Piranha FLEX LASER cutting machines are built with reliability and economy in mind. These tough machines use proven technology to ensure precision and reliability throughout their service life. This special combination of durability and cost efficiency provides maximum value for steel processors.

　　Your Piranha FLEX LASER can be configured with a range of resonators, cutting heads, dust collectors, and performance options to balance your LASER cutting requirements with your budget.

　　Flex 510 (5’x10′)

　　Flex 512 (5’x12′)

　　Flex 520 (5’x20′)

　　Flex 613 (6’x13′)

　　Flex 620 (6’x20′)

　　Flex 820 (8’x20′)

　　Cutting envelopes from 5’x 10’ to 8’ x 20’

　　Solid-state fiber power supply resonators from 3kW to 20kW with an auto-focus cutting head appropriate for the selected power level

　　Chiller

　　Helical rack and pinion positioning system with automatic lubrication

　　3,150 IPM (80 m/min) or 3,937 (100 m/min) maximum travel rate per axis

　　Cypcut or Hypcut graphic CNC control

　　Red diode LASER pointer

　　Automatic Cutting Gas Control and proportional valve

　　Nozzle cleaner

　　ProNEST® LT UNLIMITED programming software

　　Automatic Shuttle Table with Two (2) Pallets

　　Integrated multiple zone fume extraction system with replaceable heat shields

　　Available dust collectors with solutions for steel and aluminum cutting

　　Spare parts available from the Piranha multi-million-dollar inventory

　　Operator, maintenance, and application training at the factory, online with live host, and during installation

　　Control software support by Piranha

　　Technical service by remote diagnostics, phone, email, and onsite by highly trained and experienced Piranha service engineers

　　Piranha FLEX LASERs can be equipped with a variety of LASER powers and resonators. Each brand and configuration has benefits. Consult with your Piranha dealer or sales representative for more information.

　　Note: Other power levels and configurations are available as special orders.

　　FLEX STANDARD LASER CONFIGURATIONS

　　VALUE Fiber Resonators & Piranha Cutting Head

　　IPG YLR rack mount & LaserMech Cutting Head

　　IPG YLS stand-alone & LaserMech Cutting Head

　　nLIGHT & LaserMech Cutting Head

　　nLIGHT Corona & LaserMech Cutting Head

　　VALUE Fiber Resonators & Piranha Cutting Head

　　IPG YLR rack mount & LaserMech Cutting Head

　　IPG YLS stand-alone & LaserMech Cutting Head

　　nLIGHT & LaserMech Cutting Head

　　nLIGHT Corona & LaserMech Cutting Head

　　VALUE Fiber Resonators & Piranha Cutting Head

　　IPG YLS stand-alone & LaserMech Cutting Head

　　nLIGHT & LaserMech Cutting Head

　　nLIGHT Corona & LaserMech Cutting Head

　　VALUE Fiber Resonators & Piranha Cutting Head

　　MAX PHOTONICS

　　MAX Photonics opened in 2004 with its international headquarters in Shenzhen, China. More information is available at MAX Photonics.

　　RAYCUS

　　Raycus was established in 2007 and is headquartered in Wuhan, Ching. In March 2013, it developed China’s first 10kW industry-level fiber LASER, making China the second country to master the core technologies of 10,000W fiber LASER in the world. More information can be found at Raycus.

　　IPG

　　IPG Photonics was founded in 1991. In 2000, IPG invested in new high-capacity production facilities in the United States to manufacture its own LASER diode pumps, a major component of its fiber LASERs and amplifiers. More information can be found at IPG Photonics.

　　nLIGHT

　　nLIGHT was founded in 2000 in Vancouver, WS to focus on high-power semi-conductor LASERs. More information can be found at nLIGHT.

　　nLIGHT CORONA

　　nLIGHT Corona fiber LASERs give users the ability to tune the beam settings based on their application. With a single fiber LASER, users can rapidly select from high-intensity, small-spot-size beams to large, donut-shaped beams, and everything in between. This dramatic advance allows optimal thick and thin metal cutting, higher cutting speed, superior quality, and improved piercing and small-feature processing with a single tool. End users get the best of all worlds—the speed of high-power fiber LASERs for thin metal processing, the quality of CO2 LASERs for thick metal processing, and the high uptime and lower operating costs of a fiber LASER solution.

