1. Genius at work, Plaese Come In! November 2015

2. HIGHLY PROFITABLE for thin-medium gauges Data sheet How it’s made Benefits Options What’s new Sizes

3. To meet market requirements for high power fiber lasers around the main values perceived by customers: Productivity Accuracy Process reliability A new fiber laser – WHY

4. The latest developments in 2D fiber in order to: A new fiber laser - HOW Increase Process reliability : even more powerful NIGHT Cut Suite Full compatibility with Server line : from stand-alone machine to the system for the whole working process, above all in case of 24/7 non-stop production Increase Productivity for cycle time reduction up to 20% Increase Accuracy with respect to traditional servo drive motion

5. LASER GENIUS fiber Tech Suites tailored on each application Carbon fiber carriage Synthetic granite frame Linear motors in the main axes Introduction of 6000 W fiber laser Proprietary hardware and software for laser process control Laser Genius is designed around key innovation applications of:

6. PRODUCTIVE High dynamic linear motors increase productivity compared with conventional drives systems BENEFITS ACCURATE Precise and repeatable in cutting and laser head positioning MODULAR Available in two sizes, 1530 and 2040. Suitable for any production need, offering a full range of solutions for automation Low operating costs thanks to high energy efficiency and reduced maintenance. USER FRIENDLY Single focusing lens system with automatic nozzle changer. Easy to use programming software and Prima Power operator interface. PROFITABLE

7. Laser Genius fiber 1530 Working area 3000x1500x150 mm 120”x60” Max trajectory speed240 m/min Max trajectory acceleration 2,4 g Accuracy (according to VDI/DGQ 3441 – complete stroke) Pa: 0.03 mm Ps: 0.03 mm Overall Dimensions Length: 10,500 mm Width: 3,450 mm Height: 2,200 mm Laser Powers Fiber 2 kW – 6 kW TECHNICAL DATA

8. CUTTING PERFORMANCE Maximum cutting thickness in mm (best application area is represented in full colour)

9. How it’s made – THE MACHINE (1) Fiber Laser From 2 to 6 kW Laser Head Designed for fiber cutting Flexible and reliable Automatic pallet exchanger Speed according to weight Table Drawers or optional scrap collector CNC User-friendly, 17” LCD screen, trackball Working area 1500x3000 mm 2000x4000 mm New X-carriage Chiller for Laser Chiller for motors and optics Fumes Exhauster Fixed to the floor No foundation

10. LINEAR MOTORS on X and Y axis: Higher acceleration, higher stiffness, higher accuracy with respect toconventional motors X plate design entirely made in ALUMINUM CAST: Lower weight and increased stiffness SYNTHETIC GRANITE frame Excellent vibrations damping Accuracy of the process High thermal stability High repeatability of cutting results How it’s made – THE MACHINE (2) CARBON FIBER main carriage Weight reduction -40% Stiffness increase +20% Naked design Bosch linear guides with integrated position transducer high stiffness completely sealed low encumbrance

11. How it’s made – THE MACHINE (3) Automatic lubrication system New hydraulic panel motor cooling optics cooling Filters unit for cutting gases Pneumatic panel Air filters unit Conditioner for electric panel cooling

12. How it’s made – THE HEAD (1) SIPS Safe Impact Protection System F-axis high dynamics focal axis, 35 mm stroke Lens drawer with quick alignment system (OPC) Protection glass drawer for easy inspection Wide range of nozzles with automatic tip changer (option) LPM process sensor, for piercing and cutting monitoring (option) Collimator

13. How it’s made – THE HEAD (2) The F-axis is an NC-axis which automatically adjusts the lens position to set the correct focus according to material and thickness of the piece to be cut: Cutting and piercing of different materials and thickness without manual adjustment of the focal position, automatically set according to a data base Accurate control of the cutting process in the whole work area

14. How it’s made – THE HEAD (3) SIPS (“Safe Impact Protection System”) In case of impact, the head disengages to avoid damages caused by crashes. Reference pins and magnets allow a quick and accurate repositioning of the head. NO CRASH–RELATED MACHINE DOWNTIME ELIMINATION OF EXPENSIVE REPAIR ON THE HEAD Magnets Pins

15. How it’s made – THE CABIN New design Easy to install Wide operator door on CNC side with large windows Automatic door for pallet exchange on left side Partially opening roof and service door for maintenance pourposes Sliding roof Operator door Service door Service accesses and Operator door Service accesses and Operator door

