LAYERED MANUFACTURING METHOD AND LAYERED MANUFACTURING DEVICE
First Claim
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1. A layered manufacturing method for forming a desired three-dimensional object by using a powder as a raw material, with powder as a raw material, for forming a desired solid body, which is employed in a layered manufacturing device including a stage member having stage surface;
- a transparent member having an optical window to cover said stage surface to form an enclosed region together with said stage surface, wherein said optical window is positioned at a vertical upper direction when said enclosed region is formed; and
an exhaust system for exhausting gasses in said enclosed region, comprising the steps of;
preparing a plurality of flat plate material members formed by compressing material powder, exhausting said gasses for reducing a pressure so as to produce a pressure difference between an inside and an outside of said enclosed region of at least 0.05 MPa;
placing a first flat plate material member at a position on a stage surface before said enclosed region is formed, the position of which is to stay inside said enclosed region after it is formed;
irradiating laser light through said optical window made of said transparent member from said vertical upper direction to a region of an initial one of the flat plate material members to form an initial cross-sectional element that is hardened after locally heating and melting;
leveling said vertical upper direction side surface of said initial cross-sectional element in a condition that said enclosed region is opened; and
subsequently,placing said flat plate material member as a layered material member at the position on the stage surface before said enclosed region is formed, the position of which is to stay inside said enclosed region after it is formed;
irradiating laser light through the optical window of the transparent material member from the vertical upper direction to a region of the flat plate material member corresponding to a designed cross-sectional shape of a layered position of the flat plate material member of a desired solid object to form a layered cross-sectional element that is hardened after locally heating and melting, together with the integration of the vertical upper direction side with a part already formed on an opposite side; and
leveling said vertical upper direction side surface of the initial cross-sectional element in the condition that said enclosed region is opened.
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Abstract
A layered manufacturing method for forming a desired three-dimensional object by using a powder as a raw material. The method forms a desired solid body, which is employed in a layered manufacturing device, including a stage member having stage surface; a transparent member having an optical window to cover the stage surface to form an enclosed region together with the stage surface; and an exhaust system for exhausting gasses in the enclosed region. The optical window is positioned at a vertical upper direction when the enclosed region is formed.
36 Citations
10 Claims
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1. A layered manufacturing method for forming a desired three-dimensional object by using a powder as a raw material, with powder as a raw material, for forming a desired solid body, which is employed in a layered manufacturing device including a stage member having stage surface;
- a transparent member having an optical window to cover said stage surface to form an enclosed region together with said stage surface, wherein said optical window is positioned at a vertical upper direction when said enclosed region is formed; and
an exhaust system for exhausting gasses in said enclosed region, comprising the steps of;preparing a plurality of flat plate material members formed by compressing material powder, exhausting said gasses for reducing a pressure so as to produce a pressure difference between an inside and an outside of said enclosed region of at least 0.05 MPa; placing a first flat plate material member at a position on a stage surface before said enclosed region is formed, the position of which is to stay inside said enclosed region after it is formed; irradiating laser light through said optical window made of said transparent member from said vertical upper direction to a region of an initial one of the flat plate material members to form an initial cross-sectional element that is hardened after locally heating and melting; leveling said vertical upper direction side surface of said initial cross-sectional element in a condition that said enclosed region is opened; and
subsequently,placing said flat plate material member as a layered material member at the position on the stage surface before said enclosed region is formed, the position of which is to stay inside said enclosed region after it is formed; irradiating laser light through the optical window of the transparent material member from the vertical upper direction to a region of the flat plate material member corresponding to a designed cross-sectional shape of a layered position of the flat plate material member of a desired solid object to form a layered cross-sectional element that is hardened after locally heating and melting, together with the integration of the vertical upper direction side with a part already formed on an opposite side; and leveling said vertical upper direction side surface of the initial cross-sectional element in the condition that said enclosed region is opened. - View Dependent Claims (2, 3, 4, 5, 6)
- a transparent member having an optical window to cover said stage surface to form an enclosed region together with said stage surface, wherein said optical window is positioned at a vertical upper direction when said enclosed region is formed; and
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7. A layered manufacturing device, for manufacturing a desired solid object, with a plurality of flat plate material members formed by compressing powder raw material as starting material, exhausting for depressurizing to a pressure difference between an inside and outside of at least 0.05 MPa, the device comprising:
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a stage device, having a stage for mounting the flat plate material members, capable of driving the stage three-dimensionally; a transparent member to cover a surface of said stage device to form an enclosed region together with said stage surface, a vertical upper surface of said enclosed region thereby becoming optical window; an exhaustion mechanism for exhausting gasses inside of said enclosed region; a conveying means for conveying the plate material members towards the stage; laser light irradiation part configured to irradiate laser light from a vertical upper direction through said optical window to a predetermined area on said flat plate material members in order to locally heat and melt a specified area of the flat plate material members in a condition such that said enclosed region is formed, thereby exhausting gasses in said enclosed region through said exhausting mechanism; and surface leveling part configured to level said vertical upper direction surface of a cross-sectional surface formed by solidification after irradiation of said laser light in the condition such that the formation state of said enclosed region is open. - View Dependent Claims (8, 9, 10)
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Specification
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Current AssigneeKeijirou Yamamoto, Tsuyoshi Tokunaga
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Original AssigneeKeijirou Yamamoto, Tsuyoshi Tokunaga
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InventorsYAMAMOTO, Keijirou, Tokunaga, Tsuyoshi
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current264/401
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CPC Class CodesB29C 64/153 using layers of powder bein...B33Y 10/00 Processes of additive manuf...B33Y 30/00 Apparatus for additive manu...B33Y 40/00 Auxiliary operations or equ...B33Y 40/10 Pre-treatmentB33Y 50/02 for controlling or regulati...Y10T 156/1075 of plural laminae from sing...Y10T 29/4998 Combined manufacture includ...