　　3kW to 15kW – Deliver excellent productivity for advanced cutting and welding applications.

　　Optimized Tuning of Beam Size and Shape – Maintains fiber LASER performance, stability, efficiency, and reliability with spot sizes from 100µm to 300µm and beam shapes from top-hat to donut mode.

　　Rapid Beam Switching – Beam adjustments in less than 30ms allows for real-time optimization of each process step while maintaining full power operation to maximize productivity.

　　Back-Reflection Protection – Hardware-based back-reflection protection allows processing of even the most reflective metals with no interruptions or damage to the LASER.

　　Breakthrough Integrated Beam Shaping – Removal of free-space optics, zoom process heads, and external fiber-to-fiber couplers avoids complex performance-limiting hardware.

　　Unparalleled Serviceability – Modular design simplifies repairs and maximizes uptime.

　　Piranha FLEX LASERs integrate different cutting head designs which are matched to the requirements and performance of the selected resonator make and power.

　　Piranha cutting heads are implemented in collaboration with our manufacturing partners in China. LaserMech cutting heads are provided from their facility in Michigan.

　　Piranha auto-focus cutting heads are designed for cutting applications using from 3kW to 20kW power. Heads may include features such as high speed focusing, modularized cover glass holders, optics temperature monitoring, water cooling.

　　FiberMINI® is a simple and flexible design in a compact, lightweight cutting head. The head can cut a wide range of materials delivering user-friendly operation and reliable performance.

　　Temperature sensors protect optics and minimize the chance of overheating

　　13 mm of lens movement to set focus

　　Quick, toolless access to the sealed cover glass

　　Nozzle cooling for use with highly reflective materials

　　Sealed optics

　　FiberMINI® AutoFocus (AF) is a compact, lightweight design optimized for flat sheet fiber LASER cutting. The head can process a wide range of materials with automatic, programmable focus. and delivers both user-friendly operation and reliable performance.

　　14 mm of programmable autofocus to set focus position

　　Temperature sensors protect optics and minimize the chance of overheating

　　Quick, toolless access to the sealed cover glass

　　End-user serviceable focus lens

　　Nozzle cooling for use with highly reflective materials

　　Sealed optics LaserMech FiberCUT® 2D

　　FiberCUT® 2D cutting heads deliver cutting-edge performance for flatbed systems up to 8 kW. Featuring automatic, programmable focus with 25 mm of travel, FiberCUT® 2D is a fully sealed, purged design that minimizes the chance of internal contamination. Ther are two cover glasses; one below the focus lens and a second below the fiber to protect collimator optics. Sealed access doors prevent contamination when cover glasses are serviced.

　　25 mm of programmable autofocus to set focus position

　　Internal sensors to determine the condition of all optics

　　Standard nozzle cooling and air blast

　　FiberCUT® 2Dx cutting heads deliver the largest diameter optics and clear aperture for high-power LASER cutting. Featuring LaserMech’s new autofocus system, FiberCUT® 2Dx is 3-5 times faster than the original FiberCUT® 2D. Internal sensors monitor humidity, and both internal and assist gas pressure. Improved water cooling provides reliable, continuous cutting up to 20 kW.

　　Internal sensors determine the condition of all optics

　　Fully sealed, end-user, service-friendly optics

　　Internal process monitoring detects pierce-through and loss of cut

　　Standard nozzle cooling and optional air blast

　　Piranha FLEX-series LASERs include a graphical CNC control with Cypcut software. It is a control system and software designed for sheet metal fabrication. Individual or multiple parts are imported as DXF files and can be nested automatically or manually. No knowledge of G- and M-codes is required.

