Patent application number | Description | Published |
20120043686 | Golf Balls including Multiple Dimple Types and/or Multiple Layers of Different Hardnesses - Golf balls may include a first pole, a second pole, and a seam located between the first and second poles. Dimples are formed on a surface of the ball in a pattern that includes a plurality of repeating sectors around each pole of the ball. The sectors on one ball half are rotationally offset across the seam line from the sectors on the other ball half. Additionally, each individual sector includes a line of symmetry over which the dimple pattern on one half of the sector is mirrored on the other half. A variety of different dimple types also may be arranged on a golf ball surface, e.g., within the sectors described above. Additional aspects of this invention relate to the features of various layers of a multi-piece golf ball and to methods of making golf balls having at least some of the features mentioned above. | 02-23-2012 |
20120046127 | Golf Balls including Multiple Dimple Types and/or Multiple Layers of Different Hardnesses - Golf balls may include a first pole, a second pole, and a seam located between the first and second poles. Dimples are formed on a surface of the ball in a pattern that includes a plurality of repeating sectors around each pole of the ball. The sectors on one ball half are rotationally offset across the seam line from the sectors on the other ball half Additionally, each individual sector includes a line of symmetry over which the dimple pattern on one half of the sector is mirrored on the other half. A variety of different dimple types also may be arranged on a golf ball surface, e.g., within the sectors described above. Additional aspects of this invention relate to the features of various layers of a multi-piece golf ball and to methods of making golf balls having at least some of the features mentioned above. | 02-23-2012 |
20120046130 | Golf Balls including Multiple Dimple Types and/or Multiple Layers of Different Hardnesses - Golf balls may include a first pole, a second pole, and a seam located between the first and second poles. Dimples are formed on a surface of the ball in a pattern that includes a plurality of repeating sectors around each pole of the ball. The sectors on one ball half are rotationally offset across the seam line from the sectors on the other ball half. Additionally, each individual sector includes a line of symmetry over which the dimple pattern on one half of the sector is mirrored on the other half. A variety of different dimple types also may be arranged on a golf ball surface, e.g., within the sectors described above. Additional aspects of this invention relate to the features of various layers of a multi-piece golf ball and to methods of making golf balls having at least some of the features mentioned above. | 02-23-2012 |
20120046131 | Golf Balls including Multiple Dimple Types and/or Multiple Layers of Different Hardnesses - Golf balls may include a first pole, a second pole, and a seam located between the first and second poles. Dimples are formed on a surface of the ball in a pattern that includes a plurality of repeating sectors around each pole of the ball. The sectors on one ball half are rotationally offset across the seam line from the sectors on the other ball half. Additionally, each individual sector includes a line of symmetry over which the dimple pattern on one half of the sector is mirrored on the other half. A variety of different dimple types also may be arranged on a golf ball surface, e.g., within the sectors described above. Additional aspects of this invention relate to the features of various layers of a multi-piece golf ball and to methods of making golf balls having at least some of the features mentioned above. | 02-23-2012 |
20120046132 | Golf Balls including Multiple Dimple Types and/or Multiple Layers of Different Hardnesses - Golf balls may include a first pole, a second pole, and a seam located between the first and second poles. Dimples are formed on a surface of the ball in a pattern that includes a plurality of repeating sectors around each pole of the ball. The sectors on one ball half are rotationally offset across the seam line from the sectors on the other ball half. Additionally, each individual sector includes a line of symmetry over which the dimple pattern on one half of the sector is mirrored on the other half. A variety of different dimple types also may be arranged on a golf ball surface, e.g., within the sectors described above. Additional aspects of this invention relate to the features of various layers of a multi-piece golf ball and to methods of making golf balls having at least some of the features mentioned above. | 02-23-2012 |
20120137769 | Systems And Methods For Evaluating A Golf Ball Design - Systems and methods for evaluating a golf ball design are disclosed. In one implementation, a method for evaluating a golf ball design may comprise designing a proposed golf ball having a size and dimple design; determining a specific gravity of the proposed golf ball; selecting a material for a test golf ball that will mimic the specific gravity of the proposed golf ball when the material is formed into a test golf ball having substantially the same size, shape, and dimple pattern as the proposed golf ball, but having a predetermined construction differing from the proposed golf ball; forming the selected material into the size and dimple design of the proposed golf ball to form the test golf ball; and testing the test golf ball to evaluate the golf ball design. | 06-07-2012 |
20120137770 | Systems And Methods For Evaluating A Golf Ball Design - Systems and methods for evaluating a golf ball design are disclosed. In one implementation, a method for evaluating a golf ball design may comprise designing a proposed golf ball having a size and dimple design; determining a specific gravity of the proposed golf ball; selecting a material for a test golf ball that will mimic the specific gravity of the proposed golf ball when the material is formed into a test golf ball having substantially the same size, shape, and dimple pattern as the proposed golf ball, but having a predetermined construction differing from the proposed golf ball; forming the selected material into the size and dimple design of the proposed golf ball to form the test golf ball; and testing the test golf ball to evaluate the golf ball design. | 06-07-2012 |
20120184397 | Golf Ball Having an Aerodynamic Coating Including Micro Surface Roughness - Golf balls include: (a) a golf ball body having a first set of construction specifications and a first dimple pattern formed on an outer surface of the golf ball body; and (b) a coating applied to the outer surface of the golf ball body to thereby produce a coated golf ball body having an exterior surface. At least one of the outer surface of the golf ball body and the coating includes a plurality of surface roughening particles to provide increased micro surface roughness as compared to golf balls having the same set of construction specifications and the same dimple pattern but without the micro surface roughening particles. The micro surface roughening affects the aerodynamic properties of the ball. | 07-19-2012 |
