Bipolar secondary battery

The invention claimed is: 1. A bipolar secondary battery, comprising: a battery main body including one laminated body or a plurality of laminated bodies connected in series, the laminated body comprising a plurality of bipolar electrodes and electrolyte layers laminated alternately in a lamination direction, the bipolar electrode comprising a plate-like current collector, a positive electrode active material layer arranged on one surface of the current collector and a negative electrode active material layer arranged on another surface of the current collector; a case formed of a sheet-like case member and housing the battery main body; a positive electrode current collecting plate having one surface joined to an inner peripheral surface of the case and another surface joined to one end of the battery main body, the positive electrode current collecting plate extending to an outside of the case; a negative electrode current collecting plate having one surface joined to the inner peripheral surface of the case and another surface joined to another end of the battery main body, the negative electrode current collecting plate extending to an outside of the case; and a cutoff mechanism configured to cut off an electrical connection between the positive electrode current collecting plate and the negative electrode current collecting plate by exerting a tensile load there-between in response to an expansion deformation of the case, wherein the positive electrode current collecting plate and the negative electrode current collecting plate are on opposite ends of the battery main body in the lamination direction, and wherein the cutoff mechanism comprises a folded portion constituted by the case member bent in inward and outward directions of the case and configured to unfold and expand the case primarily in the lamination direction according to a gas pressure increase in the case. 2. The bipolar secondary battery as defined in claim 1 , wherein the cutoff mechanism is configured by setting a peel strength between the positive electrode current collecting plate and the inner peripheral surface of the case and a peel strength between the negative electrode current collecting plate and the inner peripheral surface of the case to be higher than at least one of a peel strength between the positive electrode current collecting plate and the battery main body, a peel strength between the negative electrode current collecting plate and the battery main body and a peel strength between the plurality of laminated bodies. 3. The bipolar secondary battery as defined in claim 1 , wherein the inner peripheral surface of the case and the positive electrode current collecting plate, the inner peripheral surface of the case and the negative electrode current collecting plate, the positive electrode current collecting plate and the one end of the battery main body and the negative electrode current collecting plate and the another end of the battery main body are respectively joined by bonding. 4. The bipolar secondary battery as defined in claim 1 , wherein either one of the positive electrode current collecting plate and the negative electrode current collecting plate comprises a folded portion constituted by the positive electrode current collecting plate or the negative electrode current collecting plate bent in the inward and outward directions of the case. 5. The bipolar secondary battery as defined in claim 1 , wherein the case is formed of a laminated film in which a metal foil is covered with a synthetic resin film. 6. The bipolar secondary battery as defined in claim 1 , wherein the electrolyte layers contain an organic solvent that gasifies with an increase in temperature. 7. The bipolar secondary battery as defined in claim 1 , further comprising an inflator that produces a gas inside the case in response to a command input from outside the case.