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Super NTMX
World Prem ier e : Tw i n ATC Mach i ne
Fusion between a 5-axis machining center and a lathe
Super NTMXSuper Mult i tasking Machine
TOOLSPINDLE
LOWERTURRET
Optimized Setup and Flexibility with Twin ATC-Magazines
Fusion between a 5-axismachining center and a lathe
Nakamura-Tome9 Nakamura-Tome 10
Super NTMX
Super NTMX
■Capacity
■Axis travel
■Left and Right spindle
■Tool spindle
■Lower turret
■General
Max.turning diameter / Max.turning lengthDistance between spindlesBar capacityChuck size
Slide trave(X1/X2/Z1/Z2/B2) Slide travel(Y)
Spindle speedL spindle motorR spindle motor
Tool spindle speedTool spindle motorTool shank typeNumber of ATC toolsMax. tool diameterMax. tool length / Max. tool weightB-axis positioning range
Type of turret / Number of indexing pos. Drive type / Number of driven-tool stations (op.)Driven-tool spindle speed (op.)Tool spindle motor (op.)
Floor space (L×W×H)Machine weight
220mm / 780mmmax.980mm / min.210mmL, R : 51mm L,R:65mm(op.)L, R : 165mm(6”),210mm(8")
570mm/130.5mm/1297mm /658mm/770mm±100mm
5000min-1 4500min-1(op.)11/7.5kW11/7.5kW
12000min-1 (op. 20000min-1)7.5/3.7kWCAPTO C4,HSK-A40(op.)48pcs. (24×2)60mm / 80mm(without adjacent tool)180mm / 4kg190°(±95°)
Dodecagonal/24stIndividual rotation/126000min-1
7.1/2.2kW
3,935mm×3,015mm×2,650mm14,500kg
A2ATC
B1Tool Spindle
YY-axes
TTurret
S2Twin-Spindle
C2C-axes
B2Right spindle
MMilling Motor
Turning/Milling L/R chuck size 6”
Distance between spindles 980mm Max. turning diameter 220mm Max. turning length 780mm
(op.)L/R Bar capacity 51mm,65mm Spindle speed 5000min-1 Spindle motor 11/7.5kW
Tool spindle motor 7.5/3.7kWTool spindle Y axis 200mmB1 axis 190° (24pcs.×2)
Number of ATC tools 48pcs.
Tool shank type CAPTO C4
2-path controlF-31iA5 9 controlled axes
Tool shank type HSK-A40 (op.)(op.)
Driven-Tool motor7.1/2.2kW 6,000min-1
Superior Precision and High Accuracy
Fusion between a 5-axismachining center and a lathe
Nakamura-Tome11 Nakamura-Tome 12
MX-5
MX-5
■Capacity
■Axis travel
■Left and Right spindle
■Tool spindle
■Lower turret
■General
Max.turning diameter / Max.turning lengthDistance between spindlesBar capacityChuck size
Slide trave(X1/X2/Z1/Z2/B2) Slide travel(Y)
Spindle speedL spindle motorR spindle motor
Tool spindle speedTool spindle motorTool shank typeNumber of ATC toolsMax. tool diameterMax. tool length / Max. tool weightB-axis positioning range
Type of turret / Number of indexing pos. Drive type / Number of driven-tool stations (op.)Driven-tool spindle speed (op.)Tool spindle motor (op.)
Floor space (L×W×H)Machine weight
220mm / 780mmmax.980mm / min.210mmL, R : 51mm L,R:65mm(op.)L, R : 165mm(6”),210mm(8")
570mm/130.5mm/1297mm/658mm/770mm±100mm
5000min-1 4500min-1(op.)11/7.5kW11/7.5kW
12000min-1 (op. 20000min-1)7.5/3.7kWCAPTO C4,HSK-A40(op.)48pcs. (24×2)60mm / 80mm(without adjacent tool)180mm / 4kg190°(±95°)
Dodecagonal/24stIndividual rotation/126000min-1
7.1/2.2kW
3,935mm×3,109mm×2,754mm15,500kg
A2ATC
B1Tool Spindle
YY-axes
TTurret
S2Twin-Spindle
C2C-axes
B2Right spindle
MMilling Motor
Turning/Milling L/R chuck size 6”
Distance between spindles 980mm Max. turning diameter 220mm Max. turning length 780mm
(op.)L/R Bar capacity 51mm,65mm Spindle speed 5000min-1 Spindle motor 11/7.5kW
Tool spindle motor 7.5/3.7kWTool spindle Y axis 200mmB1 axis 190° (24pcs.×2)
Number of ATC tools 48pcs.
Tool shank type CAPTO C4
2-path controlF-31iA5 9 controlled axes
(op.)
Driven-Tool motor7.1/2.2kW 6,000min-1 Tool shank type HSK-A40 (op.)
Sort accordingly with the program.
Sort accordingly with the program.
