| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 700120000 | Stereolithography | 22 |
| 20090132081 | Method and device for producing a three-dimensional object, and computer and data carrier useful therefor - The invention relates to a method for producing a three-dimensional object by solidification of a material solidifiable under the action of electromagnetic radiation by means of energy input via an imaging unit comprising a predetermined number of discrete imaging elements (pixels), The method comprises performing solidification with exposure using bitmap mask. The bitmap mask may be formed from a stack of bitmap data provided by an overlap analysis of a three-dimensional volume completely or partially enclosing a three-dimensional model of at least a part of the three-dimensional object to be produced. Alternatively, bitmap mask may be formed from a two-dimensional data set comprising overlap information. Solidification may be performing with exposure using bitmap mask generated “on the fly”. The invention is also directed to devices, and a computer and a data carrier useful for performing or executing the method. | 05-21-2009 |
| 20100082148 | COMPUTER-AIDED IMPLANTING OF ORTHODONTIC ANCHORAGE DEVICES USING SURGICAL GUIDES - A system for implanting a temporary anchorage device in a jaw bone of a patient makes use of a digital representation of at least a portion of the patient's dental arch, including teeth and corresponding roots, in order to select a temporary anchorage device (TAD) implant site that does not interfere with a tooth root. A surgical guide relates the information from the digital representation to an actual location in the patient's jaw bone. The surgical guide is formed to fit over at least a portion of the occlusal, buccal, labial, and/or lingual surfaces of the dental arch proximate to the selected TAD implant site and includes a physical and/or visual marker that indicates the selected TAD implant site. | 04-01-2010 |
| 20100114357 | Method and Apparatus Associated with Anisotropic Shrink in Sintered Ceramic Items - A manufacturing method for producing ceramic item from a photocurable ceramic filled material by stereolithography. The method compensates for the anisotropic shrinkage of the item during firing to produce a dimensionally accurate item. | 05-06-2010 |
| 20100228381 | THREE-DIMENSIONAL MODELING APPARATUS AND THREE-DIMENSIONAL OBJECT - A three-dimensional modeling apparatus includes a stage, a supply mechanism, a head, a movement mechanism, and a lifting and lowering mechanism. On the stage, a powder material is accumulated. The supply mechanism supplies the powder material on the stage for each predetermined layer thickness. The head ejects a liquid for forming a three-dimensional object to the powder material on the stage. The liquid is capable of binding the powder material. The movement mechanism moves the stage so that the liquid is supplied from the head to the powder material by the predetermined layer thickness. The lifting and lowering mechanism lowers the stage for each predetermined layer thickness. | 09-09-2010 |
| 20100249979 | DEVICE AND METHOD FOR PRODUCING A THREE-DIMENSIONAL OBJECT BY MEANS OF MASK EXPOSURE - Device for producing a three-dimensional object by solidification of a material solidifiable under the action of electromagnetic radiation by means of energy input via an imaging unit comprising a predetermined number of discrete imaging, elements (pixels), said device comprising a computer unit, an IC and/or a software implementation respectively with the ability of adjusting and/or controlling the energy input via a specific gray value and/or color value in a voxel matrix. | 09-30-2010 |
| 20100262272 | METHOD OF REDUCING THE FORCE REQUIRED TO SEPARATE A SOLIDIFIED OBJECT FROM A SUBSTRATE - A method and apparatus for making a three-dimensional object from a solidifiable material such as a photopolymer is shown and described. In accordance with the method, positions relative to a build axis are subdivided into first and second exposure data subsets, and the first and second exposure data subsets are solidified in alternating sequences to reduce the surface area of solidified material in contact with a solidification substrate. | 10-14-2010 |
| 20100305743 | ARRANGEMENT AND METHOD FOR PRODUCING A THREE-DIMENSIONAL PRODUCT - A method and arrangement for production of three-dimensional bodies by successive fusing together of selected areas of a powder bed, which parts correspond to successive cross sections of the three-dimensional body, which method comprises the following method steps: application of powder layers to a work table, supplying energy from a radiation gun according to an operating scheme determined for the powder layer to said selected area within the powder layer, fusing together that area of the powder layer selected according to said operating scheme for forming a cross section of said three-dimensional body, a three-dimensional body being formed by successive fusing together of successively formed cross sections from successively applied powder layers. | 12-02-2010 |
| 20110106290 | METHOD OF APPLYING MULTIPLE MATERIALS WITH SELECTIVE LASER MELTING ON A 3D ARTICLE - In a method for manufacturing an article ( | 05-05-2011 |
| 20110313560 | FOR RAPID PROTOTYPING APPARATUS - A stereolithography apparatus and an exposure system for a stereolithography apparatus, wherein light emitting diodes are used as light sources. The invention relates to aligning light from the light emitting diode and to the exchange and control the light emitting diodes. | 12-22-2011 |
