Light source for endoscopes, having different numerical-aperture light collection system

US 6,139,175 A
Filed: 09/14/1999
Issued: 10/31/2000
Est. Priority Date: 05/15/1996
Status: Expired due to Term

First Claim

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1. A light source device for endoscopes comprising:

a light source;

a condenser lens unit constructed and arranged to collect light beams emitted from said light source;

a light guide that receives said light beams collected through said condenser lens unit into an entrance end face thereof, wherein said light guide transmits said light beams to an exit end face thereof; and

a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,wherein light beams emitted from said light source are condensed at the entrance end face of said light guide through each of a plurality of independent optical paths in which a condenser lens unit of different numerical aperture is placed; and

wherein a switching mirror is provided in an optical path in which said condenser lens unit is placed so that the light beams emitted from said light source are separated in two directions by said switching mirror.

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Abstract

A light source device for endoscopes includes a light source; a condenser lens unit for collecting light beams from the light source; a light guide for receiving the light beams collected through the condenser lens unit into its entrance end face to transmit them to its exit end face; and a reflecting mirror located on the opposite side of the condenser lens unit with respect to the light source. The light source device is designed so that a position where the light beams emitted from the light source are collected directly through the condenser lens unit does not coincide with a position where the light beams emitted from the light source and reflected back to the light source by the reflecting mirror are collected through the condenser lens unit. In an embodiment, an arc axis of the light source is substantially parallel to the optical axis of the condenser lens unit. In another embodiment, direct light and reflected light each enter an entrance face of a forked light guide. In another embodiment, an infra-red removing filter is interposed between a front lens and a rear lens of the condenser unit.

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13 Claims

1. A light source device for endoscopes comprising:
- a light source;
  
  a condenser lens unit constructed and arranged to collect light beams emitted from said light source;
  
  a light guide that receives said light beams collected through said condenser lens unit into an entrance end face thereof, wherein said light guide transmits said light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,wherein light beams emitted from said light source are condensed at the entrance end face of said light guide through each of a plurality of independent optical paths in which a condenser lens unit of different numerical aperture is placed; and
  
  wherein a switching mirror is provided in an optical path in which said condenser lens unit is placed so that the light beams emitted from said light source are separated in two directions by said switching mirror.
- View Dependent Claims (2)
- - 2. A light source device for endoscopes according to claim 1, wherein said switching mirror is placed in a substantially afocal light beam.

3. A light source device for endoscopes comprising:
- a light source;
  
  a condenser lens unit constructed and arranged to collect light beams emitted from said light source;
  
  a light guide that receives said light beams collected through said condenser lens unit into an entrance end face thereof, wherein said light guide transmits said light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,wherein a position where direct light beams that are emitted directly from said light source and converged through said condenser lens unit is shifted with respect to a position where reflected light beams that are emitted from said light source and re-converged through said condenser lens unit after being reflected back and converged in a vicinity of said light source by said reflecting mirror,wherein said condenser lens unit includes a front lens and a rear lens, said front lens and said rear lens constituting an afocal system, andwherein an infrared removing filter is interposed between said front lens and said rear lens of said condenser lens unit.
- View Dependent Claims (4)
- - 4. A light source device for endoscopes according to claim 3, wherein said infrared removing filter eliminates infrared rays with wavelengths of at least 750-1100 nm.

5. A light source device for endoscopes comprising:
- a light source of arc discharge type;
  
  a condenser lens unit constructed and arranged to collect light beams emitted from said light source;
  
  a light guide that receives said light beams collected through said condenser lens unit into an entrance end face thereof, wherein said light guide transmits said light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,wherein an arc axis of said light source is substantially parallel to an optical axis of said condenser lens unit and
  wherein the following condition is satisfied;
  space="preserve" listing-type="equation">β
  
  .sub.1 D.sub.a /D.sub.L >
  
  1
  where β
  
  ₁ is a projecting magnification of said condenser lens unit, D_a is an arc length of a lamp of said light source, and D_L is a diameter of said light guide.

6. A light source device for endoscopes comprising:
- a light source of arc discharge type;
  
  a condenser lens unit constructed and arranged to collect light beams emitted from said light source;
  
  a light guide that receives said light beams collected through said condenser lens unit into an entrance end face thereof, wherein said light guide transmits said light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,wherein an arc axis of said light source is substantially parallel to an optical axis of said condenser lens unit,wherein said condenser lens unit includes a front lens and a rear lens, said front lens and said rear lens constituting an afocal system, andwherein an infrared removing filter is interposed between said front lens and said rear lens of said condenser lens unit.
- View Dependent Claims (7)
- - 7. A light source device for endoscopes according to claim 6, wherein said infrared removing filter eliminates infrared rays with wavelengths of at least 750-1100 nm.

