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Hacke

André Hacke, Griez DE

Patent application number	Description	Published
20120105576	Arrangement of a Rotary Image Capture Unit for Imaging Objects on Circuit Boards at a Polar Viewing Angle 45 - The invention is directed to a rotary image capture unit for imaging objects on printed circuit boards at a polar viewing angle of 45°. The object of the invention is to provide a possibility for realizing an object inspection from different, finely adjustable viewing angles (azimuth angle and polar angle) in the most economical manner possible. According to the invention, this object is met by a rotary image capture unit for imaging objects on printed circuit boards, preferably at an angle of 45° in that an imaging assembly comprising a cable feed, a video camera (	05-03-2012

Andrew Hacke, Abingdon, MD US

Patent application number	Description	Published
20090075245	Method of mounting a game animal and kit therefor - The present invention is a kit and method of mounting a game animal that allows for antlers or horns to be quickly added or interchanged to an otherwise artificial mount. The method generally comprises the following steps: measuring the game animal, taking at least one picture of the game animal, caping the head, cutting the skull, boiling the skull cap, selecting the form, cutting the skull cap to fit the selected form, drilling holes in the skull cap, adding clay to the form, fitting the skull plate to the form, placing screws through the holes in the skull cap, covering the skull cap attached to the form with flaps from the artificial hair, trimming the excess material from the flaps, tucking the flaps around the antler or horn base, and bending the ears of the form to the desired position. The above-described method creates an odorless trophy that is durable, will remain intact for decades, and which has more consistent, lifelike, and more realistic facial features. The method is time efficient, inexpensive, and can be performed for game animals of all species, sizes, and sexes.	03-19-2009

Cornel C. Hacke, Guelph CA

Patent application number	Description	Published
20090250060	Disposable mask assembly with exhaust filter and valve disc and method of assembling same - A face mask assembly and method of assembling a face mask is provided for a patient that includes a face piece sized to fit over the patient's nose and mouth. The face mask assembly forms a mask chamber between the face piece and the patient's nose and mouth. An inhalation adapter is coupled to the face piece to deliver medication to the chamber. A filter housing is coupled to the face piece and includes a flange section that defines a passageway to connect the mask chamber and the flange section. A filter is positioned in the filter housing. A cover is coupled to the flange section and has an exhalation opening or vent to allow gases from the mask chamber to pass through the filter and escape from the passageway to the atmosphere. In a second embodiment, the filter housing is modified by providing a frame adjacent the bottom with a cross-shaped structure and a retainer button attached to the housing. A valve disc is provided between the retainer button and frame adapted to allow gases from the mask chamber around the valve disc towards the filter. When a patient inhales oxygen through the nasal portion, the valve disc moves towards the mask and partially covers a plurality of apertures to partially block additional air from entering the chamber. When a patient exhales contaminated oxygen, the valve disc moves towards the retainer button to allow a maximum amount of air through the apertures towards the filter.	10-08-2009
20110203582	Medical air tubing connection system - A medical air tubing and anti-mismatch fluid distribution system is provided for preventing the inadvertent connection of a feed line to an incorrect source of fluid. The fluid distribution system includes an adapter that is connected permanently to the fluid supply and has an outlet end that is compatible with a coupling member on the feed line. The coupling member on the feed line is compatible with the adapter but is not compatible with the other coupling member of the second fluid supply. A feed line assembly includes a feed line with a connector fixed to a first end and a nebulizer or other medical device fixed to a second end to form a one piece, integrally formed unit. The second fluid supply can include an adapter that is different from the first adapter so that the coupling members of the feed lines are compatible only with the appropriate adapter for the desired fluid source.	08-25-2011

Gerhard A. Hacke, Erin CA

Patent application number	Description	Published
20090250060	Disposable mask assembly with exhaust filter and valve disc and method of assembling same - A face mask assembly and method of assembling a face mask is provided for a patient that includes a face piece sized to fit over the patient's nose and mouth. The face mask assembly forms a mask chamber between the face piece and the patient's nose and mouth. An inhalation adapter is coupled to the face piece to deliver medication to the chamber. A filter housing is coupled to the face piece and includes a flange section that defines a passageway to connect the mask chamber and the flange section. A filter is positioned in the filter housing. A cover is coupled to the flange section and has an exhalation opening or vent to allow gases from the mask chamber to pass through the filter and escape from the passageway to the atmosphere. In a second embodiment, the filter housing is modified by providing a frame adjacent the bottom with a cross-shaped structure and a retainer button attached to the housing. A valve disc is provided between the retainer button and frame adapted to allow gases from the mask chamber around the valve disc towards the filter. When a patient inhales oxygen through the nasal portion, the valve disc moves towards the mask and partially covers a plurality of apertures to partially block additional air from entering the chamber. When a patient exhales contaminated oxygen, the valve disc moves towards the retainer button to allow a maximum amount of air through the apertures towards the filter.	10-08-2009
20110203582	Medical air tubing connection system - A medical air tubing and anti-mismatch fluid distribution system is provided for preventing the inadvertent connection of a feed line to an incorrect source of fluid. The fluid distribution system includes an adapter that is connected permanently to the fluid supply and has an outlet end that is compatible with a coupling member on the feed line. The coupling member on the feed line is compatible with the adapter but is not compatible with the other coupling member of the second fluid supply. A feed line assembly includes a feed line with a connector fixed to a first end and a nebulizer or other medical device fixed to a second end to form a one piece, integrally formed unit. The second fluid supply can include an adapter that is different from the first adapter so that the coupling members of the feed lines are compatible only with the appropriate adapter for the desired fluid source.	08-25-2011

