| Patent application number | Description | Published |
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| 20080220891 | METHOD FOR PREDICTING BALL LAUNCH CONDITIONS - The present invention relates to a method and a numerical analysis for predicting golf ball launch conditions, e.g., velocity, launch angle and spin rate. By acquiring pre-impact swing conditions, e.g., club speed, rotational rate and ball hit location, along with pertinent club features, e.g., moment of inertia, and ball impact features, e.g., normal and transverse forces as well as time of contact, the method can predict the resulting trajectory and launch conditions of the golf ball. The predicted ball launch conditions and trajectories can also be used to modify one or more properties of the golf ball or golf club. The time of contact measurements can be corrected to account for drag force. | 09-11-2008 |
| 20090215553 | THIN-LAYER-COVERED GOLF BALL WITH IMPROVED VELOCITY - Golf balls including cores formed from polybutadiene reaction products having a percent change in dynamic stiffness from 0° C. to −50° C. of less than 130 percent where the reaction products include a resilient polymer component, a crosslinking material, a cis-to-trans catalyst, and a free radical source. The golf balls may be formed with polyurethane covers, covers formed from castable reactive liquid materials, among other materials. The golf balls may also include an intermediate layer. | 08-27-2009 |
| 20090268215 | Apparatus for Measuring Physical Properties of Golf Balls and Cores - A method and apparatus for an automated testing system that tests for physical properties of golf balls or golf ball cores. The apparatus includes an on-load magazine wherein golf balls or cores are loaded for pick and place feeding to holding nests defined in a rotary indexing table. The nests are removable and/or of multiple size accommodations to accept balls and cores from 1.00 to 1.72 inches. The system includes a diameter measuring station, a compression measuring station, and a weight measuring station. Through the rotary indexing table, the golf ball or core may be selectively dialed to one or more of the stations for testing. A computer analyzes the properties of each ball or core tested and correlates the data so that each ball is subsequently either passed to an off-load magazine or rejected. | 10-29-2009 |
| 20100075776 | GOLF BALL WITH IMPROVED FLIGHT PERFORMANCE - A golf ball with aerodynamic coefficient magnitude and aerodynamic force angle, resulting in improved flight performance, such as increased carry and flight consistency regardless of ball orientation. In particular, the present invention is directed to a golf ball having increased flight distance as defined by a set of aerodynamic requirements, at particular spin ratios and Reynolds Numbers. The invention is also directed toward golf balls having high spin decay rates during the first second of flight that yields improved flight performance and longer ball flight | 03-25-2010 |
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| 20080222949 | Devices and methods for growing plants - A gardening system includes a modular seed cartridge including a rigid, cup-shaped receptacle including an upper portion having an outer rim, a soilless growth medium located in the rigid, cup-shaped receptacle, and at least one seed in contact with the soilless growth medium. The gardening system also includes an aeroponic or hydroponic garden including a chamber including a lower portion for storing a liquid nutrient solution, a cover located above the chamber, the cover including a plant opening adapted to removably support the modular seed cartridge by the outer rim, and a pump located in the chamber and adapted to circulate the liquid nutrient solution from the lower portion of the chamber to the modular seed cartridge supported by the plant opening. | 09-18-2008 |
| 20080276534 | Devices and methods for growing plants by measuring liquid consumption - This invention provides adaptive growth technology, hydroponic and aeroponic gardens with adaptive growth technology, and methods for growing a plant or germinating a seed in with adaptive growth technology. An apparatus of this invention includes a vessel, a growing surface, a light source, a liquid measurement device, a controller in communication with the measurement device and a time that calculate the rate of consumption of the liquid in the vessel by seeds or plants and that adjust the liquid delivery rate, the liquid quality, the nutrient delivery rate, the nutrient quality, the photoradiation delivery rate, and/or the photoradiation quality based on the calculated rate of liquid usage. In an embodiment, the steps are performed automatically without human intervention. | 11-13-2008 |
| 20080282610 | Devices and methods for growing plants - A soilless garden includes a chamber including a sealed lower portion for storing liquid nutrient solution, and an upper portion including a support structure; soilless growth medium supported by the support structure and adapted to support at least one plant having roots; a removable germination cap located above the soilless growth medium; a conduit having a first end located substantially adjacent to the soilless growth medium, and a second end opposite to the first end; and a pump in the chamber, including an input for receiving the liquid nutrient solution from the lower portion of the chamber, and an output to deliver liquid nutrient solution through the conduit into the soilless growth medium. The support structure includes an opening directed toward the lower portion of the chamber for the liquid nutrient solution to drip from the roots of the at least one plant into the lower portion of the chamber. | 11-20-2008 |