　　Cypcut software is available as a free download and can be installed on any number of computers for offline programming at no additional cost. The completed nests can be directly transferred to the LASER CNC control via a network connection.

　　Features include:

　　AI, DXF, PLT, Gerber, LXD file format, and standard G code import

　　File optimization including removal of duplicates, connecting unclosed segments, removing minimal graphics and distinguishing inner and outer contour and setting machining sequence automatically.

　　Graphic edit functions including zooming, translation, mirror, rotation, alignment, replication, and combination.

　　Application of lead lines, cut seam compensation, micro-joint, bridge, inner/outer cut, etc.

　　Automatically distinguish inner and outer contour then determine the compensation direction and checking of the lead line.

　　Support curve split, merge and smooth; transfer text to curve; parts combination and explode etc.

　　Automatic nesting including common line cutting and remnant nesting.

　　Manual nesting by array function.

　　Flexible sorting functions. Users can group the graphics to lock the cutting sequence.

　　Preview the cutting sequence.

　　Quick set fly cutting.

　　Support of various piercing methods including segmented pierce, incremental pierce, pre-pierce, group pre-pierce. Users can also set separate parameters of pierce and cutting including LASER power, frequency, gas, pressure, peak power, delay, cut height etc.

　　Powerful material library function allows all process parameters to be saved for reuse of the same material.

　　Breakpoint memory when the cutting process is interrupted. Users can select resume position before or after breakpoint.

　　Users can locate to specified position in stop or pause status and resume cutting.

　　Supports round tube and plane sheet cutting.

　　Supports intersecting line cutting.

　　Supports various edge-find methods with high precision.

　　Supports remote control of the system through wireless operator and ethernet.

　　Service, training, and support of the CNC control and Cypcut is provided by Piranha.

　　Piranha FLEX-series LASERs offer the graphical Hypcut 8000 CNC control. Offering the same features as the Cypcut 4000 CNC, the Hypcut 8000 CNC includes advanced features to support high power resonators.

　　Hypcut software is available as a free download and can be installed on any number of computers for offline programming at no additional cost. The completed nests can be directly transferred to the LASER CNC control via a network connection.

　　Topsinn dust collectors include an independent controller with LCD screen, Siemens motors, and pulse control backflush valves. The solid industrial design provides for easy low cost maintenance and stable, low noise operation.

　　FARR GOLD SERIES® Packaged Dust Collector

　　Built-in spark baffle inlet to protect cartridges

　　Standard easy-to-remove dust drawer(s)

　　Factory installed sprinkler head mounted in dust collector

　　CONSTRUCTION

　　Gold Series module is constructed of 7 gauge steel

　　Door, hopper, inlet and panels are all 10 gauge steel

　　Powder Paint Finish

　　AUTOMATIC FILTER CLEANING

　　Filters are automatically back-flush cleaned with periodic pulses of compressed air

　　Vertical design of the Camfil APC cartridges provides more efficient pulsing of dust, thus eliminating uneven dust loading associated with horizontally mounted cartridges INTEGRATED CONTROLS

　　Hand/off/auto switch for direct control of dust collector

　　On-demand pulse cleaning controls

　　Digital and analog readout of filter pressure differential, alarm output of high pressure

　　Control voltage transformer FILTER ACCESS

　　Tool-less quick-open access door(s)

　　Cam-operated clamp bars INLET

　　Standard collared inlet allows for quick and easy hose connection

　　Perforated plate installed in the inlet protect the filters from incoming dust and separates the larger dust particles directly into the hopper, reducing the load on the filters

　　Includes integral inlet damper for airflow control

　　Oxygen (O2) and nitrogen (N2) are the most common assist gases used when cutting metals with a fiber LASER. Air is a combination of both O2 (21%) and N2 (78%), small amounts of argon and carbon dioxide, and trace amounts of other gases and water vapor.

