US 12,240,059 B2
Device for manufacturing three-dimensional shaped object and method for manufacturing three-dimensional shaped object
Yasutoshi Hideshima, Matsumoto (JP); and Hidefumi Nakamura, Hachinohe (JP)
Assigned to SEIKO EPSON CORPORATION, (JP)
Filed by Seiko Epson Corporation, Tokyo (JP)
Filed on Oct. 21, 2019, as Appl. No. 16/658,212.
Claims priority of application No. 2018-198564 (JP), filed on Oct. 22, 2018.
Prior Publication US 2020/0122356 A1, Apr. 23, 2020
Int. Cl. B23K 35/02 (2006.01); B22F 10/14 (2021.01); B22F 10/28 (2021.01); B22F 10/73 (2021.01); B22F 12/00 (2021.01); B22F 12/49 (2021.01); B22F 12/63 (2021.01); B28B 1/00 (2006.01); C04B 35/111 (2006.01); C04B 35/634 (2006.01)
CPC B23K 35/0244 (2013.01) [B22F 10/14 (2021.01); B22F 10/28 (2021.01); B22F 10/73 (2021.01); B28B 1/001 (2013.01); C04B 35/111 (2013.01); C04B 35/63488 (2013.01); B22F 12/222 (2021.01); B22F 12/49 (2021.01); B22F 12/63 (2021.01); B22F 2304/10 (2013.01)] 3 Claims
OG exemplary drawing
 
1. A device for manufacturing a three-dimensional shaped object comprising:
a powder supply configured to supply granulated powders onto a table and form a layer of the granulated powders with a leveling roller or a squeegee, the layer having a first area and a second area directly laterally adjacent to each other, only the first area becoming the three-dimensional shaped object;
a pressing roller pressing the layer of the granulated powders on the table, the pressing roller extending along a first direction;
a guide rail extending along a second direction perpendicular to the first direction, the pressing roller being movable along the second direction on the guide rail, the guide rail being configured to move along a third direction perpendicular to the first and second directions;
a discharge head configured to apply a fluid including a binder or a laser beam to the layer; and
a computer configured to control the powder supply, the pressing roller, the guide rail, and the discharge head to execute:
adjusting a relative distance between the table and the leveling roller or the squeegee to a first distance;
causing the leveling roller or the squeegee to move on the granulated powders on the table to form the layer when the relative distance is the first distance;
adjusting the relative distance to a second distance that is smaller than the first distance;
causing the pressing roller to repeatedly move, along the guide rail, on and compress only the first area of the layer to form a compressed first area of the layer when the relative distance is the second distance, wherein the second area of the layer is uncompressed by the pressing roller while the compressed first area is formed;
causing the pressing roller to move from the compressed first area to the second area of the layer to move residual granulated powders on the second area to a recovery tray wherein a thickness of the compressed first area and a thickness of the uncompressed second area are the same;
causing the discharge head to apply the fluid including the binder or the laser beam to:
the compressed first area to from part of the three-dimensional shaped object; and
a border between the compressed first area and the uncompressed second area to form a wall therebetween; and
repeating the supplying of the granulated powders onto the table, the adjusting of the relative distance, the movement of the pressing roller, and the applying of the fluid including the binder or the laser beam to stack the layers having the compressed first areas and the uncompressed second areas and form the three-dimensional shaped object,
wherein the wall is formed between the compressed first area and the uncompressed second area in the stacked layers, and
the wall is spaced apart from the three-dimensional shaped object in the stacked layers.