product

TCY-160

TCY-160

TCY-160YSL3

Process integration of small workpiece in compact

This compact combined machining lathe can integrate turning processes and rotating-tool cutting processes of small parts all in one.
Milling and Y-axis control realize highly efficient process integration.

Machine Main Specifications
  TCY-160YS TCY-160Y
Right Spindle Stock   -
Tailstock (NC Servo Type)   -
Y-Axis  
Left C-Axis
Right C-Axis   -
Milling  
Chuck Size inch 6+6 6
Type of Turret   12-Station Drum Turret, All-Holder Type
Max. Turning Diameter mm φ220
Max. Turning Length mm L3 : 291 L5 : 491
Bar Capacity(Left Spindle) *1 mm φ42
Bar Capacity(Right Spindle) *1   φ42 -
Left Spindle Speed min-1 4000 [OP. 6000]
Right Spindle Speed min-1 4000 [OP. 6000] -
Rotary Tool Speed min-1 6000
Rapid Traverse Rate m/min X : 20 / Z : 24 / Y : 10
Left Spindle Motor
(15 min/continuous)
kW 5.5/3.7 [OP. 7.5/5.5]
Right Spindle Motor
(15 min/continuous)
kW 3.7/2.2 -
Rotary Tool Motor
(15 min/continuous)
kW 3.7/2.2/1.5
Machine Height mm 1700
Required Floor Space mm L3 : 2400×1695 L5 : 2760×1795 L3 : 2010×1695 [OP. 2210×1695 *2]
L5 : 2760×1795
Machine Weight kg L3 : 3500 L5 : 4100

●: Standard ○: Optional -: None
*1) Please note the bar capacity follows types of chucks and cylinders.
*2) It is dimensions at the time of the tailstock wearing.

Loader Target Workpiece
Outside Diameter mm φ100
Length mm 60
Weight kg 0.7 (×2)
Work Piece Feeder Specifications
Number of Pallets 14
Loading Capacity(Per Pallet) kg 25
Work Stacking Height mm 450

Right Spindle Stock(YS)
Including options.

NC servo tailstock (Y)
Including options.

Automation(Optional)

Loader Specification

It supports continuous automatic operation by TAKISAWA's original gantry loader and various peripheral equipment. Automation by bar feeder is also available.

Optional

  TiwaP-1 Type

  Loader Specification

  Bar Feeder Specification

Takisawa Original Software 
Tiwap-1(Optional)

"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.