Prismatic secondary battery

What is claimed is: 1. A plurality of prismatic secondary batteries connected in series or parallel comprising: a prismatic hollow outer body having a mouth and a bottom; an electrode assembly including a positive electrode sheet and a negative electrode sheet, a positive electrode collector electrically connected to the positive electrode sheet, a negative electrode collector electrically connected to the negative electrode sheet, and an electrolyte, all being stored in the prismatic hollow outer body; a sealing plate sealing up the mouth of the prismatic hollow outer body; and a positive electrode terminal and a negative electrode terminal attached to the sealing plate in a manner electrically insulated from the sealing plate, while electrically connected to the positive electrode collector and the negative electrode collector, respectively, on the sealing plate, the positive electrode terminal being fixed on one end side in a longitudinal direction of the sealing plate and the negative electrode terminal being fixed on the other end side, the gas release valve and an electrolyte pour hole being formed in the sealing plate between the positive electrode terminal and the negative electrode terminal, the sealing plate including a front face having an identification code formed on a side opposite to a side having the electrolyte pour hole with respect to the gas release valve in a longitudinal direction of the sealing plate; wherein each of said plurality of prismatic secondary batteries has a unique identification code, and wherein the front face of the sealing plate is provided with a concaved flat face formed on the side opposite to the side having the electrolyte pour hole with respect to the gas release valve in the longitudinal direction of the sealing plate, the concaved flat face has a height less than that of the peripheral portions of the concaved flat face, and the identification code is formed on the concaved flat face. 2. The plurality of prismatic secondary batteries according to claim 1 , wherein the sealing plate includes a back face having a convex portion at a position corresponding to the concaved flat face. 3. The plurality of prismatic secondary batteries according to claim 2 , wherein an additional identification code is applied on at least one side adjacent to the convex portion in the longitudinal direction of the sealing plate. 4. The plurality of prismatic secondary batteries according to claim 3 , wherein the additional identification code is formed at a position opposite to the gas release valve with respect to the convex portion. 5. The plurality of prismatic secondary batteries according to claim 1 , wherein the gas release valve is formed at the center between the positive electrode terminal and the negative electrode terminal. 6. The plurality of prismatic secondary batteries according to claim 1 , wherein the electrolyte pour hole is sealed by a sealing plug, the sealing plug is fitted to the electrolyte pour hole so as to pass through the electrolyte pour hole and to protrude beyond both the front face and the back face of the sealing plate. 7. The plurality of prismatic secondary batteries according to claim 6 , wherein the sealing plug is a blind rivet. 8. A prismatic secondary battery comprising: a prismatic hollow outer body having a mouth and a bottom; an electrode assembly including a positive electrode sheet and a negative electrode sheet, a positive electrode collector electrically connected to the positive electrode sheet, a negative electrode collector electrically connected to the negative electrode sheet, and an electrolyte, all being stored in the prismatic hollow outer body; and a sealing plate sealing up the mouth of the prismatic hollow outer body, a gas release valve and an electrolyte pour hole being formed in the sealing plate, the sealing plate including a front face having an identification code formed on a side opposite to a side having the electrolyte pour hole with respect to the gas release valve in a longitudinal direction of the sealing plate, wherein the front face of the sealing plate is provided with a concaved flat face formed on the side opposite to the side having the electrolyte pour hole with respect to the gas release valve in the longitudinal direction of the sealing plate, the concaved flat face has a height less than that of the peripheral portions of the concaved flat face, and the identification code is formed on the concaved flat face. 9. The plurality of prismatic secondary batteries according to claim 8 , wherein the sealing plate includes a back face having a convex portion at a position corresponding to the concaved flat face. 10. The plurality of prismatic secondary batteries according to claim 9 , wherein an additional identification code is applied on at least one side adjacent to the convex portion in the longitudinal direction of the sealing plate. 11. The plurality of prismatic secondary batteries according to claim 10 , wherein the additional identification code is formed at a position opposite to the gas release valve with respect to the convex portion. 12. The plurality of prismatic secondary batteries according to claim 8 , wherein said plurality of prismatic secondary batteries are connected in series or parallel. 13. The plurality of prismatic secondary batteries according to claim 12 , wherein in each of the plurality of prismatic secondary batteries, the front face of the sealing plate is provided with a concaved flat face formed on the side opposite to the side having the electrolyte pour hole with respect to the gas release valve in the longitudinal direction of the sealing plate, and the concaved flat face has a height less than that of the peripheral portions of the concaved flat face, and the identification code is formed on the concaved flat face. 14. A prismatic secondary battery comprising: a prismatic hollow outer body having a mouth and a bottom; an electrode assembly including a positive electrode sheet and a negative electrode sheet, a positive electrode collector electrically connected to the positive electrode sheet, a negative electrode collector electrically connected to the negative electrode sheet, and an electrolyte, all being stored in the prismatic hollow outer body; and a sealing plate sealing up the mouth of the prismatic hollow outer body, a gas release valve and an electrolyte pour hole being formed in the sealing plate, the sealing plate including a front face having an identification code formed on a side opposite to a side having the electrolyte pour hole with respect to the gas release valve in a longitudinal direction of the sealing plate; wherein the identification code is unique from other identification codes of other prismatic secondary batteries, wherein the front face of the sealing plate is provided with a concaved flat face formed on the side opposite to the side having the electrolyte pour hole with respect to the gas release valve in the longitudinal direction of the sealing plate, and wherein the concaved flat face has a height less than that of the peripheral portions of the concaved flat face, and the identification code is formed on the concaved flat face. 15. The prismatic secondary battery according to claim 14 , wherein the sealing plate includes a back face having a convex portion at a position corresponding to the concaved flat face. 16. The prismatic secondary battery according to claim 15 , wherein an additional identification code is applied on at least one side adjacent to the convex portion in the longitudinal direction of the se