Deych
Alexander Deych, Plant City, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20090020990 | VENTING DEVICE FOR AN AIRBAG INFLATOR - A device for supporting a rupturable closure member of a pressure vessel, such as an airbag inflator has a hollow support with a tapered portion and an adjoining cylindrical portion. An exterior surface of the tapered portion has longitudinally extending grooves therein. An igniter is located adjacent the cylindrical portion of the support and a pyrotechnic substance is located in the cylindrical portion of the support between the igniter and the tapered portion of the support. A rupturable closure member being forced against an open first end of the tapered portion of the support by the gas in the pressure vessel such that a chamber is formed within the support. The igniter when activated ignites the pyrotechnic substance and the burning pyrotechnic substance generates gas under pressure that causes the tapered portion of the support to break along the longitudinally extending grooves and no longer support the rupturable closure member allowing the gas in the pressure vessel to rupture the unsupported rupturable closure member. | 01-22-2009 |
Alexander V. Deych, Farmington Hills, MI US
| Patent application number | Description | Published |
|---|---|---|
| 20140021735 | VEHICLE VISOR ASSEMBLY WITH A CENTER CHECK CLIP - A check assembly portion of a visor assembly for a vehicle is generally fixedly coupled with the headliner of the vehicle roof near a center portion of the vehicle, away from the vehicle door or windows. Adapting a clip to a check assembly portion of a visor assembly to secure small lightweight items will deter such items from being exposed to weather or wind conditions near a vehicle door, a vehicle sunroof, or an exposed top, which a visor portion of a visor assembly typically becomes closer to such locations. The visor portion may also be operable between a deployed and a non-deployed position, wherein the clip on the check assembly may be concealed in the non-deployed position. | 01-23-2014 |
| 20140159416 | VEHICLE VISOR ASSEMBLY WITH A CENTER CHECK CLIP - A check assembly for a visor assembly of a vehicle is coupled with a headliner of a vehicle roof near a center portion of the vehicle, away from the vehicle door or windows. A clip on the check assembly is adapted to secure small lightweight items and deter such items from being exposed to weather or wind conditions near vehicle door windows, a vehicle sunroof, or an exposed top. The visor portion may engage a clasp on the check assembly and operate between deployed and non-deployed positions, whereby the clip of the check assembly may be concealed in the non-deployed position. According to one embodiment, the check assembly includes a resilient clip protruding rearward from a body portion thereof over a depressed area on the headliner for holding a lightweight item therebetween. | 06-12-2014 |
Ruvin Deych, Gloucester, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20120056092 | X-RAY DETECTOR WITH IMPROVED QUANTUM EFFICIENCY - Among other things, one or more systems and/or techniques for integrating electrical charge yielded from an indirect conversion detector array of a pulsating radiation system are provided. The integration begins during a resting period between a first and second pulse and ends before the second pulse is emitted. Electrical charge that is measured during a resting period is integrated, while electrical charge measured during a pulse is not integrated. In this way, parasitic contributions caused by the direct interaction of radiation photons with a photodiode are reduced and a quantum efficiency of the indirect conversion detector array is increased, for example. Moreover, the period of integration can be adjusted such that a voltage gain related to the indirect conversion detector array can be varied to a predetermined level. | 03-08-2012 |
| 20120163553 | THREE-DIMENSIONAL METAL PRINTING - One or more metal printing techniques are described for generating a three-dimensional metal structure, such as a one-dimensional or two-dimensional anti-scatter grid. The techniques comprise applying a thin layer of powdered metal onto a printing area and using a binder (which is printed onto the printing area according to a specified pattern) to bind the powdered metal particles together. The acts of applying powdered metal and a binder may be repeated a plurality of times until a three-dimensional metal structure having a specified height is created. Moreover, in one embodiment, once the layering is complete, another binder is applied to the one or more layers to provide strength and/or support. While heat may be used in some embodiments to activate one or more of the applied binders the three-dimensional metal structure is generally not heated to a melting point of the powdered metal. | 06-28-2012 |
| 20130121475 | ANTI-SCATTER GRID OR COLLIMATOR - Anti-scatter plates are used to attenuate secondary radiation so that it is not detected by a detector array. However, anti-scatter plates often cast dynamic shadows on the detector array which results in noise in signals produced by the detector array. As disclosed herein, an anti-scatter grid comprises at least two anti-scatter plates. A percentage difference in the shadows cast by the first and the second anti-scatter plates is substantially zero (e.g., causing uniform percentage change in shadows cast on the detector array). Additionally, the shadows that are cast by the anti-scatter plates may be substantially static. In one embodiment, this is accomplished by having a top surface of an anti-scatter plate that has a transverse dimension that is less than a bottom surface of the anti-scatter plate. | 05-16-2013 |
| 20130320222 | DETECTOR ARRAY HAVING EFFECTIVE SIZE LARGER THAN ACTUAL SIZE - One or more techniques and/or systems described herein provide for a detector array having an effective size that is larger than its actual size of its elements, thus reducing costs by reducing materials required. In one embodiment, one or more channels of the detector array are removed (e.g., and filled with a radiation absorbing material) to create what may be referred to as a sparse array. In another embodiment, one or more channels of a detector array comprise a detection portion and a dead space (e.g., filled with a radiation absorbing material). In yet another embodiment, one or more channels of a detector array comprise light focusing mechanisms configured to focus light from a scintillator portion of an indirect conversion detector array to a photodetector portion of the detector array, where a detection surface area of the photodetector is less than a detection surface area of the scintillator. | 12-05-2013 |
Vasiliy Deych, Brooklyn, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20140282231 | DYNAMICALLY RECONFIGURABLE MULTIFRAME USER INTERFACE FOR A COMPUTING DEVICE - A user interface for a computing device includes a user interface form configured to fill a computing display. The user interface form is selectively and dynamically partitionable to define a plurality of non-overlapping frames, including a first frame and a second frame. Each of the plurality of non-overlapping frames includes an application window configured to display an instance of a software application being run by the computing device. A dynamic partition is disposed between the first frame and the second frame, and is configured to translate in a direction that is transverse to a longitudinal axis of the dynamic partition. The translation of the dynamic partition resizes each of the first frame and the second frame. | 09-18-2014 |