Harker oceanic power station

Abstract

1. Remove original Specifications and Replace with updated version. a. 4 deletions of underlines (one with text type change). b. 14 changes or additions (including an s on turbine in FIG. 2 para, 5.sup.th line). c. 1 new FIG. 3/paragraph d. Add the claim 1(Original).

Claims

1. The ratcheted-turbines (E)-(C) are a new use of machine and process. The turbines (C) being designed for opposite drive direction and the ratchets (E) located between the turbines (C) and the drive chains (D) is what makes the idea one of a kind in the world.

Description

[0003] FIG. 1B

[0004] Top View-Bottom Half. The bottom is a pillar (B) design with turbines (C) placed alternately with the pillars. The turbines (C) and the gearbox (A) are mechanically connected by drive chains (D). The pillars (B) are shaped so that as the ocean waves pass between them, Bernoulli's Principle would speed the water's velocity up for more turbine speed. The power station can be built with varying number of turbines.

[0005] FIG. 2

[0006] Front View. The turbine (C) on one side is shaped so that ocean waves (FIG. 1B, Water A) coming in towards the shoreline turn the turbine (C) to drive the chain (D) that turns the gearbox (A). While the other turbine (C) is shaped reverse and is freewheeling on a ratchet (E), just like a bicycle gear does when the rider turns the pedals backwards. The ratchet (E) located on the outer edge of the turbines (C) between the turbine (C) and the chain (D). Then when the wave switches direction and the water is returning to the ocean (FIG. 1B, Water B), what was the drive turbine (C) becomes the freewheeling turbine (C) and what was the freewheeling turbine (C) becomes a drive turbine (C) turning the chain (D) that turns the gearbox (A).

[0007] FIG. 3

[0008] Side View. Shows a cutaway view of the station. The turbines (C) are shown offset from each other, just as in FIG. 1B.