Nuclear reactor vessel inspection system and method with remote transducer positioning

US 5,214,616 A
Filed: 08/15/1991
Issued: 05/25/1993
Est. Priority Date: 08/15/1991
Status: Expired due to Fees

First Claim

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1. A positioning system for an inspection head carrying an inspection transducer and having a head axis and movable with a manipulator maneuverable under control within a fluid couplant to an inspection position adjacent a local surface of a body being inspected, comprising:

an actuator assembly selectively actuable for moving said head upon said manipulator to selectively align said head axis with respect to said local surface;

first and second ranging ultrasonic transducers mounted upon said inspection head, having orientations predetermined with respect to said head axis, energizable in response to a ranging input signal to generate an acoustic output impingeable upon said local surface and responsive to an acoustic return at the termination of a propagation interval to derive a return signal;

control means for deriving said ranging input signal, responsive to said return signal to derive a numeric range value representing said propagation interval, responsive to said numeric range value and a predetermined optimal orientation value to derive orientation error signals, and for actuating said actuator assembly in correspondence with said orientation error signals to effect an optimal alignment of said head axis with respect to said local surface.

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Abstract

The inspection head component of a manipulator employed in the inspection of the interior surface of a nuclear reactor vessel is aligned to an optimum orientation when positioned at a local surface to be inspected. This alignment is carried out by generating ranging information with respect to the local surface using ranging ultrasonic transducers positioned upon the inspection head. The propagation interval of the acoustic signal emitted by these ranging transducers is timed and quantified to develop orientation error signals. Such development is carried out in conjunction with known values for the local surface being inspected and in conjunction with a sequence of data collection at the position. The inspection head is pivotally mounted upon the manipulator so as to be movable about at least two axes by inspection head positioning assemblies which may be provided, for example, as stepper-motors and associated translational movement components.

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20 Claims

1. A positioning system for an inspection head carrying an inspection transducer and having a head axis and movable with a manipulator maneuverable under control within a fluid couplant to an inspection position adjacent a local surface of a body being inspected, comprising:
- an actuator assembly selectively actuable for moving said head upon said manipulator to selectively align said head axis with respect to said local surface;
  
  first and second ranging ultrasonic transducers mounted upon said inspection head, having orientations predetermined with respect to said head axis, energizable in response to a ranging input signal to generate an acoustic output impingeable upon said local surface and responsive to an acoustic return at the termination of a propagation interval to derive a return signal;
  
  control means for deriving said ranging input signal, responsive to said return signal to derive a numeric range value representing said propagation interval, responsive to said numeric range value and a predetermined optimal orientation value to derive orientation error signals, and for actuating said actuator assembly in correspondence with said orientation error signals to effect an optimal alignment of said head axis with respect to said local surface.
- View Dependent Claims (8)
- - 8. The positioning system of claim 1 in which said actuator assembly comprises:
    - first stepper-motor means responsive to said range error signals having a translational output coupled with said manipulator for pivotally moving it about a first axis orthogonally disposed with respect to said head axis; and
      
      second stepper-motor means responsive to a said range error signal to have a translational output coupled with said manipulator for pivotally moving it about a second axis orthogonally disposed with respect to said first axis and said head axis.

2. A positioning system for an inspection head carrying an inspection transducer and having a head axis and movable with a manipulator maneuverable under control within a fluid couplant to an inspection position adjacent a local surface of a body being inspected, comprising:
- an actuator assembly selectively actuable for moving said head upon said manipulator to selectively align said head axis with respect to said local surface;
  
  first and second ranging ultrasonic transducers mounted upon said inspection head, having orientations predetermined with respect to said head axis, energizable in response to a ranging input signal to generate an acoustic output impingeable upon said local surface and responsive to an acoustic return at the termination of a propagation interval to derive a return signal; and
  
  control means for actuating said actuator assembly in correspondence with orientation error signals to effect an optimal alignment of said head axis with respect to said local surface including a system clock having a clock output pulse sequence of predetermined clock frequency, a signal generating network including;
  
  a trigger pulse generator network deriving said ranging input signal for application to said ranging ultrasonic transducers, a detector network responsive to said return signal to provide a propagation interval termination output, counter means responsive to said ranging input signal and said clock output pulse sequence to commence the counting thereof, and responsive to said propagation interval termination output to terminate said counting of said clock output pulse sequence to derive a numeric range value representing said propagation interval, said control means responsive to said numeric range value and a predetermined optimal orientation value to derive said orientation error signals.
- View Dependent Claims (3, 4, 5, 6, 7)
- - 3. The positioning system of claim 2 in which said trigger pulse generator network derives said ranging input signal as a pulse having an inter-pulse interval of length selected greater than said propagation interval.
  - 4. The positioning system of claim 2 in which said detector network includes:
    - a peak detector network responsive to said return signal for deriving a detect output; and
      
      latch means, responsive to said detect output for deriving said propagation interval termination output.
  - 5. The positioning system of claim 2 in which said counter means comprises:
    - a binary counter having a clock input, a reset input and an output for providing said numeric range value; and
      
      a counter control network having a first input responsive to said ranging input signal for deriving a count enable output, and to said clock output for applying said clock output pulse sequence to said binary counter clock input in the presence of said count enable output.
  - 6. The positioning system of claim 5 in which said counter control network is responsive to said propagation interval termination output for terminating said count enable output to terminate said application of said clock output pulse sequence.
  - 7. The positioning system of claim 5 in which said counter reset input is coupled with said trigger pulse generator network and is responsive to said ranging input signal for resetting to an initial state for commencing the generation of a said numeric range value.

