GeoDigm Corporation Patent applications |
Patent application number | Title | Published |
20120276502 | DESIGN AND MANUFACTURE OF DENTURES - Manufacturing dentures for a patient includes preparing a dentition plan; designing dentures based on the dentition plan; and fabricating the dentures. To fabricate the dentures, one or more patterns of the dentures may be produced, tooth substitutes may be assembled on the pattern, and one or more denture bases may be cast around the tooth substitutes from the patterns. Alternatively, tooth substitutes may be installed on denture bases that are milled or otherwise fabricated. The roots of the tooth substitutes may be modified to better fit in the designed dentures. | 11-01-2012 |
20110070562 | DENTAL PROSTHESIS MANUFACTURING PROCESS, DENTAL PROSTHESIS PATTERN & DENTAL PROSTHESIS MADE THEREBY - A dental prosthesis is made by first forming a model of a patient's dentition. A three dimensional digital data corresponding to the surfaces of the model is then created. Based on this data, a three dimensional digital data file is then created substantially corresponding to the dental prosthesis to be manufactured. The three dimensional digital data of the dental prosthesis to be manufactured is next transmitted to automated prototyping equipment, and using the automated prototyping equipment, a wax pattern of the dental prosthesis is manufactured based upon this three dimensional digital data of the dental prosthesis. Finally, using this wax pattern in the lost wax investment casting process, the dental prosthesis is made. Prior to investment casting, marginal edges of the wax pattern are adjusted manually. | 03-24-2011 |
20100217567 | SCANNING DENTAL MODELS - A system for generating an electronic model having a common coordinate system includes a scanning device; a first plate module; and a second plate module. Each of the plate modules is configured to separately couple to the scanning device. The plate modules also can be moveably coupled together using an articulation device. Each of the plate modules includes alignment structures (e.g., spheres) to facilitate determining a position and orientation of the plate modules within a coordinate system of the scanning device. | 08-26-2010 |
20100169056 | METHOD AND APPARATUS FOR ELECTRONIC DELIVERY OF ELECTRONIC MODEL IMAGES - A method, apparatus, and article of manufacture provide a distributed computing system delivering and manipulating electronic model images to end users. One aspect of the present invention includes a method for providing electronic delivery of electronic model images. The method generates one or more electronic model images, a portion of the electronic model images being generated from scanned electronic data of a physical object, stores the electronic model images within computer readable memory of a server-based computing system, delivers the electronic model images to a remote client computer over a distributed communications network, manipulates the electronic model images upon the remote client computer, and performs analysis and a course of action using the manipulated electronic model images. The electronic model images comprise in part a polygonal mesh representation of the physical object. | 07-01-2010 |
20100151405 | DESIGNING A BRACKET ALIGNMENT DEVICE - A method includes obtaining an electronic model image representing teeth of a patient; determining a desired bracket arrangement for one or more brackets on the teeth; designing an electronic model image of an alignment device based in part on the desired bracket arrangement; and fabricating the alignment device based on the electronic model image of the alignment device. The desired bracket arrangement includes a surface location, a tip orientation, and a torque orientation of each bracket. The alignment device defines at least one slot through which a bracket can be placed at a surface location and an orientation indicator to indicate a desired tip orientation and a desired torque orientation of each bracket. | 06-17-2010 |
20090316966 | Method and apparatus for combining 3D dental scans with other 3D data sets - By matching a first data set including digital, three-dimensional, dental models with a second data set including digital, cranio-facial 3D medical scan records, missing or inaccurate portions of the cranio-facial 3D medical scan record can be improved. Example methods for matching the data sets include automatically positioning the dental model with respect to the 3D medical scan record and automatically eliminating common (i.e., overlapping) portions from one of the data sets. Two-dimensional images can be mapped onto images generated from either of the first and second data sets to enhance accuracy and/or photo-realism. | 12-24-2009 |
20090148816 | DESIGN OF DENTAL APPLIANCES - Electronic models of components of dental appliances can be generated based on the outer surface of an electronic model of the dental appliance. The outer surface may be generated based on the dentition and anatomy of the patient. For example, automated processes may identify landmarks in the anatomy and define the outer surface based on the identified landmarks. Alternatively, the outer surface may be generated based on statistical data. A management system coordinates automated processes with interactive processes to facilitate collaboration of remotely located technicians and equipment in generating electronic models. | 06-11-2009 |
20090142733 | SUPPORT STRUCTURE FOR A PRINTED MODEL IN MULTI-COMPONENT DENTAL APPLIANCES - Dental appliances including multiple components and a system and method for constructing the same are disclosed herein. The dental components are designed to fit together to form the dental appliance. The components of the dental appliance are electronically modeled, printed, and pressed sequentially, separately, or as a unitary piece. Forming the dental appliance from multiple components enables each component of the dental appliance to be formed from a different material, each material having different features associated with it. In various embodiments, different materials have different colors, textures, opacities, and transformation factors associated with them. Furthermore, each component can be formed from multiple components. In some other embodiments, a support structure is designed and constructed in order to minimize deformation of a dental component during fabrication of the component. | 06-04-2009 |
20090087818 | DENTAL PROSTHESIS MANUFACTURING PROCESS, DENTAL PROSTHESIS PATTERN & DENTAL PROSTHESIS MADE THEREBY - A dental prosthesis is made by first forming a model of a patient's dentition. A three dimensional digital data corresponding to the surfaces of the model is then created. Based on this data, a three dimensional digital data file is then created substantially corresponding to the dental prosthesis to be manufactured. The three dimensional digital data of the dental prosthesis to be manufactured is next transmitted to automated prototyping equipment, and using the automated prototyping equipment, a wax pattern of the dental prosthesis is manufactured based upon this three dimensional digital data of the dental prosthesis. Finally, using this wax pattern in the lost wax investment casting process, the dental prosthesis is made. Prior to investment casting, marginal edges of the wax pattern are adjusted manually. | 04-02-2009 |
20080248437 | DETERMINING BRACKET LOCATIONS ON ELECTRONIC MODELS OF TEETH - Locating desired placement locations of brackets for a patient's teeth includes obtaining an array of data points from a cast of the teeth and generating a virtual model from the array of scanned data points. Individual teeth from the virtual model can be manually severed or “cut” and manually dragged from a start position to a finished position to determine a treatment plan. The orthodontist virtually marks the position on the virtual model where a physical bracket is desired. Brackets can then be automatically placed onto a cast of the teeth at corresponding positions. | 10-09-2008 |
20080220395 | Design of Dental Appliances - Electronic models of components of dental appliances can be generated based on the outer surface of an electronic model of the dental appliance. The outer surface may be generated based on the dentition and anatomy of the patient. For example, automated processes may identify landmarks in the anatomy and define the outer surface based on the identified landmarks. Alternatively, the outer surface may be generated based on statistical data. A management system coordinates automated processes with interactive processes to facilitate collaboration of remotely located technicians and equipment in generating electronic models. | 09-11-2008 |