초록 ▼

A generator having a coupling adapted to couple at least two fluid conduits together; an axial flow channel defined by the hose coupling and having an axis; a conductive coil in the hose coupling enveloping the axial flow channel; a rotor rotatable relative to the conductive coil and encircled by th

A generator having a coupling adapted to couple at least two fluid conduits together; an axial flow channel defined by the hose coupling and having an axis; a conductive coil in the hose coupling enveloping the axial flow channel; a rotor rotatable relative to the conductive coil and encircled by the conductive coil; a plurality of vanes coupled to the rotor and projecting radially toward the axis, but not intersecting the axis.

대표청구항 ▼

1. A power generator comprising: a coupling adapted to couple at least two fluid conduits together;an axial flow channel defined by the hose coupling and having a longitudinal axis, wherein fluid flowing through the axial flow channel flows in a direction parallel to the longitudinal axis;a conducti

1. A power generator comprising: a coupling adapted to couple at least two fluid conduits together;an axial flow channel defined by the hose coupling and having a longitudinal axis, wherein fluid flowing through the axial flow channel flows in a direction parallel to the longitudinal axis;a conductive coil in the coupling enveloping the axial flow channel;a generally toroidal rotor rotatable relative to the conductive coil, encircled by the conductive coil and enveloping the axial flow channel, wherein a portion of the axial flow channel passes with the direction substantially undisrupted through a central hole of the rotor; anda plurality of vanes coupled to the rotor and projecting radially inward from the rotor toward the longitudinal axis, but not intersecting the longitudinal axis, wherein proximal ends of the plurality of vanes are coupled to the rotor and distal ends of the plurality of vanes are unattached within the axial flow channel, wherein each of the plurality of vanes intersects the direction at a substantially perpendicular angle, whereby the direction remains substantially undisrupted as the fluid flows in the axial flow channel from a first end of the coupling to a second end of the coupling. 2. The power generator of claim 1, the coupling further comprising a male coupler coupled to a female coupler. 3. The power generator of claim 2, further comprising the male coupler threadably coupled to the female coupler. 4. The power generator of claim 1, the coupler further comprising at least one light, the at least one light electrically coupled to the conductive coil. 5. The power generator of claim 4, wherein the at least one light comprises a plurality of lights arranged in a directional pointer shape. 6. The power generator of claim 5, wherein the directional pointer shape is oriented to point in a direction of egress. 7. The power generator of claim 4, wherein the at least one light is an LED light. 8. The power generator of claim 4, further comprising a protective lens coupled to the hose coupler, the protective lens configured to cover the at least one light. 9. The power generator of claim 8, the protective lens further including a photo luminescent material. 10. The power generator of claim 1, further comprising an electrical storage device electrically coupled to the conductive coil. 11. The power generator of claim 10, further comprising at least one light electrically coupled to and configured to receive electrical energy from the electrical storage device. 12. The power generator of claim 11, wherein the at least one light is an LED light. 13. The power generator of claim 1, further comprising a wireless transceiver electrically coupled to and powered by the power generator. 14. The power generator of claim 13, wherein the wireless transceiver is incorporated into the coupling. 15. The power generator of claim 1, wherein the coupling is a hose coupling. 16. A method for generating an electrical current comprising the steps of: providing a coupling adapted to couple at least two fluid conduits together, the coupling defining an axial flow channel having a longitudinal axis, wherein fluid flowing through the axial flow channel flows in a direction parallel to the longitudinal axis, the coupling further comprising a conductive coil enveloping the axial flow channel, a toroidal magnetic rotor rotatable relative to the conductive coil and encircled by the conductive coil and enveloping the axial flow channel, and a plurality of vanes coupled to the magnetic rotor and projecting radially inward from the rotor toward the longitudinal axis, but not intersecting the longitudinal axis, the vanes angled with respect to the longitudinal axis, wherein proximal ends of the plurality of vanes are coupled to the rotor and distal ends of the plurality of vanes are unattached within the axial flow channel, wherein each of the plurality of vanes intersects the direction at a substantially perpendicular angle; andproviding a fluid flow through the axial flow channel, whereby the fluid flow flows through the rotor, whereby the direction remains substantially undisrupted as the fluid flows in the axial flow channel from a first end of the coupling to a second end of the coupling, rotating the magnetic rotor relative to the conductive coil, thereby inducing the electrical current in the conductive coil. 17. The method for generating the electrical current of claim 16, further comprising: providing an electrical storage device electrically coupled to the conductive coil; andstoring the electrical current in the electrical storage device. 18. The method for generating the electrical current of claim 16, further comprising: providing at least one light coupled to the coupling, the at least one light electrically coupled to the conductive coil, wherein the at least one light is illuminated in response to the fluid flow. 19. The method for generating the electrical current of claim 18, wherein the at least one light comprises a plurality of lights arranged in a geometric configuration; and conveying a direction of egress via the geometric configuration. 20. The method for generating the electrical current of claim 18, wherein the at least one light is an LED light. 21. The method for generating the electrical current of claim 18, wherein the at least one light is configured to indicate a rate of the fluid flow. 22. The method for generating the electrical current of claim 16, further comprising a wireless transceiver electrically coupled to and powered by the electrical current, and the step of: transmitting of data by the wireless transceiver. 23. The method for generating the electrical current of claim 22, wherein the wireless transceiver is incorporated into the coupling. 24. The method for generating the electrical current of claim 16, wherein the coupling is a hose coupling.