　　Air cutting provides many of the benefits of N2 cutting along with increased cutting speeds in thicknesses 10ga (0.135”) and thinner and significantly lower cutting gas costs.

　　Air used in LASER cutting must be available with the correct purity, dryness, pressure, and flow. Typical shop air compressor systems are unable to deliver the air quality and performance necessary. A dedicated air compressor system is required.

　　Nitrogen generator is the separation of air components to capture nitrogen. Nitrogen makes up 78% of the gas in the atmosphere. The rest is 20.9% oxygen, 0.9% argon, 0.03% carbon dioxide and trace gases such as hydrogen, helium, neon, krypton, and xenon. For industrial LASER cutting equipment, PRESSURE SWING ABSORPTION (PSA) is used to provide the high pressures and flow rates required.

　　NOTE: The maximum flow rate and purity required depend upon the cutting application and edge quality expectations. Other nitrogen generation systems are available to meet different requirements. Please contact Piranha for more information.

　　Consumable kits are available which provide a starting stock of items that are recommended for a range of LASER cutting applications. If a different combination of items is desired, please contact the sales department for a quotation specific to those items.

　　The Remote CNC Control Station is located at the rear of the LASER enclosure and includes dual monitors and a keyboard. The main CNC control screen and video feed is mirrored. This system allows for LASER operation when loading or unloading the pallets.

　　The pop-up ball transfer sheet loading assist system is designed to allow material to be easily moved to the material reference stops. Ball transfers will raise to a location above the pallet slats. Once the operator locates the work piece against the stops, the ball transfers will retract so that the work piece rests directly on the slats, in the correct zero location. The system is located below the outside pallet and will work with either pallet in the pallet load location. This system is available for 510 and 613 configurations. Consult with your Piranha sales representative if another size is requested.

　　Piranha recommends preparing an optics servicing area located away from manufacturing area. This area must have minimum air movement and a dust free environment. For best results, we recommend purchase of a laminar flow box located in an office area.

　　NOTE: Optics contamination is the leading cause of premature cutting head failure. It is important that optics, such as cover slides, are changed in an extremely clean environment. This area will also be used for on-site cutting head maintenance (to be done by our technicians).

　　CNC Programming of the Piranha FLEX requires CAM software capable of supporting the advanced functions of the machine. The customer is responsible for all costs associated with the development of any new post processor from their selected CAM  software vendor. Piranha will provide any information required for the post processor development and will verify that the NC code samples created by that post processor are functional. Requests for information and NC code samples for testing must be

　　received by Piranha eight (8) weeks prior to the scheduled machine shipment.

　　If extra start-up time is required by Piranha to work with the CAM provider and to test the NC code during or after the machine installation, the additional Piranha service time and expenses will be invoiced to the customer at Piranha’s standard service rates

　　The Piranha FLEX must be in an area which has the following ambient conditions:

　　Ambient temperature between 10° and 40°C [50° and 104°F]

　　Relative Humidity at 95% or less

　　NOTE: Piranha requires that the LASER and chiller always remain on to avoid costly damage from condensation.

　　No special foundation is needed for the Piranha FLEX LASER. Standard concrete floors of a minimum 150mm (6”) depth are recommended. Flatness should be within 12mm (0.5”). There should be no expansion joints, saw cuts, or cracks in the floor beneath the frame of the LASER.

　　NOTE: Transformers are available for other voltages. Contact Piranha for more information.

　　NOTE: Customer shall install and utilize bulk liquid oxygen and bulk liquid nitrogen storage tanks. Using portable tanks for O2 or N2 will create additional chances of contamination entering the gas supply lines and the cutting head due to frequent tank changes. Cont0.amination will cause cutting head lens failure and thus cause machine down time and additional operating expense.

　　This budgetary proposal is a reference document and subject to change without notice. Upon request, a final proposal will be issued including firm pricing and contractual information. This budgetary proposal is not an agreement on pricing or specifications.