A plug-in device for an arrangement for goods display, having a socket mounted on a supporting structure, and a plug-in part having a plug-in portion plugged into a receptacle of the socket. An electrification arrangement, in the connected state of the plug-in device electrically supplies electricity via the plug-in device, with an electrical connection being established via the socket and the plug-in part in that an electrically conducting contact is established by galvanic contacting between a first contact point and a second contact point. The first contact point is formed on the socket and the second contact point is formed on the plug-in portion such that, in the connected state, the first contact point in and the second contact point are electrically contacted with one another.

An electrical plug connector has a housing, in which at least one insertion opening and at least one guide for a complementary plug connector with at least one electrical contact pin are arranged. At least one contact element that is elastically deflectable out of the path of the contact pin is mounted in the housing and at least partially protrudes into the insertion opening when the complementary plug connector is absent. The lateral edge of the contact element facing the contact pin, in its front section, encloses an acute angle with the path of the contact pin during the insertion when viewed in the direction of the deflection of the contact element. When the cable plug connector is fully inserted, a flat contact section of the contact element, adjoining the lateral edge, in the transverse direction abuts in contact with the contact pin.

An electrical female terminal for mating with a connector assembly generally including a main body, a two-bodied spring, A protrusion extends from an unattached end portion of the lever member, the protrusion having faces angled relative to each other to efficiently deflect the lever member upwards when the protrusion interacts with an internal protrusion of a housing or a connector assembly, which in turn makes the electrical female terminal more difficult to remove from the housing or the connector assembly to thereby protect the electrical female terminal against the electrical female terminal from falling out during use. A top portion of the retainer member of the electrical female terminal, located above the two-bodied spring, has a dimple portion to increase the number of contacts to an upper spring of the two-bodied spring, so as to increase the stiffness of the two-bodied spring. The terminal face or leading end portion of the electrical female terminal is prevented from damaging or cutting a silicone seal, which seals the connector assembly from environmental contaminants, during mating therewith by providing thereon a recessed top face portion and a recessed bottom face portion. The overstress feature of the tang member of the lever is improved upon by relocating and reshaping the protruding member thereof.

A connector 10 includes: a first housing 11A, a first terminal 51A attached to the first housing 11A; a second housing 11B separate from the first housing 11A; a second terminal 51B attached to the second housing 11B; a flexible member 81 where the first terminal 51A and second terminal 51B are connected to two ends, and connecting the first housing 11A and second housing 11B; and an aligning member 41 having a flexible member insertion cavity 44 where the flexible member 81 is inserted, and that is movably arranged between the first housing 11A and second housing 11B in a condition where the flexible member 81 is inserted.

A connector 10 includes: a first housing 11A, a first terminal 51A attached to the first housing 11A; a second housing 11B separate from the first housing 11A; a second terminal 51B attached to the second housing 11B; a flexible member 81 where the first terminal 51A and second terminal 51B are connected to two ends, and connecting the first housing 11A and second housing 11B; and an aligning member 41 having a flexible member insertion cavity 44 where the flexible member 81 is inserted, and that is movably arranged between the first housing 11A and second housing 11B in a condition where the flexible member 81 is inserted.

An electrical connector having a first housing and a second housing. The first housing have a first mating face and a first cable receiving face with at least one first terminal receiving cavity which extends from the first cable receiving face to the first mating face. The second housing has a second mating face and a second cable receiving face with at least one second terminal receiving cavity which extends from the second cable receiving face to the second mating face. The second housing is spaced from the first housing. A flexible joining member extends from the first housing to the second housing. The flexible joining member is configured to allow the first housing to move independently of the second housing as the electrical connector is mounted to an electrical component. The first housing can be mated independently to the electrical component from the second housing.

An electrical connector having a first housing and a second housing. The first housing have a first mating face and a first cable receiving face with at least one first terminal receiving cavity which extends from the first cable receiving face to the first mating face. The second housing has a second mating face and a second cable receiving face with at least one second terminal receiving cavity which extends from the second cable receiving face to the second mating face. The second housing is spaced from the first housing. A flexible joining member extends from the first housing to the second housing. The flexible joining member is configured to allow the first housing to move independently of the second housing as the electrical connector is mounted to an electrical component. The first housing can be mated independently to the electrical component from the second housing.

A joint connector includes a circuit board that is located behind a back wall of the connector housing through a component space, an independent male terminal jointed to the circuit board, and a joint terminal. The joint terminal includes a bridge portion fixed to the connector housing, a plurality of male terminal portions conducted to each other and protruding into a fitting space of the connector housing to serve as connector terminals, and one contact conduction piece extending to a back of the back wall of the connector housing and elastically brought into conductive contact with one of the independent male terminals via a spring portion.

A joint connector includes a circuit board that is located behind a back wall of the connector housing through a component space, an independent male terminal jointed to the circuit board, and a joint terminal. The joint terminal includes a bridge portion fixed to the connector housing, a plurality of male terminal portions conducted to each other and protruding into a fitting space of the connector housing to serve as connector terminals, and one contact conduction piece extending to a back of the back wall of the connector housing and elastically brought into conductive contact with one of the independent male terminals via a spring portion.

Provided is a charging connector for a vehicle including a main body provided with a charging part, a female terminal part installed inside the charging part so as to be electrically connected to an external changer, and a female housing configured to accommodate the female terminal part. The female terminal part includes a plurality of female terminals configured to electrically connect the external charger to a battery of the vehicle and a protection cap disposed outside one side of each of the female terminals to protect the female terminals. Therefore, damage of the female terminals are minimized to provide more improved electrical stability and reliability.