A method of manufacturing a secondary battery including an electrode body element fabricating step in which a first electrode body element including a positive electrode plate and a negative electrode plate, and a second electrode body element including a positive electrode plate and a negative electrode plate are fabricated, a tab-connecting step in which a first positive electrode tab group of the first electrode body element and a second positive electrode tab group of the second electrode body element are connected to a second positive electrode collector, and a first negative electrode tab group of the first electrode body element and a second negative electrode tab group of the second electrode body element are connected to a second negative electrode collector, and an electrode body fabricating step in which, after the tab-connecting step, the first electrode body element and the second electrode body element are unified.

A method of manufacturing a secondary battery including an electrode body element fabricating step in which a first electrode body element including a positive electrode plate and a negative electrode plate, and a second electrode body element including a positive electrode plate and a negative electrode plate are fabricated, a tab-connecting step in which a first positive electrode tab group of the first electrode body element and a second positive electrode tab group of the second electrode body element are connected to a second positive electrode collector, and a first negative electrode tab group of the first electrode body element and a second negative electrode tab group of the second electrode body element are connected to a second negative electrode collector, and an electrode body fabricating step in which, after the tab-connecting step, the first electrode body element and the second electrode body element are unified.

A cylindrical secondary battery may have an insulation layer formed in a region in which the top cap and the first gasket are coupled to each other. The insulation layer may include a ceramic material and a binder. The secondary battery is designed so that, when an external electrical conductive object is electrically connected directly to a positive electrode and a negative electrode of the secondary battery, an electrode tab of the secondary battery is broken as quickly as possible.

A power storage device includes an electrode assembly including a positive-electrode plate and a negative-electrode plate stacked with a separator interposed between the positive-electrode plate and the negative-electrode plate, an exterior can accommodating the electrode assembly and an electrolyte solution, and including a side wall portion having a tubular shape and an opening provided at least at one end of the side wall portion, and a sealing plate that closes the opening of the exterior can. The sealing plate is joined to the opening at a joint. Each of a pair of long walls of the side wall portion facing each other in a depth direction includes a thin part extending in a width direction.

A power storage device includes an electrode assembly including a positive-electrode plate and a negative-electrode plate stacked with a separator interposed between the positive-electrode plate and the negative-electrode plate, an exterior can accommodating the electrode assembly and an electrolyte solution, and including a side wall portion having a tubular shape and an opening provided at least at one end of the side wall portion, and a sealing plate that closes the opening of the exterior can. The sealing plate is joined to the opening at a joint. Each of a pair of long walls of the side wall portion facing each other in a depth direction includes a thin part extending in a width direction.

A rechargeable battery includes: an electrode assembly including a first electrode, a second electrode, and a separator disposed between the first electrode and the second electrode; a case that is connected to the first electrode to accommodate the electrode assembly and includes an opening exposing the electrode assembly; a cap plate configured to be coupled with the case to cover an outer area of the opening, and configured to include a through-hole exposing a central area of the opening; and a terminal plate that is insulation-bonded to the cap plate to cover the through-hole and is connected to the second electrode, wherein the terminal plate includes a first plate and a second plate.

A laser cutting apparatus includes a lower jig configured to support a lower portion of a first side of a cutting region of an object to be cut by a laser beam, an upper jig configured to support an upper portion of the first side of the cutting region of the object, a laser nozzle configured to emit the laser beam towards the cutting region of the object, and a spatter block jig locatable between a body part of the object and the cutting region of the object.

A secondary battery includes a battery can and a cover member. The battery can has a container-shaped structure and contains a battery device inside. The cover member is attached to an open surface of the battery can via a gasket. The cover member includes stainless steel coated with nickel plating. The nickel plating has a crystal structure in which a proportion of columnar crystals is greater than or equal to 80%.

A button-type secondary battery includes an electrode assembly in which electrodes and a separator are layered and wound, electrode tabs having different polarities protrude from top and bottom surfaces of the electrode assembly, respectively; a can including a bottom part with the electrode assembly disposed thereon and connected to one electrode tab, and a sidewall vertically extending along a circumference of the bottom part around the electrode assembly; and a top cap assembly with a terminal part connected to the other electrode tab and a plate coupled to be insulated from the terminal part and having an edge coupled to an upper end of the sidewall such that the top cap assembly is coupled to the can to close the can. An end of an edge of the plate is welded to be coupled after being seated on a point that meets the upper end of the sidewall.

In an embodiment, a battery includes a container, a lid member, an electrode group, an electrode terminal and an electrode group retainer. The lid member is attached to a peripheral wall of the container with an opening of an inner cavity being closed. The electrode terminal is electrically connected to the current collecting tab. The electrode group retainer is arranged between the electrode group and the lid member. A proximity plate portion of the electrode group retainer is close to the electrode group from a side where the lid member is located and forms a space between the lid member and thereof. A facing surface of the proximity plate portion is formed to have a shape that is along an outer surface of an end portion of the electrode group on a side where the lid member is located.