| CPC H01M 10/045 (2013.01) [H01M 4/78 (2013.01); H01M 50/466 (2021.01); H01M 50/512 (2021.01); H01M 50/533 (2021.01); H01M 50/538 (2021.01); H01M 2004/025 (2013.01); H01M 50/531 (2021.01)] | 4 Claims |
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1. A method for manufacturing a battery module with a plurality of electrodes connected in parallel with each other, the method for manufacturing the battery module comprising:
a positive electrode member preparation step of preparing a positive electrode member including a positive electrode current collector having a first main surface and a second main surface, a first positive electrode active material layer being provided on the first main surface of the positive electrode current collector, and a second positive electrode active material layer being provided on a portion of the second main surface of the positive electrode current collector which does not overlap with the first positive electrode active material layer in a thickness direction of the positive electrode current collector, wherein the first main surface of the positive electrode current collector has a first exposed portion formed in an area overlapping with the second positive electrode active material layer in the thickness direction of the positive electrode current collector and exposing the positive electrode current collector, and wherein the second main surface of the positive electrode current collector has a second exposed portion formed in an area overlapping with the first positive electrode active material layer in the thickness direction of the positive electrode current collector and exposing the positive electrode current collector,
a negative electrode member preparation step of preparing a negative electrode member including a negative electrode current collector having a first main surface and a second main surface, a first negative electrode active material layer being provided on the first main surface of the negative electrode current collector, and a second negative electrode active material layer being provided on a portion of the second main surface of the negative electrode current collector which does not overlap with the first negative electrode active material layer in a thickness direction of the negative electrode current collector, wherein the first main surface of the negative electrode current collector has a first exposed portion formed in an area overlapping with the second negative electrode active material layer in the thickness direction of the negative electrode current collector and exposing the negative electrode current collector, and wherein the second main surface of the negative electrode current collector has a second exposed portion formed in an area overlapping with the first negative electrode active material layer in the thickness direction of the negative electrode current collector and exposing the negative electrode current collector,
a separator preparation step of preparing a separator being arranged between the positive electrode member and the negative electrode member,
a first electrode constituting step in which the first positive electrode active material layer and the first negative electrode active material layer are arranged to face each other through a first interposed portion of the separator to constitute a first electrode of the plurality of electrodes,
a folding back step in which the separator is folded back so that a connecting portion of the separator faces the second main surface of the negative electrode current collector and the positive electrode current collector is folded back so that the second positive electrode active material layer overlaps the first positive electrode active material layer in the thickness direction through the separator and the first negative electrode active material layer, and
a second electrode constituting step in which the separator is folded back so that a second interposed portion of the separator faces the second positive electrode active material layer and the negative electrode current collector is folded back so that the second negative electrode active material layer faces the second positive electrode active material layer through the second interposed portion to constitute a second electrode connected in parallel to the first electrode among the plurality of electrodes.
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