Move the tool to the Cutting side
ATC
Left side machining Right side machining
ATC
Up to 72 Tool-Stations are Standardin a Compact Machine!Permanent tooling improves productivity!
Superior Operation and Flexibilitywith Twin Magazines.
72 stations
Nakamura-Tome13 Nakamura-Tome 14
Tool positions on ATC magazine are automatically rearranged according to tool calling seguence in program for shortest magazine indexing.
Auto Sort Function
Operator can randomly mount the tools in the ATC, then.automaticallyrearrange them in the same sequence as the machining program.
Storing left or right side spindle cutting tools respectively on the left or right side ATC magazine, enables tool change on the nearest magazine. Additionally, tools are easier to manage and mistakes are preventable.
Shortest distance ATC
■Tool setting and magazine setup are all done in the front side of the machine.
■Even when the machine is running, access to the ATC magazine is possible to check tool condition or change inserts or tools as needed.
On the tool setting screen, setting the tool number, tool type and tool size is performed easily. Finding one specific tool inside the tool list can be done quickly and precisely, by using the “Tool search function”.
Easy Tool ManagementEven when the machine is running in auto mode, either tool magazine can be rotated in manual mode, and tools loaded for the next setup. It is possible also to use one magazine for one setup, and keep the second magazine for the next setup. In that case the setup time can be reduced to near “zero”.
Change Tool setup without stopping the machine.
Tool setting screen Operation in the front side
48 ATC Tools
By using twin ATC Magazines, it became possible to have 48 tools in a compact space.
Max. Tool diameter
Max. length/weight
Tool shank type
Tool changing time
60mm(80mm Without adjacent tool)
180mm・4kg
SANDVIK CAPTO C4,HSK-A40(op.)
1.3 sec.
Lower Turret
Wider range of machining operations thanks to driven-tools on lower turret.Highly-rigid compact driven-tool holders ensure milling and drilling operations with minimum interference. Additionally, turret indexing time of 0.2 seconds and upper / lower simultaneous machining reduce idle times and contribute tohigh productivity.
The Capto coupling with high rigidity and high accuracy keeps repeatability within ±2 μm in all directions. Additionally, the polygon taper ensures radial centering around the coupling, resulting in a repeatability within ±2 μm in the Y-axis direction.
CAPTO Tool
Type of turret head
Number of tool stock
Number of rotating tools
Size of rotating tools
Dodecagonal drum turret
24(Turning Tools)
12
dia 1~14mm
24stations
ATC#1
Super NTMX/MX-5
24stations
ATC#2
Tool Setup Next setup
Tool Management Changing Tool Setup
Tool setup for the next part can be done from theleft or right side ATC, even with a running machine.
Active tools can be checked easily byusing the “Tool-setting screen”.
Easy access from machine front side ensuresthat tools are changed comfortably.
190°
Max. tool diameter 80mm(without adjacent tool)
Max. tool length 180mm
24stations
Lower turret
135mm
MAX.180mm
135mm
MAX.180mm
NTMX
Our ratio
A thoroughly thought new machine conceptto achieve high-precision machiningFeaturing solid machining capabilities for a wide spectrum of parts.
Nakamura-Tome15 Nakamura-Tome 16
Super NTMX/MX-5
X, Y, Z-Axis slides have a fully horizontal and vertical structure. Highly rigid column with very wide frame ensures high accuracy machining.
Fully horizontal and vertical structure.●Wide and highly rigid slides for linear axes X1 axis Slide base length: 750mm Slide base distance: 572mm Y1 axis Slide base length: 815mm Slide base distance: 740mm Z1 axis Slide base length: 970mm Slide base distance: 770mm
●Roller drive backlash-free for B1 axisHigh accuracy positioning and sufficient rigidity is achieved.
High Rigidity Tool Spindle
X axis
Very wide and long frame.
Y axis
Z axis
Simultaneous turning with upper and lower toolsR-side turning with tool spindle / L-side turning with lower turret
Balance cutting with two tools simultaneouslySimultaneous turning with upper and lower tools
Rotating center is available on the lower turret. Useful when accuracy is critical, or during machining long shafts.
Milling operation with center support
Steady rest is available on lower turret.Steady rest (Example on Super NTX)
High-accuracy transfer is achieved by accurate positioning through phase synchronization, and by direct chucking
Part transfer process
Although considered a floor space saving machine, the Super NTMX has a wide working range, featuring a stroke of 200 mm for the Y-axis and 780 mm for the Z-axis. The upper or lower unit can be freely programmed to work on either of the two spindles, maximizing process flexibility. Additionally, part supporting such as servo-controlled center support among others, contribute to one-hit machining from bar work, shaft work or forgings.
X1, Y1, and Z1-axis servo motors are directly mounted to the respective ball screws, ensuring a backlash-free high-speed smooth movement. Linear scales on the X1, Y1 and Z1 axes, and high precision rotary encoder on the B1-axis are standard equipment on the MX-5, providing the highest positioning accuracy.
