An interior body is housed in a tubular exterior body. The interior body includes a spring portion, a movable portion, and a fixing portion, which are integrated together. Elastic arms are disposed on the movable portion so as to extend downward. Each elastic arm includes, at a lower end portion, an elastically pressing portion, which is elastically pressed against a tubular internal surface of the exterior body. Since the elastically pressing portion is elastically pressed against the exterior body, electric signals are more likely to flow between the movable portion and the exterior body and more likely to be prevented from leaking to the spring portion.

An interior body is housed in a tubular exterior body. The interior body includes a spring portion, a movable portion, and a fixing portion, which are integrated together. Elastic arms are disposed on the movable portion so as to extend downward. Each elastic arm includes, at a lower end portion, an elastically pressing portion, which is elastically pressed against a tubular internal surface of the exterior body. Since the elastically pressing portion is elastically pressed against the exterior body, electric signals are more likely to flow between the movable portion and the exterior body and more likely to be prevented from leaking to the spring portion.

An electrical connector includes multiple conductive terminals respectively retained in multiple accommodating slots of an insulating body. Each conductive terminal includes a base portion, a connecting portion extending from one side of the base portion, a first elastic arm and a second elastic arm extending from the connecting portion toward a direction away from the same one side of the base portion, and at least one fixing portion extending from another side of the base portion. A width of the connecting portion is less than a width of the base portion and less than a width of a location of the first elastic arm near the connecting portion as well as a width of a location of the second elastic arm near the connecting portion. The fixing portion and the first elastic arm are respectively located at different sides of the base portion, thus achieving good elasticity and thinness.

An electrical connector includes an insulative cover having a dividing wall and defining a mating space in front of the dividing wall and a mounting space behind the dividing wall, an insulative housing received in the mounting space of the insulative cover, plural contacts insert-molded with the insulative housing and extending through the dividing wall to expose in the mating space, and a sealing member disposed between the dividing wall and the insulative housing.

An electrical connector includes an insulative cover having a dividing wall and defining a mating space in front of the dividing wall and a mounting space behind the dividing wall, an insulative housing received in the mounting space of the insulative cover, plural contacts insert-molded with the insulative housing and extending through the dividing wall to expose in the mating space, and a sealing member disposed between the dividing wall and the insulative housing.

There is provided a connector including: a protrusion portion provided on a second housing at a position close to and facing a distal end portion of a locking portion in a locked state in which the locking portion is locked to a locked portion, so that the protrusion portion restricts an action of an external force on the distal end portion of the locking portion in the locked state.

The connector 10 includes a movable housing 40 that is displaceable with respect to an attachment object 90 in an X direction, which is a direction perpendicular to a connection direction, and a terminal 20 configured to electrically connect the attachment object 90 and a connection object 80. The terminal 20 includes the displacement portion 24 that is displaceable in the X direction with respect to the attachment object 90. The contact portions 24c1 and 24f1 configured to contact the connection object 80 are formed in the displacement portion 24. Here, the displacement portion 24 is displaceable with respect to the movable housing 40.

The connector 10 includes a movable housing 40 that is displaceable with respect to an attachment object 90 in an X direction, which is a direction perpendicular to a connection direction, and a terminal 20 configured to electrically connect the attachment object 90 and a connection object 80. The terminal 20 includes the displacement portion 24 that is displaceable in the X direction with respect to the attachment object 90. The contact portions 24c1 and 24f1 configured to contact the connection object 80 are formed in the displacement portion 24. Here, the displacement portion 24 is displaceable with respect to the movable housing 40.

An angle connector, including an angle holder, a cable, and multiple contacts, is provided. The angle holder includes a first receiving portion, a second receiving portion, and a first bending portion connected therebetween. Each of the first receiving portion and the second receiving portion has multiple receiving grooves. The cable includes multiple core wires. Each of the contacts includes a first connecting portion, a second connecting portion, and a second bending portion connected therebetween. The first connecting portions for electrically connecting to another electrical connector are embedded in the receiving grooves of the first receiving portion. The second connecting portions electrically connected to the core wires are embedded in the receiving grooves of the second receiving portion.

A signal connector comprises: a first part, having at least one electrical contact part, and a first body configured to be electrically insulating; a second part, having at least one electrical pin, and a second body configured to be electrically insulating and separate from the first body, and the electrical pin is configured to protrude from the second body; and an electrical connection body, extending from each electrical contact part to each electrical pin, in order to establish an electrical connection between the electrical contact part and the electrical pin, wherein the electrical connection body is configured to be deformable and comprises at least two bending parts, and at least part of the electrical connection body is located outside the first part and the second part, such that the position of the second part relative to the first part is variable.