Insulation failure inspecting apparatus, insulation failure inspecting method using same, and method for manufacturing electrochemical cell

The invention claimed is: 1. An insulation failure inspecting apparatus for inspecting whether or not there is an insulation failure in an electrochemical cell, wherein the electrochemical cell includes: an electrochemical cell main body including: a positive electrode that is composed of a positive electrode active material and a positive electrode current collector provided with a first metal terminal at an end portion thereof; a negative electrode that is composed of a negative electrode active material and a negative electrode current collector provided with a second metal terminal at an end portion thereof; and an electrolyte filled between the positive electrode and the negative electrode; and an outer packaging body made of a packaging material formed by sequentially laminating at least a metal foil layer and a heat-sealable resin layer, the insulation failure inspecting apparatus comprising: a voltage generation unit operable to apply an impulse voltage—between the first metal terminal and the metal foil layer or between the second metal terminal and the metal foil layer; and a voltage measurement unit operable to measure temporal change in a voltage held in the electrochemical cell after the impulse voltage stops being applied. 2. The insulation failure inspecting apparatus according to claim 1 , wherein the impulse voltage applied by the voltage generation unit is 10 volts or less. 3. An insulation failure inspecting method for inspecting whether or not there is an insulation failure in an electrochemical cell, wherein the electrochemical cell includes: an electrochemical cell main body including: a positive electrode that is composed of a positive electrode active material and positive electrode current collector provided with a first metal terminal at an end portion thereof; a negative electrode that is composed of a negative electrode active material and a negative electrode current collector provided with a second metal terminal at an end portion thereof; an electrolyte filled between the positive electrode and the negative electrode; and an outer packaging body made of a packaging material formed by sequentially laminating at least a metal foil layer and a heat-sealable resin layer, using an insulation inspection apparatus comprising a voltage generation unit operable to apply an impulse voltage—between the first metal terminal and the metal foil layer or between the second metal terminal and the metal foil layer; and a voltage measurement unit operable to measure temporal change in a voltage held in the electrochemical cell after the impulse voltage stops being applied, the method comprising (a) applying an impulse voltage between the first metal terminal and the metal foil layer or between the second metal terminal and the metal foil layer, and (b) measuring temporal change in a voltage held in the electrochemical cell after the impulse voltage stops being applied. 4. A method according to claim 3 , wherein the method further comprises in (a) applying first impulse voltage of about 1000 V for 90 milliseconds; followed by the measuring step (b); (c) repeating step (a) but applying a second impulse voltage of 10 V or less; and (d) repeating a measuring step (b) after step (c). 5. An insulation failure inspecting method for inspecting, using the inspection failure inspecting apparatus according to claim 2 , whether or not there is an insulation failure in an electrochemical cell, wherein the electrochemical cell includes: an electrochemical cell main body including: a positive electrode that is composed of a positive electrode active material and positive electrode current collector provided with a first metal terminal at an end portion thereof; a negative electrode that is composed of a negative electrode active material and a negative electrode current collector provided with a second metal terminal at an end portion thereof; an electrolyte filled between the positive electrode and the negative electrode; and an outer packaging body made of a packaging material formed by sequentially laminating at least a metal foil layer and a heat-sealable resin layer, the method comprising applying an impulse voltage between the first metal terminal and the metal foil layer or between the second metal terminal and the metal foil layer, and measuring temporal change in a voltage held in the electrochemical cell after the impulse voltage stops being applied.