Wave-energized buoyant water elevator for raising water in response to tilting about multiple distinct angularly-spaced axes

We claim: 1. A buoyant pump configured to tip equally about multiple angularly-spaced horizontal axes while floating on a body of water over which waves pass, the buoyant pump comprising: a buoyant platform configured to float on the body of water; two or more groupings of stacked catchment basins supported by the buoyant platform, each grouping of stacked catchment basins axially aligned with a respective one of the angularly-spaced horizontal axes, each grouping comprising a respective plurality of stacked catchment basins, each catchment basin comprising a well that is adapted to collect a pooled working fluid; each grouping of catchment basins comprising a lowermost catchment basin, an uppermost catchment basin, and at least one intermediate catchment basin disposed between the lowermost and the uppermost catchment basins, the catchment basins in each grouping being arranged in increasing elevation, relative to the buoyant platform, from the lowermost catchment basin to the uppermost catchment basin; each respective lowermost catchment basin comprising an inlet pipe to allow water from the body of water to flow into the respective lowermost catchment basin of the respective grouping, the water serving as the working fluid; each respective uppermost catchment basin comprising an outlet pipe to allow the working fluid to flow out of the respective uppermost catchment basin of the respective grouping and return to the body of water; each grouping of catchment basins further comprising a plurality of elevator channels, each elevator channel fluidly connecting a lower catchment basin of the respective grouping of catchment basins to a higher catchment basin of the respective grouping of catchment basins; and each grouping of catchment basins further comprising a turbine, operatively connected to the outlet pipe of the respective uppermost catchment basin, and an electrical generator operatively connected to the turbine so that the working fluid flowing through the outlet pipe rotates the turbine to thereby rotate the generator to generate electricity; wherein, for each grouping of catchment basins, respective centers of catchment basins adjacently connected by respective elevator channels define endpoints of catchment basin-to-catchment basin adjacency lines and the catchment basin-to-catchment basin adjacency lines for the two or more groupings are nonparallel when orthogonally projected onto a horizontal plane; wherein, for each grouping of catchment basins, the respective plurality of elevator channels and the respective plurality of catchment basins are configured to elevate the working fluid from the respective lowermost catchment basin, through the respective at least one intermediate catchment basin, to the respective uppermost catchment basin; wherein, for one of the groupings of catchment basins, repeating tipping of the buoyant pump about a first horizontal axis of the multiple angularly-spaced horizontal axes elevates the respective working fluid from each lower catchment basin to a higher catchment basin, and, for another one of the groupings of catchment basins, repeated tipping of the buoyant pump about a second horizontal axis of the multiple angularly-spaced horizontal axes elevates the respective working fluid from each lower catchment basin to a higher catchment basin, the second horizontal axis being distinct from the first horizontal axis, and the repeated tipping of the buoyant pump due to movement of the waves of the body of water. 2. The buoyant pump of claim 1 , wherein, for each grouping of catchment basins, the working fluid moves from a lower catchment basin to an adjacent higher catchment basin via a respective elevator channel when the buoyant pump tips by a zenith angle, measured relative to a vertical axis perpendicular to a surface of the buoyant platform and measured in a vertical plane defined by the horizontal axis of the grouping, of at least a threshold non-zero zenith angle, but the working fluid does not move to the adjacent higher catchment basin when the buoyant pump tips by a zenith angle of less than the threshold zenith angle. 3. The buoyant pump of claim 1 , wherein the buoyant pump is symmetric about both a first vertical plane and a second vertical plane rotated horizontally from the first vertical plane, wherein the vertical planes are perpendicular to a lateral top surface of the buoyant platform.