Patent application number | Description | Published |
20160096067 | BASKETBALL NET WHICH DETECTS SHOTS THAT HAVE BEEN MADE SUCCESSFULLY - A made-shot-detecting net system is configured to determine when a basketball passes through the net. The system uses a strand of conductive material that is laced through the net, an electrical property (e.g., resistance) of which changes (e.g., increases) as the net—and hence the strand of conductive material—is stretched. By filtering out steady-state components of a voltage signal obtained from the net, instances where the net is being stretched can be identified. A value obtained by integrating (i.e., summing) the voltage output over the course of a stretch event is compared to various thresholds to identify the nature of the event. In certain embodiments, the fact that a shot has been made is transmitted wirelessly to a basketball-performance tracking application running on a mobile electronic computing device. | 04-07-2016 |
20160096071 | REAL-TIME EVENT MONITORING SYSTEM FOR BASKETBALL-RELATED ACTIVITIES - An event monitoring system for tracking, tabulating and displaying in real-time player and team performance statistics and events (such as scores, shot percentages, ball possessions, steals, rebounds and turnovers) during a basketball game or basketball-related activity involving a basketball goal, a plurality of players, and a basketball equipped with active or passive RFID tags. The system includes a plurality of wireless ball trackers worn on the wrists of participating players and officials, or attached to the goals, and a wireless mobile computing device with an event monitoring program and a set of data objects configured to store data representing current and historical events and performance statistics associated with the basketball activity and participants. The event and performance data may be displayed on a display screen associated with the mobile computing device in real-time and/or uploaded to and displayed on a connected scoreboard or cloud-based server. | 04-07-2016 |
Patent application number | Description | Published |
20120145540 | Electrolytic Cell for Heating Electrolyte by a Glow Plasma Field in the Electrolyte - An electrolytic cell for the generation of a plasma field in an electrolyte that heats the electrolyte forms part of a closed-loop heat transfer device, the electrolytic cell fluidly connected to a heat exchanger. A plasma electrode and a second electrode are mounted on a tubular insulating member that forms part of the flow path of electrolyte from the tank to the heat exchanger. The electrolyte must flow through the electrodes when flowing from the tank to the heat exchanger. | 06-14-2012 |
20140360867 | Electrolytic Cell for Heating Electrolyte by a Glow Plasma Field in the Electrolyte - An electrolytic cell for the generation of a plasma field in an electrolyte that heats the electrolyte forms part of a closed-loop heat transfer device, the electrolytic cell fluidly connected to a heat exchanger. A plasma electrode and a second electrode form part of the flow path of electrolyte from the tank to the heat exchanger. The electrolyte must flow through or along the electrodes when flowing from the tank to the heat exchanger. | 12-11-2014 |
20150367405 | Foundry Mixture and Related Methods for Casting and Cleaning Cast Metal Parts - A foundry mixture for making molds used for molding cast metal parts includes foundry sand, a non-aqueous binder, and a cleaning agent that includes calcium oxide. Residual foundry mixture remaining on the cast part after removal from the mold is removed by electrolytic cleaning of the cast part. | 12-24-2015 |
20150368826 | Foundry Mixture and Related Methods for Casting and Cleaning Cast Metal Parts - A foundry mixture for making molds used for molding cast metal parts includes foundry sand, a non-aqueous binder, and a cleaning agent that includes calcium oxide. Residual foundry mixture remaining on the cast part after removal from the mold is removed by electrolytic cleaning of the cast part. | 12-24-2015 |
Patent application number | Description | Published |
20100000429 | MODULAR OVAL SCREEN PRINTING APPARATUS - A screen printing apparatus has a base portion, and annular rail, an arm, and a first loading position. The base portion has a pair of opposing end sections separated by an intermediate section. The annular rail circumscribes a portion of the base portion. The arm radiates outwardly from the annular rail. The first loading position is located radially inwardly of the annular rail. | 01-07-2010 |
20140047989 | Squeegee Holder - In an embodiment of the present invention, a squeegee blade holder is provided. The holder includes a first side member, a second side member, and a pivot portion between the first and second side members. The holder also includes a separator between the first and second side members for maintaining compression of the side members against the squeegee blade. | 02-20-2014 |
20140060350 | Printing Machine with Shuttle Assembly - In an embodiment of the present invention, a number printing machine is provided. The machine includes at least one pallet, and an input to input at least the height and width of, and spacing between, a plurality of numbers to be printed on a substrate. The machine also includes a controller responsive to the input to control movement of the at least one pallet to print the plurality of numbers on the substrate in registration. In another embodiment, a method for printing numbers in registration on a substrate is provided. The method includes the steps of inputting into an input the length, width, and spacing between numbers to be printed, and positioning the substrate in response to the input such that the numbers are printed in registration. | 03-06-2014 |
