A cable connector housing attachment for protecting and directing a cable including an anchor portion configured for attachment to a cable connector housing; and a cable guide portion comprising a base wall, a first side wall, and a second side wall each extending from the anchor portion in the direction of the cable from the cable connector housing, wherein the first side wall comprises a guiding edge opposite the anchor portion, wherein the guiding edge creates a non-parallel and non-perpendicular angle relative to the direction of the cable from the cable connector housing, and wherein the guiding edge directs a bend of the cable in a direction offset from the direction of the cable from the cable connector housing.

A connector (1) includes a plurality of connector terminals (3), core resin portions (2A), (2B), nuts (4) and an outer resin portion (5). A plurality of the nuts (4) are arranged to face a nut facing surface (21A) of the core resin portion (2A). The outer resin portion (5) covers the core resin portions (2A), (2B) and the nuts (4) with exposed surfaces (25) of the core resin portions (2A), (2B) and outer end surfaces (41) of the nuts (4) exposed. Injection marks (51) during molding of the outer resin portion (5) are formed on a surface of a part of the outer resin portion (5) covering an opposite side surface (22B) located on a side opposite to the nut facing surface (21A).

An insulated electrical connector formed by one-time injection molding is disclosed. A base of each metal female terminal has two edges extending upward and inclining relative to each other to form elastic clamping pieces, and an edge extending outwards to form a weld leg. An insulated rubber core is formed on the metal female terminals by one-time injection molding. The bases are embedded in the insulated rubber core. The elastic clamping pieces are received in cavities of the insulated rubber core. Insertion holes corresponding to the elastic clamping pieces are formed in bottoms of the cavities. Conical guide-in faces are formed at bottoms of the insertion holes. The weld legs stretch out of the insulated rubber core. The insulated electrical connector is convenient to install and realizes stable electric connection.

A joint structure comprising a light-absorbable member having at least one opening portion and a light-permeable member superposed on the light-absorbable member so as to cover the opening portion, wherein an annular weld part is formed so as to enclose the opening portion and join the light-absorbable member and the light-permeable member, and an area ratio of a portion at the side of the light-absorbable member to a portion at the side of the light-permeable member side is in a range of 12-35 viewing a section perpendicular to the extending direction of the annular weld part.

A cable assembly is provided comprising a collar adjacent to a cable transition member, the cable transition member having a first longitudinal axis x.sup.1, the collar having a second longitudinal axis x.sup.2. The cable transition member provides for a cable to extend by approximately 90 degrees from the first axis x.sup.1 of the cable transition member, a connector body having a non-circular outer diameter, wherein the collar is disposed between the connector body and the cable transition member so that the first axis x.sup.1 and the second axis x.sup.2 are aligned and the collar secures the cable transition member in a predetermined angular orientation z with respect to the connector body. The angular orientation z of the cable transition member with respect to the connector body is other than 90, 180, 270 or 360 degrees with respect to the first axis x.sup.1.

A joint structure comprises a light-absorbable member having at least one opening portion and a light-permeable member superposed on the light-absorbable member so as to cover the opening portion, wherein an annular weld part is formed so as to enclose the opening portion and join the light-absorbable member and the light-permeable member, and the light-permeable member is formed into a thin sheet adhering to the light-absorbable member by deforming at a depressurized state of an interior of the opening portion before the formation of the annular weld part.

A joint structure comprises a light-absorbable member having at least one opening portion and a light-permeable member superposed on the light-absorbable member so as to cover the opening portion, wherein a first annular weld part is formed so as to enclose the opening portion and join the light-absorbable member and the light-permeable member, and a second dot-like weld part(s) joining the light-absorbable member and the light-permeable member is/are formed in a position adjacent to the first weld part.

An insulated electrical connector formed by one-time injection molding is disclosed. A base of each metal female terminal has two edges extending upward and inclining relative to each other to form elastic clamping pieces, and an edge extending outwards to form a weld leg. An insulated rubber core is formed on the metal female terminals by one-time injection molding. The bases are embedded in the insulated rubber core. The elastic clamping pieces are received in cavities of the insulated rubber core. Insertion holes corresponding to the elastic clamping pieces are formed in bottoms of the cavities. Conical guide-in faces are formed at bottoms of the insertion holes. The weld legs stretch out of the insulated rubber core. The insulated electrical connector is convenient to install and realizes stable electric connection.

A plug assembly includes an insulating main body and a plurality of conductive terminals secured to the insulating main body by molding. The insulating main body has a mating portion adapted to mate with a receptacle assembly and a plurality of supporting through holes. Each of the conductive terminals has a contact portion with a contact surface. The contact surface is exposed from a sidewall of the mating portion. Each of the supporting through holes extends to a rear surface of one of the conductive terminals opposite to the contact surface from a rear side of the insulating main body.

An electrical connector assembly includes an electrical terminal having an attachment end and a connection end, a first terminal housing having a first cavity in which the attachment end is disposed. The first cavity defining a terminal extension opening through which the connection end extends. The assembly also includes a second terminal housing having a second cavity in which the connection end is disposed. The second cavity defining a terminal reception opening through which the connection end is received. The first terminal housing defines a first attachment surface surrounding the terminal extension opening and the second terminal housing defines a second attachment surface surrounding the terminal reception opening. The first attachment surface is sealed to the second attachment surface. The first attachment surface forms a first angle relative to the longitudinal axis and the second attachment surface forms a second angle relative to the lateral axis.