Electro-optical inspection system and method

US 5,699,152 A
Filed: 04/03/1995
Issued: 12/16/1997
Est. Priority Date: 04/03/1995
Status: Expired due to Term

First Claim

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1. In a system for inspecting the interior surface of an open top cylindrical opaque object, said object having a flange portion circumscribing said open top and a neck portion of decreased radius disposed below said flange, the improvement comprising:

a first system for inspecting an upper interior region of said object, said first system comprising;

means arranged above the open top of said object for illuminating the interior of said object in a front-lighting arrangement downwardly through the open top of said object;

a first means located above the open top of the object for forming a first image of the interior of said neck portion of the object, said first means comprising an annular reflecting member having an inwardly facing reflecting surface for forming an image of the interior of said neck portion;

a second means located above the open top of the object for capturing and reproducing said first image corresponding to said neck portion interior of the object from said image-forming first means;

a third means located above the open top of the object for forming a second image of the flange portion of the object;

a fourth means located above the open top of the object for capturing and reproducing said second image corresponding to said flange portion of the object;

a fifth means coupled to said image-reproducing second and fourth means for electronically masking and combining said first and second images to generate a single resultant composite image for defect analysis corresponding to the upper interior portion and flange portion of said object, anda second system for inspecting a lower interior portion of said object, said second system comprising;

a sixth means located above the open top of the object for capturing and reproducing a third image corresponding to said lower interior portion of said object.

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Abstract

A system and method for inspecting opaque objects, such as metal beverage containers, is presented including a light source for illuminating the interior surface of the container, an ellipsoidal first mirror for forming a first image of an upper interior portion of the container, a first camera for capturing the first image of the upper interior portion of the container, a planar image-splitting second mirror for forming a second image of the flange of the container, a second camera for capturing the second image of the flange, an image combiner for electro-optically combining the first and second images, whereby a resultant composite image corresponding to substantially the entire upper interior surface of the container can be generated and analyzed for defects, a third camera located at a separate location for viewing directly the lower interior portion of the container and capturing a corresponding third image, and a computer means for analyzing the resulting images for defects. In an alternative embodiment, a fourth camera and a planar image-splitting third mirror may be disposed at the separate location for forming and capturing a fourth image corresponding specifically to the bottomwall of the container, and an image combiner can electro-optically combine the third and fourth images, whereby a second resultant composite image corresponding to substantially the entire lower interior portion of the container can be generated and analyzed for defects.

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33 Claims

1. In a system for inspecting the interior surface of an open top cylindrical opaque object, said object having a flange portion circumscribing said open top and a neck portion of decreased radius disposed below said flange, the improvement comprising:
- a first system for inspecting an upper interior region of said object, said first system comprising;
  
  means arranged above the open top of said object for illuminating the interior of said object in a front-lighting arrangement downwardly through the open top of said object;
  
  a first means located above the open top of the object for forming a first image of the interior of said neck portion of the object, said first means comprising an annular reflecting member having an inwardly facing reflecting surface for forming an image of the interior of said neck portion;
  
  a second means located above the open top of the object for capturing and reproducing said first image corresponding to said neck portion interior of the object from said image-forming first means;
  
  a third means located above the open top of the object for forming a second image of the flange portion of the object;
  
  a fourth means located above the open top of the object for capturing and reproducing said second image corresponding to said flange portion of the object;
  
  a fifth means coupled to said image-reproducing second and fourth means for electronically masking and combining said first and second images to generate a single resultant composite image for defect analysis corresponding to the upper interior portion and flange portion of said object, anda second system for inspecting a lower interior portion of said object, said second system comprising;
  