20140107826 | Printing Machine Safety System - A screen printing safety system is provided. The system includes a screen printing machine, and a plurality of zones in the vicinity of the screen printing machine. Each of the zones includes at least one sensor for sensing encroachment past a predetermined point. The sensors are adapted to stop operation of the screen printing machine when encroachment is sensed in at least one of the plurality of zones. | 04-17-2014 |
20150107467 | Screen Printing Pallet Assembly and Method of Using Pallet Assembly in a Screen Printing Operation - A method of screen printing positionally synchronizes a plurality of pallet assemblies on a first screen printing machine with a plurality of pallet assemblies on a second screen printing machine. A screen printed garment having a properly aligned first image received from the first screen printing machine is transferred on a portion of one of the pallet assemblies on the first screen printing machine to one of the plurality of pallet assemblies on the second printing machine. The properly aligned first image on the garment is in proper positional alignment with a screen printing head on the second screen printing machine such that a second image complimentary to the first image is printed on the garment in proper position on the garment relative to the first image without user intervention to positionally locate the first image relative to the screen printing head on the second machine. | 04-23-2015 |
20150107468 | Screen Printing Pallet Assembly and Method of Using Pallet Assembly in a Screen Printing Operation - A method of screen printing positionally synchronizes a plurality of pallet assemblies on a first screen printing machine with a plurality of pallet assemblies on a second screen printing machine. A screen printed garment having a properly aligned first image received from the first screen printing machine is transferred on a portion of one of the pallet assemblies on the first screen printing machine to one of the plurality of pallet assemblies on the second printing machine. The properly aligned first image on the garment is in proper positional alignment with a screen printing head on the second screen printing machine such that a second image complimentary to the first image is printed on the garment in proper position on the garment relative to the first image without user intervention to positionally locate the first image relative to the screen printing head on the second machine. | 04-23-2015 |
Patent application number | Description | Published |
20100295096 | Integrated Devices on a Common Compound Semiconductor III-V Wafer - A method of fabricating an integrated circuit on a compound semiconductor III-V wafer including at least two different types of active devices by providing a substrate; growing a first epitaxial structure on the substrate; growing a second epitaxial structure on the first epitaxial structure; and processing the epitaxial structures to form different types of active devices, such as HBTs and FETs. | 11-25-2010 |
20100313954 | Concentrated Photovoltaic System Receiver for III-V Semiconductor Solar Cells - According to an embodiment, a solar cell receiver for converting solar energy to electricity includes a ceramic substrate, a solar cell and a heat sink. The ceramic substrate has a first metallized surface and an opposing second metallized surface. The first metallized surface of the ceramic substrate has separated conductive regions. The solar cell has a conductive first surface connected to a first one of the conductive regions of the ceramic substrate and an opposing second surface having a conductive contact area connected to a second one of the conductive regions. The heat sink is bonded to the second metallized surface of the ceramic substrate with a thermally conductive attach media, such as a metal-filled epoxy adhesive or solder. | 12-16-2010 |
20120146197 | Integrated Devices on a Common Compound Semiconductor III-V Wafer - A method of fabricating an integrated circuit on a compound semiconductor III-V wafer including at least two different types of active devices by providing a substrate; growing a first epitaxial structure on the substrate; growing a second epitaxial structure on the first epitaxial structure; and processing the epitaxial structures to form different types of active devices, such as HBTs and FETs. | 06-14-2012 |
20120285519 | GRID DESIGN FOR III-V COMPOUND SEMICONDUCTOR CELL - A photovoltaic solar cell for producing energy from the sun including a germanium substrate including a first photoactive junction and forming a bottom solar subcell; a gallium arsenide middle cell disposed on said substrate; an indium gallium phosphide top cell disposed over the middle cell; and a surface grid including a plurality of spaced apart grid lines, wherein the grid lines have a thickness greater than 7 microns, and each grid line has a cross-section in the shape of a trapezoid with a cross-sectional area between 45 and 55 square microns. | 11-15-2012 |
20150325733 | GRID DESIGN FOR III-V COMPOUND SEMICONDUCTOR CELL - A photovoltaic solar cell for producing energy from the sun including a germanium substrate including a first photoactive junction and forming a bottom solar subcell; a gallium arsenide middle cell disposed on said substrate; an indium gallium phosphide top cell disposed over the middle cell; and a surface grid including a plurality of spaced apart grid lines, wherein the grid lines have a thickness greater than 7 microns, and each grid line has a cross-section in the shape of a trapezoid with a cross-sectional area between 45 and 55 square microns. | 11-12-2015 |