A joint connector includes: a bus bar having a plurality of male terminals; a plurality of female terminals electrically connected to the plurality of male terminals; a housing having a cavity receiving the bus bar and the plurality of female terminals; and a seal block having a plurality of receiving holes and contacting the housing, wherein each receiving hole receives an electrical wire connected to each female terminal.

A contact and busbar assembly forms a bus system on electronics housings arranged in an array. An electronics assembly such as a circuit board is arranged in each housing. The contact and busbar assembly includes multiple bus plugs each having first connecting contacts for contacting a respective circuit board, second terminal contacts in the form of one or more socket contacts and power rail strips. The power rail strips have at least one flexibly deformable section or are continuously flexibly deformable. Alternatively, the socket contacts are insertable not only parallel but also obliquely in relation to the power rail strips extending in the direction of the array for contact by the socket contacts.

In order to be able to arrange a master module (M), slave modules (S), and conventional plug modules (K) in a freely configurable manner in a modular plug system, a modular frame (22) is provided with a circuit board (1) which includes at least one continuous conductor path and preferably more than one connection pad.

A contact insert of a conductor terminal for connecting at least one electrical conductor, wherein the contact insert comprises at least one bus bar and at least one clamping spring, wherein the bus bar has at least one through opening, wherein the contact insert has a perforated collar which is designed as a component separate from the bus bar, wherein the perforated collar circumferentially surrounds the through opening at least partially or completely on at least one side of the bus bar.

Disclosed are a connector and a manufacturing method thereof. The connector includes a female housing, one or more first female terminals installed in the female housing, a plurality of second female terminals installed side by side with the first female terminals in the female housing and connected to wires, a first terminal holder having a plurality of terminal grooves to allow the one or more first female terminals to be selectively coupled thereto, the first terminal holder being fastened to the female housing in a state in which the first female terminals are coupled, and a bus bar installed in the first terminal holder to allow one of the one or more first female terminals installed in the plurality of terminal grooves and the second female terminals to be connected thereto.

It is aimed to suppress water intrusion into an internal accommodation space for accommodating a ferrite and the adhesion of water to a male terminal by providing a sealing member. A connector (10) includes an inner housing (16), an outer housing 14 including a rear receptacle (30) into which the inner housing (16) is fit, and ferrites (12) including ferrite-side insertion holes (48) through which busbars (18) are inserted. The ferrites (12) are accommodated into internal accommodation spaces (S) formed inside by the inner housing (16) and the rear receptacle (30) in a fit state. A sealing member (20) is sandwiched between the rear receptacle (30) and the inner housing (16) to suppress water intrusion into the internal accommodation spaces (S).

An assembly of a plug connector part includes: a holding frame having a frame opening for receiving a plurality of modular contact inserts on a plurality of plug-in spaces arranged alongside one another along a width direction; and at least one modular contact insert insertable into the frame opening at at least one plug-in space, an arrangement of plug openings for connecting electrical conductors being disposed on the at least one modular contact insert. The at least one modular contact insert has an arrangement of connection spaces that are assigned to the plug openings and to which at least one functional element is attachable to electrically connect two plug openings to one another.

A connector which is held on an outer peripheral surface of a wire harness having a connector housing which includes an outer peripheral wall on which a tape is to be peripherally wound, and an outermost surface of the outer peripheral wall of the connector housing is provided with: a plurality of planar outer surfaces, ridge line portions, the ridge line portion is provided with a corner-removed chamfered portion and a non-chamfered portion, and the non-chamfered portion is engaged with a side edge of a tape wound around the outer surfaces so as to be used as a position displacement regulation projection configured to regulate an axial position displacement of the connector housing with respect to the tape.

A housing (10) has a mounting groove (12) between a first cavity (11A) in a first stage and second cavities (11B) in a second stage. A first communication portion (13A) allows communication between the mounting groove (12) and the first cavity (11A), Second communication portions (13B) allow communication between the mounting groove (12) and the second cavities (11B). A first terminal (20A) is accommodated in the first cavity (11A), and second terminals (20B) are accommodated in the second cavities (11B). A busbar (60) includes a plate-shaped body (61) accommodated in the mounting groove (12). A first contact piece (62A) integrally projects from the busbar body (61) toward the first stage and enters the communication portion (13A) to contact the first terminal (20A), and second contact pieces (62B) integrally project from the busbar body (61) toward the second stage and enter the communication portions (13B) and contact the second terminals (20B).

Provided is a novel dark-current-circuit interruption structure that can stably maintain the state of engagement of an engaging portion of a conductive component holder with an engaged portion of a case, while reducing the size of the case, and an electrical junction box including the same. A conductive component is formed by a plate metal fitting, a conductive component holder 48 includes elastic projecting pieces and engaging portions that are provided on each of a pair of side walls that are opposingly positioned with a gap between the plate metal fitting and each of the side walls, and the case includes engaged portions with which the engaging portions are to be engaged. When attaching the conductive component holder to the case, the engaging portions and the engaged portions are configured to come into contact with each other to cause the elastic projecting pieces 68 and 76 to elastically deform.