Electrode assembly and method of manufacturing electrode assembly

The invention claimed is: 1. An electrode assembly comprising: positive electrode plates, each of which includes a front positive electrode active material layer provided on a front surface of a positive electrode metal foil and a rear positive electrode active material layer provided on a rear surface of the positive electrode metal foil; negative electrode plates, each of which includes a front negative electrode active material layer provided on a front surface of a negative electrode metal foil and a rear negative electrode active material layer provided on a rear surface of the negative electrode metal foil; and separators, each of which is interposed between each of the positive electrode plates and each of the negative electrode plates, wherein the front positive electrode active material layer has a positive electrode large tapered portion that extends at an incline from one edge of the front surface of the positive electrode metal foil to an inner side of the positive electrode plate at a positive electrode large inclination angle, wherein the rear positive electrode active material layer has a positive electrode small tapered portion that extends at an incline from one edge of the rear surface of the positive electrode metal foil to the inner side of the positive electrode plate at a positive electrode small inclination angle, which is smaller than the positive electrode large inclination angle, wherein the front negative electrode active material layer has a negative electrode large tapered portion that at an incline from one edge of the front surface of the negative electrode metal foil to an inner side of the negative electrode plate at a negative electrode large inclination angle, wherein the rear negative electrode active material layer has a negative electrode small tapered portion that extends at an incline from one edge of the rear surface of the negative electrode metal foil to the inner side of the negative electrode plate at a negative electrode small inclination angle, which is smaller than the negative electrode large inclination angle, wherein the positive electrode plates and the negative electrode plates are alternately laminated with the separator or separators interposed therebetween such that the front surface of the positive electrode plates having the positive electrode large tapered portion and the front surface of the negative electrode plates having the negative electrode large tapered portion are oriented in the same direction in a rear-to-front directional axis along a thickness of the positive electrode plates and the negative electrode plates, wherein one of the positive electrode plates or the negative electrode plates constitutes an electrode plate unit enveloped by a separator forming a bag shape with the separator having a larger surface area than that of the one of the positive electrodes or negative electrode plates, wherein the positive electrode large inclination angle is set to be smaller than the negative electrode large inclination angle in the case where one of the positive electrode plates constitutes the electrode plate unit, and wherein the negative electrode large inclination angle is set to be smaller than the positive electrode large inclination angle in the case where one of the negative electrode plates constitutes the electrode plate unit. 2. The electrode assembly of claim 1 wherein the separator is made in one piece, wherein the surface area of the positive electrode metal foil is smaller than the surface area of the negative electrode metal foil, and wherein the positive electrode large inclination angle is set to be smaller than the negative electrode large inclination angle. 3. The electrode assembly of claim 1 , wherein each of the front negative electrode active material layers and each of the rear negative electrode active material layers is covered with a heat-resistant layer, wherein the negative electrode large tapered portion extends linearly from the front negative electrode active material layer to the heat-resistant layer, and wherein the front negative electrode active material layer is exposed and not covered by the heat-resistant layer at the negative electrode large tapered portion. 4. The electrode assembly of claim 1 , wherein the separator is made in one piece as a flat sheet with a surface area larger than or equal to that of both the positive and negative electrode plates, wherein the surface area of the positive electrode metal foil is smaller than the surface area of the negative electrode metal foil, and wherein the positive electrode large inclination angle is set to be smaller than the negative electrode large inclination angle. 5. A method for manufacturing an electrode assembly including positive electrode plates, negative electrode plates and separators interposed between the positive electrode plates and negative electrode plates, wherein each of the positive electrode plates includes a front positive electrode active material layer and a rear positive electrode active material layer provided respectively on a front surface or rear surface of a positive electrode metal foil, wherein each of the negative electrode plates includes a front negative electrode active material layer and a rear negative electrode active material layer provided respectively on a front surface or rear surface of a negative electrode metal foil, the method comprising steps of: preparing a positive electrode base sheet and a negative electrode base sheet, wherein the positive electrode base sheet is coated with the front positive electrode active material layer and the rear positive electrode active material layer on each of the front and rear surfaces, respectively, of a strip-shaped positive electrode metal foil, wherein the negative electrode base sheet is coated with the front negative electrode active material layer and the rear negative electrode active material layer on each of the front and rear surfaces, respectively, of a strip-shaped negative electrode metal foil; irradiating the positive electrode base sheet with a laser beam from the front positive electrode active material layer through to the rear positive electrode active material layer to cut out the positive electrode plate from the positive electrode base sheet and to form a positive electrode large tapered portion which extends at an incline from one edge of a front surface of the positive electrode metal foil of the positive electrode plate to an inner side of the positive electrode plate at a positive electrode large inclination angle on the front positive active material layer, and further to form a positive electrode small tapered portion on the rear positive electrode active material layer, which extends at an incline from one edge of a rear surface of the positive electrode metal foil of the positive electrode plate to an inner side of the positive electrode plate at a positive electrode small inclination angle, which is smaller than the positive electrode large inclination angle; irradiating the negative electrode base sheet with a laser beam from the front negative electrode active material layer through to the rear negative electrode active material layer to cut out the negative electrode plate from the negative electrode base sheet and to form a negative electrode large tapered portion which extends at an incline from one edge of a front surface of the negative electrode metal foil of the negative electrode plate to an inner side of the negative electrode plate at a negative electrode large inclination angle on the front negative active layer, and further to form a negative electrode small tapered portion on the rear negative electrode active material layer, which extends at an incline from one edge of a rear surface of the negative electrode metal foil of the negative