METHOD AND SYSTEM FOR AUTOMATICALLY INSPECTING PARTS AND FOR AUTOMATICALLY GENERATING CALIBRATION DATA FOR USE IN INSPECTING PARTS
First Claim
1. A system for automatically inspecting parts, the system comprising:
- a support for supporting a part to be inspected along a measurement axis;
a head apparatus including a plurality of radiation plane generators for directing an array of planes of radiation at the part so that the part occludes each of the planes of radiation to create a corresponding array of unobstructed planar portions of the planes of radiation wherein each of the unobstructed planar portions contains an amount of radiation which is representative of a respective geometric dimension of the part, the head apparatus further including a plurality of radiation plane receivers, each of the receivers measuring the amount of radiation present in an adjacent pair of unobstructed planar portions created from the same plane of radiation to obtain at least one measurement signal;
a stage subsystem including a stage movable along a stage axis substantially parallel to the measurement axis and coupled to the head apparatus to move therewith for translating the head apparatus relative to the part along the stage axis so that the planes of radiation scan the part supported by the support substantially perpendicular to the stage and measurement axes wherein the subsystem further includes a linear sensor for sensing linear position of the stage along the stage axis and sensor electronics for providing a corresponding measurement trigger signal at each of a plurality of known spatial intervals of stage movement along the stage axis; and
electronics for processing each trigger signal from the sensor electronics to sample the at least one measurement signal of each of the receivers at each of the plurality of spatial intervals and for processing each of the sampled measurement signals to obtain data.
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Accused Products
Abstract
A method and system for automatically inspecting parts and for automatically generating calibration data for use in inspecting parts are provided. The system includes a support for supporting a part to be inspected and/or a calibration device along a measurement axis. The system further includes a head apparatus including a plurality of radiation plane generators for directing an array of planes of radiation at the part and/or device so that the part and/or device occludes each of the planes of radiation to create a corresponding array of unobstructed planar portions of the planes of radiation. Each of the unobstructed planar portions contains an amount of radiation which is representative of a respective geometric dimension of the part and/or device. The head apparatus further includes a plurality of radiation plane receivers or cameras such as line scan cameras. Each of the cameras measures the amount of radiation present in an adjacent pair of unobstructed planar portions created from the same plane of radiation to obtain at least one measurement signal. The system still further includes a stage subsystem including a stage movable along a stage axis substantially parallel to the measurement axis and coupled to the head apparatus to move therewith for translating the head apparatus relative to the part and/or device along the stage axis so that the planes of radiation scan the part and/or device supported by the support substantially perpendicular to the stage and measurement axes. The system may further include one or more mechanisms for reducing radiation cross talk between neighboring cameras.
93 Citations
29 Claims
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1. A system for automatically inspecting parts, the system comprising:
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a support for supporting a part to be inspected along a measurement axis; a head apparatus including a plurality of radiation plane generators for directing an array of planes of radiation at the part so that the part occludes each of the planes of radiation to create a corresponding array of unobstructed planar portions of the planes of radiation wherein each of the unobstructed planar portions contains an amount of radiation which is representative of a respective geometric dimension of the part, the head apparatus further including a plurality of radiation plane receivers, each of the receivers measuring the amount of radiation present in an adjacent pair of unobstructed planar portions created from the same plane of radiation to obtain at least one measurement signal; a stage subsystem including a stage movable along a stage axis substantially parallel to the measurement axis and coupled to the head apparatus to move therewith for translating the head apparatus relative to the part along the stage axis so that the planes of radiation scan the part supported by the support substantially perpendicular to the stage and measurement axes wherein the subsystem further includes a linear sensor for sensing linear position of the stage along the stage axis and sensor electronics for providing a corresponding measurement trigger signal at each of a plurality of known spatial intervals of stage movement along the stage axis; and electronics for processing each trigger signal from the sensor electronics to sample the at least one measurement signal of each of the receivers at each of the plurality of spatial intervals and for processing each of the sampled measurement signals to obtain data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A system for automatically generating calibration data for use in inspecting parts, the system comprising:
