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Bohler, US

Christopher Bohler, North Royalton, OH US

Patent application number	Description	Published
20080266858	ILLUMINATED SIGNAGE EMPLOYING LIGHT-EMITTING DIODES - An illuminated sign (	10-30-2008

Christopher L. Bohler, North Royalton, OH US

Patent application number	Description	Published
20090141336	PROJECTION DISPLAY DEVICES EMPLOYING FRUSTRATED TOTAL INTERNAL REFLECTION - An image forming device for use in an optical projection device includes an optical interface and an array of movable elements selectively movable toward or away from the optical interface to selectively locally frustrate total internal reflection at the optical interface such that light totally internally reflected at the optical interface defines an image. A projection display device includes an optical projector system including the image forming device.	06-04-2009
20090147513	BACKLIGHTING LED POWER DEVICES - A generally planar illumination, display, or backlighting device is disclosed, including a generally planar arrangement of side emitting light emitting diode (LED) devices generating side emitted illumination, and a generally planar arrangement of wavelength conversion elements arranged coplanar with the generally planar arrangement of side emitting light emitting diode (LED) devices. The wavelength conversion elements are interspersed amongst the side emitting LED devices and configured to wavelength convert the side emitted illumination generated by the side emitting LED devices. A display device using such a generally planar illumination device is also disclosed, in which a liquid crystal display (LCD) panel is backlit by the generally planar illumination device.	06-11-2009
20090261490	FILM INSERT MOLDING (FIM) ON A 3D SHAPE - Systems and methods are described for performing film insert molding (FIM) on a 3D shape, such as a traffic light shell or cover. A film is pre-generated for a surface to be covered by the film, and is inserted into a mold. A viscous material is then injected into the mold and the film bonds to the shell as the viscous material cools and hardens. The film includes a material selected to provide one or more of scratch resistance, improved shell hardness, UV protection, corrosion protection etc., and/or may be selected to alter optical characteristics of the shell.	10-22-2009

Christopher Lee Bohler, Peachtree City, GA US

Patent application number	Description	Published
20110285314	Linkable Linear Light Emitting Diode System - A linkable linear light emitting diode (LED) system provides apparatus and method for mechanically, optically, and electrically linking multiple LED modules disposed over a wide and separated area of a ceiling system. Openings can be cut in ceiling tiles of a drop ceiling system and the LED lighting modules are coupled to the tile through the opening, with the tile being sandwiched between different portions of the module. A remote driver system is placed within the drop ceiling above the tiles and provide multiple connectors for powering a multitude of lighting modules. Certain of the LED lighting modules include both input and output connectors for both receiving power or data and providing power or data to other modules. In this manner, some of the modules act as master LED lighting modules and those receiving power and/or data therefrom are act as slave modules.	11-24-2011

Corey Allen Bohler, Castle Rock, CO US

Patent application number	Description	Published
20100161485	MONEY TRANSFER SYSTEMS AND METHODS - The present invention provides systems and methods of facilitating money transfers. The method includes receiving, at a money transfer system, access to a customer's account, establishing, at the money transfer system, a money transfer record including a recipient and an amount, and receiving, at the money transfer system, an identifier for the money transfer record. The method further includes receiving presentation of the identifier at an input device of the money transfer system and authorizing a money transfer associated with the money transfer record.	06-24-2010