| 20120041586 | METHOD FOR MANUFACTURING THREE-DIMENSIONAL SHAPED OBJECT AND THREE-DIMENSIONAL SHAPED OBJECT OBTAINED BY THE SAME - There is provided a method for manufacturing a three-dimensional shaped object. The method of the present invention comprises the repeated steps of: (i) forming a solidified layer by irradiating a predetermined portion of a powder layer on a base plate with a light beam, thereby allowing a sintering of the powder in the predetermined portion or a melting and subsequent solidification thereof; and (ii) forming another solidified layer by newly forming a powder layer on the resulting solidified layer, followed by the irradiation of a predetermined portion of the powder layer with the light beam; wherein the solidified layers are formed such that they have a high-density portion whose solidified density is 95 to 100% and a low-density portion whose solidified density is 0 to 95% (excluding 95%); and wherein the high-density portion is a portion of the three-dimensional shaped object, to which the force is applied when the three-dimensional shaped object is used. | 02-16-2012 |
| 20120130530 | 3D MODELING APPARATUS, 3D MODELING METHOD, AND MODELED OBJECT - A 3D modeling apparatus includes: a support body which supports a modeled object formed by laminating a resin material that is cured by energy of an energy ray; an illumination mechanism which illuminates the resin material with the energy ray, on the basis of image data of laminated cross-sections which constitutes 3D data of an object to be modeled which is an object of modeling, in order to form the modeled object; and a supply mechanism which supplies a material that constitutes a part of the modeled object and is different from the resin material, to the resin material that is cured as being illuminated by the illumination mechanism, on the basis of the cross-section image data. | 05-24-2012 |
| 20120165969 | 3D PRINTING ON A ROTATING CYLINDRICAL SURFACE - Disclosed herein is a device adapted to make a solid object. The device has a surface rotatable around an axis of rotation, and an applicator adapted to apply over at least one portion of the surface a material used to make the solid object. The applicator and the surface are displaceable relative to each other in a direction transverse to the axis. Disclosed herein are also methods of determining instructions for the device. | 06-28-2012 |
| 20130297063 | RAPID PROTOTYPING APPARATUS - Apparatus for producing an object by sequentially forming thin layers of a construction material one on top of the other responsive to data defining the object, the apparatus comprising: a plurality of printing heads each having a surface formed with a plurality of output orifices and controllable to dispense the construction material through each orifice independently of the other orifices; a shuttle to which the printing heads are mounted; a support surface; and a controller adapted to control the shuttle to move back and forth over the support surface and as the shuttle moves to control the printing heads to dispense the construction material through each of their respective orifices responsive to the data to form a first layer on the support surface and thereafter, sequentially the other layers; wherein each printing head is dismountable from the shuttle and replaceable independently of the other printing heads. | 11-07-2013 |
| 20140277679 | Systems and Methods of using a Hieroglyphic Machine Interface Language for Communication with Auxiliary Robotics in Rapid Fabrication Environments - Disclosed are methods and systems for using hieroglyphs for communication in a rapid fabrication environment. The method includes receiving, by a control system for an articulated robotic arm, one or more images of a fabrication machine build space. The method includes identifying, by the control system, a hieroglyph present in the one or more images and translating the identified hieroglyph into one or more instructions for manipulation of the articulated robotic arm. The method includes causing the articulated robotic arm to carry out the instructions translated from the identified hieroglyph. Accordingly foreign objects are inserted into fabricated objects during an automated rapid fabrication process without extensive redesign of the rapid fabrication machine. In some implementations, an unmodified third-party stereolithographic rapid fabrication machine can be used. | 09-18-2014 |
| 20140316549 | Method for Producing A Three-Dimensional Object by Means of a Stereolithography Process, Including A Computer Graphic Design of Said Object - A three-dimensional object ( | 10-23-2014 |
| 20140379114 | PROJECTION IMAGE CORRECTION SYSTEM AND PROJECTION IMAGE CORRECTION METHOD - A projection image correction system includes a section that detects intersection coordinates in a corrected sheet image, a section that calculates a first projective transformation matrix for transformation of the detected intersection coordinates into intersection coordinates stored in advance, a section that generates two spatial code images from the corrected positive and negative images of Gray code patterns, a section that acquires intersections of brightness profiles in the positive and negative images, a section that acquires coordinates of an intersection of boundary lines in the two spatial code images, a section that calculates a second projective transformation matrix by which transformation is performed so that the acquired intersection coordinates, transformed by the first projective transformation matrix, are distributed over the entire region, and a section that transforms, using the second projective transformation matrix, image data to be outputted to a projector. | 12-25-2014 |
