초록 ▼

A liquid treatment system that may be self-powered includes a hydro-generator. A flow of liquid may be used to rotate the hydro-generator to generate electric power. The hydro-generator may include an outer housing and an inner housing. The inner housing may include a first hub removably engaged wit

A liquid treatment system that may be self-powered includes a hydro-generator. A flow of liquid may be used to rotate the hydro-generator to generate electric power. The hydro-generator may include an outer housing and an inner housing. The inner housing may include a first hub removably engaged with a second hub. A plurality of paddles may be replaceably engaged between the first hub and the second hub. An electrical generator may be disposed in the inner housing. A flow of liquid may strike the paddles causing the inner housing to rotate. During rotation of the housing, the electrical generator may produce electrical power.

대표청구항 ▼

What is claimed is: 1. A hydro-power generation system, comprising: a housing; a first hub forming a portion of the housing; a second hub that is fixedly engageable with the first hub, the second hub also forming a portion of the housing; and a plurality of paddles formed with a base configured to

What is claimed is: 1. A hydro-power generation system, comprising: a housing; a first hub forming a portion of the housing; a second hub that is fixedly engageable with the first hub, the second hub also forming a portion of the housing; and a plurality of paddles formed with a base configured to engage with both the first hub and the second hub when the first and second hubs are engaged, so that the paddles extend outwardly from the housing and a centering rod, wherein the first hub and the second hub each include a bushing opposite an open end, the bushing configured to receive and be rotatable around the centering rod, and the open end of the first hub engageable with the open end of the second hub. 2. The hydro-power generation system of claim 1, further comprising an electrical generator disposed within the housing, wherein the housing is rotatable to induce the generation of electrical power by the electrical generator. 3. The hydro-generation system of claim 2, Wherein the electrical generator includes a stator and a rotor, the rotor rotatable with the housing, and the stator disposed in the housing to be stationary adjacent the rotor. 4. A hydro-power generation system, comprising: a housing; a first hub forming a portion of the housing; a second hub that is fixedly engageable with the first hub, the second hub also forming a portion of the housing; and a plurality of paddles formed with a base configured to engage with both the first hub and the second hub when the first and second hubs are engaged, so that the paddles extend outwardly from the housing, wherein the first hub and the second hub each include a plurality of lugs, the lugs formed to contact each other and also to form slots that are configured to receive the paddles when the first hub is engaged with the second hub. 5. The hydro-generation system of claim 2, wherein at least one of the first hub or the second hub, or the combination thereof includes a plurality of keepers disposed on an inner surface, wherein the keepers are configured to be coupled with a magnet included in the electrical generator. 6. A hydro-power generation system, comprising: an outer housing; an inner housing confined within the outer housing, the inner housing comprising a first hub engageable with a second hub to form a cavity inside the first and second hubs, the inner housing also comprising a plurality of paddles configured to be held between the first and second hubs when the first and second hubs are engaged; a centering rod non-rotatably coupled with the outer housing and extending through the inner housing, the inner housing rotatable within the outer housing around the centering rod; and a nozzle penetrating the outer housing, wherein the nozzle is configured to direct a stream of liquid at the paddles to induce rotation of the inner housing. 7. The hydro power generation system of claim 6, further comprising an electrical generator disposed within the inner housing, wherein the electrical generator comprises a stator coupled with the centering rod and a rotor coupled with an interior surface of the inner housing, wherein the rotor rotates in proximity to the stator as the inner housing rotates. 8. A hydro-power generation system, comprising: and outer housing; an inner housing confined within the outer housing, the inner housing comprising a first hub engageable with a second hub to form a cavity inside the first and second hubs, the inner housing also comprising a plurality of paddles configured to be held between the first and second hubs when the first and second hubs are engaged; and a centering rod non-rotatably coupled with the outer housing and extending through the inner housing, the inner housing rotatable within the outer housing around the centering rod, wherein each of the first and second hubs comprises a plurality of lugs that are interlocked when the first and second hubs are engaged. 9. A hydro-power generation system, comprising: an outer housing; an inner housing confined within the outer housing, the housing comprising a first hub engageable with a second hub to form a cavity inside the first and second hubs, the inner housing also comprising a plurality of paddles configured to be held between the first and second hubs when the first and second hubs are engaged; and a centering rod non-rotatably coupled with the outer housing and extending through the inner housing, the inner housing rotatable within the outer housing around the centering rod, wherein an interior surface of the outer housing comprises ducting configured to minimize liquid spray in the outer housing and to channel the liquid out of the outer housing to maintain the outer housing substantially empty of liquid. 10. A hydro-power generation system, comprising: an outer housing; an inner housing confined within the outer housing, the inner housing comprising a first hub engageable with a second hub to form a cavity inside the first and second hubs, the inner housing also comprising a plurality of paddles configured to be held between the first and second hubs when the first and second hubs are engaged; and a centering rod non-rotatably coupled with the outer housing and extending through the inner housing, the inner housing rotatable within the outer housing around the centering rod, wherein the inner housing comprises a plurality of vents configured to allow liquid communication between the cavity and the outer housing, the vents configured to evacuate liquid from the cavity to maintain the cavity substantially empty of liquid when the inner housing is rotated. 11. The hydro-power generation system of claim 6, wherein the paddles are configured to contact one another to form an unbroken ring concentric with the inner housing. 12. A hydro-power generation system, comprising: an outer housing; an inner housing confined within the outer housing, the inner housing comprising a first hub engageable with a second hub to form a cavity inside the first and second hubs, the inner housing also comprising a plurality of paddles configured to be held between the first and second hubs when the first and second hubs are engaged; a centering rod non-rotatably coupled with the outer housing and extending through the inner housing, the inner housing rotatable within the outer housing around the centering rod, wherein the paddles each comprise a foot having a first angled surface and a second angled surface, wherein the first angled surface and the second angled surface are configured to contact the first hub and the second hub, respectively. 13. The hydro-power generation system of claim 6, wherein each of the paddles comprise a face surface and a back surface, the face surface of each of the paddles contacting a back surface of another of the paddles to form an unbroken ring concentrically surrounding the inner housing.