9. The positioning system of clam 8 in which said actuator assembly further comprises third stepper-motor means responsive to a control input from said control means for effecting a select rotation of said manipulator about said head axis;
- andsaid control means is responsive to an operator derived input to effect derivation of said control input.

10. Inspection head apparatus for supportive connection with a manipulator maneuverable under controls within a fluid couplant to carry out the inspection of a local internally disposed surface of a reactor vessel, comprising:
- a head housing having a confronting surface with an outer periphery, said housing supporting an inspection transducer, and having a head axis perpendicular to said confronting surface;
  
  mounting means mounting said head housing upon said manipulator for pivotal movement substantially about the center thereof;
  
  at least two spaced ranging ultrasonic transducers mounted upon said head housing adjacent said periphery, energizable in response to ranging input signals to generate an acoustic output impingeable upon said local surface and responsive to acoustic returns at the termination of propagation intervals to derive return signals;
  
  a first head housing positioning assembly mounted between said head housing and said manipulator and actuable to pivotally move said head housing about a first axis perpendicular to said head axis;
  
  a second head housing positioning assembly mounted between said head housing and said manipulator and actuable to pivotally move said head housing about a second axis perpendicular to said first axis and said head axis; and
  
  control means for applying said ranging input signals to said ranging ultrasonic transducers and responsive to corresponding said return signals to derive numeric range values representing said propagation intervals, responsive to said numeric range values and memory retained optimal orientation values to derive orientation error signals, and for actuating said first and second head housing positioning assemblies in correspondence with said orientation error signals to effect an optimal alignment of said head axis with respect to said local surface.
- View Dependent Claims (11, 12)
- - 11. The apparatus of claim 10 in which four spaced said ranging ultrasonic transducers are mounted upon said head housing adjacent to said periphery.
  - 12. The apparatus of claim 10 including a third head housing positioning assembly mounted between said head housing and said manipulator and actuable by said control means to selectively rotate said head housing about said head axis.

13. Inspection head apparatus for supportive connection with a manipulator maneuverable under controls within a fluid couplant to carry out the inspection of a local internally disposed surface of a reactor vessel, comprising:
- a head housing having a confronting surface with an outer periphery, said housing supporting an inspection transducer, and having a head axis perpendicular to said confronting surface;
  
  mounting means mounting said head housing upon said manipulator for pivotal movement substantially about the center thereof;
  
  at least two spaced ranging ultrasonic transducers mounted upon said head housing adjacent said periphery, energizable in response to ranging input signals to generate an acoustic output impingeable upon said local surface and responsive to acoustic returns at the termination of propagation intervals to derive return signals;
  
  a first head housing positioning assembly mounted between said head housing and said manipulator and actuable to pivotally move said head housing about a first axis perpendicular to said head axis;
  
  a second head housing positioning assembly mounted between said head housing and said manipulator and actuable to pivotally move said head housing about a second axis perpendicular to said first axis and said head axis; and
  
  control means for actuating said first and second head housing positioning assemblies in correspondence with orientation error signals to effect an optimal alignment of said head axis with respect to said local surface including a system clock having a clock output pulse sequence of predetermined clock frequency, a signal generating network including;
  
  a trigger pulse generator network deriving said ranging input signals for application to said ranging ultrasonic transducers, a detector network responsive to said return signals to provide propagation interval termination outputs, counter means responsive to said ranging input signal and said clock output pulse sequence to commence the counting thereof, and responsive to said propagation interval termination output to terminate said counting of said clock output pulse sequence to derive numeric range values representing said propogation interval, said control means responsive to said numeric range values and memory retained optimal orientation values to derive said orientation error signals.
- View Dependent Claims (14, 15, 16, 17)
- - 14. The apparatus of claim 13 in which said detector network includes:
    - a peak detector network responsive to said return signal for deriving a detect output; and
      
      latch means, responsive to said detect output for deriving said propagation interval termination output.
  - 15. The apparatus of claim 13 in which said counter means comprises:
    - a binary counter having a clock input, a reset input and an output for providing said numeric range value; and
      
      a counter control network having a first input responsive to said ranging input signal for deriving a count enable output, and to said clock output for applying said clock output pulse sequence to said binary counter clock input in the presence of said count enable output.
  - 16. The apparatus of claim 15 in which said counter control network is responsive to said propagation interval termination output for terminating said count enable output to terminate said application of said clock output pulse sequence.
  - 17. The apparatus of claim 13 in which said counter reset input is coupled with said trigger pulse generator network and is responsive to said ranging input signal for resetting to an initial state for commencing the generation of a said numeric range value.

