A connecting terminal for connecting at least two electrical conductors to one another, wherein the connecting terminal has at least two separate housing parts which are mechanically connected to one another and each have a conductor insertion opening for at least one electrical conductor which is to be connected on opposite housing sides, wherein there is a first spring-force clamping connection for making electrical contact with a first electrical conductor in a first housing part of the at least two separate housing parts, and there is a second spring-force clamping connection for making electrical contact with the second electrical conductor in the second housing part of the at least two separate housing parts. A method for fitting a connecting terminal for connecting at least two electrical conductors is also provided.

A cable connector includes: a contact (45A, 45B) supported by an insulator (20) having a cable insertion groove (21); a lock member (65) rotatable about a rotation shaft (74), between a lock position where a lock portion (68) of the lock member faces a locked portion (98) of a sheet-like cable (93) inserted in the insulator and an unlock position where the lock portion does not face the locked portion; and a bias portion (80) for biasing the lock member to the lock position, wherein an inner surface of the cable insertion groove includes a reference surface (21a) which is an end surface in a movement direction of the lock portion from the lock position to the unlock position, and a rotation center G of the rotation shaft is located on a side opposite to the movement direction, with respect to the reference surface.

A cable connector includes: a contact (45A, 45B) supported by an insulator (20) having a cable insertion groove (21); a lock member (65) rotatable about a rotation shaft (74), between a lock position where a lock portion (68) of the lock member faces a locked portion (98) of a sheet-like cable (93) inserted in the insulator and an unlock position where the lock portion does not face the locked portion; and a bias portion (80) for biasing the lock member to the lock position, wherein an inner surface of the cable insertion groove includes a reference surface (21a) which is an end surface in a movement direction of the lock portion from the lock position to the unlock position, and a rotation center G of the rotation shaft is located on a side opposite to the movement direction, with respect to the reference surface.

In order to reduce the probability that an electrode of a connector and a terminal part of a printed substrate are broken, this connector is provided with openings including a void, respectively, in at least one of surfaces perpendicular to generating lines of two prismatic surfaces facing each other with the void therebetween and having parallel generating lines, and at least one of surfaces parallel to the generating lines, and is equipped with: a first member which is disposed in the void, and performs a first movement that is a movement in a direction parallel to the generating lines; a second member which, following the first member, performs a second movement that is a movement in a direction corresponding to the direction of the movement of the first member between respectively predetermined first point and second point.

In order to reduce the probability that an electrode of a connector and a terminal part of a printed substrate are broken, this connector is provided with openings including a void, respectively, in at least one of surfaces perpendicular to generating lines of two prismatic surfaces facing each other with the void therebetween and having parallel generating lines, and at least one of surfaces parallel to the generating lines, and is equipped with: a first member which is disposed in the void, and performs a first movement that is a movement in a direction parallel to the generating lines; a second member which, following the first member, performs a second movement that is a movement in a direction corresponding to the direction of the movement of the first member between respectively predetermined first point and second point.

A connector includes a housing into which a cable is to be inserted, a terminal accommodated in the housing and configured to be conductively connected to the cable, and a lever attached to the housing so as to turn between the first and second positions. The lever includes attachment parts to be attached to supporting parts of the housing, at both ends in the direction in which the turning shafts of the lever extend. Either the attachment parts or the supporting parts, or both of them include a defective-closing prevention structure which prevents the lever from turning from the first position to the second position when the cable is not inserted in the housing.

A connector includes a housing into which a cable is to be inserted, a terminal accommodated in the housing and configured to be conductively connected to the cable, and a lever attached to the housing so as to turn between the first and second positions. The lever includes attachment parts to be attached to supporting parts of the housing, at both ends in the direction in which the turning shafts of the lever extend. Either the attachment parts or the supporting parts, or both of them include a defective-closing prevention structure which prevents the lever from turning from the first position to the second position when the cable is not inserted in the housing.

Connectors providing solderless contact between conductors and a plurality of contact pads disposed on a substrate are disclosed. Connectors accommodating cables including pairs of insulated conductors are disclosed. Connector assemblies including frames for reversibly mounting the connectors with substrates having a plurality of contact pads are also disclosed.

Connectors providing solderless contact between conductors and a plurality of contact pads disposed on a substrate are disclosed. Connectors accommodating cables including pairs of insulated conductors are disclosed. Connector assemblies including frames for reversibly mounting the connectors with substrates having a plurality of contact pads are also disclosed.

A cable connector that can, when an external force in a curling-up direction acts on a cable inserted in an insulator in a state where an actuator is in a closed position, prevent the cable from disconnecting from the insulator in the curling-up direction without deformation or breakage of the connector. A cable connector includes: an insulator (20) into which a sheet-like cable (70) is removably insertable; a contact (30) supported by the insulator; a rotatable actuator (40); and a fixed metal fitting (55) fixed to the insulator. The fixed metal fitting includes a cable press piece (61) extending from a part of the fixed metal fitting and facing the cable. The cable press piece is plate-like. The insulator includes a facing portion (28a) facing a tip part of the cable press piece from a side opposite to the cable at least when the actuator is in the closed position.