8. A light source device for endoscopes comprising:
- a light source;
  
  a condenser lens unit constructed and arranged to collect light beams emitted from said light source;
  
  a light guide that receives said light beams collected through said condenser lens unit into an entrance end face thereof, wherein said light guide transmits said light beams to an exit and face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,wherein a position where direct light beams that are emitted directly from said light source and converged through said condenser lens unit is shifted with respect to a position where reflected light beams that are emitted from said light source and re-converged through said condenser lens unit after being reflected back and converged in a vicinity of said light source by said reflecting mirror, andwherein said light guide has a forked entrance and so that one of two entrance end faces receives the direct light beams that are emitted directly from said light source and converged through said condenser lens unit and that a remaining one of said two entrance end faces receives the reflected light beams that are emitted from said light source and re-converged through said condenser lens unit after being reflected back and converged in the vicinity of said light source by said reflecting mirror.

9. A light source device for endoscopes comprising:
- a light source;
  
  a condenser lens unit constructed and arranged to collect light beams emitted from said light source;
  
  a light guide that receives said light beams collected through said condenser lens unit into an entrance end face thereof, wherein said light guide transmits said light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,wherein a position where direct light beams that are emitted directly from said light source and converged through said condenser lens unit is shifted with respect to a position where reflected light beams that are emitted from said light source and re-converged through said condenser lens unit after being reflected back and converged in a vicinity of said light source by said reflecting mirror, andwherein the entrance end face of said light guide is shaped into an elliptical form.

10. A light source device for endoscopes comprising:
- a light source,a condenser lens unit constructed and arranged to collect light beams emitted from said light source;
  
  a light guide that receives said light beams collected through said condenser lens unit into an entrance end face thereof, wherein said light guide transmits said light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,wherein light beams emitted from said light source are condensed at the entrance end face of said light guide through each of a plurality of independent optical paths in which a condenser lens unit of different numerical aperture is placed; and
  
  wherein the light beams are supplied to light guides of different numerical apertures at the same time.

11. A light source device for endoscopes comprising:
- a light source of arc discharge type;
  
  a condenser lens unit for collecting light beams emitted from said light source;
  
  a light guide for receiving the light beams collected through said condenser lens unit into an entrance end face thereof to transmit the light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,an arc axis of said light source being substantially parallel to an optical axis of said condenser lens unit, andsaid condenser lens unit including a front lens and a rear lens, said front lens and said rear lens constituting an afocal system.

12. A light source device for endoscopes comprising:
- a light source of arc discharge type;
  
  a condenser lens unit for collecting light beams emitted from said light source;
  
  a light guide for receiving the light beams collected through said condenser lens unit into an entrance end face thereof to transmit the light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,an arc axis of said light source being substantially parallel to an optical axis of said condenser lens unit,
  wherein the following condition is satisfied;
  space="preserve" listing-type="equation">0.8<
  
  {D.sub.0 /(2 d.sub.0)}/NA.sub.LS <
  
  1.2
  where D₀ is an outer diameter of said reflecting mirror used for said condenser lens unit, d₀ is a space between said light source and said reflecting mirror, and NA_LS is a numerical aperture of said light guide.

13. A light source device for endoscopes comprising:
- a light source of arc discharge type;
  
  a condenser lens unit for collecting light beams emitted from said light source;
  
  a light guide for receiving the light beams collected through said condenser lens unit into an entrance end face thereof to transmit the light beams to an exit end face thereof; and
  
  a reflecting mirror located on an opposite side of said condenser lens unit with respect to said light source,an arc axis of said light source being substantially parallel to an optical axis of said condenser lens unit, and said reflecting mirror having a spherical form.

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Current Assignee
Olympus Optical Corporation Limited (Olympus Corporation)
Original Assignee
Olympus Optical Corporation Limited (Olympus Corporation)
Inventors
Hasegawa, Akira, Suzuki, Takayuki, Tomioka, Makoto, Ikeda, Yumi
Primary Examiner(s)
O'Shea, Sandra
Assistant Examiner(s)
Negron, Ismael

Application Number

US09/395,743
Time in Patent Office

413 Days
Field of Search

362/551, 362/572, 362/574, 362/573, 362/268, 362/804, 362/558, 362/327, 362/328, 362/331
US Class Current

362/574
CPC Class Codes

G02B 6/0006   Coupling light into the fib...

G02B 6/4206   Optical features G02B6/4207...

G02B 6/4298   coupling with non-coherent ...

Light source for endoscopes, having different numerical-aperture light collection system

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

89 Citations

13 Claims

Specification

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Light source for endoscopes, having different numerical-aperture light collection system

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

89 Citations

13 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others