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a support for supporting a calibration device along a measurement axis; a head apparatus including a plurality of radiation plane generators for directing an array of planes of radiation at the device so that the device occludes each of the planes of radiation to create a corresponding array of unobstructed planar portions of the planes of radiation wherein each of the unobstructed planar portions contains an amount of radiation which is representative of a respective geometric dimension of the device, the head apparatus further including a plurality of radiation plane receivers, each of the receivers measuring the amount of radiation present in an adjacent pair of unobstructed planar portions created from the same plane of radiation to obtain at least one measurement signal; a stage subsystem including a stage movable along a stage axis substantially parallel to the measurement axis and coupled to the head apparatus to move therewith for translating the head apparatus relative to the device along the stage axis so that the planes of radiation scan the device supported by the support substantially perpendicular to the stage and measurement axes wherein the subsystem further includes a linear sensor for sensing linear position of the stage along the stage axis and sensor electronics for providing a corresponding measurement trigger signal at each of a plurality of known spatial intervals of stage movement along the stage axis; and electronics for processing each trigger signal from the sensor electronics to sample the at least one measurement signal of each of the receivers at each of the plurality of spatial intervals and for processing each of the sampled measurement signals to obtain calibration data. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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21. A method of automatically inspecting parts, the method comprising:
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supporting a part to be inspected along a measurement axis; scanning the part with an array of planes of radiation substantially perpendicular to the measurement axis so that the part occludes each of the planes of radiation to create a corresponding array of unobstructed planar portions of the planes of radiation wherein each of the unobstructed planar portions contains an amount of radiation which is representative of a respective geometric dimension of the part wherein the step of scanning includes the step of linearly moving the array of planes of radiation relative to the part along the measurement axis; measuring the amount of radiation present in each adjacent pair of unobstructed planar portions created from the same plane of radiation to obtain at least one measurement signal; sensing linear position of the array of planes of radiation along the measurement axis and providing a corresponding measurement trigger signal at each of a plurality of known spatial intervals of movement along the measurement axis; processing each trigger signal to sample the measurement signals at each of the plurality of spatial intervals; and processing each of the sampled measurement signals to obtain data. - View Dependent Claims (22, 23)
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24. A method of automatically generating calibration data for use in inspecting parts, the method comprising:
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supporting a calibration device along a measurement axis; scanning the device with an array of planes of radiation substantially perpendicular to the measurement axis so that the device occludes each of the planes of radiation to create a corresponding array of unobstructed planar portions of the planes of radiation wherein each of the unobstructed planar portions contains an amount of radiation which is representative of a respective geometric dimension of the device wherein the step of scanning includes the step of linearly moving the array of planes of radiation relative to the device along the measurement axis; measuring the amount of radiation present in each adjacent pair of unobstructed planar portions created from the same plane of radiation to obtain at least one measurement signal; sensing linear position of the array of planes of radiation along the measurement axis and providing a corresponding measurement trigger signal at each of a plurality of known spatial intervals of movement along the measurement axis; processing each trigger signal to sample the measurement signals at each of the plurality of spatial intervals; and processing each of the sampled measurement signals to obtain calibration data. - View Dependent Claims (25, 26)
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27. A method of automatically inspecting parts, the method comprising:
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supporting a part to be inspected and a calibration device along a common measurement axis; scanning the part with an first array of planes of radiation substantially perpendicular to the measurement axis so that the part occludes each of the planes of radiation to create a corresponding first array of unobstructed planar portions of the planes of radiation wherein each of the unobstructed planar portions contains an amount of radiation which is representative of a respective geometric dimension of the part wherein the step of scanning includes the step of linearly moving the first array of planes of radiation relative to the part along the measurement axis; measuring the amount of radiation present in each adjacent pair of planar portions unobstructed by the part and created from the same plane of radiation to obtain at least one part measurement signal; processing each of the part measurement signals to obtain raw sensor data; scanning the device with a second array of planes of radiation substantially perpendicular to the measurement axis so that the device occludes each of the planes of radiation to create a corresponding second array of unobstructed planar portions of the planes of radiation wherein each of the unobstructed planar portions contains an amount of radiation which is representative of a respective geometric dimension of the device wherein the step of scanning includes the step of linearly moving the second array of planes of radiation relative to the device along the measurement axis; measuring the amount of radiation present in each adjacent pair of planar portions unobstructed by the device and created from the same plane of radiation to obtain at least one device measurement signal; processing each of the device measurement signals to obtain calibration data; and processing the raw sensor data and the calibration data to obtain sensor calibrated data wherein the steps of scanning are performed during a single complete scan so that the method is substantially immune to time variations in measurement conditions. - View Dependent Claims (28, 29)
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Specification