A roller hockey puck having an outer shell of annular configuration, a central core positioned centrally interiorly of the outer shell, and a transition section extending from the central core to the outer shell. The transition section has a plurality of elliptical holes formed therein. The transition section has a top surface formed inwardly of a top planar surface of the outer shell. The transition section has a bottom surface formed inwardly of the bottom planar surface of the outer shell. The plurality of elliptical holes are uniformly spaced around the central core. The central core has a truncated spherical configuration with central axis aligned with a central axis of the outer shell. A plurality of runners are respectively received by a plurality of through bores formed in the outer shell. Each of the plurality of runners has a top surface extending outwardly of the outer shell. The outer shell, the central core and the transition section are integrally formed together of high density polyethylene material adapted to maintain a constant durometer between 30 degrees and 150 degrees Fahrenheit.
Aerodynamically augmented hockey puck design uses the dynamics of airflow around a moving body to assist in overcoming the unwanted forces of friction that inherently exist between two opposing surfaces and may be used on either an ice or other non-ice playing surface. The puck influences airflow through a symmetric ducted venting system designed to duct or vent air from multiple inlets positioned above a boundary layer to opposing outlets. The ducted venting system reduces pressure differentials between the inlet and outlet of the air channel. Circular center pocket cavities of the upper and lower planar surfaces of the hockey puck are vented to the opposite edge of the outer cylindrical surface of the hockey puck. Elliptical air channels extend radially from the circular center pocket cavity and are symmetrically placed and positioned above the boundary layer around the outer cylindrical surface of the puck.
Non-standard sport projectiles, in accordance with this invention, include at least one linear through hole. As this non-standard sport projectile passes through the air, after being hit by, for example, a golf club, the non-standard sport projectile spins. When the above-mentioned through hole is generally aligned with the projectile's direction of flight, air passes through the through hole, and the aerodynamic characteristics of the non-standard sport projectile are enhanced. When the through hole is not aligned with the projectiles direction of flight the aerodynamic characteristics are reduced. As a result, the non-standard sport projectile experiences rapidly repeating intervals of relatively high aerodynamic flight and relatively low aerodynamic flight as the non-standard sport projectile spins around the center cross section of the through hole.
Aerodynamically augmented hockey puck design uses the dynamics of airflow around a moving body to assist in overcoming the unwanted forces of friction that inherently exist between two opposing surfaces and may be used on either an ice or other non-ice playing surface. The puck influences airflow through a symmetric ducted venting system designed to duct or vent air from multiple inlets positioned above a boundary layer to opposing outlets. The ducted venting system reduces pressure differentials between the inlet and outlet of the air channel. Circular center pocket cavities of the upper and lower planar surfaces of the hockey puck are vented to the opposite edge of the outer cylindrical surface of the hockey puck. Elliptical air channels extend radially from the circular center pocket cavity and are symmetrically placed and positioned above the boundary layer around the outer cylindrical surface of the puck.