Peter Hacke, Albuquerque, NM US

Patent application number	Description	Published
20080216887	Interconnect Technologies for Back Contact Solar Cells and Modules - Methods and systems for interconnecting back contact solar cells. The solar cells preferably have reduced area busbars, or are entirely busbarless, and current is extracted from a variety of points on the interior of the cell surface. The interconnects preferably relieve stresses due to solder reflow and other thermal effects. The interconnects may be stamped and include external or internal structures which are bonded to the solder pads on the solar cell. These structures are designed to minimize thermal stresses between the interconnect and the solar cell. The interconnect may alternatively comprise porous metals such as wire mesh, wire cloth, or expanded metal, or corrugated or fingered strips. The interconnects are preferably electrically isolated from the solar cell by an insulator which is deposited on the cell, placed on the cell as a discrete layer, or laminated directly to desired areas of the interconnect.	09-11-2008
20090126786	Selective Emitter and Texture Processes for Back Contact Solar Cells - Methods for manufacturing textured selective emitter back contact solar cells, and solar cells made in accordance therewith. A separate antireflective coating is preferably deposited, which also preferably provides simultaneous hydrogen passivation. The high sheet resistance and low sheet resistance selective emitter diffusions may be performed in either order.	05-21-2009
20090320922	Contact Fabrication of Emitter Wrap-Through Back Contact Silicon Solar Cells - Back contact solar cells including rear surface structures and methods for making same. The rear surface has small contact areas through at least one dielectric layer, including but not limited to a passivation layer, a nitride layer, a diffusion barrier, and/or a metallization barrier. The dielectric layer is preferably screen printed. Large grid areas overlay the dielectric layer. The methods provide for increasing efficiency by minimizing p-type contact areas and maximizing n-type doped regions on the rear surface of a p-type substrate.	12-31-2009
20110086466	CONTACT FABRICATION OF EMITTER WRAP-THROUGH BACK CONTACT SILICON SOLAR CELLS - Back contact solar cells including rear surface structures and methods for making same. The rear surface has small contact areas through at least one dielectric layer, including but not limited to a passivation layer, a nitride layer, a diffusion barrier, and/or a metallization barrier. The dielectric layer is preferably screen printed. Large grid areas overlay the dielectric layer. The methods provide for increasing efficiency by minimizing p-type contact areas and maximizing n-type doped regions on the rear surface of a p-type substrate.	04-14-2011
20110126878	INTERCONNECT TECHNOLOGIES FOR BACK CONTACT SOLAR CELLS AND MODULES - Methods and systems for interconnecting back contact solar cells. The solar cells preferably have reduced area busbars, or are entirely busbarless, and current is extracted from a variety of points on the interior of the cell surface. The interconnects preferably relieve stresses due to solder reflow and other thermal effects. The interconnects may be stamped and include external or internal structures which are bonded to the solder pads on the solar cell. These structures are designed to minimize thermal stresses between the interconnect and the solar cell. The interconnect may alternatively comprise porous metals such as wire mesh, wire cloth, or expanded metal, or corrugated or fingered strips. The interconnects are preferably electrically isolated from the solar cell by an insulator which is deposited on the cell, placed on the cell as a discrete layer, or laminated directly to desired areas of the interconnect.	06-02-2011
20110155225	Back contact solar cells having exposed vias - Embodiments of the invention contemplate the formation of a solar cell device that has improved efficiency and device electrical properties. In one embodiment, the solar cell device described herein includes an Emitter Wrap Through (EWT) solar cell that has plurality of laser drilled vias disposed in a spaced apart relationship to metal gridlines formed on a surface of the substrate. Solar cell structures that may benefit from the invention disclosed herein include back-contact solar cells, such as those in which both positive and negative contacts are formed only on the rear surface of the device.	06-30-2011

Peter Hacke, Golden, CO US

Patent application number	Description	Published
20100024881	Interconnect Technologies for Back Contact Solar Cells and Modules - Methods and systems for interconnecting back contact solar cells. The solar cells preferably have reduced area busbars, or are entirely busbarless, and current is extracted from a variety of points on the interior of the cell surface. The interconnects preferably relieve stresses due to solder reflow and other thermal effects. The interconnects may be stamped and include external or internal structures which are bonded to the solder pads on the solar cell. These structures are designed to minimize thermal stresses between the interconnect and the solar cell. The interconnect may alternatively comprise porous metals such as wire mesh, wire cloth, or expanded metal, or corrugated or fingered strips. The interconnects are preferably electrically isolated from the solar cell by an insulator which is deposited on the cell, placed on the cell as a discrete layer, or laminated directly to desired areas of the interconnect.	02-04-2010