A connecting method includes: arranging the connection terminal such that a rear surface of a base portion in a flat plate shape of the connection terminal comes into contact with a front surface of the flexible substrate; with a rising portion of the connection terminal extending from the rear surface side of the base portion toward the base portion and a tip end bending portion of the connection terminal extending from a tip end of the rising portion in a direction inclined with respect to the rising portion, displacing the rising portion toward the base portion so that the tip end bending portion protrudes from a front surface of the base portion; and holding a part of the flexible substrate between a pressing portion formed at the rising portion and a pressed portion formed at the base portion, whereby the conductive portion of the flexible substrate is electrically connected to at least one of the pressing portion and the pressed portion.

An embedded electrical supply plug has a mounting base and a fastener connected to each other, wherein the mounting base is provided with a power taking contact assembly, a circuit board and a power supply connector that are electrically connected to each other, the mounting base is provided with a first fastening surface, and the fastener is provided with a second fastening surface opposite to the first fastening surface, the fastener and the mounting base are threadedly connected to adjust the distance between the first fastening surface and the second fastening surface. The electrical supply plug is applicable to support arms of different thickness by changing the connection mode, thereby improving the installation flexibility and application range of the electrical supply system.

A connector (10) comprises: an insulator having an insertion groove into and from which a connection object (60) is insertable and removable; an actuator configured to rotate between an unlock position in which the connection object (60) is insertable and removable and a lock position in which the actuator presses the connection object (60), with respect to the insulator; and a contact held by the insulator and configured to be in contact with the connection object (60), wherein the contact includes: a first contact portion configured to be in contact with the connection object (60); and a second elastic portion configured to engage with a cam portion formed in the actuator and bias the actuator toward the lock position, the actuator includes: an operation portion configured to be operated toward the unlock position; and a support portion protruding more in a direction opposite to the operation portion than the cam portion, and configured to be in contact with the connection object (60) inserted in the insertion groove in the unlock position of the actuator.

A connector according to various embodiments of the present disclosure comprises: a housing; an accommodation groove formed in one portion of the connector; a guide comprising a first guide firmed on the side surface of the accommodation groove and a second guide formed on the side surface of the accommodation groove to be spaced a certain distance from the first guide; and a first contact arranged between the first guide and the second guide, wherein the first contact comprises a first bending portion and a second bending portion. The guide is in contact with a header and guides the position of the header. A first point of the first bending portion is in contact with the header, and as the first bending portion is bent, the first bending portion applies the pressure to the header so that the header is fixed to the connector. A second point of the first bending portion may be in contact with a third point of the second bending portion. Other various embodiments are possible.

A connector assembly includes a connector and a flat cable. The connector includes a first terminal, a second terminal, a first body, a second body, a metal plate, a third body, and a shell. The first and second terminals electrically connect a first side and a second side of the flat cable respectively and are respectively contained in a first capacity slot and a first through-hole of the first body and in a second capacity slot and a second through-hole of the second body. The first and second bodies clamp the metal plate. The third body partly winds and fixes the first body and the second body, and protects a terminal conductive contact part of the flat cable connected by the first and second terminals to form the connector. The flat cable connects to the connector directly. There is no need for a fixed rigid printed circuit board.

An electrical connector includes an insulation body, a main plate, a side plate and a plurality of terminals. The insulation body has at least one aperture penetrating through an upper surface and a lower surface of the insulation body. The main plate is fastened in the insulation body. The side plate is fastened in the insulation body. The side plate is disposed to one side of the main plate. The main plate has a first corresponding side. The side plate has a second corresponding side. The second corresponding side is corresponding to the first corresponding side in the at least one aperture. The first corresponding side and the second corresponding side are exposed to an outside of the insulation body through the at least one aperture. The plurality of the terminals are mounted in the insulation body.

A board end connector and a connector assembly. The board end connector comprises a board end insulating body, a terminal module, and a housing. The board end insulating body comprises a board end plugging surface and a plugging slot. The plugging slot is disposed on the board end plugging surface and comprises two interference sidewalls which are oppositely disposed. The terminal module is disposed in the board end insulating body. The housing is disposed on one side of the board end insulating body. A plugging bump member is provided on one side of the housing. The plugging bump member is disposed in the plugging slot. An interfering bump is provided on at least one side of the plugging bump member. The interfering bump interferes with at least one of the two interference sidewalls to increase the holding force between the housing and the board end insulating body.

A board end connector and a connector assembly. The board end connector comprises a board end insulating body, a terminal module, and a housing. The board end insulating body comprises a board end plugging surface and a plugging slot. The plugging slot is disposed on the board end plugging surface and comprises two interference sidewalls which are oppositely disposed. The terminal module is disposed in the board end insulating body. The housing is disposed on one side of the board end insulating body. A plugging bump member is provided on one side of the housing. The plugging bump member is disposed in the plugging slot. An interfering bump is provided on at least one side of the plugging bump member. The interfering bump interferes with at least one of the two interference sidewalls to increase the holding force between the housing and the board end insulating body.

An electrical connection apparatus includes a cable connector, a PCB, and a fastened wall. The cable connector includes a connecting terminal and a plurality of first contacts. One part of each first contact is located in the connecting terminal, and the other part extends from the connecting terminal. The printed circuit board includes a substrate and a plurality of second contacts. The plurality of second contacts are located on a surface of the substrate. The fastened wall includes a plurality of sidewalls. The plurality of sidewalls are fastened to the substrate, and are located on at least two opposite sides of the plurality of second contacts. When the cable connector and the PCB are fitted, the cable connector and the fastened wall are detachably fastened, and the first contact and the second contact are in close contact.

The present disclosure provides an electrical connector. The electrical connector comprises an insulative housing and a plurality of terminals disposed in the insulative housing. The insulative housing comprises a top face, a bottom face opposite to the top face, and a plurality of side faces extending between the top face and the bottom face. A corner portion between at least two adjacent side faces of the side faces is formed as a chamfered surface. Such a configuration reduces the dimension of the electrical connector, enables a more compact arrangement of components on the electronic system, and enables the dimension of the electronic system to be reduced, such that the entire assembly, including the electrical connector and the electronic system, can be manufactured at a lower cost and can be more compact and more lightweight.