Patent application number | Description | Published |
20130075013 | Layer Transfusion with Rotatable Belt for Additive Manufacturing - An additive manufacturing system comprising a transfer medium configured to receive the layers from a imaging engine, a heater configured to heat the layers on the transfer medium, and a layer transfusion assembly that includes a build platform, and is configured to transfuse the heated layers onto the build platform in a layer-by-layer manner to print a three-dimensional part. | 03-28-2013 |
20130075022 | Layer Transfusion with Transfixing for Additive Manufacturing - An additive manufacturing system comprising a transfer medium configured to receive the layers from a imaging engine, a heater configured to heat the layers on the transfer medium, and a layer transfusion assembly that includes a build platform, and is configured to transfuse the heated layers onto the build platform in a layer-by-layer manner to print a three-dimensional part. | 03-28-2013 |
20130075033 | LAYER TRANSFUSION FOR ADDITIVE MANUFACTURING - An additive manufacturing system comprising a transfer medium configured to receive the layers from a imaging engine, a heater configured to heat the layers on the transfer medium, and a layer transfusion assembly that includes a build platform, and is configured to transfuse the heated layers onto the build platform in a layer-by-layer manner to print a three-dimensional part. | 03-28-2013 |
20130077996 | ELECTROPHOTOGRAPHY-BASED ADDITIVE MANUFACTURING SYSTEM WITH RECIPROCATING OPERATION - An additive manufacturing system for printing a three-dimensional part using electrophotography, the additive manufacturing system comprising a rotatable photoconductor component, first and second development stations configured to develop layers of materials on a surface of the rotatable photoconductor component while the rotatable photoconductor component rotates in opposing rotational directions, and a platen configured to operably receive the developed layers in a layer-by-layer manner to print the three-dimensional part from at least a portion of the received layers. | 03-28-2013 |
20130077997 | ELECTROPHOTOGRAPHY-BASED ADDITIVE MANUFACTURING SYSTEM WITH TRANSFER-MEDIUM SERVICE LOOPS - An additive manufacturing system for printing a three-dimensional part using electrophotography, the additive manufacturing system comprising a rotatable photoconductor component, a development station configured to develop layers of a material on a surface of the rotatable photoconductor component, a rotatable transfer medium configured to receive the developed layers from the surface of the rotatable photoconductor component, and a platen configured to receive the developed layers from the rotatable transfer medium in a layer-by-layer manner. The additive manufacturing system also comprises a plurality of service loops configured to move portions of the rotatable transfer medium at different line speeds while maintaining a net rotational rate of full rotations of the rotatable transfer medium at a substantially steady state. | 03-28-2013 |
20130078013 | Layer Transfusion with Part Heating for Additive Manufacturing - An additive manufacturing system comprising a transfer medium configured to receive the layers from a imaging engine, a heater configured to heat the layers on the transfer medium, and a layer transfusion assembly that includes a build platform, and is configured to transfuse the heated layers onto the build platform in a layer-by-layer manner to print a three-dimensional part. | 03-28-2013 |
20130186549 | LAYER TRANSFUSION FOR ADDITIVE MANUFACTURING - An additive manufacturing system comprising a transfer medium configured to receive the layers from a imaging engine, a heater configured to heat the layers on the transfer medium, and a layer transfusion assembly that includes a build platform, and is configured to transfuse the heated layers onto the build platform in a layer-by-layer manner to print a three-dimensional part. | 07-25-2013 |
20130186558 | LAYER TRANSFUSION WITH HEAT CAPACITOR BELT FOR ADDITIVE MANUFACTURING - An additive manufacturing system comprising a transfer medium configured to receive the layers from a imaging engine, a heater configured to heat the layers on the transfer medium, and a layer transfusion assembly that includes a build platform, and is configured to transfuse the heated layers onto the build platform in a layer-by-layer manner to print a three-dimensional part. | 07-25-2013 |
20130272746 | ELECTROPHOTOGRAPHY-BASED ADDITIVE MANUFACTURING SYSTEM WITH TRANSFER-MEDIUM SERVICE LOOPS - An additive manufacturing system for printing a three-dimensional part using electrophotography, the additive manufacturing system comprising a rotatable photoconductor component, a development station configured to develop layers of a material on a surface of the rotatable photoconductor component, a rotatable transfer medium configured to receive the developed layers from the surface of the rotatable photoconductor component, and a platen configured to receive the developed layers from the rotatable transfer medium in a layer-by-layer manner. The additive manufacturing system also comprises a plurality of service loops configured to move portions of the rotatable transfer medium at different line speeds while maintaining a net rotational rate of full rotations of the rotatable transfer medium at a substantially steady state. | 10-17-2013 |
20150016841 | ELECTROPHOTOGRAPHY-BASED ADDITIVE MANUFACTURING SYSTEM WITH RECIPROCATING OPERATION - An additive manufacturing system for printing a three-dimensional part using electrophotography, the additive manufacturing system comprising a rotatable photoconductor component, first and second development stations configured to develop layers of materials on a surface of the rotatable photoconductor component while the rotatable photoconductor component rotates in opposing rotational directions, and a platen configured to operably receive the developed layers in a layer-by-layer manner to print the three-dimensional part from at least a portion of the received layers. | 01-15-2015 |