- Contour fidelity during high-speed machining through look-ahead feature and dynamic preselection
- Drive parameter adjustment depending on the machining
- Control cabinet with air conditioning unit
- Control behavior and NC path planning are developed and optimized in great detail to achieve the perfect combination of geometrical accuracy, surface quality and of course productivity.
- Depending on the required application, the machine can be optimally configured using five settings: roughing, pre-finishing, fast finishing, finishing and super finishing.
LX 051
The highest levels of process reliability and efficiency, thanks to individual application-orientated technology services
A comprehensive integrated solution from one source – from the machining system via the specially developed CAM system through to the integration of process monitoring systems
The optimisation of unit costs for ready-to-install blades thanks to an integral machining concept for pre and postprocessing in a clamping position
Turbine Blade machining center
The LX series was specifically designed for the high-precision, efficient five-axis machining of turbine blades. This ultra-modern machining platform is the result of decades of experience in the development of machine tools, CAM systems and special tools combined with our in-house expertise in the prototype and series production of turbine blades.
Innovative Solutions
- Large door and viewing window
- Easy loading with crane
- Transportation as a complete unit, with all auxiliary units fully integrated within the machine
- The rotary axes are directly driven by state-of-the-art torque motors
- Guarantees the most precise positioning
- High torque even at low speed
- Highest possible rigidity for maximum dynamics
- Power transmission free of backlash and extended service intervals
- No mechanical component wear
- Driven tip station with controllable torque
- Fast connectors to reduce time for spindle change
- Starrag made spindle
- Monitoring of vibrations, displacements and temperatures
- Compensation of displacements for better process reliability
- Spindle interlock for mill-turning
Tool magazines with 60 or 80 pockets. Tool storage is expandable up to 320 tools ( HSK-A63)
One key factor to lowest tool cost and highest productivity is the right process cooling. The LX machine series offers all state-ofthe- art through-spindle cooling options:
- High pressure coolant (water-based or oil)
- Through spindle air
- Aerosol (minimum quantity lubrication)
- CO2 cryogenic cooling through the spindle
- Aerosol plus CO2 through spindle
Of course external cooling with coolant or CO2 is possible too. With these options, breakthroughs in tool life can be achieved, leading to the lowest overall cost.
Work piece measuring
- Intuitive and easy to use, fully integrated into RCS CAM System
- consistent integration of CAM system
- probing
- automatic adjustment
Highly recommended for a reliable and accurate production
- zero reject rate
Tool measuring
- Detection of tool breakage
- enhanced process stability
- avoiding machine collision
Measuring of tool length and radius
- enhanced process accuracy
- enhanced process stability
Detection of incorrect operation
- avoiding machine collision
The special work-piece geometries create specific demands on the clamping fixtures. Starrag has in-house specialists who develop individual clamping concepts to meet the specific requirement of blade machining. Starrag offers the following advantages:
- A single adapter design solution for all LX machine sizes using vices (at the hub) and hydraulic clamping jaws (at the shroud)
- Clamping jaws can be implemented in a flexible way both for raw and for premachined surfaces
- Distortion free machining due to flexible changeover between centrically and floating clamping
- Starrag solutions enable distortion and indentation free clamping on freeform surfaces for the manufacturing of unstable blades
- Geometric deviations between multiple fixtures can be stored in the control system. Measuring of blanks can therefore often be eliminated
- Any component requiring periodic service are easy accessible
- Replacement items e.g. filters, wipers etc are easy to access
- Machine components require service are simply to access and repair
- Safe working areas for maintenance personal e.g. platforms and attach point are provided
- Condition based machine monitoring to predict future component failure
- Symmetrical axis arrangement ensures an optimal distribution of the masses for all workpiece dimensions
- Minimized and balanced movement of the masses
- Short distribution of forces increases rigidity, leading to stable ratios during the machining process. These factors have been proven in real-time simulation during the machine development phase
- All base frame components are designed using FEM analysis for maximum rigidity"
- emission extractor
- Starrag connect
- rotating disk window
- conditioning unit for compressed air
- Camera system
- handheld unit
- compresser temperature cooling unit
- increased geometric accuracy
- remote diagnosis
- warm up program
- energy efficiency
- Optimized swarf flow directly into the chip conveyor
- designed for wet or dry machining
- Universal vise for bar stock and forged blanks
- Very short clamping to reduce material consumption
- Specialized clamping on tip side prevents deviations due to release of material stress
- Workpiecechanger for convenient preparation of raw material parallel to processing time
- automatic check of raw material length during AWC for enhanced process security
Process analyses and stability evaluations can be made easily with integrated sensors and evaluation routines. Collision damage is significantly reduced thanks to rapid crash detection and machine stop. This is an excellent addition to Starrag’s simulation solutions to avoid expensive machine downtime. The balancing quality of all tools and the state of the spindle bearings are automatically monitored.
Everything from simply part storage to most complex flexible manufacturing systems – even of the largest machines. The Starrag Group makes Industry 4.0 a reality. Read more
Technical Data
Max. distance between centers | mm | 550 |
Swing Diameter | mm | 350 |
X-Axis | mm | 650 |
Y-Axis | mm | 650 |
Z-Axis | mm | 680 |
A-Axis (Root Station) | degree | 360 endless |
AA-Axis (Tip Station) | degree | 360 endless |
Swivel B-Axis | degree | -100 / +50 |
X/Y/Z-axis linear axis acceleration | m/s2 | 8.5 |
Rotary Axis A | rpm | 200 |
Rotary Axis B | rpm | 60 |
A-AA rotary axis co-axiality | mm | 0.01 |
A-AA rotary axis synchronization error | ° | 0.002 |
Max. Speed | U/min | 18 000 |
Power at 100% Duty | kW | 28 |
Torque at 100% Duty | Nm | 181 |
Tool Taper | HSK-A63 (HSK-A80) |
Max. Tool Weight | kg | 10 |
Max. Tool Diameter | mm | 100 |
Max. Tool Length | mm | 250 |
Standard / Max number of Tools | 40 / 60 / 80 / 320 | |
Tool Chancing Time | sec | 4.5 |
Max. Workpiece Diameter | mm | 350 |
Total weight (part and fixture) | kg | 50 |
Workpiece Change Time | sec | ca. 30 |
Linear Axes P | mm | 0.006 (0.004) |
Linear Axes Ps | mm | 0.0024 (0.0020) |
Rotary Axes P | sec | 6.0 |
Rotary Axes Ps | sec | 4.0 |
Weight | kg | 13000 |
Lenght x Width x Height | mm | 7700 x 3900 x 3500 |
Safety Concept | CE-compliant |
CNC Control | Siemens |