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DMG MORI

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DMG MORI Global Marketing GmbH
Walter-Gropius-Str.7
80807 München
Germany
+49 (0) 89 / 24 88 359 00
+49 (0) 89 / 24 88 359 02

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NZX2000 (Reference-Nr. 071316)

Asking price


  • Reference number 071316
    Manufacture Year 2014
    Operation Hours not applicable
  • Metal working machine
  • Lathes
  • Multispindle bar automatics
  • DMG MORI
  • Fanuc

  • General
    Multi-Axis Machine; Control: Fanuc 31iA with MAPPS IV
    Characteristics
    Max machining diameter 320 mm
    Lower Turret 16 Positions
    Rotary tool spindle speed 6000 rpm
    Movements X / Z / Y 210/810/110 (+45, -65) mm
    Input precision of C-axis on Mainspindle 0,001 degree
    Input precision of C-axis on Counterspindle 0,001 degree
    Drive power main spindle 25/22 kW
    Drive power tool spindle 7,5/5,5 kW
    Drive power second spindle 25/22 kW
    Movements X / Z / Y 210/300/110 (+65, -45) mm
    Rotary tool spindle speed 6000 rpm
    Max. Turning Length 810 mm
    Bar diameter max. 65 mm
    Speed max. 5000 rpm
    Spindle speed 2nd Spindle max. 5000 rpm
    Upper Turret 16 Positions
    Rotary tool spindle speed 6000 rpm
    Movements X / Z / Y 210/300/110 (+65, -45) mm
    Upper Turret #2 16 Positions
    Weight approx. 9500 Kg

