Stacked battery

What is claimed is: 1. A stacked battery comprising: a stack comprising at least one short-circuit current shunt part and a plurality of electric elements which are stacked; and a constraining member that applies a constraint pressure to the stack, wherein the short-circuit current shunt part comprises a first current collector layer, a second current collector layer, and an insulating layer provided between the first and second current collector layers, all of these layers being stacked, the first current collector layer being electrically insulated from the second current collector layer via the insulating layer during operation of the stacked battery, the short-circuit current shunt part is arranged on an outer side of the stack when viewed in a direction of stacking the short-circuit current shunt part and the plurality of electric elements, each of the electric elements comprises a cathode current collector layer, a cathode material layer, an electrolyte layer, an anode material layer, and an anode current collector layer, all of these layers being stacked, the first current collector layer is electrically connected with the cathode current collector layer, the second current collector layer is electrically connected with the anode current collector layer, the constraining member applies the constraint pressure at least to the short-circuit current shunt part in a direction of stacking the layers in the short-circuit current shunt part, and a melting point or a glass transition temperature of material that constitutes the insulating layer of the short-circuit current shunt part is higher than a temperature at which the battery can be normally used, and lower than a temperature at which the battery deteriorates. 2. The stacked battery according to claim 1 , wherein the battery is a sulfide solid-state battery. 3. The stacked battery according to claim 2 , wherein the electrolyte layer contains Li 2 S—P 2 S 5 —LiI—LiBr as a sulfide solid electrolyte. 4. The stacked battery according to claim 1 , wherein the constraint pressure that the constraining member applies is no less than 7.5 MPa. 5. The stacked battery according to claim 1 , wherein the material that constitutes the insulating layer is polyethylene. 6. The stacked battery according to claim 1 , wherein a plurality of the electric elements are electrically connected with each other in parallel. 7. The stacked battery according to claim 1 , wherein the following directions are the same: the direction of stacking the first current collector layer, the insulating layer, and the second current collector layer in the short-circuit current shunt part, a direction of stacking the cathode current collector layer, the cathode material layer, the electrolyte layer, the anode material layer, and the anode current collector layer in each of the electric elements, a direction of stacking the short-circuit current shunt part and the electric elements in the stack, and a direction of applying the constraint pressure to the stack by the constraining member. 8. The stacked battery according to claim 1 , wherein the melting point or the glass transition temperature of the material that constitutes the insulating layer of the short-circuit current shunt part is less than or equal to 145° C.