| CPC B23K 26/24 (2013.01) [B23K 26/0608 (2013.01); B23K 26/064 (2015.10); B23K 26/0648 (2013.01); B23K 26/0673 (2013.01); B23K 26/082 (2015.10); B23K 26/704 (2015.10); B23K 2101/36 (2018.08); B23K 2101/38 (2018.08); B23K 2103/10 (2018.08); H01M 10/058 (2013.01); H01M 50/169 (2021.01)] | 2 Claims |
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1. A laser welding apparatus comprising:
a light source portion configured to form a parallel laser beam;
an element portion including a diffractive optical element member and configured to form a multiple laser beam composed of a plurality of beams from the parallel laser beam incident on the diffractive optical element member;
a condensing portion configured to condense the multiple laser beam; and
a deflecting portion configured to deflect the multiple laser beam, wherein:
the multiple laser beam includes at least a main beam, a first beam that has an energy lower than an energy of the main beam and is irradiated so as to be spaced apart from the main beam in a first obliquely front direction in an advancing direction of the multiple laser beam, and a second beam that has an energy lower than the energy of the main beam and is irradiated so as to be spaced apart from the main beam in a second obliquely front direction in the advancing direction of the multiple laser beam, the second obliquely front direction being a direction that is inclined to a side opposite to the first obliquely front direction in the advancing direction;
the diffractive optical element member includes an element forming portion formed with a diffractive optical element, a first non-forming portion that is disposed adjacent to the element forming portion on a first side in a moving direction of the element forming portion and is not formed with the diffractive optical element, and a second non-forming portion that is disposed adjacent to the element forming portion on a second side opposite to the first side in the moving direction of the element forming portion and is not formed with the diffractive optical element, the element forming portion is configured to emit a diffracted multiple beam from the parallel laser beam using the diffractive optical element, the diffracted multiple beam composed of a plurality of beams including the first beam and the second beam in the multiple laser beam, the first non-forming portion is configured to emit a first transmitted beam as at least a part of the main beam of the multiple laser beam, the first transmitted beam being the parallel laser beam having passed through the first non-forming portion without being diffracted, and the second non-forming portion is configured to emit a second transmitted beam as at least a part of the main beam of the multiple laser beam, the second transmitted beam being the parallel laser beam having passed through the second non-forming portion without being diffracted; and
the element portion includes a rectilinear moving portion configured to linearly reciprocate the diffractive optical element member in the moving direction between a first position where the parallel laser beam is irradiated to a portion overlapping the first non-forming portion and the element forming portion such that the multiple laser beam including the first transmitted beam forming at least the part of the main beam and the diffracted multiple beam is emitted, and a second position where the parallel laser beam is irradiated to a portion overlapping the element forming portion and the second non-forming portion such that the multiple laser beam including the diffracted multiple beam and the second transmitted beam forming at least the part of the main beam is emitted.
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