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Engineering Research Center for Reconfigurable Manufacturing Systems

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Title: Engineering Research Center for Reconfigurable Manufacturing Systems


1
Engineering Research Center forReconfigurable
Manufacturing Systems
TA-3 Projects In-Process Metrology
The University of Michigan, Ann Arbor
2
Motivation of TA-3
3
Results of TA-3 In Process Metrology
  • Our results in Metrology are divided into two
    areas
  • Metrology infrastructure i.e. methodologies and
    algorithms . Each of the listed items is backed
    up with a report or paper.
  • 2. Metrology hardware i.e. Machines and devices
    developed for specific applications.

4
TA-3 Infrastructure Computer Vision
  • Algorithms for precise measurement of complex
    volumes using 3D vision
  • Real time vision algorithms for dimensional
    measurements
  • Algorithms for precise calculation of the
    diameter of pores
  • Algorithms for quantification of small indents on
    autobody panels
  • Hardware and algorithms for detecting pores
    inside small diameter bores

5
TA-3 Infrastructure Free Form Surface Inspection
  • Methodology
  • Methodology for fixtureless inspection of free
    form parts
  • Algorithms
  • Algorithms to support the above methodology
  • 3D reconstruction algorithms
  • Automatic tracking algorithms

6
TA-3 Infrastructure Measurements
  • Design concepts and algorithms for the
    reconfigurable inspection machine
  • Real time flatness and parallelism measurement
    techniques for prismatic machined parts
  • Algorithms to convert non contact probe
    measurements to contact CMM measurements for
    comparison (Virtual ball)
  • Laser technology and algorithms to identify
    residual boring marks in real time
  • Self calibration algorithms
  • Benchmarking study of all available non-contact,
    high-precision measurement technologies
  • Laser technology and algorithms for error
    corrections and alignment of machine tools

7
Reconfigurable Inspection Machine-RIM
Same machineNew Configuration
Vision system
Engine cylinder head
Laser probes
Slide system
8
Plant floor testing (2/3 - 2006)
RIM Technology Transfer
GEMA Dundee, MI
GM RIM- Flint Plant
9
Inspection of Complex Surfaces
  • Objective
  • To develop a rapid and accurate reconfigurable
    optical system for inspecting a part family with
    sculpture surfaces

Probe Controller
Stage Controller
  • Accomplishments
  • Designed and built a laboratory prototype
    inspection machine for turbine blades.
  • Developed algorithms for turbine blade inspection
    and performed automatic inspections.
  • Generate interests from non-automotive industry
    (e.g. Aerospace Industry)

10
Inspection of Complex Surfaces
Blade Inspection Machine (BIM)
Computer
Inspected Part
Linear Motion Stages
Rotary Stage
Non-Contact Laser Probe
11
TA3 Projects
1 Cylinder Bore Inspection Prototype Big 3 - Built (DEMO)
2 Detection of Surface Defects in Small Diameter Cylinders Big 3 requested (DEMO)
3 In-line Valve Seat Inspection Big 3 requested (DEMO)
4 Reconfigurable System for Turbine Blade Finishing NSF W. Robotics
5 Inspection of Auto-body Panels (Redirected to Research Project) For our Post Docs
6 Dimensional Measurement of Bores IOMS/STTR
7 Benchmarking High-precision Non-contact Sensors Y-12 Completed
8 RIM Technology Transfer GEMA -Stopped
9 Automatic Detection of Porosity in Engine Pistons DCX - Stopped
10 Measurement of Combustion Chamber Volume Cognitens -Stopped
12
Project 1 - Cylinder Bore Surface Inspection
Prototype
  • Goal
  • Build a portable machine prototype for bore
    inspection technology (V and L blocks) that meets
    production line rates ( about 20 sec.)
  • Deliverables
  • The prototype was built and integrated
  • The software for data collection and analysis is
    operating and will be improved
  • Technology Transfer (to be discussed)

13
Full Scale Prototype
Four laser probes
V-8 Engine Inspection Setup
14
Future Work
  • Technology transfer of prototype system
  • Optimization of parallel detection at the ERC
  • Study detection of rough hone or boring stages
    marks
  • Evaluate the possibility of measuring dimensional
    properties of the bore

