X-ray inspection system

US 4,803,639 A
Filed: 02/25/1986
Issued: 02/07/1989
Est. Priority Date: 02/25/1986
Status: Expired due to Term

First Claim

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1. A computer based system for nondestructive measuring and testing of a manufactured part by X-ray analysis comprising:

means for transporting a part from a load station to an inspection station;

an X-ray source positioned for generating a high intensity X-ray radiation beam through a predetermined area within said inspection station;

an X-ray detector for converting received X-ray radiation into electrical signals representative thereof;

means for directing the X-ray radiation beam toward said detector;

means in said inspection station for positioning the part in the X-ray radiation path between the X-ray source and X-ray detector;

means for moving the part linearly in a plane substantially normal to an axis of said X-ray beam so that a predetermined area of the part is scanned by the X-ray radiation beam for generating electrical signals representative of a first planar image of the part;

means for analyzing said first planar image for identifying specific areas of the part having probable flaws;

means for positioning the part within the X-ray beam such that each of said specific areas is sequentially exposed to the beam;

means for rotating the part within the X-ray beam about an axis normal to the beam at each of said specific areas for generating images of the part along a plane coincidental with each of said specific areas and normal to said axis of rotation for generating electrical signals representative of a second planar image perpendicular to said first planar iamge;

means for converting said electrical signals to digital data representative thereof;

means for converting said digital data to pixel image data;

means for generating said first and said second planar images of the part from the pixel image data, andmeans for analyzing said first and second planar images for identifying flaws in the part.

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Abstract

An X-ray inspection system for manually or automatically performing digital fluoroscopy inspections and/or computed tomography inspections by X-ray examination of manufactured parts incorporates a computer system which automatically analyzes the inspected parts for flaws. The system includes apparatus for automatically positioning the parts in an X-ray machine for obtaining fluoroscopy and tomography views of the part and for acquiring data from the inspections at production rates. The system automatically identifies the location of rejectable flaws in the parts during the fluoroscopy scanning and subsequently identifies those locations for obtaining tomography scans, if the identified flaw location is questionable. The system can automatically reject parts containing flaws identified during the fluoroscopy inspections. This system operates in a real-time environment by providing analysis of one part while a subsequent part is being subjected to X-ray examination. The data obtained during each examination is archived and stored for tracking the part in further manufacturing processes.

238 Citations

18 Claims

1. A computer based system for nondestructive measuring and testing of a manufactured part by X-ray analysis comprising:
- means for transporting a part from a load station to an inspection station;
  
  an X-ray source positioned for generating a high intensity X-ray radiation beam through a predetermined area within said inspection station;
  
  an X-ray detector for converting received X-ray radiation into electrical signals representative thereof;
  
  means for directing the X-ray radiation beam toward said detector;
  
  means in said inspection station for positioning the part in the X-ray radiation path between the X-ray source and X-ray detector;
  
  means for moving the part linearly in a plane substantially normal to an axis of said X-ray beam so that a predetermined area of the part is scanned by the X-ray radiation beam for generating electrical signals representative of a first planar image of the part;
  
  means for analyzing said first planar image for identifying specific areas of the part having probable flaws;
  
  means for positioning the part within the X-ray beam such that each of said specific areas is sequentially exposed to the beam;
  
  means for rotating the part within the X-ray beam about an axis normal to the beam at each of said specific areas for generating images of the part along a plane coincidental with each of said specific areas and normal to said axis of rotation for generating electrical signals representative of a second planar image perpendicular to said first planar iamge;
  
  means for converting said electrical signals to digital data representative thereof;
  
  means for converting said digital data to pixel image data;
  
  means for generating said first and said second planar images of the part from the pixel image data, andmeans for analyzing said first and second planar images for identifying flaws in the part.
- View Dependent Claims (2, 3, 4)
- - 2. The system of claim 1 wherein said transport means comprises means for sequentially transporting each of a plurality of parts from the load station to the inspection station and from the inspectiopn station to the load staion, the system further including computer means responsive to each part arriving at the load station from the inspection station for indicating a disposition of the part selected from the categories of passed, failed and re-inspect, said computer means inhibiting operation of said transport means until passed and failed parts have been removed therefrom, said computer means being operative to return the part designated for re-inspect to the inspection station.
  - 3. The system of claim 2 wherein the computer means includes means for automatically identifying a first inspection of a part and for causing the inspection station to generate the first planar image of the part, the computer means automatically identifying a second inspection of a part for causing the inspection station to generate the second planar image of the part.
  - 4. The system of claim 3 wherein said positioning means includes gripper means for holding the part, said gripper means having an extension flange oriented parallel to said axis about which the part is rotated, the system further including:
    - means for rotating said gripper means such that said flange is alternately positioned adjacent opposite edges of said detector; and
      
      means for determining the position of said flange with respect to adjacent ones of said detection elements and for shifting the position of said detector such that said adjacent ones of said detection elements are equally spaced from a center of said detector whereby said axis about which the part is rotated is centered with respect to said detector.