  • C-axis brake (spindle 1, 2) C-axis brake (spindle 1, 2) This brake keeps the spindle in position. A brake pad clamps the disk installed on the spindle to prevent the spindle from jogging while it is stopped. If machining diameter for milling function exceeds bar work capacity, pl
    Workpiece stopper in spindle Workpiece stopper in spindle When machining with a workpiece inserted in the spindle through hole, the length you insert the workpiece can be adjusted by the stopper installed inside. The position of the stopper can be adjusted to 0 ~ 150 mm from the chuc
    (Spindle 1) KITAGAWA 8 Hollow Chuck Unit BB208A621 + SS1666K21 (Spindle 1) KITAGAWA 8 Hollow Chuck Unit BB208A621 + SS1666K21 Bar work capacity: F65 mm Maximum allowable spindle speed: 5,000 min-1 Jaw stroke (diameter): 7.4 mm
    (Spindle 2) KITAGAWA 8 Hollow Chuck Unit BB208A621 + SR1566C21 (Spindle 2) KITAGAWA 8 Hollow Chuck Unit BB208A621 + SR1566C21
    High-speed rotary tool spindle 12,000 min-1, 7.5/ 5.5 kW for turret 1 High-speed rotary tool spindle 12,000 min-1, 7.5/ 5.5 kW (turret 1) The maximum spindle speed for the rotary tool spindle is boosted to 12,000 min-1 from the standard 6,000 min-1. A rotary tool holder with an allowable speed limit 12,000 min-1 is not in
    High-speed rotary tool spindle 12,000 min-1, 7.5/ 5.5 kW (turret 2) High-speed rotary tool spindle 12,000 min-1, 7.5/ 5.5 kW for turret 2
    High-speed rotary tool spindle 12,000 min-1, 7.5/ 5.5 kW (turret 3) High-speed rotary tool spindle 12,000 min-1, 7.5/ 5.5 kW for turret 3
    Spindle 2 tailstock specifications Spindle 2 tailstock specifications You can use the sub spindle also as a tailstock. The servo motor on B-axis equips a brake to prevent the sub spindle from going back in case of emergency stop or power failure. Center is fitted by clamping it with chuck
    Oil skimmer Oil skimmer Removes oil rising to the surface of the coolant in the coolant tank by attaching to a revolving belt, preventing deterioration of coolant. Suitable for water-soluble coolant. Belt is made of polyurethane. Please avoid using coolant containi
    High-pressure coolant system (635/ 1,040 W) (T3, T3Y2, T3Y3) High-pressure coolant system (635/ 1,040 W) (for turret 3 specifications) With this specification, abilities to remove the chips and to cool the tool or workpiece during cutting are higher compared to the standard coolant unit. 3 pumps which supply coola
    Air blow for chuck (spindle 1) Air blow for chuck (spindle 1) An air jet port on the upper side of the chuck ejects air to remove chips adhering on the jaws and chuck. This prevents loss of gripping accuracy caused by chip accumulation.
    Air blow for tool tip (turret 1) Air blow for tool tip (turret 1) Discharges air on the tool tip and removes chips adhering to it. Coolant discharge port on turret 1 can also discharge air with this specification. Air blow to the tool tip are effective in removing dust while measuring
    Air blow for tool tip (turret 2) Air blow for tool tip (turret 2) Discharges air on the tool tip and removes chips adhering to it. Coolant discharge port on turret 2 can also discharge air with this specification. Air blow to the tool tip are effective in removing dust while measuring
    Air blow for tool tip (turret 3) Air blow for tool tip (turret 3) Discharges air on the tool tip and removes chips adhering to it. Coolant discharge port on turret 3 can also discharge air with this specification. Air blow to the tool tip are effective in removing dust while measuring
    Chip conveyor (right discharge, hinge type) Chip conveyor (right discharge, hinge type) Chips are transferred to outside the machine by hinge type plate. Effective in discharging long chips. This is not suitable for discharging powdery chips generated when cutting mold or gun metal. Cutting those
    Mist collector Interface (duct dia. 200 mm + electric parts) (HVS-220) Mist collector I/F (duct dia. 200 mm + electric parts) (HVS-220) If you select this specification, a duct and an interface for the mist collector will be installed on the machine.
    Direct scale feedback for X-axis (turret 1) Direct scale feedback for X-axis (turret 1) Makes positioning on x-axis of turret 1 high accurate and stable and enables better precision machining. Not effected by precision error of ball screw or thermal displacement of x-axis. A magnetic scale is pla
    Direct scale feedback for X-axis (turret 2) Direct scale feedback for X-axis (turret 2) High-accuracy and stable positioning on x-axis of turret 2. Better precision machining. Not effected by precision error or thermal displacement of ball screw on the x-axis. A magnetic scale is placed parallel
    Direct scale feedback for X-axis (turret 3) Direct scale feedback for X-axis (turret 3) Makes positioning on x-axis of turret 3 high accurate and stable and enables better precision machining. Not effected by precision error of ball screw or thermal displacement of x-axis. A magnetic scale is pla
    Direct scale feedback for Z-axis (turret 1) Direct scale feedback for Z-axis (turret 1) As an Z-axis position sensor, a magnetic scale is adopted instead of a pulse encoder. This is not influenced by a precision error or thermal displacement in ball screw. A magnetic scale is placed parallel to Z-
    In-machine workpiece measuring system (turret 1) (spindle 1) In-machine workpiece measuring system (turret 1) (spindle 1) An optical sensor is installed on the turret 1, and measures a length and a diameter of the workpiece clamped in the spindle 1. Using an adapter for angle adjustment included as an accessory, th
    In-machine workpiece measuring system (turret 3) (spindle 2) In-machine workpiece measuring system (turret 3) (spindle 2) An optical sensor is installed on the turret 3, and measures a length and a diameter of the workpiece clamped in the spindle 2. Using an adapter for angle adjustment included as an accessory, th
    External workpiece bucket (spindle 2) External workpiece bucket (spindle 2) During automated system operation by means of a work unloader (The sub spindle), the workpieces carried out to outside of the machine by a workpiece conveyor are collected into this container. Coolant is filled in t
    Spindle 2 workpiece ejector (cylinder type) (NZX2000) Spindle 2 workpiece ejector (cylinder type) (NZX2000) This is option for the Spindle 2 specifications. A workpiece can be unloaded using the workpiece unloading device which is directly driven by an air cylinder.
    Bar feeder I/F Bar feeder I/F (LNS) (multiple) This is the interface for the bar feeder, which increases productivity by feeding bar material automatically.
    Polygon turning Polygon turning Main spindle work and rotary tool are rotated synchronously at constant ratio to process polygonal shapes.
    Part program storage length 1 MB (2,560 m) in total + Registerable programs 1,000 in total Part program storage length 1 MB (2,560 m) in total + Registerable programs 1,000 in total The storage capacity can be increased to 1 MB, and up to 1,000 programs can be registered.
    Variable lead threading Variable lead threading Variable lead thread cutting is conducted by specifying lead increase or decrease in one rotation of the thread.
    Installation of high-speed skip terminal Installation of high-speed skip terminal A terminal bllock is provided in the electrical to directly input the external skip signal to CNC. Wiring for connecting to the terminal block is not included in this specifications.
    Circular threading Circular threading This allows circular thread cutting, with the lead in the longitudinal direction. Thread can be machined continuously by repeatedly specifying the thread-cutting command.
    5 external M-codes 5 external M-codes This function contributes and expands the existing M-codes. To add this, let the M-codes output pass through the relay and dispose terminal block connected to the A-contact on the MTX substrate.(Terminal 1 and 2) We will prepare 5 in
    Synchronous tapping (turning spindle) Synchronous tapping (turning spindle) Highly accurate tapping is possible, since the rotation of the turning spindle and the Z-axis feed are constantly synchronized.
    DXF Import function DXF Import function By importing 2D CAD data (DXF data), data for workpieces with complex contours can be input easily. Data import is possible in the GENERAL, MILLING, and HOLE processes of the machining menu. ·Program creation time is substantially re
    MORI-POST Advanced mode MORI-POST Advanced mode This function allows you to customize NC programs created using the MAPPS II or MAPPS III automatic programming functions. It lets you make detailed NC programs to suit your needs.
    (Only for Europe) Islands, open pockets Islands, open pockets Islands ·Programming process can be greatly simplified because minimum input operation is required even for the complex machining. Open pockets Definition of open pockets eliminates tool paths with no machining allowance, makin
    (Only for Europe) High-speed canned cycle High-speed canned cycle High-speed cutting can be specified with one line of program. This function enables the user to reduce programming time by adding a new cycle that can create a high-speed, time saving complicated programs.
    Program restart The program restart function allows the program to be restarted from a desired block if a tool is broken or for restarting the suspended operation after holidays. To restart the program, specify the sequence number of the block or the block number to be r
    Multi-counter display Multi-counter display Multi counter display is used to control the number of machined workpieces. Each time the M2000 to M2020 commands written in a program are read, the counter increments the count. Register the setting values on the MULTI COUNTER scree

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