Patent application number | Description | Published |
20100163675 | TRANSPARENCY HAVING SENSORS - A transparency, e.g. an aircraft laminated windshield, includes one or more sensors to monitor performance of one or more properties, e.g. a heating arrangement of the windshield, and to generate signals representative of the performance of the properties. One part of a connector, external of the transparency and connected to the sensors is connected to a system positioned in the aircraft. The system receives a signal from each of the sensors, and processes the signals to determine difference between performance of the property as indicated by the signal received and a preferred performance of the property to provide real time monitoring of the performance of the windshield. With this arrangement information regarding the performance of the windshield is available to schedule timely repair or replacement of the windshield that is performing outside of acceptable limits. | 07-01-2010 |
20120173438 | METHOD OF AND SYSTEM FOR MAINTAINING OPERATING PERFORMANCE OF A TRANSPARENCY - Repair or replacement of a transparency mounted in body of a vehicle, e.g. an aircraft when one or more properties of the transparency is (are) operating outside of an acceptable limit(s) is arranged by monitoring operating performance of a property of the transparency, e.g. by mounted a sensor, e.g. a sensor for detecting moisture; a sensor for detecting impacts and vibrations; a sensor for detecting fractures; a sensor for detecting electric arcing, and a sensor for measuring temperature of an electrically conductive coating, on the transparency. Scheduling repair or replacement of the transparency at a geographical area when the operating performance of the property is outside an acceptable operating performance limit, and forwarding the schedule to the vehicle and to a maintenance location to prepare for the repair or replacement of the transparency at the geographical work area. | 07-05-2012 |
Patent application number | Description | Published |
20080276565 | METHOD AND APPARATUS FOR STICK BUILDING HOMES WITHIN A FACTORY - A method and apparatus for stick-building large buildings (e.g., single-family homes, townhouses, apartment complexes, commercial structures, multi-story buildings, buildings legally or physically too large or oddly shaped to be transported substantially intact via public roads, etc.) within a factory is presented. The factory can be constructed on or near the intended building destination(s). The factory can include a large enclosed structure that shelters the construction process, the raw materials and/or workers from the extremes or effects of the natural elements. Inside the factory, one or more buildings are constructed using stick-building construction techniques (e.g., constructing the building from raw materials without pre-manufactured panels or modular sections). The factory can use assembly line and/or assembly point stick-building techniques. | 11-13-2008 |
20080289287 | BUILDING MANUFACTURING FACILITY WITH ROTATABLE SUBASSEMBLY AREAS - The present invention relates to a facility for manufacturing non-roadable buildings. The facility includes an enclosed area having a roof, a plurality of bays for positioning the non-roadable buildings therein, each of the plurality of bays configured to have one non-roadable building positioned therein, a plurality of movable manufacturing areas configured to manufacture elements for manufacturing and a lifting device positioned within the enclosed area and configured to move the elements for manufacturing of the non-roadable building through the facility, including movement of the elements from each of the plurality of movable manufacturing areas to each of the plurality of bays. | 11-27-2008 |
20090025322 | METHOD AND APPARATUS FOR BUILDING HOMES IN A FACTORY LACKING A ROOF OR EXTERIOR WALL - In one embodiment, a building manufacturing system is provided. The system includes a manufacturing facility. The manufacturing facility includes one or more walls arranged to form a substantially complete perimeter. The manufacturing facility further includes a substantially open top. The system also includes one or more component assembly areas associated with the manufacturing facility. One or more components for a large building are assembled in the component assembly areas. The system also includes one or more assembly stations associated with the manufacturing facility. The large building is assembled substantially completely from a plurality of components in the stations. | 01-29-2009 |
20090067952 | Building Transport Device - The present invention relates to a transport device for transporting a building. The device includes a first support structure, the first support structure having at least four wheels capable of individual rotation about a vertical axis and a second support structure, the second support structure having at least four wheels capable of individual rotation about a vertical axis. The first support structure and the second support structure are configured to couple together to support and transport the building. | 03-12-2009 |
Patent application number | Description | Published |
20100031878 | Vacuum Deposition Sources Having Heated Effusion Orifices - The present invention provides deposition sources that can efficiently and controllably provide vaporized material for deposition of thin film materials. Deposition sources described herein can be used to deposit any desired material and are particularly useful for depositing high melting point materials at high evaporation rates. An exemplary application for deposition sources of the present invention is deposition of copper, indium, and gallium in the manufacture of copper indium gallium diselenide based photovoltaic devices. | 02-11-2010 |
20100031888 | Electrical Contacts For Use With Vacuum Deposition Sources - The present invention provides electrical contact assemblies can be used with vacuum deposition sources. In one exemplary application, the electrical contact assemblies of the present invention provide electrical contact to an arcuate or otherwise curved surface of a heating device used with a vacuum deposition source. | 02-11-2010 |
20100154710 | IN-VACUUM DEPOSITION OF ORGANIC MATERIALS - Vapor depositions sources, systems, and related deposition methods. Vapor deposition sources for use with materials that evaporate or sublime in a difficult to control or otherwise unstable manner are provided. The present invention is particularly applicable to deposition of organic material such as those for forming one or more layer in organic light emitting devices. | 06-24-2010 |
20100248416 | DEPOSITION OF HIGH VAPOR PRESSURE MATERIALS - The present invention provides deposition sources, systems, and related methods that can efficiently and controllably provide vaporized material for deposition of thin-film materials. The deposition sources, systems and related methods described herein can be used to deposit any desired material and are particularly useful for depositing high vapor pressure materials such as selenium in the manufacture of copper indium gallium diselenide based photovoltaic devices. | 09-30-2010 |
20120263569 | SUBSTRATE HOLDERS AND METHODS OF SUBSTRATE MOUNTING - A substrate holder for holding a semiconductor substrate for processing in a molecular beam epitaxy system, the substrate including a front side, an opposite backside for epitaxial growth, and an outer edge extending between the front side and the backside, the substrate holder including a body comprising a central opening extending from a backside to a top side of the body, an inner ring surrounding the central opening, and a substrate support lip extending from the inner ring into the central opening, and at least one tensioning device operatively attached to the body and including a cam member and a spring in contact with a portion of the cam member, wherein the spring has a elongated portion and at least two contact portions extending from opposite ends of the elongated portion for contacting the outer edge of the substrate. | 10-18-2012 |
20140373785 | BELLOWS-FREE RETRACTABLE VACUUM DEPOSITION SOURCES - Systems are provided that include one or more retractable deposition source assemblies that eliminate the need for a bellows, but do not require breaking the ultra-high vacuum of a growth module for source replacement or recharging with deposition material. Systems of the present invention may include source heads that allow for a differential pumping option that provides marked improvement in base pressure around the source head (and material) that provides longer lifetimes for sources in corrosive, reactive or oxidizing environments. In addition, systems of the invention do not require an entire growth module to be vented to refill or repair an effusion source. Instead, for maintenance events that are tied to a specific source, a retractable source assembly of the present invention allows the sources to be withdrawn from the system, isolated from the growth environment, and removed without venting the entire chamber of the growth module. | 12-25-2014 |