FLUID-DRIVEN ELECTRICAL GENERATOR
First Claim
1. A fluid-driven electrical generator, comprising:
- a base having opposed upper and lower surfaces, the lower surface being adapted for positioning on a support surface;
a linearly oscillating disc having opposed upper and lower surfaces and having a central passage formed therethrough, the linearly oscillating disc being resiliently supported above the base to form a lower fluid flow path therebetween;
an upper housing mounted above the upper surface of the linearly oscillating disc, the upper housing having at least one sidewall, an upper wall, and at least one fluid inlet formed through the at least one sidewall, the upper wall having a lower surface spaced apart from the upper surface of the linearly oscillating disc to form an upper fluid flow path therebetween;
means for drawing ambient fluid through the at least one inlet, through the upper fluid flow path, and through the lower fluid flow path;
at least one permanent magnet secured to an outer edge of the linearly oscillating disc; and
at least one induction coil mounted adjacent the at least one permanent magnet, the lower surface of the upper wall of the upper housing and at least a portion of the upper surface of the linearly oscillating disc being configured so that fluid flow through the upper flow path causes linearly oscillating movement of the linearly oscillating disc to generate electricity by electromagnetic induction.
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Accused Products
Abstract
The fluid-driven electrical generator utilizes internal driven fluid currents to generate a regular, mechanical oscillation that is used to generate electricity through electromagnetic induction. The fluid-driven electrical generator includes a base having opposed upper and lower surfaces. A linearly oscillating disc having opposed upper and lower surfaces and having a central passage formed therethrough is resiliently supported above the base to form a lower fluid flow path therebetween. An upper housing is mounted above the upper surface of the linearly oscillating disc. A lower surface of an upper wall thereof is spaced apart from the upper surface of the linearly oscillating disc to form an upper fluid flow path therebetween. At least one permanent magnet is attached to an outer edge of the linearly oscillating disc for generating alternating electrical current in at least one induction coil mounted adjacent the at least one permanent magnet.
17 Citations
15 Claims
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1. A fluid-driven electrical generator, comprising:
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a base having opposed upper and lower surfaces, the lower surface being adapted for positioning on a support surface; a linearly oscillating disc having opposed upper and lower surfaces and having a central passage formed therethrough, the linearly oscillating disc being resiliently supported above the base to form a lower fluid flow path therebetween; an upper housing mounted above the upper surface of the linearly oscillating disc, the upper housing having at least one sidewall, an upper wall, and at least one fluid inlet formed through the at least one sidewall, the upper wall having a lower surface spaced apart from the upper surface of the linearly oscillating disc to form an upper fluid flow path therebetween; means for drawing ambient fluid through the at least one inlet, through the upper fluid flow path, and through the lower fluid flow path; at least one permanent magnet secured to an outer edge of the linearly oscillating disc; and at least one induction coil mounted adjacent the at least one permanent magnet, the lower surface of the upper wall of the upper housing and at least a portion of the upper surface of the linearly oscillating disc being configured so that fluid flow through the upper flow path causes linearly oscillating movement of the linearly oscillating disc to generate electricity by electromagnetic induction. - View Dependent Claims (2, 3, 4, 5)
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6. A fluid-driven electrical generator, comprising:
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a base having opposed upper and lower surfaces, the lower surface being adapted for positioning on a support surface; a linearly oscillating disc having opposed upper and lower surfaces and having a central passage formed therethrough, the linearly oscillating disc being resiliently supported above the base to form a lower fluid flow path therebetween; an upper housing mounted above the upper surface of the linearly oscillating disc, the upper housing having at least one sidewall, an upper wall, and at feast one fluid inlet formed through the at least one sidewall, the upper wall having a lower surface spaced apart from the upper surface of the linearly oscillating disc to form an upper fluid flow path therebetween; means for drawing ambient fluid through the at least one inlet, through the upper fluid flow path, and through the lower fluid flow path; at least one permanent magnet attached to an outer edge of the linearly oscillating disc; and at least one induction coil mounted adjacent the at least one permanent magnet, the upper surface of the base and at least a portion of the lower surface of the linearly oscillating disc being configured so that fluid flow through the lower flow path causes linearly oscillating movement of the linearly oscillating disc to generate electricity by electromagnetic induction. - View Dependent Claims (7, 8, 9, 10)
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11. An electrical generator, comprising:
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a base having opposed upper and lower surfaces, the lower surface being adapted for positioning on a support surface; a pivotally constrained disc oscillating along its axial center, the disc having opposed upper and lower surfaces and having a central passage formed therethrough, the oscillating disc being resiliently supported above the base to form a lower fluid flow path therebetween; an upper housing mounted above the upper surface of the oscillating disc, the upper housing having at least one sidewall, an upper wall, and at least one inlet for accepting combustible fluid, the inlet being formed through the at least one sidewall, the upper wall having a lower surface spaced apart from the upper surface of the oscillating disc to form an upper flow path for the combustible fluid therebetween; means for drawing the combustible fluid through the at least one inlet, through the upper fluid flow path, and through the lower fluid flow path; means for combustion of the combustible fluid within the electrical generator; at least one permanent magnet attached to an outer edge of the oscillating disc; and at least one induction coil mounted adjacent the at least one permanent magnet, the upper surface of the base and at least a portion of the lower surface of the oscillating disc being configured so that combustion of the combustible fluid during fluid flow through the lower flow path causes the oscillatory movement of the disc along the axis of the disk to generate electricity by electromagnetic induction. - View Dependent Claims (12, 13, 14, 15)
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Specification