By a simple configuration, contact members can be well retained with a housing in a mutually opposed state, and productivity can be improved. When the contact members in the mutually opposed state are to be attached to the housing, a contact retainer prepared by molding in advance is used by disposing the contact retainer in part of the contact opposed region. As a result, the contact members are stably retained in the mutually opposed state even in injection molding molds. Even in a case in which the contact members normally cannot be retained in the mutually opposed state in the injection molding molds, the housing and the contact members can be integrally molded by well retaining the contact members in the mutually opposed state by using the contact retainer and a contact retainer auxiliary and executing an injection molding process.

By a simple configuration, contact members can be well retained with a housing in a mutually opposed state, and productivity can be improved. When the contact members in the mutually opposed state are to be attached to the housing, a contact retainer prepared by molding in advance is used by disposing the contact retainer in part of the contact opposed region. As a result, the contact members are stably retained in the mutually opposed state even in injection molding molds. Even in a case in which the contact members normally cannot be retained in the mutually opposed state in the injection molding molds, the housing and the contact members can be integrally molded by well retaining the contact members in the mutually opposed state by using the contact retainer and a contact retainer auxiliary and executing an injection molding process.

A rotatable plug structure for a power adapter includes a carrying base, two conductive terminals and a plug. The carrying base includes a first installation slot, a second installation slot and a channel connected between the two. The conductive terminals are secured onto the first and second installation slots; the conductive terminals include a main body, a wiring portion and a clamping member. The clamping member includes a pair of metal slats bent from the main body and extended to taper toward each other. The plug is rotatably installed on the carrying base and the conductive terminal; the plug includes a pivotal axle, a pair of insertion pins and a conductive connecting end. The plug swings freely about the pivotal axle between a deployed state and a retracted state; thereby, the conductive connecting ends are clamped by the clamping member or disengaged therefrom to overcome the improper contact problem.

In some examples, a docking system includes a base, a deck having an upper surface to contact a computing device resting upon the deck, wherein the deck includes apertures therethrough, and projections extending upwardly from a surface of the base. The docking system further includes resilient bias elements to bias the deck at a raised position at which the upper surface of the deck extends at or above a height of each of the projections, where the deck is linearly movable from the raised position to a lowered position at which the projections extend through the apertures, the deck being linearly movable without being pivotably coupled to the base.

In some examples, a docking system includes a base, a deck having an upper surface to contact a computing device resting upon the deck, wherein the deck includes apertures therethrough, and projections extending upwardly from a surface of the base. The docking system further includes resilient bias elements to bias the deck at a raised position at which the upper surface of the deck extends at or above a height of each of the projections, where the deck is linearly movable from the raised position to a lowered position at which the projections extend through the apertures, the deck being linearly movable without being pivotably coupled to the base.

Provided is a plug having a first plug piece and a second plug piece. The plug pieces are designed to enter in contact with each other, a male end of plug piece being accommodated in a first female end of plug piece. When the first plug piece is in contact with the second plug piece, electric contact elements accommodated in the plug pieces are in contact with each other. An insert accommodated in the female end of the first plug piece prevents inadvertent contacts by foreign bodies in the female end.

Provided is a plug having a first plug piece and a second plug piece. The plug pieces are designed to enter in contact with each other, a male end of plug piece being accommodated in a first female end of plug piece. When the first plug piece is in contact with the second plug piece, electric contact elements accommodated in the plug pieces are in contact with each other. An insert accommodated in the female end of the first plug piece prevents inadvertent contacts by foreign bodies in the female end.

An electrical connector (1) including a male contact (5) and a female contact (10) movable between a non-inserted position, and an inserted position, wherein an electrically conductive insertable portion (12) of the male contact (5) is inserted along an insertion axis (D) into a housing (14) defined by the female contact, the female contact including: an electrically conductive body (22), a plurality of strips (26) protruding axially from the body and angularly distributed around the insertable portion in the inserted position, the strips being electrically conductive and radially flexible, the body and the strips defining the housing, and at least one annular contention member (28) positioned on radially external faces (30) of the strips and adapted for exerting a centripetal radial pressure on the strips in the inserted position, the strips having radially internal faces (42) flattened against the insertable portion in the inserted position.

An electrical connector having a highly reliable electric shock prevention mechanism.

The electrical connector has a housing, tab terminals, and a slidable member. The slidable member has engagement arms. The engagement arms have on forward sides fixed ends joined to a front side wall extending forward from an abutting wall, extend rearward in the form of cantilevers, and have hook portions. The hook portions engage with a mating electrical connector and this engagement causes the hook portions to be pulled by the mating electrical connector when the mating electrical connector in a mating state is extracted, so that the slidable member slides to a forward position. In addition, the housing is provided with anti-deflection walls. The anti-deflection walls allow the engagement arms to deflect so that the mating electrical connector can climb over the hook portions when the slidable member is located in the forward position. In addition, these anti-deflection walls prevent the engagement arms from deflecting when the slidable member is located near a rearward position rather than the forward position.

An electrical connector having a highly reliable electric shock prevention mechanism.

The electrical connector has a housing, tab terminals, and a slidable member. The slidable member has engagement arms. The engagement arms have on forward sides fixed ends joined to a front side wall extending forward from an abutting wall, extend rearward in the form of cantilevers, and have hook portions. The hook portions engage with a mating electrical connector and this engagement causes the hook portions to be pulled by the mating electrical connector when the mating electrical connector in a mating state is extracted, so that the slidable member slides to a forward position. In addition, the housing is provided with anti-deflection walls. The anti-deflection walls allow the engagement arms to deflect so that the mating electrical connector can climb over the hook portions when the slidable member is located in the forward position. In addition, these anti-deflection walls prevent the engagement arms from deflecting when the slidable member is located near a rearward position rather than the forward position.