5. A method for computerized measuring and testing of a part, comprising the steps of:
- providing a directed beam of X-ray radiation;
  
  positioning a part in the X-ray radiation beam;
  
  moving the part in a plane perpendicular to said X-ray beam such that a predetermined area of the part is exposed to the X-ray beam radiation;
  
  measuring the radiation passing through the predetermined area of the part;
  
  converting the measured radiation to digital data;
  
  transmitting said digital data to a computer processing unit;
  
  converting in the computer processing unit the digital data to pixel iamge data;
  
  generating a first planar image of the part from the pixel image data, said first image representing an image of the part perpendicular to the X-ray radiation beam;
  
  analyzing the first image for identifying probable flaws in the part;
  
  positioning the part in the X-ray beam such that each of the probable flaws is aligned with the beam;
  
  rotating the part about an axis normal to the X-ray beam for generating a tomographic image of the part in a plane of the beam for each of the probable flaws; and
  
  analyzing the tomographic image for identifying flaws in the part.
- View Dependent Claims (6)
- - 6. The method of claim 5, wherein the step of analyzing the first image further comprises the steps of:
    - storing in memory data defining desired dimensional characteristics of a part;
      
      determining actual dimensional characteristics of the part from the first image; and
      
      correlating data representative of actual dimensional characteristics of the part with the stored data;
      
      comparing the actual dimensional data to the desired dimensional data for determining acceptability of the part.

7. A method of computerized measuring and testing of a part, comprising the steps of:
- providing a source of a directed beam of X-ray radiation;
  
  providing a linear array detector having a plurality of radiation detecting elements for receiving X-ray radiation;
  
  positioning a part in the x-ray radiation beam between the source and the detector such that some of the radiation received by predetermined elements of the detector is not intercepted by the part; and
  
  normalizing data generated by the detector in response to radiation passing through the part by adjusting the data as a function of intensity of the X-ray radiation beam as determined by radiation received by the predetermined elements of the detector.
- View Dependent Claims (8)
- - 8. The method of claim 7 further including the steps of:
    - positioning a sensitometric device having a predetermined graduated density of X-ray attenuation characteristics between the source and the detector;
      
      collecting data from the detector representative of the radiation intensity received by the detector from each of a plurality of positions on said sensitometric device for establishing at table of data representative of X-ray beam hardness;
      
      storing said beam hardness data in a computer memory; and
      
      adjusting the data from X-ray radiation passing through the part in accordance with the stored beam hardness data.

9. A computer based system for non-destructive measuring and testing of a manufactured part by X-ray analysis comprising:
- a loading station for loading a part into a part holding mechanism, said mechanism being adapted to hold the part in a predetermined orientation;
  
  conveyor means for transporting the part from the loading station to an inspection station;
  
  an X-ray source for generating a high intensity X-ray radiation beam;
  
  a linear array X-ray detector for converting received X-ray radiation into electrical signals representative thereof;
  
  means in said inspection station for grasping said part holding mechanism and for positioning the part in an X-ray radiation path between the X-ray source and the X-ray detector;
  
  means coupled to said grasping means for effecting relative motion between the part and said X-ray radiation beam; and
  
  means for converting said electrical signals to data suitable for two dimensional representation such that the part can be measured and defects recognized from the representation.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The system of claim 9 wherein said X-ray source includes means for collimating said radiation beam into a fan shape in a horizontal plane, the beam being wider than the part, and wherein said motion effecting means comprises means for moving the part vertically through said beam for obtaining data for contructing a first planar image of the part.
  - 11. The system of claim 10 and further including:
    - video means for displaying said first planar image;
      
      means for identifying locations in said first image corresponding to selected areas of potential failure of the part;
      
      means for comparing characteristics of the part at said identified locations to previously obtained desired characteristics;
      
      means for identifying characteristics having values outside a predetermined range of values of said desired characteristics; and
      
      means for automatically directing tomographic X-ray examination of said identified characteristics.
  - 12. The system of claim 11 and further including means for analyzing tomographic images of the part, said analyzing means comparing said tomographic images to stored data representative of desired characteristics of the part.
  - 13. The system of claim 10 wherein said linear X-ray detector comprises a plurality of closely spaced detection elements arranged in a linear array, said detector having a width such that at least some detection elements receive radiation which has not passed through the part, said converting means including means for measuring the X-ray radiation levels received by the at least some detection elements and for normalizing the data obtained from others of the detection elements in accordance with the measured radiation levels.
  - 14. The system of claim 13 and further including means for energizing the X-ray source without a part in the inspection station and for obtaining data from said detector during such energizing, and wherein said converting means comprises means for averaging the data obtained from all the detection elements to generate an average compensation value and dividing the average value into the data obtained from each detecting element for compensating for detection element gain differences,

