Disclosed is a connector including an outer housing having a tube shape, an inner housing coupled to the inside of the outer housing, the inner housing including a rear wall and a terminal cover formed to extend from the rear wall in a longitudinal direction of the outer housing, and a terminal of a plate shape seated on and coupled to the terminal cover, wherein the terminal cover is provided to cover edges of the terminal of the plate shape and to expose a side surface of the terminal. By this structure, a finger is structurally prevented from coming into contact with the terminal of the connector, and because there are no additional components, a simplification of the structure and a reduction in cost are achieved.

Disclosed is a connector including an outer housing having a tube shape, an inner housing coupled to the inside of the outer housing, the inner housing including a rear wall and a terminal cover formed to extend from the rear wall in a longitudinal direction of the outer housing, and a terminal of a plate shape seated on and coupled to the terminal cover, wherein the terminal cover is provided to cover edges of the terminal of the plate shape and to expose a side surface of the terminal. By this structure, a finger is structurally prevented from coming into contact with the terminal of the connector, and because there are no additional components, a simplification of the structure and a reduction in cost are achieved.

The invention relates to a socket contact element for establishing an electrically conductive connection including a crimp section for establishing an electrically conductive connection to a line and a contact box for establishing a detachable electrically conductive connection to a contact box plug, wherein the socket contact element is constructed in one piece and includes a plurality of integrally implemented functions based on geometrical designs. Furthermore, the invention relates to a sheet-shaped semifinished product for producing a socket contact element and the production method by forming.

A connector comprises a housing, a holder, a contact, an electrical wire and a sleeve member. The housing is formed with a contact accommodating portion. The contact accommodating portion is formed with a first receiving portion. The holder is formed with a second receiving portion. The contact is provided with a first press-fit portion. The sleeve member is provided with a first abutment portion, a second abutment portion and a second press-fit portion. The first abutment portion abuts against the first receiving portion. The second abutment portion abuts against the second receiving portion. One of the first press-fit portion and the second press-fit portion is press-fit into a remaining one of the first press-fit portion and the second press-fit portion in a direction perpendicular to the front-rear direction and thereby a relative movement of the sleeve member with respect to the contact along the front-rear direction is regulated.

A connector comprises a housing, a holder, a contact, an electrical wire and a sleeve member. The housing is formed with a contact accommodating portion. The contact accommodating portion is formed with a first receiving portion. The holder is formed with a second receiving portion. The contact is provided with a first press-fit portion. The sleeve member is provided with a first abutment portion, a second abutment portion and a second press-fit portion. The first abutment portion abuts against the first receiving portion. The second abutment portion abuts against the second receiving portion. One of the first press-fit portion and the second press-fit portion is press-fit into a remaining one of the first press-fit portion and the second press-fit portion in a direction perpendicular to the front-rear direction and thereby a relative movement of the sleeve member with respect to the contact along the front-rear direction is regulated.

A connector includes a terminal, an electric wire, and a housing having a tubular portion that accommodates the terminal and the electric wire therein. An electric wire connection portion and a terminal connection portion are provided on both end sides of the terminal. The electric wire connection portion is connected to the electric wire. A joining portion between an end surface of the electric wire connection portion and an end surface of the electric wire includes a protruding piece protruding in a radial direction of the electric wire connection portion. A first retaining piece and a second retaining piece configured to be locked to the protruding piece are provided on an inner peripheral surface of the tubular portion. The second retaining piece is disposed at a position shifted from the first retaining piece in both a circumferential direction and an axial direction of the tubular portion.

A plastic shell for mounting a connection terminal includes a main body configured as an integral single component. The main body includes a top surface and a bottom surface opposed to each other. The bottom surface is depressed toward the top surface to form an internal space for accommodating a conductive terminal. A connecting portion for mating with the clamping portion of the conductive terminal is disposed in the internal space. A front end surface of the main body has a wire insertion hole for inserting a wire into the conductive terminal, and the wire insertion hole is in communication with the internal space.

The present disclosure provides embodiments of direct current (DC) power connectors and methods to manufacture the same. More specifically, the present disclosure provides a connector plug with improved power capacity and structural rigidity. The connector plug includes an inner body and an outer body coupled to transmit power through the DC power connector, wherein the inner body is concentrically arranged within the outer body, and an insulating barrel that is coupled between the inner body and the outer body to electrically isolate the inner body from the outer body. The inner body and outer body comprise a base metal or metal alloy having an electrical conductivity ranging between 30% International Annealed Copper Standard (IACS) and greater than or equal to 99% IACS. In addition, the inner body, outer body and insulating barrel comprise an inter-locking feature, which increases the structural rigidity of the connector plug and prevents disassembly when the inner body, outer body and insulated barrel are assembled together.

The present disclosure provides embodiments of direct current (DC) power connectors and methods to manufacture the same. More specifically, the present disclosure provides a connector plug with improved power capacity and structural rigidity. The connector plug includes an inner body and an outer body coupled to transmit power through the DC power connector, wherein the inner body is concentrically arranged within the outer body, and an insulating barrel that is coupled between the inner body and the outer body to electrically isolate the inner body from the outer body. The inner body and outer body comprise a base metal or metal alloy having an electrical conductivity ranging between 30% International Annealed Copper Standard (IACS) and greater than or equal to 99% IACS. In addition, the inner body, outer body and insulating barrel comprise an inter-locking feature, which increases the structural rigidity of the connector plug and prevents disassembly when the inner body, outer body and insulated barrel are assembled together.

A high speed connector includes a metal casing, a plastic casing, and a terminal assembly; the metal casing including a main wall, a side wall, and a combination position; the plastic casing including a front connection portion, an engagement member, a protrusion, and a terminal engagement slot; the main wall including an engagement bore; the side wall disposed on the main wall; the combination portion formed between the main wall and the side wall; the front connection portion and the terminal engagement slot disposed in and on a lateral side of the cover body; the engagement member laterally disposed on the front connection portion; the protrusion disposed on the cover body; when the metal casing being engaged with the plastic casing, the protrusion being engaged in the engagement bore, and the protrusion being engaged in the combination position.