  a sixth means located above the open top of the object for capturing and reproducing a third image corresponding to said lower interior portion of said object.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 2. The inspection system as in claim 1 further comprising means coupled to said image-producing sixth means of the second system for analyzing for defects said third image corresponding to the lower interior portion of said object.
  - 3. The inspection system as in claim 1 wherein the fifth means of said first system is defined by a vision computer for analyzing for defects said resultant composite image.
  - 4. The inspection system as in claim 1 wherein said illuminating means comprises an illuminator arranged above the open top of said object for irradiating the upper interior portion of said object with diffused light rays, said illuminator comprising an annular array of light-emitting diodes.
  - 5. The inspection system of claim 1 wherein said second system further comprises:
    - an eighth means located above the top of the object for forming a fourth image of the bottom of the object;
      
      a ninth means located above the open top of the object for capturing and reproducing said fourth image corresponding to said bottom of the object;
      
      means coupled to said image-reproducing fifth and ninth means for electronically masking and combining said third and fourth images to generate a second resultant composite image for analysis corresponding to the lower interior portion of said object.
  - 6. The inspection system as in claim 5 wherein said image-forming third and eighth means each comprise a planar reflecting member.
  - 7. The inspection system as in claim 6 wherein each said planar reflecting member comprises a partially silvered image-splitting mirror, said image-splitting mirrors being adapted to lie generally on the central axis of said object and in a plane angularly disposed in relation to said central axis.
  - 8. The inspection system as in claim 7 wherein each said image-splitting mirror is disposed at an angle of approximately 45 degrees in relation to the central axis of the object, and said image-reproducing fourth and ninth means are arranged with their central axes approximately 90 degrees in relation to the central axis of said image-reproducing second means and of said object.
  - 9. The inspection system as in claim 5 wherein said image-reproducing second, fourth, fifth and ninth means each comprise a television camera.
  - 10. The inspection system as in claim 5 wherein said object comprises a metal beverage container having an open top, a necked portion adjacent to the open top, a closed end defined by a bottomwall opposite the open top of the container, and a cylindrical sidewall extending between the necked portion and the bottomwall of the container,wherein the lower interior portion of the object comprises the cylindrical sidewall of the container generally below the necked portion, andwherein the bottom portion of the container includes a moat portion, a crown portion, and a chime portion.
  - 11. The inspection system as in claim 1 wherein said annular reflecting member comprises an upwardly concave truncated ellipsoidal mirror arranged with its central axis coinciding with a central axis of said object.
  - 12. The inspection system as in claim 1 wherein said image-forming first and third means and said illuminating means are positioned generally between the object to be inspected and said image-reproducing second means, and wherein said image-forming first means, said image-reproducing second means, and said illuminating means are arranged generally coaxially with each other and with a central axis of said object.
  - 13. The inspection system as in claim 1 further comprising machine interface means for allowing the inspection system to communicate with a remote rejection machine;
    - and operator interface means coupled to the inspection system for allowing an operator to communicate with the inspection system.
  - 14. The inspection system as in claim 1 wherein said object comprises a metal beverage container having a necked portion, said top of the object comprises a flange of said container, and said upper interior portion comprises a circumferential interior surface area of the necked portion of said container, and wherein light rays are reflected from the flange and the upper interior portion of said container.
  - 15. The inspection system as in claim 1 wherein the interior of the neck portion of said object has a three-dimensional topography, and said image-forming first means unfolds the three-dimensional image of said neck portion interior and generates a two-dimensional flat plan view thereof for defect analysis.
  - 16. The inspection system as in claim 1 wherein said image-forming first means further directs light rays downwardly through the open top of said object to substantially uniformly illuminate the interior surface of said neck portion.

17. A system for inspecting substantially the entire interior surface of a metal container, said container having an open end, a closed end, an upper portion adjacent to the open end and a lower portion adjacent to the closed end, said upper portion including a flange circumscribing the open top of said container and a necked portion of decreased radius extending downwardly therefrom, said lower portion including a cylindrical sidewall and a bottomwall forming said closed end, said necked portion integrally connecting said cylindrical sidewall to said flange, said system comprising:
- first and second image-sensing means located at a first inspection station generally above the container to be inspected;
  
  a third image-sensing means located at a second inspection station generally above the container to be inspected;
  
