Current interruption device and electrical energy storage device using the same

The invention claimed is: 1. A current interruption device configured to interrupt a conduction between an electrode terminal and an electrode when pressure in a casing of an electrical energy storage device exceeds a predetermined value, the current interruption device comprising: a first conductive member fixed to the casing; a second conductive member disposed at a position opposed to the first conductive member; a first deformable member disposed between the first conductive member and the second conductive member, an end of the first deformable member being connected to the first conductive member, a first center portion of the first deformable member being configured to be in contact with the second conductive member when the pressure in the casing is equal to or less than the predetermined value and configured to be brought out of contact with the second conductive member when the pressure in the casing exceeds the predetermined value; and a second deformable member disposed on a side opposite to the first deformable member relative to the second conductive member, a second center portion of the second deformable member being configured to be projecting to a side opposite to the second conductive member when the pressure in the casing is equal to or less than the predetermined value, and configured to move toward the second conductive member when the pressure in the casing exceeds the predetermined value, wherein a plastic deformation portion formed by plastic deformation of the second deformable member and projecting toward the second conductive member; the plastic deformation portion being provided on the second center portion of the second deformable member; the plastic deformation portion comprising a projecting part, which projects from the second deformation portion toward the second conductive member, and a top part disposed on top of the projecting part; wherein a width of the top part of the plastic deformation portion is greater than a width of any portion of the projecting part of the plastic deformation portion. 2. The current interruption device according to claim 1 , wherein an insulating cap is attached to the plastic deformation portion, and the insulating cap comprises a flange at a position corresponding to the other portion of the plastic deformation portion. 3. The current interruption device according to claim 2 , wherein the top of the plastic deformation portion comprises a flat surface. 4. An electrical energy storage device comprising: the current interruption device according to claim 3 . 5. The electrical energy storage device according to claim 4 , wherein the electrical energy storage device is a secondary battery. 6. The current interruption device according to claim 1 , wherein the top part of the plastic deformation portion comprises a flat surface. 7. An electrical energy storage device comprising: the current interruption device according to claim 1 . 8. The electrical energy storage device according to claim 7 , wherein the electrical energy storage device is a secondary battery. 9. A current interruption device configured to interrupt a conduction between an electrode terminal and an electrode when pressure in a casing of an electrical energy storage device exceeds a predetermined value, the current interruption device comprising: a first conductive member fixed to the casing; a second conductive member disposed at a position opposed to the first conductive member; a first deformable member disposed between the first conductive member and the second conductive member, an end of the first deformable member being connected to the first conductive member, a first center portion of the first deformable member being configured to be in contact with the second conductive member when the pressure in the casing is equal to or less than the predetermined value and configured to be brought out of contact with the second conductive member when the pressure in the casing exceeds the predetermined value; and a second deformable member disposed on a side opposite to the first deformable member relative to the second conductive member, a second center portion of the second deformable member being configured to be projecting to a side opposite to the second conductive member when the pressure in the casing is equal to or less than the predetermined value, and configured to move toward the second conductive member when the pressure in the casing exceeds the predetermined value, wherein a plastic deformation portion formed by plastic deformation of the second deformable member and projecting toward the second conductive member is provided on the second center portion of the second deformable member; the second conductive member comprises a breakable groove, and a top of the plastic deformation portion opposes a portion of the second conductive member surrounded by the breakable groove.