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Dimatteo
Guido Dimatteo, Ontario, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20100308097 | SPRING-LOADED, FRICTION-DRIVEN TAKE-UP ROLLER FOR MANAGING LONG SCANNED DOCUMENTS - This is a take-up roller assembly that is connected to paper exiting a scanner and collects this exiting paper. The take-up roller assembly is moved by movement of paper entering the scanner together with a paper pulling structure that is located in the scanner. This take-up roller assembly is uniquely suitable for use in a wide format imaging system that uses a scanner. | 12-09-2010 |
| 20110255903 | PROOF PRINTING USING RECYCLED MARKING MATERIAL - Methods and systems supply used marking material to a printing device marking material supply container. The used marking material was previously used in a printing process and was previously removed from one or more photoreceptors. The methods/systems feed the used marking material from the material supply container to a photoreceptor within the printing device and transfer the used marking material to a sheet of media in a printing process performed by the printing device that produces “proof prints.” These proof prints are printed sheets that are used to verify content and/or layout of printed material. The proof prints are not required to comply with any print quality or print durability standard. The methods/systems also fuse (using a heating element within the printing device) the used marking material to the sheet of media at a reduced temperature that is insufficient to comply with any print quality or print durability standard. | 10-20-2011 |
Jeremiah Dimatteo, Manhattan Beach, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20080230285 | Multimodal agile robots - Examples and implementations of various robotic mechanisms, apparatus, systems and techniques including multimodal robotic devices and systems | 09-25-2008 |
Kristian Dimatteo, Raynham, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20110270308 | PARTIAL THICKNESS ROTATOR CUFF REPAIR SYSTEM AND METHOD - A method and system is provided for of attaching a rotator cuff tendon to its associated humeral head. The method includes the steps of passing a positional guide through the tendon toward the humeral head at a target site and positioning a suture anchor between the humeral head and the tendon at the target site by passing the suture anchor under the tendon. The suture anchor is driven into the humeral head and suture is passed from the suture anchor and through the tendon to attach the tendon to the humeral head at the target site. | 11-03-2011 |
Mark Dimatteo, Irwin, PA US
| Patent application number | Description | Published |
|---|---|---|
| 20100126506 | MODULAR PRESSURE SUPPORT SYSTEM AND METHOD - A pressure support system that comprises a patient circuit, a docking assembly, and a tank. The patient circuit delivers a pressurized flow of breathable gas to a patient. The docking assembly has an inlet and an outlet that is adapted to receive the pressurized flow of breathable gas, and is also adapted to be connected with the patient circuit. The tank is constructed and arranged to be removably connected with the docking assembly, and enables the pressurized flow of breathable gas to pass therethrough. The tank is also adapted to contain a liquid such that a humidity level of the pressurized flow of breathable gas is elevated as the pressurized flow of breathable gas passes therethrough. | 05-27-2010 |
Robert Dimatteo, Belmont, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20090188549 | Method of and apparatus for improved thermophotonic generation of electricity - A thermophotonic method and generator of photovoltaic current wherein preferably a thermal source supplemented by photon flux as generated in an interposed semiconductor LED or the like is vacuum-spaced from a photovoltaic semiconductor surface by a gap of the order of submicrons/microns. | 07-30-2009 |
| 20090277488 | Method and structure, using flexible membrane surfaces, for setting and/or maintaining a uniform micron/sub-micron gap separation between juxtaposed photosensitive and heat-supplying surfaces of photovoltaic chips and the like for the generation of electrical power - A near-field energy conversion structure and method of assembling the same, utilizing a sub-micrometer “near field” gap between juxtaposed photocell infrared radiation receiver and heat emitter surfaces, wherein compliant membrane structures, preferably fluid-filled, are interposed in the structure. | 11-12-2009 |
| 20100319749 | Sub-micrometer gap thermophotovoltaic structure (MTPV) and fabrication method therefor - An MTPV thermophotovoltaic chip comprising a photovoltaic cell substrate, micron/sub-micron gap-spaced from a juxtaposed heat or infrared radiation-emitting substrate, with a radiation-transparent intermediate window substrate preferably compliantly adhered to the photovoltaic cell substrate and bounding the gap space therewith. | 12-23-2010 |
Robert S. Dimatteo, Cambridge, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20110315195 | Micro-Gap Thermal Photovoltaic Large Scale Sub-Micron Gap Method and Apparatus - The present invention relates to micron-gap thermal photovoltaic (MTPV) technology for the solid-state conversion of heat to electricity. The problem is forming and then maintaining the close spacing between two bodies at a sub-micron gap in order to maintain enhanced performance. While it is possible to obtain the sub-micron gap spacing, the thermal effects on the hot and cold surfaces induce cupping, warping, or deformation of the elements resulting in variations in gap spacing thereby resulting in uncontrollable variances in the power output. A major aspect of the design is to allow for intimate contact of the emitter chips to the shell inside surface, so that there is good heat transfer. The photovoltaic cells are pushed outward against the emitter chips in order to press them against the inner wall. A high temperature thermal interface material improves the heat transfer between the shell inner surface and the emitter chip. | 12-29-2011 |
Robert Stephen Dimatteo, Belmont, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20080223435 | Micron gap thermal photovoltaic device and method of making the same - A method of making a micron gap thermal photovoltaic device wherein at least one standoff is formed on a photovoltaic substrate, a sacrificial layer is deposited on the photovoltaic substrate and about the standoff, an emitter is attached to the standoff and has a lower planar surface separated from the photovoltaic substrate by the sacrificial layer, and the sacrificial layer is removed to form a sub-micron gap between the photovoltaic substrate and the lower planar surface of the emitter. | 09-18-2008 |
Vito Dimatteo, West Harrison, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20120042537 | SANDAL WITH PNEUMATIC SUPPORT - The sandal with pneumatic support includes an inflatable bladder in the sole, in the area immediately beneath the arch of the foot when the sandal is worn. A manual air pump is provided integrally with the sandal. In one embodiment, the pump is located atop the toe divider of a flip-flop type sandal. In another embodiment, the pump is located in the heel. A pressure relief valve is located along one of the upper straps of the sandal. The arch bladder, air pump, and relief valve communicate pneumatically with one another. The sandal may be devoid of structure extending between the toes when worn, but may include straps passing over and/or around the foot. The sandal provides greatly improved support and reduces or eliminates muscular problems resulting from the lack of arch support in sandals. | 02-23-2012 |