Current interruption device and electricity storage device including the same

What is claimed is: 1. A current interruption device accommodated in a casing and configured to switch between a conductive state where an electrode assembly accommodated in the casing and an electrode terminal provided on the casing are electrically connected and a non-conductive state where the electrode assembly and the electrode terminal are electrically disconnected, the current interruption device comprising: a conductive plate configured to be electrically connected to the electrode assembly; and a first deformable plate disposed to face the conductive plate and configured to be electrically connected to the electrode terminal, wherein the conductive plate includes a center portion and a peripheral portion surrounding the center portion, the first deformable plate is configured to make contact with and be electrically connected to the conductive plate at the center portion in the conductive state, and the first deformable plate is configured to be separated from and be electrically disconnected from the conductive plate in the non-conductive state, an upper surface of the center portion of the conductive plate has a planar shape spreading in a first direction and a second direction orthogonal to the first direction in the conductive state, the peripheral portion of the conductive plate includes an inclined portion extending outward from a boundary between the center portion and the peripheral portion, and when the conductive plate and the first deformable plate are viewed along the first direction or the second direction in the conductive state, an upper surface of the inclined portion is inclined such that a distance from the upper surface of the inclined portion to the first deformable plate increases at portions of the upper surface of the inclined portion that are located farther away from the center portion. 2. The current interruption device according to claim 1 , wherein a member which applies biasing force to the first deformable plate is not interposed between the conductive plate and the first deformable plate. 3. The current interruption device according to claim 1 , wherein only air in the casing is present between the inclined portion of the conductive plate and the first deformable plate. 4. The current interruption device according to claim 1 , wherein the conductive plate breaks at between the center portion and the peripheral portion of the conductive plate when the current interruption device is switched from the conductive state to the non-conductive state, and the center portion moves together with the first deformable plate. 5. The current interruption device according to claim 1 , wherein the first deformable plate includes a contact portion which makes contact with the center portion of the conductive plate in the conductive state, and a first facing portion which faces the inclined portion of the conductive plate, and when the conductive plate and the first deformable plate are viewed along the first direction or the second direction in the conductive state, a lower surface of the first facing portion of the first deformable plate is inclined such that a distance from the lower surface of the first facing portion of the first deformable plate to the inclined portion of the conductive plate increases at portions of the lower surface of the first facing portion that are located farther away from the contact portion of the first deformable plate. 6. The current interruption device according to claim 1 , wherein a thickness of the conductive plate is constant at the inclined portion. 7. The current interruption device according to claim 1 , further comprising: a second deformable plate disposed on an opposite side to the first deformable plate with respect to the conductive plate and provided with a protrusion protruding toward the center portion of the conductive plate, wherein the second deformable plate is configured to be switched between a first state in which the protrusion is located at a first position and the first deformable plate is in contact with the conductive plate in the conductive state, and a second state in which the protrusion is moved from the first position to a second position on a conductive plate side and separates the first deformable plate from the conductive plate. 8. The current interruption device according to claim 7 , wherein the second deformable plate includes a central portion including the protrusion and a second facing portion facing the inclined portion of the conductive plate in the conductive state, when the conductive plate and the second deformable plate are viewed along the first direction or the second direction in the conductive state, an upper surface of the second facing portion of the second deformable plate is inclined such that a distance from the upper surface of the second facing portion of the second deformable plate to the inclined portion of the conductive plate decreases at portions of the upper surface of the second facing portion that are located farther away from the central portion in the second deformable plate, and an angle formed by a lower surface of the inclined portion and a lower surface of the center portion is smaller than an angle formed by an upper surface of the central portion and the upper surface of the second facing portion. 9. An electricity storage device comprising: the current interruption device according to claim 1 .