IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0037946
(2002-01-03)
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발명자
/ 주소 |
|
대리인 / 주소 |
Pugh/Associates, Patent & TM Attorneys
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
2 |
초록
▼
A high heat producing system which encapsulates a deflected rotating laser beam in a chamber and propagates it through a gaseous medium within the chamber. The heat energy of the deflected rotating laser beam agitates the molecules of the gaseous medium such that the temperature of the gaseous mediu
A high heat producing system which encapsulates a deflected rotating laser beam in a chamber and propagates it through a gaseous medium within the chamber. The heat energy of the deflected rotating laser beam agitates the molecules of the gaseous medium such that the temperature of the gaseous medium increases to at least about two thousand (2000° F.) degrees Fahrenheit, thereby increasing the temperature of the high heat producing device. In the preferred embodiment, the high heat producing device is in direct heat transfer with a working fluid in an expansion chamber for powering, for example, a turbine or the like.
대표청구항
▼
1. A high heat producing system, comprising:an enclosure having a center axis and enclosing free space wherein said enclosure is defined by a top surface member and a bottom surface member in parallel spaced relation, each member having an outer perimeter edge, and an outer perimeter surface coupled
1. A high heat producing system, comprising:an enclosure having a center axis and enclosing free space wherein said enclosure is defined by a top surface member and a bottom surface member in parallel spaced relation, each member having an outer perimeter edge, and an outer perimeter surface coupled to the outer perimeter edge of said top and bottom surface members and wherein said enclosure radiates heat energy therefrom;a gaseous medium filled in said free space having molecules;a continuous beam deflecting ring member coupled to an interior surface of said outer perimeter surface;a rotating laser beam deflector coupled in a center axis of said bottom surface member; anda laser beam source for radiating a laser beam upward along the center axis to said rotating laser beam deflector wherein said rotating laser beam deflector deflects the laser beam radially from the center axis through the gaseous medium to the continuous beam deflecting ring member to agitate said molecules. 2. The high heat producing system of claim 1, wherein:an interior surface of said bottom surface member has coupled thereto a heat reflector member to reflect heat energy from said bottom surface member to said top surface member. 3. The high heat producing system of claim 1, wherein said enclosure further comprises a laser beam deflecting chamber formed in the center axis wherein said laser beam deflecting chamber housed therein said rotating laser beam deflector; said rotating laser beam deflector comprises:a hollow shaft member coupled concentric with said laser beam deflecting chamber and propagates therethrough said laser beam;an angled deflector surface fixedly coupled to said hollow shaft member wherein said angled deflector surface reflects angularly downward at a predetermined angle from the center axis to deflect radially outward through the laser beam deflecting chamber the laser beam. 4. The high heat producing system of claim 3, further comprising a means for rotating said hollow shaft member, said rotating means comprises:a permanent magnet rotor;a non-magnetic electric insulator member coupled to said permanent magnet rotor; anda donut stator coupled to said non-magnetic electric insulator member. 5. The high heat producing system of claim 3, wherein:said enclosure is sealed and is disc-shaped and said top and bottom surface members are disc-shaped; and wherein:said laser beam deflecting chamber is made of transparent material to permit the laser beam to propagate therethrough. 6. The high heat producing system of claim 1, wherein:said rotating laser beam deflector splits said laser beam propagated along the center axis into two laser beams space substantially 180 degrees from the other, wherein said rotating laser beam deflector comprises a top angled deflector surface and a bottom angled deflector surface which serve to deflect the laser beam radiated along the center axis into an upper and lower laser beam which radially propagate to the continuous beam deflecting ring. 7. The high heat producing system of claim 1, wherein:said enclosure is housed in an expansion chamber of a turbine engine system and heats a working fluid medium filled in said expansion chamber having expansion properties when heated. 8. The high heat producing system of claim 1, wherein:said laser beam source is adapted to heat said enclosure to as much as about two thousand (2,000° F.) degrees Fahrenheit. 9. The high heat producing system of claim 1, wherein:said bottom surface member has coupled thereto an inlet/outlet port and pressure valve member. 