  an annular illuminator located generally above the container to be inspected at the first inspection station for irradiating at least the annular circumferential interior surface of the necked portion of said container;
  
  a first reflecting member located at the first inspection station arranged between the container to be inspected and one of said first and second image-sensing means, said first reflecting member comprising an upwardly concave ellipsoidal mirror,said first image-sensing means, illuminator and first reflecting member being arranged with their central axes generally coinciding with one another and with a central axis of said container;
  
  a second reflecting member located at the first inspection station angularly disposed between said first reflecting member and the first image-sensing means generally along the central axis of said container, said second reflecting member comprising a planar image-splitting mirror;
  
  a first image-processing means located at the first inspection station coupled to said first and second image-sensing means, anda second image-processing means located at the second inspection station coupled to said third image-sensing means,said first reflecting member being adapted to direct light rays from said annular illuminator to and intercept light rays reflected from the circumferential interior surface of the necked portion of said container and form a corresponding first image in the operating field of said first image-sensing means,said first image-sensing means being adapted to capture said first image thus formed,said second reflecting member being adapted to intercept light rays reflected from the flange of the upper portion of said container and form a corresponding second image in the operating field of said second image-sensing means, said second image-sensing means being adapted to capture said second image thus formed,said first image-processing means being adapted to electronically combine the first image corresponding to the circumferential interior surface of the necked portion of the container with the second image corresponding to the flange of the upper portion of the container to thereby generate a resultant composite image of substantially the entire upper portion of said container, said first image-processing means further being adapted to inspect said resultant composite image of defects and to generate a rejection signal if defects are present,said third image-sensing means being adapted, once the container is positioned at the second inspection station, to view and capture directly a third image of the lower interior portion of the container,said second image-processing means being adapted to inspect said third image for defects and to generate a rejection signal if defects are present.
- View Dependent Claims (18, 19, 20, 21)
- - 18. The inspection system as in claim 17 further comprising:
    - a fourth image-sensing means located at the second inspection station generally above the container to be inspected; and
      
      a third reflecting member located at the second inspection station angularly disposed between said third image-sensing means and the container to be inspected generally along the central axis of the container, said third reflecting member comprising a planar image-splitting mirror;
      
      and wherein said third image-sensing means is arranged coaxially with the central axis of the container to be inspected, said fourth image-sensing means being disposed at a right angle with respect to the third image-sensing means,said third reflecting member being adapted to intercept light rays reflected from the bottomwall of said container and form a corresponding fourth image in the operating field of said forth image-sensing means, said fourth image-sensing means being adapted to capture said fourth image thus formed,said second image-processing means being adapted to electronically combine the third image corresponding to the lower interior portion of the container with the fourth image corresponding to the bottomwall of the container to thereby generate a second resultant composite image of substantially the entire interior surface of the container generally below the necked portion, said second image-processing means being further adapted to inspect said second resultant composite image for defects and to generate a rejection signal if defects are present.
  - 19. The inspection system as in claim 17 wherein said pair of image-sensing means each comprises a television camera, andwherein said illuminator comprises an annular array of light-emitting diodes arranged generally above and radially outwardly from the open top of said container, said annular array being adapted to direct light rays generally downwardly and radially inwardly through the open top of said container to illuminate at least the circumferential interior surface of the necked portion of said container.
  - 20. The inspection system as in claim 17 wherein said inspection system further comprises:
    - operator interface means for allowing an operator to communicate with the inspection system; and
      
      machine interface means for allowing the inspection system to communicate with a remote rejection machine.
  - 21. The inspection system as in claim 17 wherein said resultant composite image of substantially the entire upper portion of said container comprises an inverted image having the image portion corresponding to the flange of the container disposed centrally of the resultant composite image and the image portion corresponding to the circumferential interior of the neck portion disposed radially outwardly of said flange image portion.

