Endoscopic objective optical system, and imaging system using the same

US 7,280,283 B1
Filed: 05/17/2006
Issued: 10/09/2007
Est. Priority Date: 05/17/2006
Status: Active Grant

First Claim

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1. An endoscopic objective optical system adapted to capture an object image to form the object image at image relay means, characterized by comprising a front unit before, and a rear unit after, a substantially afocal portion, wherein said objective optical system is relatively rotatable with said front unit and said rear unit integral with said image relay means.

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Abstract

The invention provides a wide-angle, low-cost endoscopic objective optical system that is reduced in terms of distortion and field curvature and composed only of spherical lenses, especially a video endoscopic objective optical system. The optical system comprises a first group G1 comprising a negative meniscus lens convex on an object side thereof, an aperture stop S, a second group G2 comprising a positive lens having a plane directed toward an object point side, a third group G3 including at least one concave refractive surface and having a positive refracting power as a whole, and a fourth group G4 comprising a cemented lens comprising a negative meniscus lens and a double-convex lens and having positive refracting power, so that an image is formed at an imaging device I via the first group G1 to the fourth group G4. A chief ray is reflected at the convex surface of the positive lens in the second group in a direction away from an optical axis.

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23 Claims

1. An endoscopic objective optical system adapted to capture an object image to form the object image at image relay means, characterized by comprising a front unit before, and a rear unit after, a substantially afocal portion, wherein said objective optical system is relatively rotatable with said front unit and said rear unit integral with said image relay means.
- View Dependent Claims (2)
- - 2. The endoscopic objective optical system according to claim 1, characterized by satisfying the following conditions:
    - 2<
      
      f₂(n₂−
      
      1)/t₂<
      
      6
      
      (1)
      −
      
      2.3<
      
      f₁/F<
      
      −
      
      0.9
      
      (2)
      −
      
      0.6<
      
      PS3<
      
      −
      
      0.2
      
      (3)
      ν
      
      p>
      
      50, ν
      
      n<
      
      30
      
      (4)
      2.3<
      
      f₄/F
      
      (5)where t₂, f₂and n₂is the thickness, focal length and refractive index of the positive lens in said second group, respectively, f₁is the focal length of the negative meniscus lens in said first group, F is the focal length of the whole optical system, PS3 is a Petzval'"'"'s sum due to the concave refractive surface in said third group, ν
      
      p and ν
      
      n are the d-line Abbe constants of the positive lens and negative lens in said fourth group, and f₄is the focal length of said fourth group.

3. An endoscopic objective optical system comprising, in order from an object side thereof, a first group comprising a negative meniscus lens convex on an object side thereof, an aperture stop, a second group comprising a positive lens having a plane directed toward an object point side, a third group including at least one concave refractive surface and having a positive refracting power as a whole, and a fourth group comprising a cemented lens comprising a negative meniscus lens and a double-convex lens and having positive refracting power, so that an image is formed at an imaging device via said first group to said fourth group, characterized in that a chief ray is reflected at the convex surface of the positive lens in said second group in a direction away from an optical axis.
- View Dependent Claims (4, 5, 6, 7, 8)
- - 4. The endoscopic objective optical system according to claim 3, characterized in that an interference filter capable of cutting off wavelengths in an infrared region is located in front of said fourth group.
  - 5. The endoscopic objective optical system according to claim 4, characterized in that a angle of incidence of a chief ray on said interference filter is 25°
    - or less.
  - 6. The imaging system according to claim 5, characterized in that an illumination optical system located together with the objective optical system at an image portion at the distal end of the endoscope has a structure such that the illumination optical system is rotatable following the objective optical system when directed in a direction of the field of the endoscope with the direction of the field turned by an image rotation mechanism.
  - 7. The endoscopic objective optical system according to claim 4, characterized in that a space between said front unit and said rear unit is 0.5 mm or wider.
  - 8. The endoscopic objective optical system according to claim 3, characterized in that there is an absorption type infrared cut filter located in the endoscopic objective optical system.

9. An imaging system comprising an endoscopic objective optical system adapted to capture an object image to form the object image at image relay means, and a solid-state imaging device located on an image plane side thereof, characterized in that said objective optical system comprises a front unit before, and a rear unit after, a substantially afocal portion, wherein said objective optical system is relatively rotatable with said front unit and said rear unit integral with said image relay means.

