Abstract: Provided is a sealed battery that can offer excellent battery performances by having its electrode terminal and a current collector securely welded to each other, and its manufacturing method. The sealed battery is formed by hermetically sealing a casing storing an electrode assembly and the current collector, wherein: the electrode assembly formed by layering positive and negative electrode plates with a separator sandwiched therebetween is electrically connected to the current collector; and a shaft portion of the electrode terminal penetrates through the current collector. A part of the electrode terminal projecting out from a pass-through of the current collector is a (conical) frustum-shaped portion whose bottom base is in contact with the current collector. The frustum-shaped portion is pressed against the current collector, and the frustum-shaped portion and the current collector are welded together in at least one area on a perimeter of the bottom base of the frustum-shaped portion.

Abstract: A prismatic cell capable reliably inhibiting swelling of the cell is provided. The prismatic cell includes an electrode assembly having a positive electrode and a negative electrode, an electrolytic solution, and a prismatic outer casing housing the electrode assembly and the electrolytic solution. The outer casing has an inwardly depressed portion in the central portion of a side surface of the outer casing having a largest area among the four side surfaces of the prismatic outer casing. The depressed portion has at least one swelling prevention groove.

Abstract: Provided is a sealed battery that can offer excellent battery performances by having its electrode terminal and a current collector securely welded to each other, and its manufacturing method. The sealed battery is formed by hermetically sealing a casing storing an electrode assembly and the current collector, wherein: the electrode assembly formed by layering positive and negative electrode plates with a separator sandwiched therebetween is electrically connected to the current collector; and a shaft portion of the electrode terminal penetrates through the current collector. A part of the electrode terminal projecting out from a pass-through of the current collector is a (conical) frustum-shaped portion whose bottom base is in contact with the current collector. The frustum-shaped portion is pressed against the current collector, and the frustum-shaped portion and the current collector are welded together in at least one area on a perimeter of the bottom base of the frustum-shaped portion.

Abstract: To provide a non-aqueous electrolyte secondary battery adapted to prevent an internal short circuit between an positive electrode and a negative electrode caused by the penetration of electrically conductive micro particles through a separator, which occurs when winding up electrodes, and manufacturing methods of an electrode used therein, whereby the non-aqueous electrolyte secondary battery having a coiled electrode assembly is formed through the multilayer winding of an positive electrode 90 having a metallic collector 76 coated with an positive electrode mixture 78 composed of an positive electrode active material that occludes and liberates lithium ions, a negative electrode 86 having a metallic collector 82 coated with a negative electrode mixture 84, composed of a negative electrode active material that occludes and liberates lithium ions, and a separator 72 interposed between the positive electrode and the negative electrode, wherein the positive electrode 90 has an insulating layer 100 formed by mean

Abstract: An electrode plate for a secondary battery is provided for reducing adverse influences caused by paste of an insulating sheet in an electrode body and a battery specification. Active material layers 22a to 22d and 22a? to 22d? are formed on at least one surface of an electrode sheet 20 over a wider range than a predetermined width of an electrode and over a predetermined length. An insulating sheet 13a is made to adhere to a possible short-circuit portion of the electrode sheet 20 which portion is opposed to another electrode. The electrode sheet 20 and an insulating member are simultaneously cut to form an electrode plate having a predetermined shape, wherein the insulating member has a low-temperature thermoplastic paste material applied on one side thereof, and is made to adhere to the electrode sheet 20 through heat adhesion.

Abstract: A nonaqueous electrolyte battery wherein a power generating element formed by spirally winding a positive electrode plate and a negative electrode plate with a separator insulated therebetween, is accommodated in a case. Insulating tapes are adhered to end faces of the power generating element and to portions of side faces of the power generating element in the vicinities of the end faces along the winding direction of the positive electrode plate and the negative electrode plate. With this configuration, the insulating tapes are not deformed at the time when the power generating element is inserted into the case. Hence, it is possible to securely prevent a short circuit between the end faces of the power generating element and the inner faces of the case, and the permeability of the electrolytic solution is improved.

Abstract: A lithium secondary battery having improved load characteristics such as high rate discharge properties is obtained by using a mixed cathode active material comprising a mixture of lithium-containing manganese oxide having a spinel type crystal structure and lithium-containing cobalt oxide, wherein the cathode collector retains mixed cathode active material in such a manner that the mixing ratio of lithium cobaltate X thereof should fall in a range of 0.1≦X≦0.9, that the bulk density Y (g/cm3) of the cathode mixed agent should be confined in a range satisfying the relation of 0.5X+2.7≦Y≦0.6X+3.3, and that the mean particle diameter of spinel type lithium manganate should be greater than the mean particle diameter of lithium cobaltate.

Abstract: To provide a non-aqueous electrolyte secondary battery adapted to prevent an internal short circuit between an positive electrode and a negative electrode caused by the penetration of electrically conductive micro particles through a separator, which occurs when winding up electrodes, and manufacturing methods of an electrode used therein, whereby the non-aqueous electrolyte secondary battery having a coiled electrode assembly is formed through the multilayer winding of an positive electrode 90 having a metallic collector 76 coated with an positive electrode mixture 78 composed of an positive electrode active material that occludes and liberates lithium ions, a negative electrode 86 having a metallic collector 82 coated with a negative electrode mixture 84, composed of a negative electrode active material that occludes and liberates lithium ions, and a separator 72 interposed between the positive electrode and the negative electrode, wherein the positive electrode 90 has an insulating layer 100 formed by mean

Abstract: An electrode plate for a secondary battery is provided for reducing adverse influences caused by paste of an insulating sheet in an electrode body and a battery specification. Active material layers 22a to 22d and 22a′ to 22d′ are formed on at least one surface of an electrode sheet 20 over a wider range than a predetermined width of an electrode and over a predetermined length. An insulating sheet 13a is made to adhere to a possible short-circuit portion of the electrode sheet 20 which portion is opposed to another electrode. The electrode sheet 20 and an insulating member are simultaneously cut to form an electrode plate having a predetermined shape, wherein the insulating member has a low-temperature thermoplastic paste material applied on one side thereof, and is made to adhere to the electrode sheet 20 through heat adhesion.

Abstract: A lithium secondary battery of a structure insusceptible to an internal short circuit between a cathode and an anode is provided by adopting a configuration as would prevent occurrence of a short circuit between the cathode and anode even when the spiral electrode group is compression molded. The lithium secondary battery of the invention has a spiral electrode group “a” that is wound about such that its sectional shape is in the form of an ellipse having a pair of straight-line parts and curvilinear parts, comprising a cathode and an anode disposed so as to oppose the cathode with a separator sandwiched therebetween, inside a square-shaped outer case.

Abstract: A lithium secondary battery having improved load characteristics such as high rate discharge properties is obtained by using a mixed cathode active material comprising a mixture of lithium-containing manganese oxide having a spinel type crystal structure and lithium-containing cobalt oxide, wherein the cathode collector retains mixed cathode active material in such a manner that the mixing ratio of lithium cobaltate X thereof should fall in a range of 0.1≦X≦0.9, that the bulk density Y (g/cm3) of the cathode mixed agent should be confined in a range satisfying the relation of 0.5X+2.7≦Y≦0.6X+3.3, and that the mean particle diameter of spinel type lithium manganate should be greater than the mean particle diameter of lithium cobaltate.