22. A dual-station system for inspecting the interior surface of an open top opaque metal beverage container, comprising:
- a metal beverage container having an upper portion and a lower portion, said upper portion including a flange circumscribing said open top and a necked area having a reduced radius adjacent and below said open top, said lower portion including a cylindrical sidewall about its central axis and a bottomwall defining a closed end of said container;
  
  conveyor means for transporting said container to the first station and therefrom to the second station;
  
  an annular diffused light source located generally above the open top of the container, said light source being adapted to direct light onto the interior surfaces of the container from about the periphery of the open top of said container;
  
  a first camera located at the first station generally above the open top of the container with its central optical axis coinciding with a central axis of said container;
  
  an ellipsoidal annular first mirror located at the first station between the open top of the container and the first camera and generally surrounding the open top of said container, said first mirror being adapted to direct light rays downwardly through the open top of said container to illuminate the interior of the necked area of said container and to intercept light rays reflected upwardly therefrom and form a first image of the interior portion of the necked area of the upper portion of said container within the field of vision of said first camera, said first camera being adapted to view and capture said first image;
  
  a second camera located at the first station generally above said container with its central optical axis disposed angularly to the central axis of said container and to the central optical axis of said first camera;
  
  a planar image-splitting second mirror located at the first station angularly disposed along the central axis of the container between the container and the first camera, said second mirror being adapted to form a second image of the flange of the upper portion of said container within the field of vision of said second camera, said second camera being adapted to view and capture said second image;
  
  a first vision computer coupled to said first and second cameras thereafter for receiving first and second images for electronically masking and combining said first and second images, whereby a resultant composite image of substantially the entire upper portion of the container is formed, and for analyzing the resultant composite image for defects,a third camera located at a second station generally above the open top of the container with its central optical axis coinciding with the central axis of said container, said third camera being adapted to view and capture a third image corresponding to the sidewall of the lower portion of said container;
  
  a fourth camera located at the second station with its central optic axis disposed angularly to the central axis of said container and to the central optical axis of said third camera;
  
  a planar image-splitting third mirror located at the second station angularly disposed along the central axis of the container between the container and the third camera, said third mirror being adapted to form a fourth image of the bottomwall of said container within the field of vision of said fourth camera, said fourth camera being adapted to view and capture said fourth image; and
  
  a second vision computer coupled to said third and fourth cameras receiving said third and fourth images for electronically masking and combining said third and fourth images, whereby a second resultant composite image of substantially the entire lower portion of the container is formed, and for analyzing the second resultant composite image for defects.

23. A method of acquiring images of interior surface portions of an opaque container having a lower end, an open upper end, and a neck portion of decreased radius adjacent the upper end of the container, said method comprising the steps of:
- directing light downwardly through the open upper end onto the interior surface portions of the container;
  
  forming and capturing a first image of a first interior surface portion adjacent the open upper end of the container;
  
  forming and capturing a second image of a second interior surface portion adjacent the open upper end of said container;
  
  electronically combining said first and second images to form a resultant image of substantially the entire upper portion of said opaque container; and
  
  capturing a third image of an interior surface portion adjacent to the lower end of said container.
- View Dependent Claims (24, 25, 26, 27, 28, 29, 30)
- - 24. The image-acquiring method as in claim 23 wherein the step of forming the first image is carried out by reflecting light from said first surface portion adjacent the open upper end of the container with an ellipsoidal reflecting member, said ellipsoidal reflecting member being disposed generally above the container and being adapted to form said first image of said first surface portion from the light rays reflected therefrom.
  - 25. The image-acquiring method as in claim 23 wherein the step of forming the second image is carried out by reflecting light from said second interior surface portion adjacent to the lower end of the container with a planar image-splitting reflecting member, said planar image-splitting reflecting member being disposed generally above the container and being adapted to form said second image of the second interior surface portion from the light rays reflected therefrom.
  - 26. The image-acquiring method as in claim 23 wherein said light source is defined by an illuminator comprising an annular array of light-emitting diodes arranged generally above and around said container for radiating light rays generally downwardly and radially inwardly at the interior of the open upper end of said container.
  - 27. The image-acquiring method of claim 26 wherein the open upper end of said container includes a highly reflective planar surface circumscribing said open end which is illuminated by said light source, and wherein said image-acquiring method further comprises the step of filtering the light rays reflected from said highly reflective planar surface.
  - 28. The image-acquiring method as in claim 23 wherein the first image is captured with an image-sensing means arranged generally above the container with its central optical axis coinciding with a central axis of the container.
  - 29. The image-acquiring method as in claim 23 wherein the step of forming and capturing said first image comprises the steps of:
    - providing a first camera located above the open upper end of the container;
      