Direct DriveBy reducing the distance from the tool tip to the center of rotation, a high precision B- axis machining is achieved.
High Precision B-axis
Y-axis is a column moving independently. Sufficient rigidity is achieved regardless of the position of the Y-axis.
Stable Y-axis Stable Y-axis200mm
Flexible!
◀Y+100mmY-100mm▶
Built-in motorMX-5NTMX(op.)
High precisionball screws onX1,Z1,Y1 axesMX-5
Tool spindle
■Wide machining areaMax. turning diameter
:220mmMax. turning length
:780mmDistance between spindles
:980mm
Built-in motorMX-5NTMX(op.)
Linear scales forX1,Y1,Z1 axes.MX-5NTMX(op.)
Cooled
Cooled
Cooled Cooled
200mm
From raw material to finished part, complete in one setup.
Nakamura-Tome17 Nakamura-Tome 18
Super NTMX/MX-5
Specifications
Y1-axis
B2-axisB1-axis
C1-axisC2-axis
Z1-axis
Simultaneous 4-axis control ofX2, Z2, C2 and B2 axesSimultaneous 4-axis control ofX2, Z2, C2 and B2 axes
Z2-axis
X2-axis
Lower turret
L-Spindle R-Spindle
X1-axisSimultaneous 5-axis control of X1, Z1, Y1, C1 (C2) and B1 axesSimultaneous 5-axis control of X1, Z1, Y1, C1 (C2) and B1 axes
Left spindle motor will be changed from belt-drive to built-in type motor, when driven-tools on lower turret are selected.
●L/R spindle motor φ51mm11/7.5kW
75.4/38.6N・m
φ65mm11/7.5kW
77.8/39.8N・m
Built-in motorφ51mm11/7.5kW108/85N・m
Built-in motorφ65mm11/7.5kW108/85N・m
φ51(op.)11/7.5kW143/51N・m
φ65(op.)11/7.5kW143/51N・m
Built-in motorφ51mm11/7.5kW143/110N・m
Built-in motorφ65mm11/7.5kW143/110N・m
Super NTMX
●L/R spindle motor
MX-5NTMX(op.)
φ65mm
250mm
3kg
Door-mounted stocker
Outlet chute
+/‒ 100mm
7.5/3.7 kW
12,000min-1
190 deg (+/- 95deg)
37.5min-1/50min-1
Servo motor + cam
5deg
0.001deg
CAPTO C4,HSK-A40(op.)
24 × 2
60mm / 80mm
180mm / 4kg
1.3 sec.
Dodecagonal drum turret
24
24
12
20mm
25mm
Individual rotation
6,000min-1
7.1/2.2kW
12
φ1 to 14mm
φ1 to 14mm
0.001deg
0.001deg
600min-1
1 to 4,800deg
1 to 10,000deg
1 to 40,000deg
1.5 sec.
Slide travel Y1-Axis
Tool spindle motor
Tool spindle speed
Indexing range
Indexing speed NTMX/MX-5
Indexing mechanism
Clampfunction
Tool shank type
Number of tools stock
Max. tool diameter / without adjacent tool
Max. tool length / Max. tool weight
ATC time (Tool to Tool)
Type of turret head
Number of tool indexing
Number oftools
Tool size
φ51mm
11/7.5kW
5,000min-1
A2-5
90mm
φ65mm
4,500min-1
A2-6
110mm
Bar capacity
Spindle motor
Spindle speed
Spindle nose
I.D. of front bearing
Least input increment
Least command increment
Rapid index speed
NTMX
MX-5
MX-5(AI contour cont.)
C-axis connecting time
Diameter
Length
Weight
Inside machine
Outside machine
CapacityParts catchertype A(op.)
Unloading
φ12mm to 65mm
150mm
3kg
NC control
Diameter
Length
Weight
CapacityParts catchertype G(op.)
Control
Tool spindle Spindle
Lower turret
Rotary system
Spindle speed
Rotating tool motor
Number of rotating tool station
Tool shank
Driven-Tools(op.)
C‒AxisCurvic coupling
Brake
Turning
Milling
Square shank
Round shank Straight holder
Cross holder
Cuttingfeed rate
●Tool spindle
Tool spindle speed
12,000min-1
Tool spindle speed20,000min-1(op.)
●Bar capacity L/R
φ51mm
5,000min-1
φ65mm4,500min-1(op.)
●Lower turret
Driven-Tools(op.)6,000min-17.1/2.2kW
Nakamura-Tome19 Nakamura-Tome 20
High speed multi-tasking machining. Engraving with tool spindle
Applications from Various Industries
■ Features■ DetailsIndustry Aeronautics industry
Part name Wheed
Cycle time 8 min.