10. An imaging system comprising an endoscopic objective optical system comprising, in order from an object side thereof, a first group comprising a negative meniscus lens convex on an object side thereof, an aperture stop, a second group comprising a positive lens having a plane directed toward an object point side, a third group including at least one concave refractive surface and having a positive refracting power as a whole, and a fourth group comprising a cemented lens comprising a negative meniscus lens and a double-convex lens and having positive refracting power, so that an image is formed at an imaging device via said first group to said fourth group, wherein a chief ray is reflected at the convex surface of the positive lens in said second group in a direction away from an optical axis, and a solid-state imaging device located on an image plane side of said objective optical system, characterized in that a front unit is made up of said first group, said aperture stop and said second group, and a rear unit is made up of said third group and said fourth group, wherein said rear unit and said solid-state imaging device have a mechanically integrated structure in such a way as to be relatively rotatable with respect to said front unit with the longitudinal direction of the imaging device as an axis, and the angle of incidence of an axial marginal ray from said front unit on said rear unit is substantially parallel with said axis of rotation.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
- - 11. The imaging system according to claim 10, characterized by satisfying the following condition should be satisfied:
    - −
      
      0.3<
      
      (f₂−
      
      |f₁|)/F<
      
      1.5
      
      (6)where f₁is the focal length of the negative lens in said front unit, f₂is the focal length of the positive lens in said front unit, and F is the focal length of the whole endoscopic objective optical system.
  - 12. The imaging system according to claim 11, characterized in that by incorporating a prism in said front unit, said endoscopic objective optical system is configured as an oblique-vision optical system.
  - 13. The imaging system according to claim 12, characterized in that said solid-state imaging device has the center of an image pickup plane substantially in alignment with the center of an outer housing.
  - 14. The imaging system according to claim 12, characterized in that the center of a scope outer tube is substantially in alignment with the center of the image pickup plane of the imaging device.
  - 15. The imaging system according to claim 10, characterized in that an interference filter capable of cutting off wavelengths in an infrared region is located in front of said fourth group.
  - 16. The imaging system according to claim 15, characterized in that the angle of incidence of a chief ray on said interference filter is 25°
    - or less.
  - 17. The imaging system according to claim 10, characterized in that there is an absorption type infrared cut filter located in the endoscopic objective optical system.

18. An imaging system comprising an endoscopic objective optical system comprising, in order from an object side thereof, a first group comprising a negative meniscus lens convex on an object side thereof, an aperture stop, a second group comprising a positive lens having a plane directed toward an object point side, a third group including at least one concave refractive surface and having a positive refracting power as a whole, and a fourth group comprising a cemented lens comprising a negative meniscus lens and a double-convex lens and having positive refracting power, so that an image is formed at an imaging device via said first group to said fourth group, wherein a chief ray is reflected at the convex surface of the positive lens in said second group in a direction away from an optical axis, and a solid-state imaging device located on an image plane side of said objective optical system, characterized in that a front unit is made up of said first group, said aperture stop and said second group, and a rear unit is made up of said third group and said fourth group, wherein said rear unit and said solid-state imaging device have a mechanically integrated structure in such a way as to be relatively rotatable with respect to said front unit with the longitudinal direction of the imaging device as an axis, and the angle of incidence of an axial marginal ray from said front unit on said rear unit is substantially parallel with said axis of rotation,
2<
- f₂(n₂−
  
  1)/t₂<
  
  6
  
  (1)
  −
  
  2.3<
  
  f₁/F<
  
  −
  
  0.9
  
  (2)
  −
  
  0.6<
  
  PS3<
  
  −
  
  0.2
  
  (3)
  ν
  
  p>
  
  50, ν
  
  n<
  
  30
  
  (4)
  2.3<
  
  f₄/F
  
  (5)where t₂, f₂and n₂is the thickness, focal length and refractive index of the positive lens in said second group, respectively, f₁is the focal length of the negative meniscus lens in said first group, F is the focal length of the whole optical system, PS3 is a Petzval'"'"'s sum due to the concave refractive surface in said third group, ν
  
  p and ν
  
  n are the d-line Abbe constants of the positive lens and negative lens in said fourth group, and f₄is the focal length of said fourth group.