      providing an ellipsoidal mirror located between the container and the first camera and generally surrounding the open upper end of the container;
      
      forming the first image of a circumferential interior surface portion adjacent the open upper end of the container generally above the container with said annular mirror within the field of view of the first camera; and
      
      capturing said first image with the first camera via the annular mirror,wherein said step of forming and capturing said second image comprises the steps of;
      
      providing a second camera located generally above the container and at an angle to said first camera;
      
      providing a planar mirror located between the container and the first camera;
      
      forming said second image of a flange of said container generally above the container with said planar mirror within the field of view of the second camera; and
      
      capturing said second image with the second camera via the planar mirror,and wherein said step of capturing said third image comprises the steps of;
      
      providing a third camera located at a separate station generally above the open upper end of the containers; and
      
      viewing the lower interior surface portion of said container and capturing the third image corresponding thereto.
  - 30. The image-acquiring method as in claim 23 further comprising the step of substantially uniformly illuminating the interior of the neck portion of said container by directing light rays downwardly through the open upper end of the container with an ellipsoidal reflecting member.

31. A method of acquiring images of interior surface portions of an opaque container having an open upper end and a lower end, said method comprising the steps of:
- directing light onto said interior surface portions of the container;
  
  forming and capturing a first image of a first interior surface portion adjacent the open upper end of the container;
  
  forming and capturing a second image of a different second surface portion adjacent the open upper end of said container; and
  
  combining said first and second images to form a resultant image of substantially the entire upper portion of said opaque container.

32. A system for inspecting an interior surface area of an open top, cylindrical, non-transparent object, comprising:
- means arranged above the open top of said object for illuminating the interior of said object downwardly through the open top of said object in a front-lighting arrangement;
  
  means located above the open top of the object for forming a first image of a first portion of said interior area of the object, said image-forming means comprising an annular reflecting member having an inwardly facing reflecting surface for forming an image of the first portion of said interior area;
  
  means located above the open top of the object for capturing and reproducing said first image corresponding to the first portion of said interior area of the object;
  
  means located above the open top of the object for forming a second image of a second portion of said interior area of the object;
  
  means located above the open top of the object for capturing and reproducing said second image corresponding to the second portion of said interior area of the object; and
  
  means coupled to said image-reproducing means for electronically combining said first and second images for generating a single resultant composite image corresponding to substantially the entire interior area of the object for defect analysis.

33. A method of acquiring an image of an interior surface area of an opaque object having a lower end and an open upper end, said method comprising the steps of:
- directing light downwardly through the open upper end onto the interior surface of the object;
  
  forming and capturing a first image of a first portion of the interior surface area;
  
  forming and capturing a second image of a separate second portion of the interior surface area; and
  
  electronically combining said first and second images to form a single resultant composite image of substantially the entire interior surface area of opaque object.

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Current Assignee
Pressco Technology Inc.
Original Assignee
Alltrista Corporation (Newell Brands Inc.)
Inventors
Palombo, Thomas H., Fedor, Richard L.
Primary Examiner(s)
Rosenberger, Richard A.

Application Number

US08/415,702
Time in Patent Office

988 Days
Field of Search

356/237, 356/240, 356/241, 356/428, 250/223 B
US Class Current

356/240.1
CPC Class Codes

G01N 21/909 in opaque containers or opa...

Electro-optical inspection system and method

First Claim

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Abstract

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33 Claims

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Electro-optical inspection system and method

First Claim

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Abstract

108 Citations

33 Claims

Specification

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