10. A high heat producing system, comprising:an enclosure having a generally bottom disc-shaped enclosure portion having an outer perimeter, a center axis and a vertically upright cylindrical wall enclosure portion coupled to said outer perimeter of said generally bottom disc-shaped enclosure portion wherein said enclosure radiates heat energy therefrom, said cylindrical wall enclosure portion having a top rim;a g aseous medium filled in said enclosure having molecules;a continuous beam upward deflecting ring member coupled to an interior surface of said outer perimeter of said generally bottom disc-shaped enclosure portion;a rotating laser beam deflector coupled in the center axis of said generally bottom disc-shaped enclosure portion; anda laser beam source for radiating a laser beam upward along the center axis to said rotating laser beam deflector wherein said rotating laser beam deflector deflects the laser beam radially from the center axis through the gaseous medium to the continuous beam upward deflecting ring member to agitate said molecules and wherein the continuous beam upward deflecting ring member deflects said laser beam therefrom upward to said continuous beam upward deflecting ring member at said top rim. 11. The high heat producing system of claim 10, wherein said enclosure further comprises a laser beam deflecting chamber formed in the center axis wherein said laser beam deflecting chamber housed therein said rotating laser beam deflector; said rotating laser beam deflector comprises:a hollow shaft member coupled concentric with said laser beam deflecting chamber and propagates therethrough said laser beam;an angled deflector surface fixedly coupled to said hollow shaft member wherein said angled deflector surface reflects angularly downward at a predetermined angle from the center axis to deflect radially outward through the laser beam deflecting chamber the laser beam. 12. The high heat producing system of claim 11, further comprising a means for rotating said hollow shaft member, said rotating means comprises:a permanent magnet rotor;a non-magnetic electric insulator member coupled to said permanent magnet rotor; anda donut stator coupled to said non-magnetic electric insulator member. 13. The high heat producing system of claim 11, wherein:said enclosure is sealed and is disc-shaped and said top and bottom surface members are disc-shaped; and wherein:said laser beam deflecting chamber is made of transparent material to permit the laser beam to propagate therethrough. 14. The high heat producing system of claim 10, wherein:said rotating laser beam deflector splits said laser beam propagated along the center axis into two laser beams space substantially 180 degrees from the other, wherein said rotating laser beam deflector comprises a top angled deflector surface and a bottom angled deflector surface which serve to deflect the laser beam radiated along the center axis into an upper and lower laser beam which radially propagate to the continuous beam deflecting ring. 15. The high heat producing system of claim 10, wherein:said enclosure housed in an expansion chamber of a turbine engine system and heats a working fluid medium filled in said expansion chamber having expansion properties when heated. 16. The high heat producing system of claim 10, wherein:said laser beam source is adapted to heat said enclosure to as much as about two thousand (2,000° F.) degrees Fahrenheit. 17. A method of producing high heat, comprising the following steps:providing a high heat producing system wherein said high heat producing system, includes—an enclosure having a center axis and has free space wherein said enclosure is defined by a top surface member and a bottom surface member in parallel spaced relation and an outer perimeter surface coupled to the outer perimeter edge of said top and bottom surface members and wherein said enclosure radiates heat energy therefrom, a gaseous medium filled in said free space having molecules; a continuous beam deflecting ring member coupled to an interior surface of said outer perimeter surface, a rotating laser beam deflector coupled in a center axis of said bottom surface member, and a laser beam source for radiating a laser beam upward along the center axis;propagating said laser beam along said center axis to said rotating laser beam deflector;rotating said rotating laser beam defl ector and simultaneously deflecting said laser beam radially from said center axis through said gaseous medium; andagitating molecules of the gaseous medium as said laser beam is propagated through said gaseous medium and creating friction between the molecules to increase the heat energy of said enclosure. 18. The method of claim 17, wherein there is included the step of:using as the laser beam to heat said gaseous medium to a temperature level of at least about two thousand (2,000° F.) degrees Fahrenheit. 19. The method of claim 17, wherein there is included the step(s) of:using said enclosure in an expansion chamber of a turbine engine system and to heat a working fluid medium having expansion properties when heated filled in said expansion chamber. 20. The method of claim 17, wherein the step of rotating said rotating laser beam deflector and simultaneously deflecting said laser beam radially from said center axis further includes splitting said laser beam into two laser beams spaced substantially 180 degrees from each other.
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