Gregory B. Bohler, Lenoir, NC US

Patent application number	Description	Published
20100111480	ARMORED FIBER OPTIC ASSEMBLIES AND METHODS OF MAKING THE SAME - Armored fiber optic assemblies are disclosed that include a dielectric armor along with methods for manufacturing the same. The dielectric armor has an armor profile, thereby resembling conventional metal armored cable to the craft. The dielectric armor provides additional crush and impact resistance and the like for the optical fibers and/or fiber optic assembly therein. The dielectric armor is advantageous to the craft since it provides the desired mechanical performance without requiring the time and expense of grounding like conventional metal armored cables. Additionally, the armored fiber optic assemblies can have any suitable flame and/or smoke rating for meeting the requirements of the intended space.	05-06-2010
20100162770	Armored Fiber Optic Assemblies and Methods of Making the Same - Armored fiber optic assemblies are disclosed that include a dielectric armor along with methods for manufacturing the same. The dielectric armor has an armor profile, thereby resembling conventional metal armored cable to the craft. The dielectric armor provides additional crush and impact resistance and the like for the optical fibers and/or fiber optic assembly therein. The dielectric armor is advantageous to the craft since it provides the desired mechanical performance without requiring the time and expense of grounding like conventional metal armored cables. Additionally, the armored fiber optic assemblies can have any suitable flame and/or smoke rating for meeting the requirements of the intended space.	07-01-2010
20100260459	Armored Fiber Optic Assemblies and Methods of Forming Fiber Optic Assemblies - Cables have dielectric armor with an armor profile that resembles conventional metal armored cable. The dielectric armor provides additional crush and impact resistance for the optical fibers and/or fiber optic assembly therein. The armored cables recover substantially from deformation caused by crush loads. Additionally, the armored fiber optic assemblies can have any suitable flame and/or smoke rating for meeting the requirements of the intended space.	10-14-2010
20100278492	Armored Fiber Optic Assemblies and Methods of Forming Fiber Optic Assemblies - Cables have dielectric armor with an armor profile that resembles conventional metal armored cable. The armor can be formed as a single layer, without requiring an outer jacket layer. The dielectric armor provides additional crush and impact resistance for the optical fibers and/or fiber optic assembly therein. The armored cables recover substantially from deformation caused by crush loads. Additionally, the armored fiber optic assemblies can have any suitable flame and/or smoke rating for meeting the requirements of the intended space. The assemblies can additionally be lightweight and relatively inexpensive to manufacture.	11-04-2010
20110262087	ARMORED FIBER OPTIC ASSEMBLIES AND METHODS OF FORMING FIBER OPTIC ASSEMBLIES - Cables have dielectric armors with armor profiles that provide additional crush and impact resistance for the optical fibers and/or fiber optic assembly therein, while retaining flexibility to aid during installation. The armored cables recover substantially from deformation caused by crush loads.	10-27-2011

Gregory Blake Bohler, Lenoir, NC US

Patent application number	Description	Published
20110085772	Buffered Large Core Fiber - An optical fiber comprising: (i) a multi-mode silica based glass core, said core having a 80-300 μm diameter and an index of refraction n	04-14-2011

Markus Bohler, Poughkeepsie, NY US

Patent application number	Description	Published
20110319542	LIGHTWEIGHT STRUCTURAL FINISH - A lightweight finish composition, method of production and a method of application are provided. The lightweight finish composition comprises a resin dispersion or emulsion, alkali metal phosphate, alkylolammonium salt of a polyfunctional polymer, and lightweight aggregate such as silica spheres. The lightweight aggregate has a density and weight that is less than those of sand. The combination of alkali metal phosphate and alkylolammonium salt of a polyfunctional polymer stabilizes the lightweight finish composition and may prevent the lightweight aggregate from continuously absorbing water over time, after production of the lightweight finish composition.	12-29-2011

Markus Bohler, Waterford Works, NJ US

Patent application number	Description	Published
20090197990	Lightweight Structural Finish - A lightweight finish composition, method of production and a method of application are provided. The lightweight finish composition comprises a resin dispersion, alkali metal phosphate, alkylolammonium salt of a polyfunctional polymer, and lightweight aggregate such as silica spheres. The lightweight aggregate has a density and weight that is less than those of sand. The combination of alkali metal phosphate and alkylolammonium salt of a polyfunctional polymer stabilizes the lightweight finish composition by preventing the lightweight aggregate from absorbing water, after production of the lightweight finish composition.	08-06-2009