Material Aluminum
Raw material Cylindrical slug
Deep-hole drilling, at a freely programmable angle Center support with the lower turret
■ Details ■ FeaturesIndustry Medical industry
Part name Thighbone support
Cycle time 30 min.
Material Titanium
Raw material Bar stock
Turn-milling with simulta-neous 4-axis machining. Profiling machining with CAD/CAM system. One hit machining from bar stock.
■ Details ■ FeaturesIndustry Aeronautics industry
Part name Blade
Cycle time 50 min.
Material S45C
Raw material Bar stock
High-speed multitasking of Y-axis use machining
■ Details ■ FeaturesIndustry Medical industry
Part name Pump part
Cycle time 12 min.
Material Titanium
Raw material Bar stock
High speed milling. Small drill (Diameter 0.5 mm) Center support on lower turret
■ Features■ DetailsIndustry Aeronautics industry
Part name Joint
Cycle time 14 min.
Material Stainless SUS303
Raw material Cylindrical slug
Milling a spherical surface with the tool spindle at 12,000 min-1
■ Details ■ FeaturesIndustry Medical industry
Part name Hip cup
Cycle time 43 min.
Material Titanium
Raw material Bar stock
High-speed multitasking of Y-axis use machining
■ Details ■ FeaturesIndustry Aeronautics industry
Part name Joint
Cycle time 17 min.
Material SKD11
Raw material Cylindrical slug
Diameter 1.5 mm through-hole drilling. Special thread machining
■ Details ■ FeaturesIndustry Medical industry
Part name Bone screw
Cycle time 8 min.
Material Titanium
Raw material Bar stock
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Accuracy
Positioning Accuracy of each axisRoundness by turning
High accuracy through Nakamura-Tome technology
Roughness by turning
Roundness (Actual value) Positioning Accuracy
Actual machining test
Max 5000min-1 0.43μm
Ra 0.1μm
●Cutting condition Spindle speed 5,000 min-1
Feed 0.05 mm/rev Depth 0.05 mm●Material C3604 (BSBM)●Tool Diamond nose R0.8
●Cutting condition Tool spindle speed 3,000 min-1
●Material C3604 (BSBM)●Tool End-mill
※According to the method of measurement specified by ISO 230-2
Outside turning coaxialityRequired accuracy 0.01mmActual value 5μmHole positioning accuracy Required accuracy 0.03mmActual value 9μm
●Cutting condition Spindle speed 5,000 min-1
Feed 0.05 mm/rev Depth 0.05 mm
Note: Actual value data indicated in this catalog is for reference, and may vary depending on cutting environment and specifications.
Note: Actual value data indicated in this catalog is for reference, and may vary depending on cutting environment and specifications.
●Material C3604 (BSBM)●Tool Diamond nose R0.8
longitudinal magnification × 20 Lateral magnification × 50
* Machine is specified with magnetic scale
Roughness (Actual value)
Transferring Accuracy (Actual value)
standard actual value
X axis
Y axis
Z axis
25μm
22μm
25μm
Squareness against Face A
Parallelism against Face A
Angularityagainst Face A
Face D
Face E
1.0μm
1.4μm
30.0002°
3.0017°
Roundness of cylinder H
Hole J positional deviation against base hole
2.9μm
3.5μm
1.87μm
3.59μm
3.58μm
Repeatability
standard actual value
X axis
Y axis
Z axis
8μm
6μm
8μm
1.32μm
0.80μm
2.24μm
Face C
Base hole
Hole J
Face F
Face E
Face A
Face B
Nakamura-Tome23 Nakamura-Tome 24
Every machine compensates for thermal growth by using a CNC software compensation technique for automatically correcting thermal errors. Deflections caused by thermal growth can be predicted, based on input from sensors placed on various components in the machine.
NT thermal compensation
X, Y, Z-axis slides have a fully horizontal and vertical structure.Highly rigid column with wide frame ensures high accuracy machining.
DBB(Contour machining accuracy)
Fully horizontal andvertical structure
Backlash-free motor rotation is ensured through direct mounting of X, Y and Z-axis motors to the respective ball screws.
Direct drive
8μm dimensional change (actual value)
Feed(F1000mm/min)
Machine base
Spindle
Upper Lower Unit
Ambient temperature
●Cycle time●Material●Coolant●Room temp. change
* Actual value data indicated here is for reference. Depending on machining conditions and specifications, there is a possibility these values are not reached.
Note: Actual value data indicated in this catalog is for reference, and may vary depending on cutting environment and specifications.
Y-Z plane2.1μm (CW) / 1.9μm (CCW)
X-Y plane3.2μm (CW) / 3.4μm (CCW)
Z-X plane3.1μm (CW) / 3.4μm (CCW)
Accuracy
0 2 4 6 8
20
15
10
5
0
displacement [φμm]
time[Hr]
dimensional change
8μm
X axis
Very wide and long frame.
