Ensuring workability and safety with large axis travel
Extending the range of target workpieces!

Usability is realized by large axis travel of X-axis 640 mm, Y-axis 230 mm, and Z-axis 690 mm. Thanks to the large travel amount, highly accurate machining of such as milling and end face drilling is possible by one chucking with the C-axis (spindle) fixed.

Higher efficiency by integration of machinable range and reduction of machining tools

The tool spindle index function (B-axis) extends machinable range and easily corresponds to various workpieces. The tool spindle can perform high accuracy indexing of ±130°every 1° , allowing integration of different processes by one tool.

High quality turning

The turning tool is positioned and fixed to the tool spindle by the highly accurate index coupling of the tool spindle milling spindle, and multi-functional tools for OD turning can be used.

Machine Main Specifications
TMX-2000 TMX-2000S
Right Spindle Stock   -
Tailstock (NC Servo Type)   -
Chuck Size inch 8 8+8
Type of Turret   Tool Spindle with ATCTool Spindle with ATC
Max. Turning Diameter mm φ500
Max. Turning Length *1 mm 610
Bar Capacity(Left Spindle) *2 mm φ65
Bar Capacity(Right Spindle) *2 mm - φ51
B-Axis Swivel Range deg 230 (±115)
Left Spindle Speed min-1 5000 5000
Right Spindle Speed min-1 - 5000
Tool Spindle Speed min-1 12000
ATC Tool Storage Capacity   40 [OP. 80]
Rapid Traverse Rate m/min X : 40 / Z : 40 / Y : 40 / A : 20
Left Spindle Motor(30 min/continuous) kW 15/11
Right Spindle Motor(30 min/continuous) kW - 11/7.5
Tool Spindle Motor (S3 25%/continuous) kW 11/7.5
Machine Height mm 2783
Required Floor Space mm 4150×2923
Machine Weight kg 13700 14000

●:?Standard -:?None
*1) The maximum machining length differs depending on the chuck type. When the machining length is 435 mm or more, the end face machining range is limited.
*2) Please note the bar capacity follows types of chucks and cylinders.

Takisawa Original Software 

"TiwaP-1" is an interactive programming system fully supporting creation, simulation, and execution of machining programs to reduce operator' labor.
"Input" by the interactive system is easy for the operator to create programs without knowledge of G codes. "Check" of programs can be done by simulating the cutting results with 3D animation and tool path drawing. In "Operation", the machining spindle and the order of process types are automatically recognized to optimally execute spindle control and C-axis zero return.