeve device is disclosed. The pin and sleeve device incorporating one or more features to facilitate easier assembly and use. For example, the pin and sleeve device may include one or more alignment or keys between, for example, the electrical contacts and the thru holes for receiving the contacts formed in the device to prevent improper insertion of the contacts within the device. Additionally, and/or alternatively, one or more alignment or keys between components of the pin and sleeve device such as, for example, between the contact carrier and the body member to prevent improper coupling of the body member relative to the contact carrier or subsequent rotation thereof. Additionally, and/or alternatively, the pin and sleeve device may include one or more tapered or funneled surfaces for preventing wire splaying during insertion of the electrical strands into the contacts.

A plug fixing structure is applied to fixing a power plug inserted into a power socket of an electronic device. The power plug has a plug portion and a main body portion. A first engaging structure is formed on an outer periphery of the power socket. The plug fixing structure includes a sleeve casing jacketing the main body portion to expose the plug portion and a first resilient arm having a first arm portion and a first front hook. The first arm portion protrudes from an outer surface of the sleeve casing. The first front hook extends from the first arm portion toward the first engaging structure. The first front hook is engaged with the first engaging structure when the plug portion is inserted into the power socket along a first axis, so as to constrain movement of the power plug along the first axis relative to the power socket.

An electrical extension cord device having an electrical port at one end and an electrical connector at an opposite end. The electrical port can include a cap or cover removable connected to the electrical port having an electrical plug or receptacle. The cap or cover and the electrical port have cooperating sealing surfaces to ensure watertight or waterproof sealing when the cap or cover is installed “on” the electrical port to prevent water or moisture reaching the plug.

An electrical extension cord device having an electrical port at one end and an electrical connector at an opposite end. The electrical port can include a cap or cover removable connected to the electrical port having an electrical plug or receptacle. The cap or cover and the electrical port have cooperating sealing surfaces to ensure watertight or waterproof sealing when the cap or cover is installed “on” the electrical port to prevent water or moisture reaching the plug.

A self-locking plug includes a main body, a plug bush seat arranged in the main body for positioning a plug bush, at least one locking tab, and a linkage. The self-locking plug further includes a key mechanism arranged in the main body. The key mechanism includes a pressing portion and a driving portion which are respectively arranged at two ends of the key mechanism. The driving portion is associated with one end of the linkage, and is configured to drive the linkage to reciprocate in an axial direction of the main body to switch the locking tab between a releasing state and a locking state.

A high-current connector is provided, comprising an insulating body which has at least one contact carrier having at least one contact chamber, which has at least two through-openings on the plug-in side, and at least two electrically conductive plug-in contacts which are arranged parallel to one another in the contact chamber and each have a cable connection region at a first end and a plug-in region opposite at a second end, the plug-in regions of the plug-in contacts being guided through one of the through-openings each of the contact chamber. The high-current plug connector also has an electrically conductive connection element which is inserted into the contact chamber and which has at least two contact receptacles, into each of which one of the plug-in contacts is inserted interlockingly and frictionally by its plug-in region, and the at least two plug-in contacts are electrically conductively connected to one another by the connection element.

An insertion detection device for plug pins in a socket and a safety socket. A connecting rod trigger assembly of the insertion detection device forms a linkage structure with a first elastic conductive connector. When the connecting rod trigger assembly moves from the conduction section to the disconnection section, it can ensure that the first elastic conductive connector and the second conductive connector are disconnected. Even if the first elastic conductive connector is deformed due to prolonged insertion of plug, it can be separated from the second conductive connector by moving the connecting rod trigger assembly, and its internal circuit is always in disconnected state. At least three insertion detection devices of the safety socket correspond to two pins of live wire and neutral wire.

An AC power input socket includes a casing and at least two conductive pins. The casing comprises a connection side and an output side based on performance of the AC power input socket. The casing is provided with an accommodating groove at the connection side, each of the two conductive pins includes a power connection section located in the accommodating groove, an output section extending from the power connection section and passing through the casing to be exposed on the output side, and a capacitor connecting section extending from an end of the output section. Each of the conductive pins is provided with a through hole in the output section for disposing an electric wire, and the capacitor connecting section provides a capacitor pin to be connected thereon, so that the capacitor pin and the electric wire do not need to be disposed at a same hole position.