Y axis
Z axis
: 5min: BSBM(JIS): Water soluble coolant: less than 3 degrees
Super NTMX/MX-5
Nakamura-Tome25 Nakamura-Tome 26
Combined Turning and MillingCapabilitiesSpindel motor■ NTMX(Standard)■ NTMX(Standard)
■ NTMX■ NTMX
■ NTMX■ NTMXφ51 typeφ51 type φ51 type(op. High torque specification)φ51 type(op. High torque specification) ■ NTMX■ NTMX
■ NTMX■ NTMXφ65 type(op.)φ65 type(op.) φ65 type(op. High torque specification)φ65 type(op. High torque specification)
1000
100
10
10
100
1
1 0.110 100 1000 10000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
11kW108Nm (S3:25%)
85Nm (S1:CONT)
840 10805000970
97Nm (S2:30min)
■ NTMX■ NTMX MX-5(Standard) MX-5(Standard) MX-5 MX-5
1000
100
10
10
100
1
1 0.110 100 1000 10000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
11kW143Nm (S3:25%)
110Nm (S1:CONT)
650 7805000735
135Nm (S2:30min)
■ NTMX■ NTMX
1000
100
10
10
100
1
1 0.110 100 1000 10000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
11kW108Nm (S3:25%)
85Nm (S1:CONT)
840 10804500970
97Nm (S2:30min)
■ NTMX■ NTMX MX-5 MX-5 MX-5 MX-5
φ51 built-inφ51 built-in φ51 built-in(op. High torque specification)φ51 built-in(op. High torque specification)
φ65 built-in(op.)φ65 built-in(op.) φ65 built-in(op. High torque specification)φ65 built-in(op. High torque specification)
1000
100
10
10
100
1
1 0.110 100 1000 10000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
11kW143Nm (S3:25%)
110Nm (S1:CONT)
650 7804500735
135Nm (S2:30min)
1000
100
10
10
100
1
10 100 1000 10000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
11kW75.4N・m (S2:15min. S3 25%)51.4N・m (S2:60min. S3 40%)
38.6N・m (S1 CONT.)
421393 41791857 5000
1000
100
10
10
100
1
1 0.110 100 1000 10000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
11kW143Nm (S2:5min)
75N・m (S2:30min S3:60%)
51Nm (S1:CONT)
42 735 1393 5000
1000
100
10
10
100
1
10 100 1000 10000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
11kW77.8N・m (S2:15min. S3 25%)
421350 40501800 4500
53.0N・m (S2:60min. S3 40%)
39.8 N・m (S1 CONT.)
1000
100
10
10
100
1
1 0.110 100 1000 10000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
11kW143Nm (S2:5min)
78N・m (S2:30min S3:60%)
53Nm (S1:CONT)
41 735 1350 4500
Super NTMX/MX-5
Tool spindle motor
■ NTMX/MX-5 12,000min 7.5kW/3.5kW/LOW speed
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■ NTMX/MX-5 12,000min 7.5kW/3.5kW/High speed ■ NTMX/MX-5 20,000min 7.5kW/3.5kW/High speed(op.)■ NTMX/MX-5 20,000min 7.5kW/3.5kW/Low speed(op.)
■ NTMX / MX-5
Milling motor(op.)
Through efficient energy consumption,cut harmful CO2 emissions by 29%
Super NTMX / MX-5 cut CO2 emissions
Cycle time / pc
Power consumption
Emission of CO2 *
* For reference only
75 min
13.7 kWh
5.5 kg
Comparison
Model Conventionalmachine Super NTMX
43 min
9.7 kwh
3.9 kg
Conventional machine Super NTMX/MX-5
6000min -1 12000min -1
40
30
25
20
15
10
5
7.0
6.0
5.0
4.0
3.0
2.0
1.0
10 1000 2000 3000 4000 5000 6000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.1kW
2.2kW
16.0N・m (S3 15%)
8.0N・m (S1 CONT.)
100
10 10
100
11
10 100 1000 4000 2000010000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
3.7kW
54N・m (S3 10%)
36N・m (S3 25%)22N・m (S1 CONT.)
451325 20001600
100
10 10
100
11
10 100 1000
4000 12000
2000010000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
3.7kW
18.0N・m (S3 25%)
8.8N・m (S1 CONT.)
45
100
10 10
100
11
10 100 1000
4000
2000010000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
7.5kW
3.7kW
18.0N・m (S3 25%)
8.8N・m (S1 CONT.)
45 120001325 20001600
7.5kW
3.7kW
54N・m (S3 10%)
36N・m (S3 25%)22N・m (S1 CONT.)
100
10 10
100
11
10 100 1000 4000 2000010000
Torque(N・m)
Output(kW)
Spindle speed(min-1)
45
Evolution of User Interface for Improved Support
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LED light switches are introduced on the operational panel.When machine power is on, a backlight makes it possible to see the switch even in a dark condition. When pressed, the switch is fully illuminated. When the spindle, tool spindle or feed override rotary switches are set to 100%, the lit LED switches enable the operator to see the override condition from a distance.
