An electrical energy generator that converts kinetic energy harvested from voluntary motor activity of a human or animal to electrical energy. The electrical energy generator includes a housing, a coil of electrically conductive material, a reciprocally movable electromagnetically active mass, sprin
An electrical energy generator that converts kinetic energy harvested from voluntary motor activity of a human or animal to electrical energy. The electrical energy generator includes a housing, a coil of electrically conductive material, a reciprocally movable electromagnetically active mass, springs connecting the mass to either the housing or to adjustment means engaged with said housing, and, optionally, means for constraining non-linear motion of the electromagnetically active mass, and/or means of mitigating motion retardation of the electromagnetically active mass within any existing housing atmosphere. The electrical energy generator may be associated with a carried item, such as a backpack.
대표청구항▼
I claim: 1. An electrical energy generator comprising: a housing having a longitudinal axis, an interior cavity, an interior cavity surface, and an exterior surface; an electrically conductive material positioned about at least a portion of said exterior surface of said housing and extending along
I claim: 1. An electrical energy generator comprising: a housing having a longitudinal axis, an interior cavity, an interior cavity surface, and an exterior surface; an electrically conductive material positioned about at least a portion of said exterior surface of said housing and extending along at least a portion of said longitudinal axis; electromagnetically active mass positioned within said housing reciprocally movable along at least a portion of said longitudinal axis and constrained within said housing to minimize or substantially prevent non-reciprocating motion of said electromagnetically active mass within said housing; a first spring having first and second ends, wherein one of said ends is engaged with said housing and one of said ends is engaged with said electromagnetically active mass; and a second spring having first and second ends, wherein one of said ends is engaged with said housing and one of said ends is engaged with said electromagnetically active mass. 2. The electrical energy generator of claim 1, wherein said housing comprises a cylinder or tube. 3. The electrical energy generator of claim 2, wherein said electrically conductive material comprises an induction coil. 4. The electrical energy generator of claim 1, wherein the entirety of said electromagnetically active mass is adapted to pass through the entirety of said induction coil twice during a single reciprocation period. 5. The electrical energy generator of claim 4, wherein said springs comprise coil springs. 6. The electrical energy generator of claim 5, wherein said coil springs comprise extension springs. 7. The electrical energy generator of claim 5, wherein said coil springs comprise compression springs. 8. The electrical energy generator of claim 6, wherein said electromagnetically active mass comprises at least one permanent magnet. 9. The electrical energy generator of claim 8, wherein said electrical energy generator further comprises a shroud at least partially covering said induction coil, said shroud having a high magnetic permeability. 10. The electrical energy generator of claim 9, wherein said shroud comprises a ferromagnetic material. 11. The electrical energy generator of claim 6, wherein said electrical energy generator further comprises a shroud at least partially covering said induction coil, and wherein: said electromagnetically active mass does not comprise a permanent magnet; and said generator comprises a shroud at least partially covering said induction coil, wherein said shroud comprises a permanent magnet. 12. The electrical energy generator of claim 1, further comprising guidance means to minimize or substantially prevent the non-reciprocating motion of said electromagnetically active mass within said housing. 13. The electrical energy generator of claim 12 wherein said guidance means comprises said interior housing surface or shaft engaged with said housing and said electromagnetically active mass. 14. The electrical energy generator of claim 8, wherein said generator is in electrical connection with an electronic device. 15. A backpack comprising: a pack; straps attached to said pack; optionally, a frame attached to said pack; and the electrical energy generator of claim 1 (i) positioned within said pack, (ii) engaged with said pack, (iii) engaged with said frame, if present, or a combination thereof. 16. An electrical energy generator comprising: a housing having a longitudinal axis, an interior cavity, an interior cavity surface, and an exterior surface; an electrically conductive material engaged with said housing; electromagnetically active mass positioned within said housing reciprocally movable along at least a portion of said longitudinal axis and constrained within said housing to minimize or substantially prevent non-reciprocating motion of said electromagnetically active mass within said housing, wherein said electromagnetically active mass comprises at least one permanent magnet; a first spring having first and second ends, wherein one of said ends is engaged with said housing and one of said ends is engaged with said electromagnetically active mass; and a second spring having first and second ends, wherein one of said ends is engaged with said housing and one of said ends is engaged with said electromagnetically active mass. 17. The electrical energy generator of claim 16, wherein said housing comprises a cylinder or tube. 18. The electrical energy generator of claim 17, wherein said electrically conductive material comprises an induction coil. 19. The electrical energy generator of claim 16, wherein the entirety of said electromagnetically active mass is adapted to pass through the entirety of said induction coil twice during a single reciprocation period. 20. The electrical energy generator of claim 18, wherein said springs comprise coil springs. 21. The electrical energy generator of claim 20, wherein said coil springs comprise extension springs. 22. The electrical energy generator of claim 20, wherein said coil springs comprise compression springs. 23. The electrical energy generator of claim 22, wherein said electrical energy generator further comprises a shroud at least partially covering said induction coil, said shroud having a high magnetic permeability. 24. The electrical energy generator of claim 23, wherein said shroud comprises a ferromagnetic material. 25. The electrical energy generator of claim 16, further comprising guidance means to minimize or substantially prevent the non-reciprocating motion of said electromagnetically active mass within said housing. 26. The electrical energy generator of claim 25, wherein said guidance means comprises said interior housing surface or shaft engaged with said housing and said electromagnetically active mass. 27. The electrical energy generator of claim 16, wherein said generator is in electrical connection with an electronic device.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (51)
Tiemann Jerome J. (Schenectady NY), Apparatus for converting vibratory motion to electrical energy.
Pappas Dennis G. (200 E. 58th St. New York NY 10022) Baum Matthew C. (Westwood NJ) Small Samuel N. (Valley Stream NY) Adams Robert T. (Short Hills NJ) Freedman Robert P. (East Northport NY), Electromagnetic power generator.
Lafoux, Antoine; Belledame, Stephane; Guret, Fabian; Barbier, Franck, Knapsack fitted with an angular damper between the back of the bag and the strap and/or belt assembly.
Li Hsiao-Yuan (Dallas TX) Naden Rex A. (Richardson TX) Stephenson ; Jr. Alvis D. (Dallas TX) Lee Gene D. (Dallas TX), Method and apparatus for testing and setting magnetic field strength of permanent magnets in magnetic bubble domain modu.
Lai, William W.; Baca, Alfred J.; Roberts, M. Joseph; Baldwin, Lawrence C.; Owens, Michael T., Apparatus and method for a hybrid system for harvesting magnetic and electrical energy.
Lai, William W.; Baca, Alfred J.; Roberts, M. Joseph; Baldwin, Lawrence C.; Owens, Michael T., Mechanism for the conversion of vertical motion to translational or rotational motion.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.