A battery is provided in which a reliability of the caulked part vicinity of the terminal is suitably enhanced. One suitable embodiment of the battery herein disclosed includes a negative electrode electrical collector part includes a penetration hole into which the negative electrode terminal is inserted, and the penetration hole includes a taper part including an inclination for making an inner diameter become gradually larger along the insertion direction. Here, the negative electrode terminal is caulked on the taper part in a state of being arranged in the penetration hole, an outer circumference smoothing part including a step difference is formed at the outer circumferential edge on the caulked part, and a join part exists at which the outer circumference smoothing part and the edge part of the penetration hole are joined.

A battery is provided in which a reliability of the caulked part vicinity of the terminal is suitably enhanced. One suitable embodiment of the battery herein disclosed includes a negative electrode electrical collector part includes a penetration hole into which the negative electrode terminal is inserted, and the penetration hole includes a taper part including an inclination for making an inner diameter become gradually larger along the insertion direction. Here, the negative electrode terminal is caulked on the taper part in a state of being arranged in the penetration hole, an outer circumference smoothing part including a step difference is formed at the outer circumferential edge on the caulked part, and a join part exists at which the outer circumference smoothing part and the edge part of the penetration hole are joined.

An electrode plate which is to be contained in a wound or multilayer electrode body, and which is provided with: a band-like electrode plate core body; mixture layers that are formed on both surfaces of the electrode plate core body; and a tab that extends from one end of the electrode plate core body in the short-side direction. With respect to this electrode plate, the front edge of the electrode plate core body at the end from which the tab extends is covered by the mixture layers.

Disclosed herein is a method for manufacturing an electrode lead. The method may include manufacturing each of a first electrode lead and a second electrode lead, bonding the first electrode lead to the second electrode lead form a connection part. Manufacturing the first electrode lead may include unwinding a first metal plate from a first metal reel, attaching a first tape to perform masking on a first connection area to form the connection part, plating and surface treating on the first metal plate, and removing the first tape. Manufacturing the second electrode lead may include unwinding a second metal plate from a second metal reel, attaching a second tape to perform masking on a second connection area to form the connection part, plating and surface treating the second metal plate, and removing the second tape.

A terminal component disclosed here includes a first metal and a second metal on which the first metal is overlaid. A joint portion joined by metal diffusion is formed at an interface between the first metal and the second metal. The second metal includes an insulating portion subjected to an insulating process in a portion except for the joint portion.

A terminal component disclosed here includes a first metal and a second metal on which the first metal is overlaid. A joint portion joined by metal diffusion is formed at an interface between the first metal and the second metal. The second metal includes an insulating portion subjected to an insulating process in a portion except for the joint portion.

A battery cell includes a first power tab and a first conducting wire. The first power tab may include a proximal end connected to the battery cell, and may provide a first output terminal for the battery cell. The first conducting wire may be connected to a distal end of the first power tab, and may be encircled by the first power tab. The first conducting wire may connect with a power circuit board to provide power from the battery cell.

A battery cell includes a first power tab and a first conducting wire. The first power tab may include a proximal end connected to the battery cell, and may provide a first output terminal for the battery cell. The first conducting wire may be connected to a distal end of the first power tab, and may be encircled by the first power tab. The first conducting wire may connect with a power circuit board to provide power from the battery cell.

A terminal component disclosed herein includes a first metal and a second metal stacked on the first metal. On the first metal, nickel is plated at least on a boundary surface with the second metal. A joining portion joined by diffusion of the metals is formed in a portion of a boundary between the first metal and the second metal.

A negative-electrode terminal that is secured to a sealing plate is connected to a first negative-electrode current collector. A negative-electrode tab that is connected to the negative-electrode sheet is connected to a second negative-electrode current collector. The first negative-electrode current collector and the second negative-electrode current collector are disposed along the sealing plate. The second negative-electrode current collector has an opening. The second negative-electrode current collector is disposed on the first negative-electrode current collector such that the opening faces the first negative-electrode current collector. The second negative-electrode current collector is welded to the first negative-electrode current collector around the opening.