| CPC H02K 41/031 (2013.01) | 9 Claims |
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1. A linear motor comprising:
a magnetic pole element and;
an armature that generates a magnetic field that moves the magnetic pole element in a linear motion direction relatively to the armature, wherein:
the magnetic pole element includes a plurality of cores, each of which is formed of a magnetic material and has a plurality of magnetic pole surfaces opposable to the armature, and a plurality of permanent magnets interposed between adjacent cores that are adjacent to each other among the plurality of cores;
the plurality of cores include a plurality of first cores aligned in the linear motion direction, a plurality of second cores aligned in the linear motion direction, a plurality of third cores aligned in the linear motion direction, and a plurality of fourth cores aligned in the linear motion direction;
the first cores are adjacent to the second cores, respectively, in a first alignment direction orthogonal to the linear motion direction and adjacent to the third cores, respectively, in a second alignment direction orthogonal to each of the linear motion direction and the first alignment direction;
the fourth cores are adjacent to the second cores, respectively, in the second alignment direction and adjacent to the third cores, respectively, in the first alignment direction;
the plurality of magnetic pole surfaces of each of the first cores include a first magnetic pole surface facing a side opposite to the plurality of second cores in the first alignment direction and a fifth magnetic pole surface facing a side opposite to the plurality of third cores in the second alignment direction, the first magnetic pole surface facing in a first facing direction parallel to the first alignment direction, the fifth magnetic pole surface facing in a fifth direction which is parallel to the second alignment direction and orthogonal to the first facing direction, the first magnetic pole surface and the fifth magnetic pole surface being adjacent to each other so as to make the first facing direction and the fifth facing direction orthogonal to each other;
the plurality of magnetic pole surfaces of each of the second cores include a second magnetic pole surface facing a side opposite to the plurality of fourth cores in the second alignment direction and a sixth magnetic pole surface facing a side opposite to the plurality of first cores in the first alignment direction, the second magnetic pole surface facing in a second facing direction parallel to the second alignment direction, the sixth magnetic pole surface facing in a sixth direction which is parallel to the first alignment direction and orthogonal to the second facing direction, the second magnetic pole surface and the sixth magnetic pole surface being adjacent to each other so as to make the second facing direction and the sixth facing direction orthogonal to each other;
the plurality of magnetic pole surfaces of each of the third cores include a third magnetic pole surface facing a side opposite to the plurality of first cores in the second alignment direction and a seventh magnetic pole surface facing a side opposite to the plurality of fourth cores in the first alignment direction, the third magnetic pole surface facing in a third facing direction parallel to the second alignment direction, the seventh magnetic pole surface facing in a seventh direction which is parallel to the first alignment direction and orthogonal to the third facing direction, the third magnetic pole surface and the seventh magnetic pole surface being adjacent to each other so as to make the third facing direction and the seventh facing direction orthogonal to each other;
the plurality of magnetic pole surfaces of each of the fourth cores include a fourth magnetic pole surface facing a side opposite to the plurality of third cores in the first alignment direction and an eighth magnetic pole surface facing a side opposite to the plurality of second cores in the second alignment direction, the fourth magnetic pole surface facing in a fourth facing direction parallel to the first alignment direction, the eighth magnetic pole surface facing in a eighth direction which is parallel to the second alignment direction and orthogonal to the fourth facing direction, the fourth magnetic pole surface and the eighth magnetic pole surface being adjacent to each other so as to make the fourth facing direction and the eighth facing direction orthogonal to each other;
the plurality of permanent magnets are interposed between adjacent cores that are adjacent to each other among the plurality of cores, respectively, each of the permanent magnets having a first magnet surface opposed to one of the adjacent cores and a second magnet surface facing a side opposite to the first magnet surface, the first magnet surface and the second magnet surface forming mutually opposite magnetic poles, and the plurality of permanent magnets are arranged such that the magnetic pole surfaces that are adjacent to each other and included in a magnetic pole surface group constituted by the plurality of magnetic pole surfaces of the plurality of cores form mutually opposite magnetic poles;
