LI-Explorer - Minerals Tech
Transcript of LI-Explorer - Minerals Tech
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LI-Explorer
Rolf Lamm October 2018
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Laserprofile Measurement in the Steel Industry
Mobile versionfor convertersand ladles
LaCam® - Mobile Fixed installation for:
Open Die Forging
Converters EAFsLadles
Torpedo Tadles
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Motivation of Laser Measurement in Ladles
Increase of safety in a steelplant
Reduction of refractory and maintenance cost
Optimization of process and logistics
Increase of yield
Why Laserscanner for Hot Ladles?
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Examples of Current Laser-Ladle Inspection
fixed or tiltable ladle stand bridge over ladle transport car swinging arm above ladle
If the mouth of the ladle is “clean” and no skull is built up you can have good results from the entire Ladle-Refractory lining although the laserscanner is in front of the ladle mouth. But hidden areas cannot be measured and leads to a remaining risk.
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New Developed LaCam® LI-Explorer
The method of immersing a laserscannerinto a hot confined space was already introduced with the LaCam®-Torpedo which measures inside the hot torpedo ladle.
Patented measurement method was further developed to measure ladle refractory lining in hot condition directly after tapping from inside the ladle
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Measurement Procedure
Positioning-Scan on outer ladle shell Bottom-Scan from outside Centerposition-Scan 360° inside ladle
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Examples of LaCam LI-Explorer Applications
Ladle in Vertical Position
Klick on picture to run animation clip
Ladle in Horizontal Position
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8Versatile 2D and 3D Result presentation for Ladle Application
Ladle Refractory Thickness- ,Wear- and Wearspeed- Measurement
Sectional and Horizontal 2D CutBottomTrend and Tendency Analysis
Wall
Examples of 3D presentation
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Evaluation and presentation of the results
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Measurement from outside vs. inside
Refractory thickness measurement with laserhead position outside (A) and inside (B)Not measured areas in the slagzone are white spots (A)fully measured slagzone (B) shows dangerous thin lining in red
A B
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Pyrometric Temperature Measurement
Simultaneously to the lining thickness the system measures the surface temperature of the lining with a high density of data collection (one measure point per laser shot). With this additional temperature profile information the system provides non-uniform temperature distribution of the ladle-lining and hot spots.
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Gap and Crack Detection
Performed data processing is a special 2D peak finding algorithm which has some similarities to image processing functions. In a combined evaluation of brick thickness-, surface temperature and Laser Echo Amplitude a gap or crack in the lining can be determined
Crack and Gaps in a ladle
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133D - Gap contour plot of ladle / view from outside w/osteel shell and cut in half from inside
Ladle wall with gaplines(red) and gap values
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143D - Gap contour plot and Temp. plot of ladle bottomresult in automatic detection of extreme points
“extreme points”
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Taphole Condition and Sandfilling
Tap Holes beforesand filling
Tap Holes after sandfilling
Detection of “Open slider”, Debris above slider, optimum amount of sand mass, optimum sand filling by controlled x-y-position, optimum sand profile shape
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Bathlevel Determination and Freeboard
Bathleveldetermination based on exact profile and volume calculation and input from steel-and slag mass
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Cooling and Control Unit
IPC COMPUTER
PLCControl unit
Space forcustomerspecificsolutions
SERVICEmonitor andkeyboard
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18Cooling and Control UnitUser friendly solution and easy to maintain
Operation mode Service mode
20l waterreservoir
Heat exchangerIncl. fan
High power pump
SelectorCooling/Auto filling
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Conclusion
By immersion the laserscanner into the ladle you achieve better results by means of• Higher measurement accuracy in all areas -
covering 100% of the ladle surface• Scanning areas e.g. slagzones which are often
hidden if you are using laserscanner from outside• Very high resolution scan due to small laserbeam
and better viewing angle• Detection of gaps and cracks due to combination of
thickness measurement and surface temperature• Additional advantages like taphole analysis and
controlled sandfilling• Precise determination of bathlevel and freeboard
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Tornado Shooter Minscan Lego Manipulator
SCANTROL®- Intelligent Control Module between Laser Wear Measurement System LaCam® and Automatic Spraying Manipulator
LaCam® M LaCam® CI, Converter LaCam® - EAF LaCam®, LI Ladles
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21 System overview Scantrol for Ladle (example)
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22 Planning in realisation of the complete system
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Control Flow SCANTROL®
Start of Operation
Measuring Sequence
Coordinates for Manipulator
Gunning Sequence
End of Operation
Visualisation
Controlling by Operator
Optimisation Strategy
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24 Scantrol® mask: Wall Areas
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Controlling by Operator
Operator can adjust the optimisation strategyparameters
- gunning time (optional)
- quantity of material
- degree of lining rebuilding
Operator can decide whether to start the gunning
sequence either
- immediately,
- later on,
- or whether to cancel the gunning sequence
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Coordinates for Manipulator
The gunning areas calculated by the optimisation strategy are transformed into control commands which can be interpreted by the manipulator
Scantrol® mask: Bottom Areas Gunning Result