16. How it’s made – THE CABIN Sliding roof Operator door Service door New design Easy to install Wide operator door on CNC side with large windows Automatic door for pallet exchange on left side Partially opening roof and service door for maintenance pourposes

17. How it’s made – THE WORKING TABLE The automatic pallet exchanger consists of an additional loading/unloading station with a second pallet, mounted on an elevator. The pallet with the worked sheet metal is exchanged with the pallet with the rough sheet metal. The speed of the pallet automatically adapts to the weight of the transported sheet. Great cycle time savings on thin sheets. Table equipped with pallet for supporting 2D workpieces (sizes 1530 and 2040) Trays for collecting scraps, on wheels for easy handling. Divided into sectors with separate suction, allowing the optimization of the fumes exhausting in the area where the process takes place. Pallet on L/U station Trays Elevator Pallet on working table Dragging device

18. How it’s made – THE LASER The machine can be equipped with Ytterbium fiber laser from 2 to 6 kW to cut a wide range of materials in combination with extremely low operating costs. Entirely solid-state, fiber-to-fiber design Highly reliable, performing, robust Over 30% wall-plug efficiency Low maintenance operation Long diode life No mirrors or optics High beam quality Compact design

19. How it’s made – THE CNC (1) External console interface based on web technology Numerical control, integrated with the machine, based on standard PC 17" LCD touch screen and trackball HMI with graphical tools Automatic and manual Restart advanced function Editing, preview and tracing functions Complete integration with laser generator Fiber optic full-connected digital servo drives PRIMA POWER CNC General features

20. How it’s made – THE CNC (2) PRIMA POWER CNC Programming Programming in ISO G-Code Compatible with all previous versions for all PRIMA POWER machines FLY and LOOK-AHEAD functions for dynamic trajectories optimization OPC function for lens centering diagnostics Automatic referencing system to quickly adjust the program to the real position of the sheet in the machine: the measurement assures no metal sheets scratching Possibility to create, execute and modify job lists for unmanned operation thanks to CELL MANAGER software With Technology on board (TOB), cutting parameters can be simply managed on CNC

21. How it’s made – THE CNC (3) PRIMA POWER CNC Communication Online USE, PROGRAMMING and MAINTENANCE MANUAL and intuitive diagnostics TELESERVICE connection to PRIMA POWER Customer Service (free of charge in the warranty period) Capability to send e-mail messages when maintenance intervals are elapsed or in case of machine failures (optional)

22. How it’s made – TOB TECHONOLOGY ON BOARD (TOB) Technology within a click’s reach Parameters can be simply changed directly on machine CNC A single cutting program for all materials, thicknesses and machines Official PRIMA POWER and customizable tables available Possibility of synchronization of CNC and CAD/CAM tables

23. How it’s made – OPC The system allows a quick, simple and accurate beam–tip alignment The machine cut a reference figure The tip touches the edges of the figure The system calculates the difference between the beam theoretical position (perfectly aligned to the tip centre) and the real one The instructions for the operator appear on The CNC screen The operator turns the alignment screws to correct the beam position OPTICAL PRECISION CONTROL (OPC) REAL CUT FIGURE (MISALIGNED BEAM) THEORETICAL FIGURE REAL POSITION (MISALIGNED BEAM) THEORETICAL POSITION INSTRUCTIONS

24. How it’s made – SHEET POSITION DETECTION SHEET METAL POSITION DETECTION The measuring software allows taking highly accurate (< +/- 0.1mm) references on the sheet metal thanks to the capacitive sensor. If the sheet position is different from the theoretical one, the part program must be adapted to the real position. Thanks to this software, by measuring 3 points on the sheet, the values for the roto-translation of the part-program are automatically calculated.  angle between sheet and X axis Theoretical position Theoretical origin Real origin 1 st point 2 nd point 3 rd point

25. TECH SUITES: Productivity & Reliability SMART Cut No.Piercing Smart Moves Grid Cut SMART Cut No.Piercing Smart Moves Grid Cut Max Cut Quick Piercing Nitrogen Piercing Hi.Piercing Max Cut Quick Piercing Nitrogen Piercing Hi.Piercing NIGHT Cut LPM Piercing done Plasma Monitoring Tip-Touch Restart MicroJoint and MicroWelding E-mail dispatching Automatic Switch On & Off NIGHT Cut LPM Piercing done Plasma Monitoring Tip-Touch Restart MicroJoint and MicroWelding E-mail dispatching Automatic Switch On & Off Benefit: up to 30% cycle time reduction Applicability: up to 5 mm, high pressure cutting Benefit: up to 40% cycle time reduction Applicability: from 6 to 25 mm, for oxygen assisted processes. Benefit: full control during unattended operations Applicability: any material including Aluminum, Stainless Steel and Brass New Version

