Method of and apparatus for making a three-dimensional object
First Claim
Patent Images
1. An apparatus for making a three-dimensional object, comprising:
- a powder layer-forming unit for forming a powder layer;
a sintered layer-forming unit for forming a sintered layer by irradiating an optical beam on a predetermined portion of the powder layer;
a distance regulator for regulating a distance between said sintered layer-forming unit and the sintered layer;
a surface layer-removing unit for removing a surface layer of a density lower than that of the sintered layer; and
a discharge unit for discharging unsintered powder or swarf produced by the surface layer-removing unit, said discharge unit having a drive unit that acts to move said discharge unit along a contour line of each plane to be shaped.
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Abstract
To make a three-dimensional object, an optical beam is first irradiated on a predetermined portion of a powder layer to form a sintered layer, which is then covered with a new powder layer. The optical beam is again irradiated on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer. These processes are repeatedly carried out to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three-dimensional object. A surface region of a shaped object formed by then is removed during the formation of the plurality of sintered layers.
46 Citations
16 Claims
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1. An apparatus for making a three-dimensional object, comprising:
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a powder layer-forming unit for forming a powder layer;
a sintered layer-forming unit for forming a sintered layer by irradiating an optical beam on a predetermined portion of the powder layer;
a distance regulator for regulating a distance between said sintered layer-forming unit and the sintered layer;
a surface layer-removing unit for removing a surface layer of a density lower than that of the sintered layer; and
a discharge unit for discharging unsintered powder or swarf produced by the surface layer-removing unit, said discharge unit having a drive unit that acts to move said discharge unit along a contour line of each plane to be shaped.
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2. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d); and
further comprising, prior to the step (a), the steps of;
(a1) placing on a sintering table a base that constitutes a lower structure of the three-dimensional object;
(a2) machining the base; and
(a3) aligning the base with an optical beam irradiating position. - View Dependent Claims (3)
comparing a time required for machining the base with a time required for forming a plurality of sintered layers of a same shape as the base; and
making the base if the former is determined to be shorter than the latter.
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4. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d), and the surface region removed has a thickness greater than a thickness of a surface layer created by adhesion of powder material to the sintered layers, the surface layer having a density lower than that of the sintered layers. - View Dependent Claims (5)
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6. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d) by cutting.
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7. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d) by a laser.
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8. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d); and
further comprising, prior to the step (e), the step of irradiating an optical beam on a portion to be removed to soften such portion.
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9. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d); and
further comprising, after the step (e), the step of irradiating an optical beam on a portion of the shaped object from which the surface region has been removed, thereby increasing the density of such portion.
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10. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d), and unsintered powder around the sintered layers or swarf produced by the removal of the surface region is removed during the step (e). - View Dependent Claims (12)
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11. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d); and
further comprising, prior to the step (e), the step of removing unsintered powder around the sintered layers.
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13. A method of making a three-dimensional object, comprising the steps of:
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(a) irradiating an optical beam on a predetermined portion of a powder layer to form a sintered layer;
(b) covering the sintered layer with a new powder layer;
(c) irradiating the optical beam on a predetermined portion of the new powder layer to form another sintered layer that has been united with the underlying sintered layer;
(d) repeating the steps (b) and (c) to form a plurality of sintered layers united together, which have a size greater than that of a target shape of the three dimensional object; and
(e) removing a surface region of a shaped object formed by then during the step (d); and
further comprising, prior to the step (e), the step of solidifying the unsintered powder.- View Dependent Claims (14, 15)
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16. An apparatus for making a three-dimensional object, comprising:
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a powder layer-forming unit for forming a powder layer;
a sintered layer-forming unit for forming a sintered layer by irradiating an optical beam on a predetermined portion of the powder layer;
a distance regulator for regulating a distance between said sintered layer-forming unit and the sintered layer;
a surface layer-removing unit for removing a surface layer of a density lower than that of the sintered layer; and
a discharge unit held in close proximity to said powder layer-forming unit for discharging unsintered powder or swarf produced by the surface layer-removing unit.
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Specification
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Current AssigneePanasonic Electric Works Company Limited (Panasonic Holdings Corporation)
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Original AssigneeAsahi Matsushita Electric Works Ltd. (Panasonic Holdings Corporation)
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InventorsFuwa, Isao, Abe, Satoshi, Yoshida, Norio, Higashi, Yoshikazu, Togeyama, Hirohiko, Uenaga, Shushi, Machida, Seizo
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Primary Examiner(s)Heinrich, Samuel M.
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Application NumberUS09/964,626Publication NumberTime in Patent Office795 DaysField of Search219/121.6, 219/121.63, 219/121.64, 219/121.65, 219/121.66, 219/121.82, 219/121.83, 219/121.84US Class Current219/121.6CPC Class CodesB22F 10/28 Powder bed fusion, e.g. sel...B22F 10/36 of energy beam parametersB22F 10/38 to achieve specific product...B22F 10/50 Treatment of workpieces or ...B22F 10/80 Data acquisition or data pr...B22F 12/41 characterised by the type, ...B22F 12/44 characterised by the config...B22F 12/67 BladesB22F 12/90 Means for process control, ...B22F 2003/247 Removing material: carving,...B22F 2203/03 for feed-backB22F 2998/00 Supplementary information c...B29C 64/153 using layers of powder bein...B29K 2995/0073 smoothY02P 10/25 Process efficiency
