Collimated beam of light and systems and methods for implementation thereof

US 5,347,433 A
Filed: 06/11/1992
Issued: 09/13/1994
Est. Priority Date: 06/11/1992
Status: Expired due to Fees

First Claim

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1. A system of producing a collimated beam of light having a substantially uniform flux intensity across substantially the entire beam, comprising:

a light source;

first and second reflecting means arranged on opposite sides of said light source along an optical axis, said second reflecting means including an opening positioned for receiving light from the light source and also from said first concave reflecting means, and said second reflecting means positioned for reflecting light back to said first reflecting means; and

a light integrating and collimating means including a plurality of light pipes located in said opening and juxtaposed as a fly-eye structure, each of said light pipes including a first lens and a second lens for bending light rays along a path generally parallel to the optical axis.

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Abstract

A method and system for producing a collimated beam of light having a substantially uniform flux density across the entire beam includes a light source adapted to emit light rays; a light integrator adapted to collimate the light rays and provide a uniform flux intensity; and a pair of reflectors adapted to reflect all of the light from the light source into the light integrator. The light integrator includes a fly-eye arrangement of light pipes. Each light pipe includes a pair of lenses adapted to bend the light rays towards the normal to collimate the light rays. In addition the light pipes may be juxtaposed to produce a collimated light beam having a uniform flux density and a desired geometrical configuration (i.e. rectangular, circular).

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20 Claims

1. A system of producing a collimated beam of light having a substantially uniform flux intensity across substantially the entire beam, comprising:
- a light source;
  
  first and second reflecting means arranged on opposite sides of said light source along an optical axis, said second reflecting means including an opening positioned for receiving light from the light source and also from said first concave reflecting means, and said second reflecting means positioned for reflecting light back to said first reflecting means; and
  
  a light integrating and collimating means including a plurality of light pipes located in said opening and juxtaposed as a fly-eye structure, each of said light pipes including a first lens and a second lens for bending light rays along a path generally parallel to the optical axis.
- View Dependent Claims (2)
- - 2. The system as claimed in claim 1 and wherein the fly-eye arrangement has a desired geometrical cross sectional configuration.

3. A method of producing a collimated beam of light having substantially uniform flux intensity across substantially the entire beam, comprising:
- providing a light source;
  
  providing a first concave reflecting means having an optical axis;
  
  providing a second concave reflecting means having an optical axis substantially coincident with the optical axis of the first concave reflecting means and positioned for reflecting light from said light source and said first concave reflecting means to said first concave reflecting means and having an opening formed therethrough, said opening having an axis positioned such that the optical axis of the second concave reflecting means is substantially coincident with the axis of the opening; and
  
  providing a light integrator means positioned in the opening of the second concave reflecting means for receiving light beams from said light source and reflected light beams from said first concave reflecting means said light integrator means adapted for collimating said received beams and providing a substantially uniform flux intensity.
- View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 4. A method as described in claim 3 in which the step of providing a first concave reflecting means includes providing a first concave reflecting means having a parabolic shape.
  - 5. A method as described in claim 3 in which the step of providing a first concave reflecting means includes providing a first concave reflecting means having an elliptical shape.
  - 6. A method as described in claim 3 in which the step of providing a second concave reflecting means includes providing a second concave reflecting means having a parabolic shape.
  - 7. A method as described in claim 3 in which the step of providing a second concave reflecting means includes providing a second concave reflecting means having an elliptical shape.
  - 8. A method as described in claim 3 in which the step of providing a light integrator means includes providing a light integrator means having a plurality of parallel optical light pipes, each pipe having a first lens formed on a first end surface and a second lens formed on a second end surface, the optical light pipes being formed in a fly-eye arrangement in juxtaposition to each other.
  - 9. A method as described in claim 8 in which the steps of providing a first and second concave reflecting means includes providing a first and second concave reflecting means each having a parabolic shape.
  - 10. A method as described in claim 8 in which the steps of providing a first and second concave reflecting means includes providing a first and second concave reflecting means each having an elliptical shape.
  - 11. A method as described in claim 3 in which the step of providing a light integrator means includes providing a light integrator means having a plurality of parallel optical light pipes, each pipe having a first lens formed on a first end surface and a second lens formed on a second end surface, the optical light pipes being formed in a fly-eye arrangement in juxtaposition to each other the cross section of the total plurality of optical light pipes having a desired geometrical configuration.
  - 12. A method as described in claim 3 further comprising providing a lens to receive the light from said light integrator means to further collimate the light beam.

13. A system of producing a collimated beam of light having substantially uniform flux intensity across substantially the entire beam, comprising:
- a light source;
  
  a first concave reflecting means having an optical axis;
  
  a second concave reflecting means having an optical axis substantially coincident with the optical axis of the first concave reflecting means and positioned for reflecting light from said light source and said first concave reflecting means to said first concave reflecting means and having an opening formed therethrough said opening having an axis, said opening being positioned such that the optical axis of the second concave reflecting means is substantially coincident with the axis of the opening; and
  
  a light integrator means positioned in the opening of the second concave reflecting means, for receiving light beams from said light source and reflected light beams from said first concave reflecting means said light integrator means adapted for collimating said receiving beams and providing a substantially uniform flux intensity.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
- - 14. A system as described in claim 13 in which the first concave reflecting means is formed in a parabolic shape.
  - 15. A system as described in claim 13 in which the first concave reflecting means is formed in an elliptical shape.
  - 16. A system as described in claim 13 in which the second concave reflecting means is formed in a parabolic shape.
  - 17. A system as described in claim 13 in which the second concave reflecting means is formed in an elliptical shape.
  - 18. A system as described in claim 13 in which the light integrator is formed from a plurality of parallel optical light pipes, each light pipe having a first lens formed on a first end surface and a second lens formed on a second end surface, the optical light pipes being formed in a fly-eye arrangement in juxtaposition to each other.
  - 19. A system as described in claim 13 in which the light integrator means is formed from a plurality of parallel optical light pipes, each light pipe having a first lens formed on a first end surface and a second lens formed on a second end surface, the optical light pipes being formed in a fly-eye arrangement in juxtaposition to each other the cross section of the total plurality of optical light pipes having a desired geometrical configuration.
  - 20. A system as described in claim 13 further including a light collimating means, said light collimating means comprising a lens positioned to receive the light from said light integrator means.

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Current Assignee
Sedlmayr, Steven R.
Original Assignee
Sedlmayr, Steven R.
Inventors
Sedlmayr, Steven R.
Primary Examiner(s)
Cole, Richard R.

Application Number

US07/898,951
Time in Patent Office

824 Days
Field of Search

362/32, 362/268, 362/298, 362/299, 362/300, 362/302
US Class Current

362/554
CPC Class Codes

G02B 27/0927   Systems for changing the be...

G02B 27/0961   Lens arrays lens arrays per...

G02B 27/0966   Cylindrical lenses cylindri...

G02B 5/285   comprising deposited thin s...

Collimated beam of light and systems and methods for implementation thereof

First Claim

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Accused Products

Abstract

169 Citations

20 Claims

Specification

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Collimated beam of light and systems and methods for implementation thereof

First Claim

0 Assignments

Subscription Required

Subscription Required

0 Petitions

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Accused Products

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Abstract

169 Citations

20 Claims

Specification

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Use Cases

Quick Links

Others