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Component Final Dimensions
- Dia - 3.6mm
- Length - 86.0mm +/- 0.1
- Chamfer OP1 - 0.5x45degree
- Chamfer OP2 - 0.5x45degree
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- ENTRY PROGRAM in AUTO MODE
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- Workpiece Data and Ejector/Inverter/PartCatcher Z1 and Z2 Positions as macro
- Return
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- OP1 Cutting Program
- Return
%99 = * OP2 Cutting Program * Return
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- Home Main Slide
- Empty MainSpindle & Inverter into scrap area
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- MAIN PROGRAM for WORKFLOW
- Home Ejector
- PUSH PLATE return and forward for loading next piece
- Slow load job into pipe
- rapid ejector for OP1 cutting pos
- close collet
- retract ejector 5mm [ job get heated if ejector in contact with job]
- OP1 Cutting Process
- Invert Job
- OP2 Cutting Process
- Eject Job
- Return
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- Slow load job from push plate into rear pipe
- Return
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- Index inverter to 0 degree
- Index inverter to 180 degree
- Return
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- Ejector travel using local variables passed
- switch to Z2 axis using M7.2
- when moving ejector always open collet
- when moving ejector without opening collet pass B1
- After moving ejector switch to Z1 axis using M7
- Return
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- After OP1 Cutting
- Move job from mainSpindle to inverter
- Move ejector to debounce position
- Inverter job in inverter
- Push job from inverter to mainSpindle
- move ejector to OP2 Cutting Position
- close collet
- retract ejector 5mm [ job get heated if ejector in contact with job]
- Return
@TODO
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electrical & pneumatic & parameter changes to push-plate such that on power off Push Plate is always forward
- because otherwise, if there is power cut, the push plate tries to return back
- and bends the ejector rod
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We want to make the follwing files readOnly or password Protected
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