Turning center with integrated non-contact inspection system
First Claim
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1. A system including a computer-controlled turning center for machining a disc mounted on a chuck thereof, the center comprising:
- a plurality of non-contact sensors positioned to point at outer surfaces of the disc;
a controller connected to the sensors and for dynamically obtaining measurements from the plurality of non-contact sensors; and
a computer system for calculating attributes of the disc based on the measurements obtained by the controller and for providing the calculated attributes to the turning center for dynamic control of the machining of the disc.
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Abstract
A non-contact inspection system has one or more pairs of non-contact sensors, pointing at the braking surfaces and a non-contact sensor pointing at the outer diameter of a disc. The non-contact sensors can be inductive sensors, capacitive probes and/or laser sensors. A controller is connected to each sensor for signal processing and measurement output. The system measures various features and characteristics, such as braking surface thickness variation, lateral run-out, flatness, parallelism and diameters. Measurements are made while the disc rotates at a specified speed or while the disc is stationary. The pairs of non-contact sensors continuously measure the distance from the sensor or calibrated surface to the pointed surface. Thereby the run-out and thickness variations can be calculated from the measurements at different radii. By combining the measurements on the same braking surface, the flatness and parallelism are calculated. The other two sensors continuously measure the distance from the sensor or the calibrated surface to the pointed surface. A diameter can be calculated knowing the center of the disc. The lateral run-out, thickness variation, flatness and parallelism can be measured on each brake disc within the turning center for final inspection and/or statistical process control. The diameter measurement and its run-out can be fed back to the turning center to monitor and compensate tool wear.
40 Citations
22 Claims
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1. A system including a computer-controlled turning center for machining a disc mounted on a chuck thereof, the center comprising:
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a plurality of non-contact sensors positioned to point at outer surfaces of the disc;
a controller connected to the sensors and for dynamically obtaining measurements from the plurality of non-contact sensors; and
a computer system for calculating attributes of the disc based on the measurements obtained by the controller and for providing the calculated attributes to the turning center for dynamic control of the machining of the disc. - View Dependent Claims (2, 3, 4, 5, 6, 7, 12, 14)
at least one non-contact sensor positioned to point at an outer diameter of the disc.
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3. A system as in claim 1 wherein at least three pairs of non-contact sensors are provided.
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4. A system as in claim 1 wherein the attributes include at least some of:
braking surface thickness variation of the disc, lateral run-out of the disc, radial run-out of the disc, flatness of the disc, parallelism of the disc, inner diameter of the disc, outer diameter of the disc, inner diameter of the hat of the disc, outer diameter of the hat of the disc, inner diameter of the hub of the disc, and outer diameter of the hub of the disc.
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5. A system as in claim 2 wherein the attributes include at least some of:
braking surface thickness variation of the disc, lateral run-out of the disc, radial run-out of the disc, flatness of the disc, parallelism of the disc, inner diameter of the disc, outer diameter of the disc, inner diameter of the hat of the disc, outer diameter of the hat of the disc, inner diameter of the hub of the disc, outer diameter of the hub of the disc, and bearing rices.
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6. A system as in any of claims 1-4 wherein the non-contact sensors are selected from inductive sensors, capacitive probes and laser sensors.
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7. A system as in claim 5 wherein the non-contact sensors are selected from inductive sensors, capacitive probes and laser sensors.
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12. A method as in claim 7 wherein the attributes include at least some of:
braking surface thickness variation of the disc, lateral run-out of the disc, radial run-out of the disc, flatness of the disc, parallelism of the disc, inner diameter of the disc, outer diameter of the disc, inner diameter of the hat of the disc, outer diameter of the hat of the disc, inner diameter of the hub of the disc, outer diameter of the hub of the disc, and bearing rices.
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14. A method as in claim 12 wherein the non-contact sensors are selected from inductive sensors, capacitive probes and laser sensors.
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8. A method of machining a disc mounted in a computer-controlled turning system, the method comprising:
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positioning a plurality of non-contact sensors to point at outer surfaces of the disc;
dynamically obtaining measurements from the sensors;
calculating attributes of the disc based on the measurements; and
providing the calculated attributes to the turning center for dynamic control of the machining of the disc. - View Dependent Claims (9, 10, 11, 13, 15, 16)
positioning at least one non-contact sensor to point at an outer diameter of the disc.
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11. A method as in claim 8 wherein the attributes include at least some of:
braking surface thickness variation of the disc, lateral run-out of the disc, radial run-out of the disc, flatness of the disc, parallelism of the disc, inner diameter of the disc, outer diameter of the disc, inner diameter of the hat of the disc, outer diameter of the hat of the disc, inner diameter of the hub of the disc, outer diameter of the hub of the disc, and bearing rices.
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13. A method as in any one of claims 8-11 wherein the non-contact sensors are selected from inductive sensors, capacitive probes and laser sensors.
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15. A method as in claim 8 further comprising:
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measuring, while turning, at least some of;
(a) the deflection of the rotor;
(b) spindle movement;
(c) spindle run-out;
(d) chuck movement;
(e) chuck run-out; and
(f) tool movement.
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16. A method as in claim 15 further comprising:
providing the measured values to the turning center for dynamic control of the machining of the disc.
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17. A method of machining a part mounted in a chuck of a computer-controlled turning system, comprising:
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positioning a plurality of non-contact sensors to point at the part;
dynamically obtaining measurements from the sensors;
calculating attributes of the part based on the measurements; and
dynamically adjusting the clamping force of the chuck on the part based on the calculated attributes. - View Dependent Claims (18, 19, 20, 21, 22)
braking surface thickness variation of the disc, lateral run-out of the disc, radial run-out of the disc, flatness of the disc, and parallelism of the disc.
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20. A method as in any one of claims 17-19 wherein the non-contact sensors are selected from inductive sensors, capacitive probes and laser sensors.
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21. A method as in claim 17 further comprising:
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measuring, while turning, at least some of;
(a) the deflection of the rotor;
(b) spindle movement;
(c) spindle run-out;
(d) chuck movement;
(e) chuck run-out; and
(f) tool movement.
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22. A method as in claim 21 further comprising:
adjusting the clamping force of the chuck on the part based on the measured attributes.
Specification
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Current AssigneePerformance Friction
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Original AssigneePerformance Friction
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InventorsXu, Hong, Burgoon, Donald Lee
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Primary Examiner(s)SHAH, KAMINI S
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Application NumberUS09/090,087Time in Patent Office1,076 DaysField of Search702/91, 702/116, 702/113, 702/168, 702/150, 409/110, 409/130, 82/11.1, 821/12, 701/69, 701/1, 701/53-65, 709/232, 709/238, 700/231, 731/182, 731/181US Class Current702/91CPC Class CodesG01R 31/302 Contactless testing G01R31/...G01R 31/343 in operation
