One aspect of the present disclosure provides a connector capable of improving assemblability. A connector according to one aspect of the present disclosure is provided with a connector housing (50) including a plurality of accommodating portions (60A, 60B), a plurality of connection terminals (40A, 40B) held in the connector housing (50), and a plurality of nuts (80) respectively accommodated in the plurality of accommodating portions (60A, 60B). Each of the plurality of connection terminals (40A, 40B) includes a terminal connecting portion (42) to be connected to a mating terminal (100) by tightening a bolt (B1) into the nut (80). The plurality of terminal connecting portions (42) are provided apart from each other in an arrangement direction (Z) of the plurality of connection terminals (40A, 40B) and provided at positions not overlapping each other in a plan view from the arrangement direction (Z).

Provided is a molding method of a sealing cover, realized by setting up a sealing cover mold, the mold includes a cavity and a core group arranged in the cavity, including setting up a first core and a second core, the mold opening direction of the first core and the second core are not parallel. The present application does not need a process hole to perform the injection molding of the sealing cover with a fastening structure, whose sealing is also better.

A power feeder device can include a base having a mounting portion and a plurality of connector structures extending from the mounting portion and spaced apart relative to each other to form a respective gap therebetween. Each connector structure can be configured to receive a respective pair of terminals to electrically connect the respective pair of terminals within connector structures and to block a line of sight between adjacent pairs of terminals. The device can also include a cover configured to mate with the base to enclose each of the plurality of connector structures and to increase a length of a creepage path between each pair of terminals by at least partially inserting into each gap between the connector structures. The base and the cover can be configured to form a terminal opening on each lateral side when assembled to allow pass-through of a conductor and/or portion of each terminal.

A connecting terminal having a plurality of conductor connection modules, wherein the conductor connection modules each have an insulating material housing with a conductor insertion opening for receiving an electrical conductor. In each case two conductor connection modules arranged next to one another are connected via a web, wherein the web is designed flexibly in such a way that the conductor connection modules can be arranged from an initial position into an arrangement different from the initial position, and vice versa.

Provided is a molding method of a sealing cover, realized by setting up a sealing cover mold, the mold includes a cavity and a core group arranged in the cavity, including setting up a first core and a second core, the mold opening direction of the first core and the second core are not parallel. The present application does not need a process hole to perform the injection molding of the sealing cover with a fastening structure, whose sealing is also better.

A foreign object debris (FOD) protection cover includes a dielectric barrier assembly having an integrated washer. The dielectric barrier assembly includes a base and one or more barrier walls integrally formed with the base. The washer is integrally formed in the base and includes a hole extending radially about a center axis of the washer. The base and the barrier wall of the dielectric barrier assembly are formed from a dielectric material, and the washer is formed from an electrically conductive material.

A connector 10 includes two connection terminals 30 to be respectively connected to ends of two wires 20 extending side by side and having through holes in tip parts, and a housing 70 for accommodating the two connection terminals 30 separated from each other with the respective tip parts caused to project out. The tip parts of the two connection terminals 30 are overlapped each other while being spaced apart in an orthogonal direction Z, and the through holes of the two connection terminals 30 are located on the same axis along the orthogonal direction Z.

A wire end of a wire harness is protected. The wire harness includes a wire bundle and a connector connected therewith. The wire bundle includes the wire end, and the wire end includes a bent portion and faces the connector. First, a sheet member is folded perpendicularly to a wire lead-out surface of the connector, thereby forming, concurrently, counter sides facing the wire lead-out surface, side surface covering portions, and a tip end protection portion. Next, the side surface covering portions are folded along a top protection portion formation portion, thereby forming, concurrently, side surface protection portions, a top protection portion and an extending portion. Next, a wire end protection portion is secured, with a pressure-sensitive adhesive tape or the like, to a wire bundle portion while the relative position of the counter sides with respect to the wire lead-out surface is maintained.

A connecting device and an assembly of the connecting device and a mating device are provided. The connecting device includes an insulating main body, a plurality of terminals, a magnet set, an inner housing, a crown leaf spring, an outer housing, and a wave spring. The plurality of terminals are disposed on the insulating main body, the magnet set is disposed on the insulating main body, and the inner housing is sleeved around the insulating main body. The wave spring and the crown leaf spring are each disposed between the inner housing and the outer housing, and abut the inner housing, so that the insulating main body, the plurality of terminals, the magnet set, and the inner housing are arranged in a floating state.

A connection module attachable to a power storage element group formed by lining up a plurality of power storage elements is provided with a bus bar (connection member) that extends in a vertical direction and is connected to electrode terminals, an insulating protector having a holding portion that holds the bus bar, and a cover that covers the bus bar. The cover is provided with an intake port and an exhaust port positioned above the intake port, and a ventilation passage through which air can flow in the vertical direction is formed between the cover and the holding portion, the ventilation passage being in communication with the intake port and the exhaust port, and the bus bar is arranged inside the ventilation passage.