Disclosed is a novel connector module structure, to be installed in a system to form connection between at least two functional modules. The connector module provides jumper connection capabilities, i.e., allowing one of its connection terminals to form electrical connection with a connection terminal of one or more particular non-adjacent connector modules.

A connector (20) includes a connecting member (15) with a main body portion (16) for connecting adjacent electrode terminals (12A, 12B) of a plurality of battery cells (11) including positive and negative electrode terminals (12A, 12B) and a first terminal (22) extending from the main body portion (16), a battery-side connector housing (29) accommodating the first terminal (22), a wire-side connector housing (36) to be connected to the battery-side connector housing (29) and an end part of a wire (37, and a fuse (25) arranged in the battery-side connector housing (29) to electrically connect the first terminal (22) and the wire (37).

A connector (20) includes a connecting member (15) with a main body portion (16) for connecting adjacent electrode terminals (12A, 12B) of a plurality of battery cells (11) including positive and negative electrode terminals (12A, 12B) and a first terminal (22) extending from the main body portion (16), a battery-side connector housing (29) accommodating the first terminal (22), a wire-side connector housing (36) to be connected to the battery-side connector housing (29) and an end part of a wire (37, and a fuse (25) arranged in the battery-side connector housing (29) to electrically connect the first terminal (22) and the wire (37).

A terminal block has an insulator housing, at least two busbars and at least four connection elements, there being at least two connection levels in the insulator housing arranged one over the other. Each connection level has a busbar receptacle chamber for receiving a busbar and two mutually opposite conductor connection chambers on ends of chamber for receiving a respective connection element, the chambers being open on an insulator housing first side for busbar assembly in the chambers and wherein the conductor connection chambers are open on a second side of the insulator housing for assembly of the connection elements in the conductor connection chambers. The insulator housing first side is designed at a right angle to the insulator housing second side to give an busbar assembly insertion direction into a chamber at a right angle to a connection element assembly insertion direction into a conductor connection chamber.

A cover detachment prevention structure includes an outer housing provided with an opening, and a cover fitted into the outer housing by moving in a predetermined direction with respect to the outer housing and installed in the outer housing to close the opening. The cover is configured such that a force received from another object when the cover abuts on the another object is at least any one of a force directed toward the predetermined direction and a force directed toward a direction orthogonal to the predetermined direction.

This service plug (1) has a connection terminal part (49), and the connection terminal part (49) has a pair of terminals (8) and an interlinking part (9) that is tailored to the spacing between the terminals (8) and joins the terminals (8) together. By removing the connection terminal part (49) from a power-supply circuit, the power-supply circuit is interrupted. The interlinking part (9) includes one or more thin interlinking plates (20) that are removably attached to the connection terminal part (49).

This service plug (1) has a connection terminal part (49), and the connection terminal part (49) has a pair of terminals (8) and an interlinking part (9) that is tailored to the spacing between the terminals (8) and joins the terminals (8) together. By removing the connection terminal part (49) from a power-supply circuit, the power-supply circuit is interrupted. The interlinking part (9) includes one or more thin interlinking plates (20) that are removably attached to the connection terminal part (49).

A light unit includes a bulb having a light source with lead wires and a separator, a switch member that includes a support member and a pair of spring terminals, and a socket having two or more conductive terminals and adapted to receive the bulb and the switch member. The switch member is adapted to cause the pair of spring terminals to contact one another to form an electrical short circuit across the pair of conductive terminals and the light source when the bulb is completely or partially removed from the socket. The lead wires form an electrical connection across the conductive terminals and the separator breaks contact between the pair of spring terminals when the bulb is seated in the socket.

A light unit includes a bulb having a light source with lead wires and a separator, a switch member that includes a support member and a pair of spring terminals, and a socket having two or more conductive terminals and adapted to receive the bulb and the switch member. The switch member is adapted to cause the pair of spring terminals to contact one another to form an electrical short circuit across the pair of conductive terminals and the light source when the bulb is completely or partially removed from the socket. The lead wires form an electrical connection across the conductive terminals and the separator breaks contact between the pair of spring terminals when the bulb is seated in the socket.

An adapter for coupling a coaxial interface to a power conductor and method for interconnection may be provided as a body with a conductor junction dimensioned to couple with the power conductor and a mating surface dimensioned to couple with the coaxial interface. The conductor junction, an outer conductor contacting portion of the mating surface and an inner conductor contacting portion of the mating surface are electrically coupled together by the body.