15. In a computer based system for non-destructive measuring and testing of manufactured parts, having an X-ray source for providing a directed beam of X-ray radiation, a linear array X-ray detector for converting received X-ray radiation into electrical signals thereof, the method comprising the steps of:
- a. loading a part in a gripper such that only a base poriton of said part is held by opposing jaws of the gripper;
  
  b. transporting the gripper with the part on a transporter into a part receiving station;
  
  c. acquiring the gripper with a manipulator, the manipulator automatically centering and aligning the gripper along a projected central axis of the manipulator; and
  
  d. operating the manipulator for positioning the part in a predetermined orientation in a path of X-ray radiation from the X-ray source.

16. In a computer based system for nondestructive measuring and testing of manufactured parts, an X-ray source for providing a directed beam of X-ray radiation, a linear array X-ray detector for converting received X-ray radiation into electrical signals representative thereof, the method comprising the steps of:
- providing control signals for positioning a part in each of a plurality of predetermined positions adjacent an X-ray source;
  
  energizing the X-ray source for generating radiation in coordination with said positioning means for effecting exposure of said part to X-ray radiation at each of said predetermined positions;
  
  generating signals responsive to each of said plurality of predetermined positions for effecting sampling of said X-ray radiation beam detected by the detector; and
  
  changing a sequence of inspection operations in response to data from a computer wherein the sequence of operations includes at least one of the steps of;
  
  (1) moving the part in a linear pattern through the X-ray beam; and
  
  (2) rotating the part in the X-ray beam while maintaining the part at a selected linear position.
- View Dependent Claims (17)
- - 17. The method of claim 16 wherein the step of providing control signals further comprises the substeps of:
    - providing control signals for effecting operation of a part manipulator to move the part into position for exposure to the X-ray beam; and
      
      receiving data indicating positioning of a part in the predetermined positions.

18. A method for computerized measuring and testing of a manufactured part, comprising the steps of:
- providing a beam of X-ray radiation;
  
  positioning a part in the X-ray radiation beam;
  
  moving the part linearly within said X-ray beam so that a predetermined area of the part is exposed to the X-ray beam radiation;
  
  measuring the intensity of radiation passing through the part;
  
  converting the measured intensity to an image of the part;
  
  identifying areas deserving of detailed analysis from the image of the part;
  
  positioning the part such that an area deserving of detailed analysis is located in the X-ray radiation beam;
  
  rotating the part about an axis normal to the plane of the X-ray beam so as to form an image of the part along a plane passing through each area deserving of detailed analysis;
  
  measuring the radiation passing through the area;
  
  converting the measured radiation to visual data;
  
  transmitting said digital data to a computer processing unit;
  
  converting in the computer processing unit the digital data to pixel image data; and
  
  generating a planar image of the area deserving analysis from the pixel image data.

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Current Assignee
General Electric Company
Original Assignee
General Electric Company
Inventors
Howington, Larry C., Czechowski, Joseph III, Miller, Richard D., Williams, George E., Brown, James M. Jr., Oliver, David W., Sippel, Theodore W., Scudder, Henry J. III, Sostarich, Joseph J., Kincaid, Thomas G., Schuler, James W., Brehm, John R., Portaz, Joseph M., Wojciechowski, Charles R., Isaacs, Ralph G., Hedengren, Kristina H. V., Koegl, Rudolph A. A., Steele, Douglas S., Keaveney, John P.
Primary Examiner(s)
Lall, Parshotam S.
Assistant Examiner(s)
NOT, DEFINED

Application Number

US06/832,511
Time in Patent Office

1,078 Days
Field of Search

364/505-508, 364/550, 364/559, 364/560, 364/564, 364/414, 378/4, 378/8, 378/11, 378/20, 378/58, 378/62, 378/195-198, 73/599, 73/600, 73/602, 73/605, 73/606, 73/618, 73/619, 73/620, 73/622, 73/627, 73/633, 73/645, 73/646
US Class Current

702/40
CPC Class Codes

G01N 23/083   the radiation being X-rays

G01N 23/18   Investigating the presence ...

G06T 2207/10121   Fluoroscopy

G06T 2207/30164   Workpiece; Machine component

G06T 7/0004   Industrial image inspection

X-ray inspection system

First Claim

2 Assignments

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Abstract

238 Citations

18 Claims

Specification

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X-ray inspection system

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

238 Citations

18 Claims

Specification

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Solutions

Use Cases

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