| 20150019000 | IMAGE PROJECTION SYSTEM AND IMAGE PROJECTION METHOD - An image projection system projects a single image on an image projection region from a plurality of image projection sections and includes section that detects checker intersection coordinates in a corrected checkered sheet image, a section that calculates a first projective transformation matrix from the checker intersection coordinates, a section that generates first and second spatial code images, a section that acquires boundary lines in the first and second spatial code images, and acquires first intersection coordinates of the boundary lines, a section that calculates a second projective transformation matrix for projective transformation of the first intersection coordinates, transformed using the first projective transformation matrix, into second intersection coordinates distributed over an entire sub-region of the image projection region, and a section that transforms image data by using the second projective transformation matrix. | 01-15-2015 |
| 20150045934 | INTERNET-ENABLED APPARATUS, SYSTEM AND METHODS FOR PHYSICALLY AND VIRTUALLY RENDERING THREE-DIMENSIONAL OBJECTS - Three-dimensional object bridge between virtual and physical worlds. A method, system, apparatus and/or computer-usable medium includes steps of selecting a three-dimensional item in a first state for subsequent rendering into a second state and rendering the three-dimensional item in the second state via the three-dimensional rendering apparatus. An additional step of locating a three-dimensional rendering apparatus for rendering the three-dimensional item in a second state can be included. The three-dimensional rendering apparatus can be configured as a kiosk (manned or unmanned), Internet-enabled vending machine, and the like. The first state can comprise a virtual state and the second state can comprise a physical state. Likewise, the first state can comprise a physical state and the second state can comprise a virtual state. Additionally, the three-dimensional item/object can be mapped in the first state for rendering in the second state. | 02-12-2015 |
| 20150045935 | MODEL-BASED SCANNER TUNING SYSTEMS AND METHODS - Systems and methods for tuning photolithographic processes are described. A model of a target scanner is maintained defining sensitivity of the target scanner with reference to a set of tunable parameters. A differential model represents deviations of the target scanner from the reference. The target scanner may be tuned based on the settings of the reference scanner and the differential model. Performance of a family of related scanners may be characterized relative to the performance of a reference scanner. Differential models may include information such as parametric offsets and other differences that may be used to simulate the difference in imaging behavior. | 02-12-2015 |
| 20150100149 | SYSTEM AND METHOD FOR CALIBRATING A LASER SCANNING SYSTEM - A system and method for calibrating a laser scanning system is provided. Various embodiments involve the use of a calibration plate with reference markings which is positioned to receive a directed beam in a set of known laser scanner positions. The directed beam forms a laser spot on the calibration plate, and the laser spot is captured using an image acquisition assembly such as a digital camera along with a motorized mount. The movement of the image acquisition assembly may be coordinated with the movement of the laser scanner to track the laser spot across the plate. After photographing various positions, actual laser spot coordinates are deduced from their position relative to the known positions of the reference markings. | 04-09-2015 |
| 20150298395 | 3D SCANNING-PRINTING DEVICE - A 3D scanning-printing device includes a platform, a processor, a reflecting module, a projector and a 3D printing module. The platform carries an object. The processor is electrically connected with the platform, the reflecting module, the projector and the 3D printing module. The processor controls the reflecting module to move between a first position and a second position. When the reflecting module is located at the first position, the projector projects a structured light to the object so as to produce 3D spatial information. The processor receives the 3D spatial information and produces 3D printing information. When the reflecting module is located at the second position, the projector projects a cutting layer image according to the 3D printing information, and the reflecting module reflects the cutting layer image to the 3D printing module. | 10-22-2015 |
| 20160136896 | SYSTEMS AND METHODS OF SIMULATING INTERMEDIATE FORMS FOR ADDITIVE FABRICATION - According to some embodiments, a method of optimizing an additive fabrication process for an object is provided, the method comprising obtaining a representation of an intermediate form of the object, the intermediate form being an expected shape of the object when partially fabricated by the additive fabrication process, simulating one or more forces expected to be applied to the intermediate form of the object during the additive fabrication process, evaluating one or more results of the simulating step against one or more criteria, and adapting the additive fabrication process based at least in part on a result of the evaluating. | 05-19-2016 |