the armature is divided into a plurality of armature portions spaced in a direction orthogonal to the linear motion direction, the plurality of armature portions including a first armature portion, a second armature portion, a third armature portion, and a fourth armature portion;
the first armature portion includes: a plurality of first coil cores aligned in the linear motion direction so as to face the first magnetic pole surface of each of the first cores in the first facing direction, each of the first coil cores being formed of a magnetic material; a plurality of seventh coil cores aligned in the linear motion direction so as to face the seventh magnetic pole surface of each of the third cores in the seventh facing direction, each of the seventh coil cores being formed of a magnetic material; a plurality of first coils disposed around the plurality of first coil cores, respectively, to form a magnetic flux flowing between each of the first coil cores and the first magnetic pole surface facing each other in the first facing direction; a plurality of seventh coils disposed around the plurality of seventh coil cores, respectively, to form a magnetic flux flowing between each of the seventh coil cores and the seventh magnetic pole surface facing each other in the seventh facing direction; and a first back yoke formed of a magnetic material and interconnecting the plurality of first coil cores and the plurality of seventh coil cores so as to allow a magnetic flux to flow between the plurality of first coil cores and the plurality of seventh coil cores;
the second armature portion includes: a plurality of second coil cores aligned in the linear motion direction so as to face the second magnetic pole surface of each of the second cores in the second facing direction, each of the second coil cores being formed of a magnetic material; a plurality of fifth coil cores aligned in the linear motion direction so as to face the fifth magnetic pole surface of each of the first cores in the fifth facing direction, each of the fifth coil cores being formed of a magnetic material; a plurality of second coils disposed around the plurality of second coil cores, respectively, to form a magnetic flux flowing between each of the second coil cores and the second magnetic pole surface facing each other in the second facing direction; a plurality of fifth coils disposed around the plurality of fifth coil cores, respectively, to form a magnetic flux flowing between each of the fifth coil cores and the fifth magnetic pole surface facing each other in the fifth facing direction; and a second back yoke formed of a magnetic material and interconnecting the plurality of second coil cores and the plurality of fifth coil cores so as to allow a magnetic flux to flow between the plurality of second coil cores and the plurality of fifth coil cores; and
the third armature portion includes: a plurality of third coil cores aligned in the linear motion direction so as to face the third magnetic pole surface of each of the third cores in the third facing direction, each of the third coil cores being formed of a magnetic material; a plurality of eighth coil cores aligned in the linear motion direction so as to face the eighth magnetic pole surface of each of the fourth cores in the eighth facing direction, each of the eighth coil cores being formed of a magnetic material; a plurality of third coils disposed around the plurality of third coil cores, respectively, to form a magnetic flux flowing between each of the third coil cores and the third magnetic pole surface facing each other in the third facing direction; a plurality of eighth coils disposed around the plurality of eighth coil cores, respectively, to form a magnetic flux flowing between each of the eighth coil cores and the eighth magnetic pole surface facing each other in the eighth facing direction; and a third back yoke formed of a magnetic material and interconnecting the plurality of third coil cores and the plurality of eighth coil cores to each other so as to allow a magnetic flux to flow between the plurality of third coil cores and the plurality of eighth coil cores,
the fourth armature portion includes: a plurality of fourth coil cores aligned in the linear motion direction so as to face the fourth magnetic pole surface of each of the fourth cores in the fourth facing direction, each of the fourth coil cores being formed of a magnetic material; a plurality of sixth coil cores aligned in the linear motion direction so as to face the sixth magnetic pole surface of each of the second cores in the sixth facing direction, each of the sixth coil cores being formed of a magnetic material; a plurality of fourth coils disposed around the plurality of fourth coil cores, respectively, to form a magnetic flux flowing between each of the fourth coil cores and the fourth magnetic pole surface facing each other in the fourth facing direction; a plurality of sixth coils disposed around the plurality of sixth coil cores, respectively, to form a magnetic flux flowing between each of the sixth coil cores and the sixth magnetic pole surface facing each other in the sixth facing direction; and a fourth back yoke formed of a magnetic material and interconnecting the plurality of fourth coil cores and the plurality of sixth coil cores so as to allow a magnetic flux to flow between the plurality of fourth coil cores and the plurality of sixth coil cores.
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