Rapid and accurate production of stereolighographic parts
First Claim
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1. A stereolithography system for forming a three-dimensional object from a medium capable of selective physical transformation upon exposure to synergistic stimulation comprising:
- a surface of said medium capable of selective physical transformation;
a means for generating a beam of synergistic stimulation, said beam following an optical path to the surface of said medium capable of selective physical transformation;
a servo-controlled dynamic mirror system placed along said optical path for directing said beam of synergistic stimulation to said medium surface, and for selectively positioning said beam across the surface of said medium capable of selective physical transformation to selectively form beam tracings of solidified material at said medium surface in the shape of a layer of said object, in response to the issuance of successive commands;
a dedicated processor means coupled to said dynamic mirror system for successively issuing said successive commands to said dynamic mirror system from stereolithography data descriptive of said beam tracings; and
a general purpose processor means coupled to said dedicated processor means which receives external CAD/CAM data descriptive of the borders of layers of the three-dimensional object, and thereafter transforms that data into stereolithography data descriptive of the beam tracings of each layer including internal portions of a layer, and transfers that data to said dedicated processor for controlling said dynamic mirror system to direct said beam of synergistic stimulation to said medium surface.
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Abstract
A stereolithography system employing a more powerful laser and faster dynamic mirrors to speed up part building without sacrificing accuracy is described, especially large or complex parts. A controllable shutter is placed in the beam path of the laser to selectably block the passage of the beam and prevent unwanted solidification. A suitable servo controlled feedback loop is provided to accurately position the mirrors at the higher velocity.
Also described is a means to reduce data flow by distributing tasks in a multiple processor environment, and to improve user interaction by the use of a spreadsheet model. These also improve the speed of part building, especially for large or complex parts.
179 Citations
13 Claims
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1. A stereolithography system for forming a three-dimensional object from a medium capable of selective physical transformation upon exposure to synergistic stimulation comprising:
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a surface of said medium capable of selective physical transformation; a means for generating a beam of synergistic stimulation, said beam following an optical path to the surface of said medium capable of selective physical transformation; a servo-controlled dynamic mirror system placed along said optical path for directing said beam of synergistic stimulation to said medium surface, and for selectively positioning said beam across the surface of said medium capable of selective physical transformation to selectively form beam tracings of solidified material at said medium surface in the shape of a layer of said object, in response to the issuance of successive commands; a dedicated processor means coupled to said dynamic mirror system for successively issuing said successive commands to said dynamic mirror system from stereolithography data descriptive of said beam tracings; and a general purpose processor means coupled to said dedicated processor means which receives external CAD/CAM data descriptive of the borders of layers of the three-dimensional object, and thereafter transforms that data into stereolithography data descriptive of the beam tracings of each layer including internal portions of a layer, and transfers that data to said dedicated processor for controlling said dynamic mirror system to direct said beam of synergistic stimulation to said medium surface.
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2. A stereolithography method for forming a three-dimensional part from a medium capable of selective physical transformation upon exposure to synergistic stimulation comprising the steps of:
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providing a spreadsheet model of a part having a grid format of cells at the intersection of spaced, parallel rows and columns; associating external CAD/CAM files, each descriptive of the surface of a component of the part, with a selected one of the set of rows or columns of said spreadsheet model; associating the nonselected one of the set of rows and columns of the spreadsheet model of said part with contiguous ranges of layers spaced along an axis; providing a plurality of style files, each style file containing detailed stereolithography process data; associating a selected one of said plurality of style files with each cell in said spreadsheet model, thereby associating the range of layers of the component of said part corresponding to the cell with said selected style file; transforming each CAD/CAM file into a component file of stereolithography layer data descriptive of successive layers of the component of said part; and providing successive layers of the medium capable of physical transformation adjacent to previously provided and at least partially transformed layers of the medium; building a layer of a component of the part by directing said synergistic stimulation to effect physical transformation of said medium by exposing the medium to tracings at the surface from the stereolithography layer data derived from the component file for that component and layer, the exposure determined by the stereolithography process data in the style file associated with the component and layer according to the spreadsheet model.
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3. A method for stereolithographically forming a next layer of a three-dimensional object which is being formed on a layer by layer basis from a medium capable of physical transformation upon exposure to synergistic stimulation, comprising the steps of:
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receiving surface data originating from a CAD system describing at least the nest layer of the three-dimensional object; providing a surface of medium to be physically transformed by exposure to synergistic stimulation to form the next layer of the three-dimensional object; processing the surface data to obtain data descriptive of internal regions of the next layer substantially at the same time as the internal data will be used to exposed the surface of medium to form the next layer of the three-dimensional object; and exposing the surface of the medium to synergistic stimulation to form at least the internal regions of the next layer according to the data derived in the processing step. - View Dependent Claims (4, 5, 6)
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7. A method for stereolithographically forming a next layer of a three-dimensional object which is being formed on a layer by layer basis from a medium capable of physical transformation upon exposure to synergistic stimulation, comprising the steps of:
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a. receiving data originating from a CAD system describing at least the next layer of the three-dimensional object; b. providing a surface of medium to be physically transformed by exposure to synergistic stimulation to form the next layer of the three-dimensional object; c. processing the data to obtain modified data descriptive of at least a portion of the next layer; d. exposing the surface of the medium to synergistic stimulation to form the next layer according to the data derived in step c; and e. using at least a first processor for controlling partly steps a, b, c, and d and using at least a second processor to control the remaining parts of steps a, b, c, and d which are not being controlled by the first processor, whereby faster object formation is achieved by substantially parallel processing of at least two parts of steps a, b, c, and d. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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Specification
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Current Assignee3D Systems, Inc. (3D Systems Corporation)
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Original Assignee3D Systems, Inc. (3D Systems Corporation)
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InventorsBradford, Raymond A., Floyd, Grady O., Lewis, Mark A., Tarnoff, Harry L., Marygold, Paul H., Harlow, Richard A., Schwarzinger, Wolfgang, Vorgitch, Thomas J., Chen, Thomas P., Modrek, Borzo, Vinson, Wayne A., Pitlak, Robert T., Little, Frank F., Uziel, Yehoram
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Primary Examiner(s)BEAUSOLIEL JR, ROBERT W
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Assistant Examiner(s)Lo, Allen M.
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Application NumberUS07/824,819Time in Patent Office370 DaysField of Search364/474.24, 364/477, 364/522, 425/174.4US Class Current700/182CPC Class CodesB29C 64/135 the energy source being con...B29C 64/386 Data acquisition or data pr...B33Y 10/00 Processes of additive manuf...B33Y 30/00 Apparatus for additive manu...B33Y 50/02 for controlling or regulati...G06F 40/18 of spreadsheets form-fillin...G06T 17/00 Three dimensional [3D] mode...
