Installation area is minimized to rectangular shape which allow a 75% saving in space when compared of a conventional type table travel machine 4.9 meter machine height is beneficial when confronted with a factory that has a low ceil
Crossrail, which travel on wall column, is supported by two rigid and stable saddles and has low gravity center to assure high accuracy and rigidity. Mono-block casted spindle head has full closed carefully adjusted guide for square ram (ram section is 380 x 380mm).
Rigid and stable movement in positioning is derived from crossrail configuration.
Crossrail, which travel on wall column, is supported by two rigid and stable saddles and has low gravity center to assure high accuracy and rigidity.
Each of master side saddle (left) and slave side saddle (right) are guided on two roller type rolling guideways and fed by ball screw located at center of them to assure high accuracy.
Mono-block casted spindle head has full closed carefully adjusted guide for square ram (ram section is 380mm x 380mm) (left) and Mono-block casted spindle head with buit-in ram guideway (right).
Hand scraping on ram guideway.
Several variations and layouts are available from the basic construction of the machine to a combination of basic machine and configuration with special attachments and optional accessories as shown below.
Machining example (Sample data)
5-face Cutter Head
Note : Standard accessories marked with “* ” shall be deleted, when a relevant optional accessory is selected in stead of the standard accessories.
(Items marked with ☆ are included in the pack specifications.)
TOSNUC PX100, A personal computer architecture. Integrated into our TOSNUC controller developed
specifically to enhance our CNC controller with higher performance functions and even more versatility. Our goal to create more innovative features that support easier operation thus contributing to an increase in productivity and machine performance.
Based on our extensive experience integration between mechanical and electronic technology. Our new CNC controller was developed with an emphasis on easy operation, easy to understand and easy to remember. This perfect combination is the Key to achieving higher machining accuracy in high speed machining.
By pressing a soft key on the selected screen a menu will appear showing the desired function on a sub display window. Having a pop up display menu type system avoids complicated hierarchy in software and shortening the scan time to process a desired function.
Multi-task and multi-window is a feature that enables you to open a window file from any current screen to perform program input/output deleting or copy a program to execute a calculator screen clipboard. Program list and memory are connected to a user media and displayed on the screen allowing the program to be checked in a preview window within the same screen during input or output of programs from a user media.
The screen can be divided into three sections to display two program screens and the third shown MODAL OFFSET DATA compensation information which is required upon machining. These three screens run independently during automatic operation and during editing. A new program can be generated and created utilizing a clipboard feature and or background split screen edit two programs simultaneously as compared to a personal computer.
A general program running on G17 plane when programmed on X-Y plane and machining a depth on inclined surface as shown does not require a program modification. This very important feature convenient and executable with G command and canned cycle simplify machining of an inclined surface without effort.
Generally, a profile to be machined requires a true shape and shape error decrease as servo gain increase. However high gain causes over shoot and increases machine vibration from large acceleration to mechanical system, which causes a bad surface finish in machining. Preview control based on optimum control theory is developed to prevent such affect on machined surface and minimize shape error without setting high gain.
Generally, a profile to be machined requires a true shape and shape error decrease as servo gain increase. However high gain causes over shoot and increases machine vibration from large acceleration to mechanical system, which causes a bad surface finish in machining. Preview control based on optimum control theory is developed to prevent such affect on machined surface and minimize shape error without setting high gain.
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