USB Port/AC100V
USBPort
TouchPanel
TouchPad
NT-IPSNT-IPS GUIIntelligent Production System
With the user in mind, a large high-resolution (19”SXGA 1280x1024) color LCD is introduced. Nakamura-Tome’s original screens are featured on a large CNC display unit. Switch between machine status screen and load graph screen by pressing a single button, or return to the previous NT screen by simply pressing the NT screen button.
19” Color LCD Touch Panel
Several original screens developed by Nakamura-Tome, such as Tool Setting Screen and Work-piece Status Screen, are featured in this machine to ensure ease of operation with loading / unloading devices.
Equipped with High Spec PC
Illumination Switches
It is possible to mount an external CCD camera inside the machine. Using the screen controller, the video camera can be panned, tilted or zoomed. Additionally, it is possible to pre-register up to 6 camera positions, which can be quickly recalled later by simply pressing the “AUX” key. Full screen display is also available by pressing the provided “□” button, similar to several Windows applications.
Internal Monitoring System(op.)
STATUS DISPLAY
Spindle Override
Switch
Feed-rate Override
Switch
LOAD GRAPH
NT SETTING CNC SCREEN
PROGRAM CHECK TOOL SETTING
CF Slot
Full operator support formore ease of use and reliabilityNT Nurse LUCK BEI Ⅱ AIR BAG NT Work
NavigatorNT CollisionGuard (option)
Manual HandleRetrace
Tool center point control facilitates program-ming, when the tool axis direction changes during machining. The path and feed rate of the tool tip are automatically controlled to move at the path and feed rate specified in the program, eliminating the need for short line segments that are following the tool-axis center rotation.
Software to Support Five-axis Control (option)
Nakamura-Tome31 Nakamura-Tome 32
Tool Center Point Control
Air cutting mode is for executing machining programs without actual machining. When programs are executed in active air cutting mode, bar-feed forward and chuck open/ close commands are ignored. In addition, part-unloading confirmation is disabled.
Air Cutting ModeSetting and operation integrated in one screen All required information displayed on one screen
Coolant Setting Screen Coordinate and tool setting integrated in one screen
This feature is to prevent overload servo alarms that may occur during part transfer or part cut-off. Such alarms are caused by load build up when the right chuck is closed, which is due to overshooting of the jaw in case of three-jaw chucks or pushing / pulling in case of collets chucks. The thrust of the B-Axis servo motor thrust is kept in a range of 20% to 100%, preventing servo alarms and breakage of cut-off inserts. If a stopper is used on the right chuck, soft work pusher (G131) is used instead.
Axis TorqueLimit Function (G359)
During automatic operation, the machine can be temporarily stopped to check the condition of a part or tool, or to remove cutting chips. After the door is closed, machining can be restarted automatically from the point where it is was stopped.
Cut-in Check
Turret speed can be adjusted with the feed override rotary switch from 0 to 100 % during indexing in automatic or manual mode. This can be used during fully automatic operation to reduce turret speed, or even bring it to a halt when necessary.
Index Speed override
With the B-axis positioned at an arbitrary angle, the tool offset is converted with one single G-code.
Offset Conversion
If automatic operation were to be interrupted in the middle of a program, machining can be resumed easily. Regardless if “Automatic mode” were disabled during an interruption, the program-stop position data is recorded in the CNC unit. To restart from the top of the process during which operation was stopped, the operator has to push “RESET & REWIND” then push “CYCLE START”, without the need to position the cursor in the middle of the program, reducing the risk of unwanted collisions.
Program Resume
For machines equipped with a gantry loader or a bar feeder, restarting operation after an interruption, is significantly improved. Even if the operator has to stop and to reset the machine in the middle of automatic cycle, there is no need to remove all the parts from the chucks or gantry hands in order to restart operation. The part “Status” displayed on the NT Nurse screen is used to restart the program, which depending on part machining condition (raw, half-finished or finished part) jumps to the appropriate program block and re-starts from there. Thanks to this feature, programming of machines with a gantry loader has become drastically simplified, eliminating the need to divide each machining program into several sub-programs.
Jump Programming (G411)
Three-dimensional coordinate conversion simplifies machining on an inclined plane, by rotating the machine coordinate system with one single G-code.
Three-dimensionalcoordinate conversion
To make program first-time-checking easier and collision-free, “manual handle retrace” enables the operator to have more control over the machine during program execution. In “manual handle retrace” mode, machine slides move only when the manual pulse generator (hand wheel) is turned. In this mode, program execution, slide movement, moving speed as well as stop and reverse, are controlled by rotating the hand-wheel. “Manual handle retrace” can be executed in memory mode for each path separately, or in multiple-memory mode with all slides moving simultaneously, ensuring easier collision checks.
