High-temperature modeling method
First Claim
1. A method for three-dimensional modeling comprising the steps of heating a build chamber to an elevated temperature, dispensing modeling material from an outlet of a dispensing head onto a base provided in the build chamber, and moving the dispensing head and the base in three-dimensions with respect to one another in synchrony with the dispensing of modeling material so as to build up a three-dimensional object of predetermined shape on the base, characterized by:
- maintaining physical and thermal separation between the heated build chamber and a gantry that controls motion of the dispensing head with at least a first deformable thermal insulator and a second deformable thermal insulator, wherein the first deformable thermal insulator and the second deformable thermal insulator form a portion of a ceiling of the build chamber and the first deformable thermal insulator and the second deformable thermal insulator comprise baffles;
compressing or expanding the first deformable thermal insulator when the dispensing head is moved in a first direction; and
compressing or expanding the second deformable thermal insulator when the dispensing head is moved in a second direction that is orthogonal to the first direction.
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Abstract
A method for three-dimensional modeling builds up three-dimensional objects in a heated build chamber by dispensing modeling material from a dispensing head onto a base in a predetermined pattern. Physical and thermal separation are maintained between the heated build chamber and motion control components that control the motion of the dispensing head and the base. Thermal isolation of the motion control components from the build chamber allows the chamber to be maintained at a high temperature, and has other practical advantages as well.
166 Citations
19 Claims
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1. A method for three-dimensional modeling comprising the steps of heating a build chamber to an elevated temperature, dispensing modeling material from an outlet of a dispensing head onto a base provided in the build chamber, and moving the dispensing head and the base in three-dimensions with respect to one another in synchrony with the dispensing of modeling material so as to build up a three-dimensional object of predetermined shape on the base, characterized by:
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maintaining physical and thermal separation between the heated build chamber and a gantry that controls motion of the dispensing head with at least a first deformable thermal insulator and a second deformable thermal insulator, wherein the first deformable thermal insulator and the second deformable thermal insulator form a portion of a ceiling of the build chamber and the first deformable thermal insulator and the second deformable thermal insulator comprise baffles; compressing or expanding the first deformable thermal insulator when the dispensing head is moved in a first direction; and compressing or expanding the second deformable thermal insulator when the dispensing head is moved in a second direction that is orthogonal to the first direction. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for three-dimensional modeling comprising the steps of:
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heating a build chamber to an elevated temperature; dispensing modeling material from an outlet of a dispensing head onto a base provided in the build chamber; moving the dispensing head and the base in three-dimensions with respect to one another in synchrony with the dispensing of modeling material so as to build up a three-dimensional object of predetermined shape on the base; controlling the motion of the dispensing head and the base with motion control components located external to the build chamber, the motion control components comprising at least one rail that defines an axis of movement for the dispensing head; maintaining thermal isolation between the external motion control components and the build chamber with at least a first deformable thermal insulator and a second deformable thermal insulator, wherein the first deformable thermal insulator and the second deformable thermal insulator form a portion of a ceiling of the build chamber and the first deformable thermal insulator and the second deformable thermal insulator comprise baffles; compressing or expanding the first deformable thermal insulator when the dispensing head is moved in a first direction; and compressing or expanding the second deformable thermal insulator when the dispensing head is moved in a second direction that is orthogonal to the first direction. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A method for three-dimensional modeling comprising the steps of:
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heating a build chamber to an elevated temperature; dispensing modeling material from an outlet of a dispensing head onto a base provided in the build chamber; and moving the dispensing head and the base in three-dimensions with respect to one another in synchrony with the dispensing of modeling material so as to build up a three-dimensional object of predetermined shape on the base; wherein the motion of the dispensing head and the base are controlled by motion control components, the motion control components being located external to and in thermal isolation from the build chamber by at least a first deformable thermal insulator and a second deformable thermal insulator, wherein the first deformable thermal insulator and the second deformable thermal insulator form a portion of a ceiling of the build chamber and the first deformable thermal insulator and the second deformable thermal insulator comprise baffles; and wherein the first deformable thermal insulator is compressed or expanded when the dispensing head is moved in a first direction, and wherein the second deformable thermal insulator is compressed or expanded when the dispensing head is moved in a second direction that is orthogonal to the first direction. - View Dependent Claims (15, 16, 17, 18, 19)
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Specification