15
Project 2 - Inspection of Surface Defects in
Small Diameter Bores
  • Goal
  • Surface defects detection (mainly porosity) in
    small diameter holes
  • Deliverables
  • Stage 1 (Completed)
  • Literature review
  • Problem analysis
  • Concepts suggestion
  • Stage 2 (To be completed12/07)
  • Proof of concept
  • Stage 3 (To be discussed)
  • Build a prototype

16
Sight Pipe System
Detected Pores
CCD
Sight Pipe
Part
Bore Image
Top view of the system
17
Next Steps
  • Optimize the pore detection algorithms
  • Improve the mounting structure of the sight pipe
    system
  • Increase the optical magnification to get higher
    resolution
  • Upgrade the CCD and DAQ device for higher speed
  • Continue the Mini CCD study
  • Decide about building a demonstrator

18
Project 3 - In-line Valve Seat Inspection
  • Goal
  • Develop an accurate technique for in-line
    measurements of valve seat properties
  • Profile (in Progress)
  • Geometry (Roundness Run out to be evaluated)
  • Deliverables
  • Literature review (done)
  • Alternatives evaluation (done)
  • Concept development (in progress)
  • Build a demonstrator (ME 450)
  • Build a prototype (To be discussed)

19
Experimental Setup For Valve Seats Measurement
  • Critical Dimensional and Geometric Features
  • Seat Angle (with respect to valve guide)
  • Seat Length
  • Roundness of critical seat
  • Run-out of critical seat (with respect to valve
    guide)
  • Current Setup
  • 2-axis Aerotech motion stage system
  • Optimet Conoprobe single point laser range
    sensor
  • Setup Improvements
  • Addition of 3rd axis system for multiple cross
    sections
  • Portable demonstrator (ME450 senior design
    class)

20
Project 4 -Reconfigurable System for Turbine
Blade Finishing
The Goal To develop a closed-loop system for
Turbine Blades Finishing that includes defects
detection, machining and inspection
Blade Inspection Machine (BIM)
Grinding Robot
21
Integration of Measurement and Machining
  • Closed loop integration of measurement and
    machining
  • Inspection machine detects and measures defects
    on turbine blade
  • Defect coordinates fed to the automatic robot for
    machining
  • Robot machines the defects
  • Inspection machine validates machining

22
Project 5 - Inspection of Auto-body Panels (New
Title Measurement of Small Curvatures)
  • MOTIVATION
  • Automated detection of defects on auto body
    stamped panels
  • OBJECTIVES
  • Development of technologies and methods for
    reliable, automatic surface curvature measurement
  • DELIVERABLES
  • Sound analytical understanding and proof of
    concept
  • Implement the method for measuring dents on sheet
    metal parts
  • ACCOMPLISHMENTS
  • Surface defects quantitative characterization
  • Appropriate technology is currently identified
    for surface defect analysis and a prototype was
    designed and is built.

23
Set Up and Master Plate for Calibration
Research tools
Experimental Set Up
Sample Master Plate
24
Project 6 - Dimensional Measurement of Bores
  • Goals
  • Evaluate probe technology for dimensional
    measurement of cylinder bores combined with NCU
    inspection capability
  • Develop rapid imaging system to inspect defect of
    interest inside the bore.
  • Time frame for the project 2-years

25
Dimension Sensing Probe
  • Scatter from surface is imaged onto detector by
    lens.
  • Image position changes with distance from probe
    to surface.
  • Detector is position sensitive.

Bore Surface
Slip Ring
Mirror
Lens
Detector
Laser
26
Rapid Imaging System Set Up
Borescope
Rotary table
Monitor
Fiber illumination source
27
The End
Questions are Welcomed!
28
Automatic Porosity Detection on Engine Pistons
  • Goal
  • Automatic porosity detection on engine pistons
  • Deliverables
  • Building a prototype for image acquisition of
    cylindrical surfaces
  • Developing an algorithm for the auto-alignment of
    masks and templates
  • Algorithms for automated porosity detection
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