19. An imaging system comprising an endoscopic objective optical system comprising a front unit comprising, in order from an object side thereof, a negative lens, a stop and a positive lens and a rear unit having a positive refracting power as a whole and a solid-state imaging device located on an image plane thereof, characterized in that said rear unit and said solid-state imaging device have a mechanically integrated structure in such a way as to be rotatable with respect to said front unit with the longitudinal direction of the imaging system as an axis, and the angle of incidence of an axial marginal ray from said front unit on said rear unit is substantially parallel with said axis of rotation.

20. An assembling method for an endoscopic objective optical system comprising, in order from an object side thereof, a first group comprising a negative meniscus lens convex on an object side thereof, an aperture stop, a second group comprising a positive lens having a plane directed toward an object point side, a third group including at least one concave refractive surface and having a positive refracting power as a whole, and a fourth group comprising a cemented lens comprising a negative meniscus lens and a double-convex lens and having positive refracting power, so that an image is formed at an imaging device via said first group to said fourth group, wherein a chief ray is reflected at the convex surface of the positive lens in said second group in a direction away from an optical axis, characterized in that the asymmetry of the image plane is kept uniform by adjustment of a lens located nearest to the object side.

21. An assembling method for an endoscopic objective optical system comprising, in order from an object side thereof, a first group comprising a negative meniscus lens convex on an object side thereof, an aperture stop, a second group comprising a positive lens having a plane directed toward an object point side, a third group including at least one concave refractive surface and having a positive refracting power as a whole, and a fourth group comprising a cemented lens comprising a negative meniscus lens and a double-convex lens and having positive refracting power, so that an image is formed at an imaging device via said first group to said fourth group, characterized in that a chief ray is reflected at the convex surface of the positive lens in said second group in a direction away from an optical axis, and a solid-state imaging device located on an image plane of said endoscopic objective optical system, characterized in that a front unit is made up of said first group, said aperture stop and said second group, and a rear unit is made up of said third group and said fourth group, wherein said rear unit and said solid-state imaging device have a mechanically integrated structure in such a way as to be relatively rotatable with respect to said front unit with the longitudinal direction of the imaging device as an axis, and the angle of incidence of an axial marginal ray from said front unit on said rear unit is substantially parallel with said axis of rotation, characterized in that the asymmetry of the image plane is kept uniform by adjustment of a lens located nearest to the object side.

22. An assembling method for an endoscopic objective optical system comprising, in order from an object side thereof, a first group comprising a negative meniscus lens convex on an object side thereof, an aperture stop, a second group comprising a positive lens having a plane directed toward an object point side, a third group including at least one concave refractive surface and having a positive refracting power as a whole, and a fourth group comprising a cemented lens comprising a negative meniscus lens and a double-convex lens and having positive refracting power, so that an image is formed at an imaging device via said first group to said fourth group, wherein a chief ray is reflected at the convex surface of the positive lens in said second group in a direction away from an optical axis, characterized in that said front unit and said rear unit are independently assembled, and after adjustment of an optical center, they are combined with each other.

23. An assembling method for an endoscopic objective optical system comprising, in order from an object side thereof, a first group comprising a negative meniscus lens convex on an object side thereof, an aperture stop, a second group comprising a positive lens having a plane directed toward an object point side, a third group including at least one concave refractive surface and having a positive refracting power as a whole, and a fourth group comprising a cemented lens comprising a negative meniscus lens and a double-convex lens and having positive refracting power, so that an image is formed at an imaging device via said first group to said fourth group, wherein a chief ray is reflected at the convex surface of the positive lens in said second group in a direction away from an optical axis, characterized in that for centering of said front unit, an optical center is determined with respect to the rear unit that has an optical center previously adjusted to less than an acceptable amount.

Specification

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Current Assignee
Olympus Corporation
Original Assignee
Olympus Corporation
Inventors
Kasai, Ken
Primary Examiner(s)
Sugarman; Scott J.
Assistant Examiner(s)
Collins; Darryl J.

Application Number

US11/434,793
Time in Patent Office

510 Days
Field of Search

359656-661
US Class Current

359/656
CPC Class Codes

A61B 1/00179   for off-axis viewing

A61B 1/05   characterised by the image ...

G02B 23/243   Objectives for endoscopes

G02B 9/34   having four components only

G02B 9/60   having five components only

Endoscopic objective optical system, and imaging system using the same

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

74 Citations

23 Claims

Specification

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Endoscopic objective optical system, and imaging system using the same

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

74 Citations

23 Claims

Specification

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Use Cases

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Others