Manual Handle Retrace (op.)
Actual path
Programmed path
The use of powerful look-ahead performance enables high-speed high-precision milling of free-form curved surfaces that are specified in consecutive tiny blocks.
AI High Precision Contour Control II
Even if the part has a smooth shape with no abrupt corners, jerk control recognizes vibrations at corners before they occur and automatically controls the feed rates accordingly. Enhanced smooth motion reduces mechanical shock and improves surface finish.
Jerk Control
Machine set-up essentials
Continuous-machining essentials
By pressing the AUX key, registered screens subsequently pop up, showing machine conditions on several screens. Thanks to the NT-IPS large display, it became possible to look at the NC program while watching 3D interference check, or to look at the CNC coordinates while watching the machining area through a video camera, …etc. Easy to see! Easy to understand! Easy to use!
Coolant setting screen pops up by pushing one button on the control panel. Easy to see! Easy to use!
Geometry & wear offsets, work coordinates and Manual Guide i tool information were all put together in one screen. Easy to see! Easy to use!
Switches on the control panel, NT-setting screen commands and other buttons were all put together in one screen. All setting operations can be done from within one screen, which is displayed by pushing one button, ensuring easy operation.
Set up can be easily performed without changing screens. Graphic displays of working-area units, such as chucks, parts, tool spindle, …etc, are great visual aids to ensure ease of understanding.
Pop up display
NT-Original Screen
NT-IPSNT-IPS GUIIntelligent Production System
NT SETTING
TOOL INFORMATION
TOOL SETTING
NT Manual Guide iLUCK-BEI II
A programming guidance system with the ability to generate NC programs (ISO/EIA G-code programs) easily. Processes created in conversational mode can be cut, copied or moved ensuring flexibility. Additionally, several cycles such as part-transfer cycle, requiring waiting M-codes, are readily made with the "NC program editing support function". The "NC program simulation function" can be used to check created- programs by tool-path simulation or solid-model animation.
By setting the material type and required surface roughness, cutting conditions are automatically generated. These can be also changed depending on customer’s experience.
By introducing the “automatic cutting condition setting function”, the number of key strokes required to make a program were reduced by 50% reduced, compared with the previous NT-Manual guide version.
A function that automatically recognizes and extracts the name and order of all machining processes, then displays them in table layout. Machining processes can be moved, copied or swapped easily. In addition, waiting M-codes can be added with the click of a button.
Generous fixed forms with over 600 patterns (10 times more than before) are standard.Fixed forms are easily selected from a menu.Additional custom made programs can be registered.
By selecting the material, cutting conditions are automatically input.
By setting the surface roughness, machining conditions are automatically input
Cutting conditions. Endmill
Program data, tool offsets, coordinate offsets, NT-Nurse data and all other part related-data, can be easily transferred to one single folder on the memory card with one single stroke, making machining data for one single part easy to manage and to recall.A memory card is required for data input/output.
Featuringnew functions!
Advanced NT Nurse‒Generous User-friendly Support System‒
NT Nurse
“NT Nurse” which is standard on all machines, has a new function called "Screen registration". NT Nurse Functions that are frequently used can be registered, and later called up with one-key stroke. More than 34 NT Nurse functions are available to support improving your productivity.
For IncreasedProductivity!
Automatic Cutting-Condition Setting Function
Key Stroke frequency
LUCK-BEIII New
Reduced by 50% !!
100
φ100
φ40
NEW
Up to two NT Nurse frequently used functions can be registered, and later called with in one-key stroke. NT Nurse call button
These are only a few of the available 34 NT Nurse user support functions.
NEW
■ Process Editing
In addition to Nakamura-Tome's original NT Work Navigator, which is essential for multitasking, “soft quill pusher” and other NT-Nurse functions can be programmed easily.
■ Process Editing
■ Fixed Forms
Separate display based on spindleselection or turret selection.
Displayed in a clear layout accordingto waiting functions
Program Display
Waiting function is easily input withthe push of a button
Soft work pusher programming screenWork navigator programming screen
Nakamura-Tome33
Load Monitor Part Status DisplayAvailable for machines equipped with gantry loader
Spare tool call-upAlarm detail displayCondition displayMenu screen
Data Input / Output to Memory CardOffset historyTool counterLoad monitor
Nakamura-Tome 34
Jig less ! Set-up less ! Skill less !
"Program and setup is difficult...." "If the machine stops during the process...." "Costly jigs and fixtures for Complex parts...." You may have similar production concerns. Having the NT Nurse system, NT Work Navigator and Overload detection, reduces manufacturing headaches and provides precious production support.
Navigation function is expanded to also include the X and Y-axis. Coordinate Recognition can made the part’s outer surface in the X or Y-Axis direction.
SafetyTechnology.
NT Work NavigatorACTIVE SAFETY
This essential function for multitasking machines is standard.