20120197812 | System And Method For Collecting, Recycling, And Tracking Products Such As Golf Balls - A system and method for incentivizing recycling of collected products by providing both an incentive award and information about the post-recycling stream designation of the collected products to a user. The collected products are assigned a trace element which is machine readable data input, with scanners or detectors disposed along the recycling stream. Once a decision is made regarding the recycle designation for a collected product, that information is provided to the user. A computer program that stores and calculates the award could be used to calculate analogous or ancillary calculations regarding post-recycling designations to enable comparisons with other users and online competition. | 08-02-2012 |
20120283043 | Golf Ball Having an Increased Moment of Inertia - A golf ball is provided including a core, a cover encasing the core and a coating that comprises a resin applied to the outer surface of the cover. Particles comprising a high density material are included in the coating such that the coating has a density at least twice that of the core's density or contributes at least 0.60% of the golf ball's total moment of inertia, and the coating has a micro surface roughness at least 1.75 times larger than the roughness of a comparative ball. A method of making a golf ball is also provided, including providing a spherical core, encasing the core with a cover, applying a resin to the outer surface of the cover, and adding a plurality of particles comprising a high density material to form a coating material that has a second density at least two times the first density. | 11-08-2012 |
20120301617 | Golf Ball Having An Aerodynamic Coating Including Micro Surface Roughness - Golf balls include: (a) a golf ball having a first set of construction specifications; (b) a coating of the golf ball having an exterior surface and (c) the exterior surface having an enhanced micro surface roughness. The enhanced micro surface roughening affects the aerodynamic properties of the ball as compared to golf balls having the same set of construction specifications but without enhanced micro surface roughness. | 11-29-2012 |
20120302375 | Golf Ball Having An Aerodynamic Coating Including Micro Surface Roughness - Golf balls having an exterior surface with a predetermined area which is smaller than the entire surface area of the exterior surface, includes enhanced micro surface roughness, and is in the form of an asymmetrical pattern on the exterior surface of the golf ball. The enhanced micro surface roughness affects the aerodynamic properties of the ball as compared to golf balls having the same set of construction specifications but without enhanced micro surface roughness. | 11-29-2012 |
20120302376 | Golf Ball Having An Aerodynamic Coating Including Micro Surface Roughness - Golf balls include: (a) a golf ball having a first set of construction specifications; (b) a coating of the golf ball having an exterior surface and (c) the exterior surface having an enhanced micro surface roughness. The enhanced micro surface roughening affects the aerodynamic properties of the ball as compared to golf balls having the same set of construction specifications but without enhanced micro surface roughness. | 11-29-2012 |
20120328782 | Golf Ball Having An Aerodynamic Coating Including Micro Surface Roughness - Golf balls include: (a) a golf ball having a first set of construction specifications; (b) a coating of the golf ball having an exterior surface and (c) the exterior surface having an enhanced micro surface roughness. The enhanced micro surface roughening affects the aerodynamic properties of the ball as compared to golf balls having the same set of construction specifications but without enhanced micro surface roughness. | 12-27-2012 |
20120329367 | Golf Ball Having An Aerodynamic Coating Including Micro Surface Roughness - A golf ball kit having an abrasive material adapted for imparting enhanced micro surface roughness to an exterior surface of a golf ball. The enhanced micro surface roughening affects the aerodynamic properties of the ball as compared to golf balls having the same set of construction specifications but without enhanced micro surface roughness. The kit includes an instruction device having a plurality of correlations between at least one performance parameter and micro surface roughness for at least a first golf ball. | 12-27-2012 |
20120329577 | Golf Ball Having An Aerodynamic Coating Including Micro Surface Roughness - Golf balls include: (a) a golf ball having a first set of construction specifications; (b) a coating of the golf ball having an exterior surface and (c) the exterior surface having an enhanced micro surface roughness. The enhanced micro surface roughening affects the aerodynamic properties of the ball as compared to golf balls having the same set of construction specifications but without enhanced micro surface roughness. | 12-27-2012 |
20130225322 | Ball Incorporating Cover Separation Element - A ball includes a core, a cover, and an intermediate layer between the core and the cover. The intermediate layer may be deformed or actuated to create discontinuities in the cover. The creation of discontinuities allows for easier recycling of the ball parts. The intermediate layer may include one of a bladder or a hydrophilic material that expand upon the introduction of a fluid, a shape memory polymer that deforms upon application of a stimulus, or two materials that react chemically to form a gas. | 08-29-2013 |
20130225325 | Ball Incorporating Element to Remove Cover - A ball includes a core, a cover, and a separator or separating layer. The separating layer may be deformed or actuated to separate at least a portion of the cover from the core. This removal allows for easier recycling of the ball parts. The separating layer may include one of a bladder or a hydrophilic material that expand upon the introduction of a fluid, a shape memory polymer that deforms upon application of a stimulus, or two materials that react chemically to form a gas. | 08-29-2013 |
20130226337 | Interactive Bulk Packaging System - A system for dispensing a bulk product includes an interactive display. The system may be linked to another system which selects a variety of the bulk product and automatically causes the dispenser to dispense the selected variety. The dispensing system may also include a container associated with a remote carrier, so that the bulk product may be dispensed into the container in which the user wishes to store the bulk product long term. | 08-29-2013 |
20140051530 | GOLF BALL WITH RADIALLY COMPRESSED INTERMEDIATE LAYER - A method of forming a golf ball includes molding a golf ball core through at least one of injection molding and compression molding, and subsequently volumetrically contracting the core. Once the core is contracted, an intermediate layer is formed about the core, and the core is subsequently allowed to expand to an intermediate state such that the core applies a contact pressure against an inner surface of the intermediate layer. | 02-20-2014 |