26. SMART Cut Want to boost productivity? SMART Cut drastically reduces cycle times thanks to an intelligent management of the head movements (e.g. “on-the-fly” piercing, no pre-hole, prompt movements from one profile to the next, grid cutting) SMART Cut is suitable for thickness up to 5 mm, high pressure cutting. Cycle time reduction: up to 30% Watch SMART Cut in action Furniture_MS3mm Elevators_SS2mm MechanicIndustry_SS4mm Cycle time -31% Cycle time -33% Cycle time -21% Automation_AL4mm FoodIndustry_ALM1mm Cycle time -30% Cycle time -15%

27. MAX Cut Want to cut thick material faster? With MAX Cut piercing times are cut down up to 90%. MAX Cut is suitable for thicknesses from 6 to 25 mm, for oxygen assisted processes. Cycle time reduction: up to 40% Watch MAX Cut in action Cycle time -11% Electromechanics_SS8mm

28. NIGHT Cut Want to have full control during unattended operations? NIGHT Cut increses machine uptime during unattended operations thanks to several automatic devices and functions for process control and monitoring. NIGHT Cut is suitable for any material and thickness when intensive production requires night shifts without operator intervention on the machine. Watch NIGHT Cut in action Plasma Agricultural_SS6mm Piercing Done –20% Sample_SS8mmRoadTransport_MS15mm

29. PIERCING TIME REDUCTION UP TO 30% Piercing Done is a process sensor feature able to recognize the piercing status and let the cutting process start immediately when the piercing has been finished (“Piercing Done”). Applicability: It is available in association with all the different piercing type It is available for all materials (including materials pierced with Nitrogen technology) It has enhanced performance starting from 5 mm It is available for 4, 5 and 6 kW fiber laser Comparing Piercing Done with traditional Piercing: It has been made considering different piercing technology and different materials Comparison has been made considering 10 mm thickness Piercing time reduction around 30% for all technology PIERCING DONE:Productivity & Reliability Standard Technology New Version

30. Options – AUTOMATIC TIP CHANGER AUTOMATIC TIP CHANGER The Automatic Tip Changer allows the correct nozzle to be used during different materials processing. The tips, contained into the storage, can be changed in two different ways: Under the operator control (Manual Mode); Under the system control: e.g. when an excessive wear, or the technology require a different nozzle (Automatic Mode). Nozzles Storage

31. Yes, we’ve got it! AND 2040 size?

32. Laser Genius fiber 2040 Working area 4000x2000x150 mm 160”x80” Max trajectory speed240 m/min Max trajectory acceleration20 m/s 2 Accuracy (according to VDI/DGQ 3441 – complete stroke) Pa: 0.03 mm Ps: 0.03 mm Overall Dimensions Length: 12,600 mm Width: 4,080 mm Height: 2,200 mm Laser PowersFiber 2 kW – 6 kW TECHNICAL DATA

33. Each size has a dedicated carriage to improve weight and stiffness: Carbon fiber for 1530 size Aluminum cast for 2040 size MAIN DIFFERENCE – X carriage Laser Genius fiber 1530Laser Genius fiber 2040 Laser Genius guarantees same technical solutions for both sizes. Table, Cabin and frame are designed and realized with the same principels in both machines. Only exception is the carriage: an ALLUMINUM one, fully developed to enhance the benefits for customer, is dedicated to the 2 by 4 format. Laser Genius fiber 2040 assures the lowest cost per parts into the whole range of application it is dedicated for, meeting high dynamic feature with a lower initial investment.

34. Laser Genius fiber LGf 1530LGf 2040 Working area 3000x1500x150 mm 120”x60” 4000x2000x150 mm 160”x80” Max speed Trajectory: 240 m/min (X, Y: 170 m/min) Trajectory: 240 m/min (X, Y: 170 m/min) Max acceleration Trajectory: 24 m/s 2 (X, Y: 17 m/s 2 ) Trajectory: 20 m/s 2 (X, Y: 14 m/s 2 ) Accuracy (according to VDI/DGQ 3441 – complete stroke) Pa: 0.03 mm Ps: 0.03 mm Pa: 0.03 mm Ps: 0.03 mm Overall Dimensions Length: 10,500 mm Width: 3,450 mm Height: 2,200 mm Length: 12,600 mm Width: 4,080 mm Height: 2,200 mm Laser PowersFiber 2 kW – 6 kW TECHNICAL DATA