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In-process control
Active process control enables parts to be made ‘right first time'.
The in-process layer of the Productive Process Pyramid™ features controls that are embedded within the metal cutting process. These active controls automatically respond to material conditions, inherent process variations and unplanned events to minimise process non-conformance.
Keep control as cutting proceeds
The in-process control layer of the Pyramid tackles sources of variation that are inherent to machining, such as tool wear and temperature variation, providing intelligent feedback to the process and decision-making as machining progresses.
These are active controls that are applied during metal cutting.
In-process gauging allows
- metal cutting to adapt to variations in the machining process such as part distortion, tool deflection and thermal effects
- updating of co-ordinate systems, parameters, offsets and logical program flow depending on actual material conditions
Broken tool detection recognises
- presence of a tool
- tool position - to ensure pull-out has not occurred
- broken and/or chipped tool edges
Active controls
Active process control enables parts to be made ‘right first time', so capacity needn't be set aside for rework and re-makes.
Automated in-process measurement means your machines will no longer be waiting for operators to re-start them.
In-cycle gauging gives your machine tools the intelligence they need to make decisions for themselves, enabling extended periods of ‘lights out' machining, boosting your productivity.
Renishaw's workpiece inspection probes, TRS2 tool recognition system and Productivity+™ software adapt metal cutting operations to the actual material and environmental conditions with automated feedback.
Productive Process Patterns
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Educational article: (AP301) Productive Process Pattern: Cutter parameter update
Productive Process Pattern™ from the in-process control layer of the Productive Process Pyramid™. Use a workpiece inspection probe to measure the actual size of a machined feature and update the relevant tool offset.
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Educational article: (AP302 addendum) Productive Process Pattern: Three pillar test piece: an example of dynamic re-machining
Explanation of machining processes and strategies used to produce the three pillar test piece, and aid in demonstrating the benefits of in-process control.
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Educational article: (AP302) Productive Process Pattern: Dynamic re-machining
Productive Process Pattern™ from the in-process control layer of the Productive Process Pyramid™. The CNC machining process uses semi-finishing cuts or test cuts (slave features) that are representative of the subsequent finishing cut. The probing system on the machine is used to measure the cut feature and adjust the process through tool offsets to improve final part accuracy (using pattern AP301, Cutter parameter update).
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Educational article: (AP303) Productive Process Pattern: Thermal correction - machine drift
Productive Process Pattern™ from the in-process control layer of the Productive Process Pyramid™. Use a workpiece inspection probe to locate and measure the position of a critical reference feature in order to detect machine drift, or use an on-machine tool setter to track movement in a machine’s Z-axis caused by thermal effects.
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Educational article: (AP304) Productive Process Pattern: Tool condition monitoring
Productive Process Pattern™ from the in-process control layer of the Productive Process Pyramid™. When tool breakage is identified as a significant expected risk, it is useful to monitor the condition of the cutting tools which are being used. Performing a tool breakage check immediately after using a tool can help to infer whether the component has been correctly machined - particularly for components where tool breakage is the primary cause of failure.
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Educational article: (AP305) Productive Process Pattern: In-process datum setting
Productive Process Pattern™ from the in-process control layer of the Productive Process Pyramid™. Use a workpiece inspection probe to measure datum features then store feature or part locations in the CNC in order to reset a current work coordinate system (WCS), or define a new WCS automatically. This procedure can be carried out whenever it is required during a machining process.
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Educational article: (AP306) Productive Process Pattern: Thermal correction - workpiece expansion
Productive Process Pattern™ from the in-process control layer of the Productive Process Pyramid™. Use a spindle probe to measure the size of a reference feature in the machine environment and compare it with the known size of that feature at 20 °C. Produce and apply a scaling factor or offsets to subsequent part measurements and proceed with machining operations based on parameters corrected for thermal effects.
Documents
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Brošura: Merilno-tehnične rešitve za produktiven nadzor procesov [sl]
Izboljšajte zmogljivost vaše proizvodnje s pomočjo strokovnjakov za nadzor procesov