Claims
- 1. A fiber optic rotary joint comprising:
- a stator including a waveguide;
- a rotor rotatable through a full 360.degree. revolution and concentric to said stator;
- a first plurality of light transmitters positioned on a first circumference and connected to one of said stator and said rotor, each of said first plurality of light transmitters emitting an optical signal;
- a first plurality of optical fibers each associated with a corresponding one of said light transmitters, each optical fiber extending generally tangentially relative to said first circumference;
- a second plurality of light receivers positioned on a second circumference and connected to the other one of said stator and said rotor,
- a second plurality of optical fibers each associated with a corresponding one of said light receivers, each optical fiber extending generally tangentially relative to said second circumference;
- wherein each of the optical signals is emitted tangentially into said waveguide and reflected in short chordal lengths along said waveguide, and each optical signal is received by less than all of said second plurality of light receivers through said full 360.degree. revolution of said rotor.
- 2. The fiber optic rotary joint of claim 1, wherein said second plurality of light receivers is a larger number than said first plurality of light transmitters.
- 3. The fiber optic rotary joint of claim 1, wherein said plurality of light transmitters are unequally circumferentially spaced.
- 4. The fiber optic rotary joint of claim 1, wherein said light transmitters and said light receivers comprise parallelograms.
- 5. The fiber optic rotary joint of claim 4, wherein each of said parallelograms extends radially inwardly and outwardly from one of said stator and said rotor.
- 6. The fiber optic rotary joint of claim 1, further comprising a third plurality of optical fibers each coupled at one end thereof to a corresponding one of said light receivers and at an opposite end thereof to a signal combiner.
- 7. The fiber optic rotary joint of claim 6, further comprising a lens, a slit and a photodiode, said lens for receiving an optical signal from said signal combiner and focusing said optical signal into and through said slit for reception by said photodiode.
- 8. The fiber optic rotary joint of claim 6, wherein each of said third plurality of optical fibers has approximately the same length.
- 9. The fiber optic rotary joint of claim 1, wherein said waveguide is segmented into reflective portions and areas of low level signals.
- 10. The fiber optic rotary joint of claim 9, wherein a plurality of light receiving prisms is angularly spaced apart at a first angle, said areas of low level signals extending for a second angle greater than said first angle.
- 11. The fiber optic rotary joint of claim 9, wherein said reflective portions and said areas of low level signals have the same annular length.
- 12. The fiber optic rotary joint of claim 9, wherein each of said reflective portions and said areas of low level signals extend for an angle of approximately 45.degree..
- 13. The fiber optic rotary joint of claim 1, wherein said joint has a diameter of approximately 40 inches.
- 14. The fiber optic rotary joint of claim 1, wherein said light transmitters are located on one vertical plane and said light receivers are located on a second vertical plane spaced from said first plane.
- 15. The fiber optic rotary joint of claim 1, wherein air separates said plurality of light transmitters from said waveguide.
- 16. The fiber optic rotary joint of claim 1, further comprising a signal combiner for combining said plurality of received signals into a combined optical signal.
- 17. The fiber optic rotary joint of claim 16, further comprising a third plurality of optical fibers each coupled at one end thereof to a corresponding one of said light receivers and at an opposite end thereof to said signal combiner.
- 18. The fiber optic rotary joint of claim 1, wherein said first plurality of light transmitters emit optical signals at different wavelengths, .lambda..sub.1 and .lambda..sub.2.
- 19. The fiber optic rotary joint of claim 18, further comprising a signal combiner for combining said optical signals received by said light receivers and a dichroic filter for separating optical signals .lambda..sub.1 and .lambda..sub.2 from said signal combiner.
- 20. The fiber optic rotary joint of claim 1, wherein each of said first plurality of optical fibers is coupled at one end thereof to a corresponding one of said light transmitters and at an opposite end thereof to a light source.
Parent Case Info
This application is a continuation-in-part application and claims priority from Ser. No. 08/942,721 filed Oct. 2, 1997, now U.S. Pat. No. 5,991,478, issued Nov. 23, 1999.
US Referenced Citations (9)
Foreign Referenced Citations (2)
Number |
Date |
Country |
2441359 |
Mar 1976 |
DEX |
57-138228 |
Aug 1982 |
JPX |
Non-Patent Literature Citations (1)
Entry |
Publication 9702: "New Technologies--In Detail, The Fluorescent Optical Rotary Joint", Schleifring und Apparatebau GmbH, Internet: http://www.schleifring.de/Publication%209702.htm, last updated Apr. 7, 1997. |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
942721 |
Oct 1997 |
|