Prismatic secondary battery

The invention claimed is: 1. A prismatic secondary battery, comprising: an electrode group including electrodes formed of positive and negative electrodes each having an active material layer coated on a surface of a metallic foil, the electrodes formed of positive and negative electrodes being flatly wound together with a separator intervening the positive and negative electrodes, the positive and negative electrodes being each formed with a metallic foil exposed section at one end in a direction of a winding axis; and a connection plate that electrically connects the electrode group and electrode terminals, wherein: the metallic foil exposed sections of the electrode group are press-joined to the connection plates; at least a portion of the press-joined sections constituted by the metallic foil exposed sections and the connection plates is covered with a resin material; and an interior surface of the resin material is in planar contact with a surface of the connection plate and wherein the connection plate directly contacts an adjacent metallic foil exposed section. 2. The prismatic secondary battery according to claim 1 , further comprising: a metal plate located on a surface of the metallic foil exposed sections, the surface being opposed to a surface to which the connection plate is connected, wherein: while the metallic foil exposed section is being held in a sandwiched condition between the connection plate and the metal plate, the connection plate, the metallic foil exposed section, and the metal plate are press-joined; and the press-joined section includes the connection plate, the metallic foil exposed section, and the metal plate. 3. The prismatic secondary battery according to claim 1 , wherein the resin material is formed from at least one selected from the group formed of plastic pressure sensitive adhesive tapes, plastic pressure sensitive adhesives, and hot-melt resin adhesives. 4. The prismatic secondary battery according to claim 1 , wherein: the metallic foil exposed sections and the connection plates are press-joined with respective planar sections abutting one another at respective surfaces; and at each of the press-joined sections constituted by the metallic foil exposed sections and the connection plates, the resin material covers a surface opposed to a surface of the planar section of the metallic foil exposed section and/or a surface opposed to a surface of the planar section of the connection plate. 5. The prismatic secondary battery according to claim 2 , wherein: the connection plate, the metallic foil exposed section, and the metal plate are press-joined with respective planar sections abutting each other at respective surfaces; and at the press-joined section constituted by the connection plate, the metallic foil exposed section, and the metal plate, the resin material covers a surface opposed to a surface of the planar section of the connection plate and/or a surface opposed to a surface of the planar section of the metal plate. 6. The prismatic secondary battery according to claim 1 , wherein the resin material covers at least a portion of those edges of the metallic foil exposed sections that lie in the direction of the winding axis. 7. The prismatic secondary battery according to claim 2 , wherein the connection plate and the metal plate directly contact opposing surfaces of an adjacent metallic foil exposed section, and the resin material is in direct contact with surfaces of the connection plate and the metal plate that are opposite from the surfaces that directly contact the adjacent metallic foil exposed section. 8. The prismatic secondary battery according to claim 1 , wherein the resin material is formed from hot-melt resin adhesives.