The invention discloses an electrical connection terminal comprising a substrate, wherein an edge of the front end of the substrate is extended and folded to form an elastic piece, a convex contact is formed on the elastic piece, and an external connection part is formed at the rear end of the substrate. The invention further discloses a male-female matching type electrical connector using the electrical connection terminal, wherein at least one of two terminals to be connected is the electrical connection terminal. The structure is simple, elasticity is high, contacts are in close contact, electrical connection is more reliable, and production and assembly of products using the electrical connection terminal are facilitated.

Disclosed is a busbar tapping clamp (10) comprising a clamping member (16) that can be attached to a busbar (12) like a G-clamp, and sprung means (34) for bringing a conductor (32), which extends to the busbar tapping clamp (10), into electroconductive contact with the clamping member (16).

A connection terminal for connecting at least one electrical conductor includes: a housing; a first connection space formed in the housing; a second connection space formed in the housing; a first busbar piece arranged in the first connection space; a second busbar piece arranged in the second connection space; a first torsion spring which is arranged in the first connection space and has a clamping limb and a retaining limb; and a second torsion spring which is arranged in the second connection space and has a clamping limb and a retaining limb. The first connection space and the second connection space adjoin one another. The first torsion spring is arranged in the first connection space and the second torsion spring is arranged in the second connection space such that the retaining limb of the first torsion spring is supported by the retaining limb of the second torsion spring.

An electronics housing includes: a housing body; and a printed circuit board. The housing body has a connecting device for connecting a conductor, in particular a shield conductor, of a cable to the printed circuit board. The connecting device has a receiving body in which a receiving space with an opening for the conductor is formed. A cover for the opening is provided and is movable between an open position, in which the cover opens the opening for inserting an uninsulated conductor section of the conductor into the receiving space, and a closed position, in which the cover closes the opening at least in sections. The receiving body of the connecting device is disposed such that the printed circuit board is arrangeable with at least one contact section in the receiving space, and, in a closed position, the cover presses the uninsulated conductor section.

A conductive terminal includes a support frame defining a receiving space, a pair of first clamping arms arranged in the receiving space, and a pair of second clamping arms arranged in the receiving space. A pair of first clamping portions are disposed at a pair of ends of the first clamping arms. The first clamping portions are adapted to clamp a conductor of a wire inserted in a first insertion direction and electrically connect the wire with the conductive terminal. A pair of second clamping portions are disposed at a pair of ends of the second clamping arms. The second clamping portions are adapted to clamp the conductor of the wire inserted in a second insertion direction different from the first insertion direction and electrically connect the wire with the conductive terminal.

Provided is a terminal-attached electric wire including: an electric wire having a conductor made of aluminum or an aluminum alloy whose outer circumference is covered with an insulating layer; and a terminal member made of copper or a copper alloy and attached to a conductor-exposed portion exposed from the insulating layer at an end portion of the electric wire. The terminal member includes a coating layer made of an electrically conductive material and formed at a terminal-exposed portion except for a place of contact with the conductor in a surface of the terminal member, and an oxide film of the electrically conductive material formed in a surface of the coating layer. The electrically conductive material is a metal or an alloy which forms an oxide film having a thickness of more than or equal to 20 nm in a surface thereof.

An object of the invention is to suppress rotation around the axis of a tip part of a single wire and to suppress removal of the single wire from a housing. An electrical connector 1 according to the invention includes a housing 2; a terminal 3 to which a single wire W is to be connected; and a holding member 4, wherein the holding member 4 has a leading-out part 44 to lead out the single wire W from the inside to the outside of the housing 2, and the leading-out part 44 is configured to lead out the single wire W being bent and extending in a given extending direction so as to cross the axis X direction of a tip part W11 of the single wire W connected to a single wire connecting part 32.

This disclosure provides a method and apparatus for connecting wires and interlocking wires to an electrical component. More specifically, an electrical connector that includes an insulative housing, two electrical contacts, and two interlocking contacts is disclosed. In an embodiment, each electrical contact includes a female end, a press-fit end, and a transition portion. The transition portion is designed such that the first female end and the first press-fit end may be properly aligned depending on the application. The transition portion also provides support and stability to the electrical contacts when they are disposed within the insulative housing. The insulative housing includes four contact recesses. In an embodiment, the electrical connector allows for the safe, efficient, re-usable, and reliable connection for connecting high-voltage wires to a corresponding sensitive electrical component (e.g., a printed circuit board).

The present invention relates to a terminal stand, particularly, to a terminal stand with a base body, a movable part and a metal elastic part. The base body includes a casing and a side cover. One end of the movable part is a pressing end, the other end extends to form two arms. The metal elastic part is disposed in the accommodating space, one end of the metal elastic part has two abutments, one of the abutments passes through the first through hole and abut against one of the abutment holes, the other abutment passes through the second through hole and abuts against the other abutment hole, the other end of the metal elastic part has two pins, and at least one leg respectively passes through the corresponding pin hole.

A terminal block includes an insulative body, a conductive member, an elastic sheet and a pressing member. The insulative body has a receiving room therein and is formed with a pressing hole and a wire hole, which separately communicate with the receiving room. The conductive member is received in the receiving room and has a seat and a contact portion tilted up from the seat. The elastic sheet is received in the receiving room. An end of the elastic sheet is in contact with the conductive member. The pressing member is disposed in the pressing hole and capable of moving toward the receiving room to push another end of the elastic member. The pressing member has a placement slot. Each of two sides of the placement slot has a blocking wall.