Battery having current interrupting function and method for manufacturing same

The invention claimed is: 1. A method for manufacturing a battery, comprising: a step of providing a battery element assembly in which a pair of first terminals are electrically connected to a battery element; and a step of forming an outer package using a flexible outer package material by partitioning the outer package into a first chamber that seals the battery element and one or two second chambers adjacent to the first chamber, leading out one or two second terminals from the second chamber to an outside of the outer package so that at least one of the pair of first terminals is made connectable to an external wiring via the second chamber, and sealing the second chamber with a gas generating material that generates a gas in the second chamber to expand the second chamber at a predetermined temperature or higher, and wherein the gas generating material is a metal hydrate or a liquid material containing water. 2. The method for manufacturing a battery according to claim 1 , wherein the step of forming the outer package comprises disposing one terminal of the pair of the first terminals and one terminal of the second terminals so that an electrical connection is interrupted by inflation of the second chamber. 3. The method for manufacturing a battery according to claim 2 , wherein the step of forming the outer package comprises forming the second chamber so as to inflate to thereby expand in a terminal direction which is a direction in which one terminal of the second terminals is led out. 4. The method for manufacturing a battery according to claim 2 , wherein the step of forming the outer package comprises forming the second chamber so as to inflate in a thickness direction of the second chamber. 5. The method for manufacturing a battery according to claim 4 , wherein the step of forming the outer package comprises bonding one terminal of the pair of the first terminals to a first side in the second chamber of the outer package and bonding one terminal of the second terminals to a second side in the second chamber, wherein the first side and the second side face each other. 6. The method for manufacturing a battery according to claim 1 , wherein the step of forming the outer package comprises temporarily fixing one terminal of the pair of the first terminals and one terminal of the second terminals in contact with each other. 7. The method for manufacturing a battery according to claim 6 , wherein the temporary fixing comprises coating a portion where the one terminal of the pair of the first terminals and one terminal of the second terminals are in contact with each other with thermoplastic resin. 8. The method for manufacturing a battery according to claim 1 , wherein the gas generating material is the liquid material containing water. 9. The method for manufacturing a battery according to claim 1 , wherein the outer package is a laminate film. 10. A battery comprising: a battery element; a pair of first terminals electrically connected to the battery element; an outer package made of a flexible outer package material and partitioned into a first chamber to seal the battery element and one or two second chambers adjacent to the first chamber; and one or two second terminals led out from the second chamber to an outside of the outer package so that at least one of the pair of first terminals is made electrically connectable to an external wiring via the second chamber, wherein a gas generating material that generates a gas in the second chamber to expand the second chamber at a predetermined temperature or higher is sealed in the second chamber and the gas generating material has a metal hydrate or a liquid material containing water. 11. The battery according to claim 10 , wherein one terminal of the pair of the first terminals and one terminal of the second terminals, which are connected to each other in the second chamber, are arranged so that the electrical connection is interrupted when the second chamber expands. 12. The battery according to claim 11 , wherein the second chamber is configured to expand in a terminal direction which is a direction in which one terminal of the second terminals is led out when the second chamber inflates. 13. The battery according to claim 11 , wherein the second chamber is configured so as to inflate in a thickness direction of the second chamber. 14. The battery according to claim 13 , wherein in the second chamber, one terminal of the pair of the first terminals is bonded to a first inner surface of the outer package material, one terminal of the second terminals is bonded to a second inner surface of the outer package material, and the first inner surface and the second inner surface face each other. 15. The battery according to claim 11 , wherein one terminal of the pair of the first terminals and one terminal of the second terminals are temporarily fixed in contact with each other. 16. The battery according to claim 15 , wherein the portion where one terminal of the pair of the first terminals and one of the second terminals are in contact with each other is coated with thermoplastic resin, and the one terminal of the pair of the first terminals and the one of the second terminals are thereby temporarily fixed. 17. The battery according to claim 10 , wherein the gas generating material is the liquid material containing water. 18. The battery according to claim 10 , wherein the outer package is a laminate film.