18. The method for orienting an inspection transducer mounted upon an inspection head having a head axis, and which is carried upon and movable with a manipulator within a fluid to an inspection position adjacent a local surface of a body being inspected, comprising the steps of:
- providing first and second ranging ultrasonic transducers mounted in mutually spaced relationship about the periphery of said inspection head and energizable to generate an acoustic output impingeable upon said local surface and responsive to an acoustic return at the termination of a propagation interval to derive a return signal;
  
  mounting said inspection head for pivotal movement about a first axis perpendicular to said head axis and about a second axis perpendicular to said first axis and said head axis;
  
  providing a first inspection head positioning assembly mounted between said inspection head and said manipulator and actuable to pivotally move said inspection head about said first axis;
  
  providing a second inspection head positioning assembly mounted between said inspection head and said manipulator and actuable to pivotally move said inspection head about said second axis;
  
  moving said inspection head with said manipulator to said inspection position adjacent said local surface;
  
  energizing said first ranging transducer;
  
  timing the propagation interval of said energized first ranging transducer and deriving a first numeric range value therefrom;
  
  energizing said second ranging transducer;
  
  timing the propagation interval of said energized second ranging transducer and deriving a second numeric range value therefrom;
  
  comparing said first and second numeric range values with corresponding optimal orientation values and deriving first and second orientation error signals;
  
  actuating said first and second inspection head positioning assemblies in correspondence with said first and second orientation error signals to effect a predetermined alignment of said head axis with respect to said local surface.
- View Dependent Claims (19)
- - 19. The method of claim 18 including the steps of:
    - providing third and fourth ranging ultrasonic transducers mounted in spaced relationship with said first and second ranging ultrasonic transducers about the periphery of said inspection head and energizable to generate an acoustic output impingeable upon said local surface and responsive to an acoustic return at the termination of a propagation interval to derive a return signal;
      
      energizing said third and fourth ranging ultrasonic transducers;
      
      timing the propagation intervals of said energized third and fourth ranging transducers and deriving respective third and fourth numeric range values therefrom;
      
      comparing said third and fourth numeric range values with corresponding optimal orientation values; and
      
      deriving said first and second orientation error signals with respect to said first, second, third and fourth numeric range value comparisons.

20. The method for orienting an inspection transducer mounted upon an inspection head having a head axis, and which is carried upon and movable with a manipulator within a fluid to an inspection position adjacent a local surface of a body being inspected, comprising the steps of:
- providing first and second ranging ultrasonic transducers mounted in mutually spaced relationship about the periphery of said inspection head and energizable to generate an acoustic output impingeable upon said local surface and responsive to an acoustic return at the termination of a propagation interval to derive a return signal;
  
  mounting said inspection head for pivotal movement about a first axis perpendicular to said head axis and about a second axis perpendicular to said first axis and said head axis;
  
  providing a first inspection head positioning assembly mounted between said inspection head and said manipulator and actuable to pivotally move said inspection head about said first axis;
  
  providing a second inspection head positioning assembly mounted between said inspection head and said manipulator and actuable to pivotally move said inspection head about said second axis;
  
  moving said inspection head with said manipulator to said inspection position adjacent said local surface;
  
  energizing said first ranging transducer;
  
  timing the propagation interval of said energized first ranging transducer and deriving a first numeric range value therefrom by;
  
  providing a system clock sequence of pulses at a predetermined fixed frequency;
  
  providing a counter for receiving said sequence of pulses and carrying out the counting thereof between run and stop inputs;
  
  providing said run input in response to said energization of said first ranging transducer; and
  
  providing said stop input in response to said return signal;
  
  energizing said second ranging transducer;
  
  timing the propagation interval of said energized second ranging transducer and deriving a second numeric range value therefrom;
  
  comparing said first and second numeric range values with corresponding optimal orientation values and deriving first and second orientation error signals; and
  
  actuating said first and second inspection head positioning assemblies in correspondence with said first and second orientation error signals to effect a predetermined alignment of said head axis with respect to said local surface.

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Current Assignee
General Electric Company
Original Assignee
General Electric Company
Inventors
Dykes, Edward R., Terhune, James H.
Primary Examiner(s)
Pihulic, Daniel T.

Application Number

US07/745,295
Time in Patent Office

649 Days
Field of Search

367/95, 367/96, 367/99, 367/104, 73/634, 376/252, 901/9, 901/24, 901/44, 901/46, 364/474.05, 364/474.24
US Class Current

367/99
CPC Class Codes

G01N 29/223   Supports, positioning or al...

G21C 17/01   Inspection of the inner sur...

Y02E 30/30   Nuclear fission reactors

Nuclear reactor vessel inspection system and method with remote transducer positioning

First Claim

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Abstract

34 Citations

20 Claims

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Nuclear reactor vessel inspection system and method with remote transducer positioning

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

34 Citations

20 Claims

Specification

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Solutions

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