APPLICATION CATALOGUE CNC FOR PLASMA OXY FUEL AND LASER CUTTING Version 1.1 10/09/2013 ISAC S.r.l. CAPITALE SOCIALE 100.000,00 C.F. e P.I. 01252870504 VIA MAESTRI DEL LAVORO, 30 56021 CASCINA (PI) ITALY WWW.ISACSRL.IT TEL 050 711131 FAX 050 711472 ISACSRL@ISACSRL.IT Posta Certificata: ISACSRL.IT@PEC.IT Azienda con sistema di qualità certificato UNI EN ISO 9001:2008
ISAC SRL Versioning information Version 1.1 10/09/2013 (dd/mm/yyyy) Added a new section called: Application Gallery: CNC for Plasma, Oxy Fuel and Laser Cutting Version 1.0 10/07/2013 (dd/mm/yyyy) First release Page 2 of 11
CNC FOR PLASMA OXY FUEL AND LASER CUTTING CNC for Plasma, Laser Cutting and Oxy Fuel Several configurations are proposed with different computational performances and resources organization. According to needs you can choose different monitor, with performances and different dimensions, moreover to the possibility to use a common monitor of PC type with VGA input. The model Q is provided of CANopen port and allows to connect distributed input and output, displaced where it is more useful inside of electrical cabinet and along on the machine CNC Compact and I/O expansion Monitor For all configuration it is proposed the monitor : OPMMIVGA6: VGA color monitor TFT 15 with touch screen. Resolution: 1024x768 pixel. Refer to Peripheral and Accessories catalogue for further descriptions. CNC Q and I/O terminal boards GROSSP0100 GROSSP0200 GROSSP0300 Proposed Hardware for Thermal Cutting Central Unit Compact Compact with I/O expansion Q I/O units BASIOEX1 BASIOCAN5 + Page 3 of 11
ISAC SRL GROSSP0100 GROSSP0200 GROSSP0300 BASIOCAN6 Details Digital Inputs 16 32 32 Digital Outputs 16 32 32 Analog Inputs 2 2 2 Analog Outputs 1 1 1 Analogic Interface for servo driver Pulse Direction for servo driver Mechatrolink II interface for Yaskawa servo driver CANopen interface for I-O (DSP401 ) and Drivers for the controlling of motion (DSP402) Application for Thermal Cutting: OPCAMOSSP1 Functionality and Working HMI dedicated to the application Programming through inner CAM interface, provided of library of parametric typical geometries. Programming through third-party CAD-CAM, by importing file of standard ISO format. Test of cutting trajectories with graphic preview Compensation of cutting jet Importing of DXF files from CAD and transforming into a cutting path including: the sense of motion, position of cutting jet with respect to the finished piece and type of attack to the asked position. Automatic controlling of the height of the plasma torch or oxi torch including the setting procedure Recovery from interrupted cutting (Retrace) Restarting from the pierce Management of Gantry Management of the override by Feed potentiometer Management of manual moving of the axes by means Joystick Database parameters of working for plasma source and control unit for Oxi in function of material and thickness Controlling of consumption of consumable accessories Self-acquisition of the dimensions of the sheet Test of cutting program (Trial) Direct interfacing with source Restart from the pierce with displacement of entry point Management of tilting axis of the torch Management Drilling with turret changing tool Management of working of circular and squared tubes Management of router for cutting with plasma torch, or oxi torch or together Management of double head of cutting Management of Marker Management of beveling Remote diagnostic Automatic superimposition of the trajectory at the beginning and the end of the cut to eliminate the attack / detach tooth of the flame to the profile (for PLASMA) Disabling of the torch height control when the arc of circumference to cut is below a defined threshold (for PLASMA) Beginning of programmed cut starting from the plate Page 4 of 11
CNC FOR PLASMA OXY FUEL AND LASER CUTTING edge (for OXY) Support of the pieces cut by adding a hook-shaped manual cut (for OXY) Disabling / enabling of the speed override and of the torch height control from program to ensure the speed set by the CAD-CAM or to eliminate collisions between the torch and the plate GROSSP0100 GROSSP0200 GROSSP0300 See working on ISAC channel of Page 5 of 11
ISAC S.R.L. Screen-Shot for Plasma, Oxy Fuel and Laser Cutting application Main pages: these are the main pages of the application. The first is the manual mode (in this case two torches are available); the second is the automatic mode. Torch database: in this pages is possible to define the parameters of the plasma torch (on the top) and of the oxifuel torch (on the bottom). In the first case it possible to visualize the consumables life time. Page 6 of 11
CNC FOR PLASMA OXY FUEL AND LASER CUTTING CAD page: from this page it is either possible to choose an available macro (picture on the top) for which it possible to define the various dimensions (picture on the bottom) or to access the DXF editor (the main page of which is shown in the picture below) through which is possible to import a DXF file and to transform it into an ISO file. Page 7 of 11
ISAC S.R.L. Torch Height Control - THC To obtain cut precision and in order not to determine undesired flame shutdowns, it is necessary to keep a stable distance between the torch nozzle that generates the flame and the material to be cut. It is moreover necessary to execute a precise sequence of actions for lighting the torch. The distance between the nozzle and the metal plate depends on the type of material to be cut and its thickness. These factors also affect the parameters that determine the procedure for flame ignition and the parameters of the unit that provides the power to cut (Plasma Cutting Unit). To set these parameters it is possible to use: the operator interface present on the Plasma Cutting Unit; the Host CNC connected via serial line; the Torch Height Control (THC) ISAC CNC automatically handles torch height control moving the torch through a servo motor or a step motor. Other numerical controls do not offer this functionality. Moreover, when cutting machines require more oxifuel torches, the handling of the torch height control occurs through an additional device such as, for example, the ISAC Torch Height Control, THC. The THC interfaces (see picture below): the Safety Unit; the Host CNC; the mechanics that moves the torch, consisting in a 400 W step motor (Mechanical Torch Height Control); the Plasma Cutting Unit. The THC offers two types of operator interfaces. The first (Minimal HMI), consists of three potentiometers (to adjust the parameters essential to its functioning) and a selector (for manually handling the torch up and down). The other (Advanced HMI) consists of a 4.3 inches touch screen through which a wider array of choices and settings is available. With the second interface it is Page 8 of 11
CNC FOR PLASMA OXY FUEL AND LASER CUTTING possible to use a database resident in the THC that allows to know the optimal parameters to be set on the Plasma Cutting Unit and on the THC. The optimal parameters can be easily obtained consulting the database, by setting the material to be cut and its thickness. The database is created by taking into account the supplier and the model of the Plasma Cutting Unit. The optimal parameters derived from the database can be used by the operator by setting them manually on the Plasma Cutting Unit through its operator interface or can be sent from the THC to the Plasma Cutting Unit through a communication protocol via serial line. Page 9 of 11
ISAC S.R.L. Applications Gallery for Plasma, Oxy Fuel and Laser Cutting Machines Please find Below some different types of machines where could be applied ISAC control Plasma and Oxy-Fuel Machine Plasma Machining with Plasma Page 10 of 11
CNC FOR PLASMA OXY FUEL AND LASER CUTTING Oxy-Fuel Machining with Oxy-Fuel Laser Cutting Machine Page 11 of 11