A contact element for inserting a mating contact element along an insertion direction. The contact element includes an insertion opening for inserting the mating contact element and at least one contact lamella for electrically contacting the mating contact element, and a clamping sleeve that is displaceable along the insertion direction, relative to the at least one contact lamella, between a first position and a second position. The clamping sleeve and the contact lamella are in an operational relationship with one another such that when the clamping sleeve moves from the first position into the second position, the contact lamella is moved in a radial direction perpendicular to the insertion direction. The clamping sleeve includes a run-up element, which in a projection along the insertion direction through the insertion opening at least partially covers the insertion opening.

An object of the present invention is to obtain good electrical connection with respect to an insertion-side terminal having a large variation in a position.

An energizing terminal assembly according to the present invention includes: a first energizing terminal 59 which constitutes an accommodation-side terminal of a press-fit type connector and has a sandwiching portion 59D; and a second energizing terminal which constitutes an insertion-side terminal of the press-fit type connector and is inserted into the sandwiching portion 59D to be sandwiched by the sandwiching portion 59D, wherein the sandwiching portion 59D has a groove-shaped portion 59E whose width dimension W and depth dimension D1 decrease from an inlet side of the second energizing terminal in an insertion direction toward a deep side of the second energizing terminal in the insertion direction.

A coaxial cable connector for attachment to an end of a coaxial cable is disclosed. The coaxial cable connector includes a rotatable body segment having a body wall with an outer surface and an inner surface defining a width of the body wall. The body wall has a radial dimension which varies along a perimeter of the rotatable body segment. The inner surface defines a longitudinal opening extending between a forward end of the rotatable body segment and a rearward end of the rotatable body segment. A post positions proximal the forward end of the rotatable body segment. The post has a first end and a second end with a bore extending therebetween. The post is rotationally stationary with respect to the rotatable body segment. A coupling member positions proximal to the first end of the post. The rotatable body segment is rotated to close the coaxial cable connector.

An object of the present invention is to obtain good electrical connection with respect to an insertion-side terminal having a large variation in a position. An energizing terminal assembly according to the present invention includes: a first energizing terminal 59 which constitutes an accommodation-side terminal of a press-fit type connector and has a sandwiching portion 59D; and a second energizing terminal which constitutes an insertion-side terminal of the press-fit type connector and is inserted into the sandwiching portion 59D to be sandwiched by the sandwiching portion 59D, wherein the sandwiching portion 59D has a groove-shaped portion 59E whose width dimension W and depth dimension D1 decrease from an inlet side of the second energizing terminal in an insertion direction toward a deep side of the second energizing terminal in the insertion direction.

A connecting device including a substantially elongated inserting member extending in a longitudinal direction and comprising a transverse direction transverse thereto, said inserting member comprising an outer surface with at least two electrically conductive parts with insulating material arranged there between; and wherein the inserting member is configured to mechanically and electrically connect the at least two electrically conductive parts with wire ends of a connection cable within the space enclosed by the outer surface. The invention is further related to an assembly of a connection cable and a connecting device, as well as a method for connecting a connecting device to a connection cable.

An electrical contact system includes a contact having a barrel with a wire entry portion having a first diameter, a clip portion having a second diameter, and a cam portion having a second diameter at a first end that tapers to a third diameter at a second end near the wire entry portion. The system also includes a clip positioned in the clip portion of the barrel, wherein ends of inwardly directed tines of the clip are configured to engage the conductor to enable the clip to be drawn onto the cam portion in response to a user pulling the wire after insertion of the conductor through the clip.

A bus bar (1) and a method for contacting an electric motor, addresses the problem of specifying a solution with which a simple, reliable and secure contacting of the electric motor is achieved. This problem is resolved at the device side thereby that on the first end (3) of the bus bar (1) a hole (5) is disposed that is undersized in comparison to the diameter of the feed-through contact (6). A method is provided wherein a bus bar (1) is provided which, on a first end (3) of the bus bar (1), comprises a hole (5) that is undersized compared to the diameter of the feed-through contact (6) and that the contacting of a feed-through contact (6) of an electric motor with the hole (5) of the provided bus bar (1) takes place in one operating step by press-fitting a stator (12) connected with the feed-through contacts (6).

A coaxial cable connector for attachment to an end of a coaxial cable is disclosed. The coaxial cable connector includes a rotatable body segment having a body wall with an outer surface and an inner surface defining a width of the body wall. The body wall has a radial dimension which varies along a perimeter of the rotatable body segment. The inner surface defines a longitudinal opening extending between a forward end of the rotatable body segment and a rearward end of the rotatable body segment. A post positions proximal the forward end of the rotatable body segment. The post has a first end and a second end with a bore extending therebetween. The post is rotationally stationary with respect to the rotatable body segment. A coupling member positions proximal to the first end of the post. The rotatable body segment is rotated to close the coaxial cable connector.

A terminal to be connected to a front end part of a wire in an extending direction is provided with a terminal body for sandwiching the wire, and a slide member slidable with respect to the terminal body along the extending direction of the wire. The terminal body is formed by a worked metal plate material and includes a sandwiching portion for sandwiching the wire. The sandwiching portion includes a first holding protrusion formed by folding the metal plate material on a side edge intersecting the extending direction of the wire, projecting toward the wire and configured to contact the wire and a second holding protrusion formed to be located forward of the first holding protrusion in the extending direction of the wire by folding the metal plate material on a side edge along the extending direction of the wire, projecting toward the wire and configured to contact the wire.

A contact element for inserting a mating contact element along an insertion direction. The contact element includes an insertion opening for inserting the mating contact element and at least one contact lamella for electrically contacting the mating contact element, and a clamping sleeve that is displaceable along the insertion direction, relative to the at least one contact lamella, between a first position and a second position. The clamping sleeve and the contact lamella are in an operational relationship with one another such that when the clamping sleeve moves from the first position into the second position, the contact lamella is moved in a radial direction perpendicular to the insertion direction. The clamping sleeve includes a run-up element, which in a projection along the insertion direction through the insertion opening at least partially covers the insertion opening.