NT Collision GuardACTIVE SAFETY
NEW
Advanced NT Work Navigator !
NT Nurse is software that provides the operator with user-friendly support for operation, programming and production on the machine. Among vital features are phase recognition (a must for multitasking), direct chucking to prevent positioning error during transfer, and perfect synchronization of the left and right hand spindles. Among other features, are the load monitor for detecting tool wear and tool breakage, tool life management, operation condition monitoring, in addition to many other features to simplify programming, set up, operation and production, all offered in one single package.
NT Nurse System
All-in-one Software Package
Interference check can be made in automatic or in manual opera-tion. Registered machine data, chucks, tools, holders, and parts are used to monitor the machine during automatic, manual or jog movement, and recognize in advance collisions before they happen. Even turret indexing is monitored to avoid collisions, drastically reducing machine collision risks, especially during set up.
If interference is detected, the machine stops with the affected area highlighted in red on the CNC display.
Preventive safety technology-- Machine collisions are avoidable!
Airbag (Overload detection)PASSIVE SAFETY
Double performance for safe operation+
When unavoidable human error results in machine collision, there is no reason to panic. All Nakamura-Tome machines are equipped with a safety feature called “airbag” (overload detection), which will greatly reduce the impact force and prevent heavy damage to the machine.
Soft barrier function is not perfect.If wrong data is input, a collision will occur.
Nakamura-Tome machines will not break for the slightest collision, as other machines do.
No need to panic
Even with a barrier function installed, machine collisions may occur
All Nakamura-Tome machines are equipped with a safety feature called “airbag” (overload detection), which will greatly reduce the impact force and prevent heavy damage to the machine.
When unavoidable human error results in machine collision,there is no reason to panic.
Machining parts with non-round shapes, such as forgings or castings requires that the raw part coordinates be recognized by the CNC control. In order to achieve this without requiring extra cost or additional options, the NT Navigator is used. It works just by touching the part with a simple inexpensive probe (mostly round bar mounted on a tool holder) and using the torque control feature of the servo-motor, which is to record required coordinates in the CNC. The NT Navigator is a cost cutting feature in multitasking machines, eliminating the need for positioning fi xtures and special clamping devices.
No fi xtures required
Nakamura-Tome35 Nakamura-Tome 36
Y Z B CXNew Navigator for X-axis and Y-axis
Crash
Machine will not bestop immediately.The slide continuestomove even aftercollision.
Crash !Within 8 milliseconds after the crash,Within 8 milliseconds after the crash,servo motor-feeding direction isreversed and the machine stopsin EMG mode.
Without Airbag With Airbag
Retraction within 0.008 sec
* This feature does not mean zero impact.
Dual Safety NT CollisionGuard Airbag
Other companies’ machine
Input material dimension
Input drill length
Input jaw shape
Input tool overhang
Input rotating center shape
That…
This…
Inputting a great amount of data comes with the risk
of making mistakes
Nakamura-Tome37 Nakamura-Tome 38
NT Multitasking Off ice
Standard tools and cutting holders are already registered, and just need to be selected
Cycle time can be checked, and program can be modified before machining
Interference position could be recognized by vision with red color and axis information. Program line is also easy to confirm.
■ Conversational programming ■ Simulation ■ Tool setting display
■ Collision check ■ Other function
Cycle time display
■ Simulation display
■ Programming ■ Automatic cutting-condition setting function ■ Machine simulation
■ Work piece machining simulation ■ Preparation support ■ Cycletime check ■ Collision
■ Easy operation
Programming
Programming
Preparation
Preparation
Re-preparationMachining
Machining Machining
Machining Machining First piece
First piece
Reduce by 40%!
Correctprogram
Correctprogram foraccuracy
Correctprogram foraccuracy
Ordinary
NTMultitaskingOffice
Perfect interference check can be done with the interface between machine and software.
Interface between machine andsimulation software
Data of many types of standard tools is already registered.
Preparation support
NT off-line
Nakamura-Tome39 Nakamura-Tome 40
Super NTMX / MX-5
Super NTMX
MX-5
(Max. turning diameter)
(Max. turning diameter)
φ210(8”)
φ165(6”)
(Max. tool sw
ing)
980 12151160
1300
650
290
2085
2085580
888
990
1340
2650
486
3841
30
64
1040
3935
12701045
*70
2190
170
900
(*3109)
42(*136)
3015
2735
*in case milling on lower turret specification
1905
2754
2650
290
2085
2085580
888
990
1340
650
1300
980 12151160
2735
136
3109
2190
170
900
104
1045
64
1040
3841
486
3935
30
1270
980
1905
1110
Nakamura-Tome41 Nakamura-Tome 42
(Maximum turning diameter)
(Tool swing d
iameter)
(Bar capacity)
(6" chuck)
(8" chuck)
(Maximum tool diameter)
(Maxim
um too
l lergth
)
(Unit mm)(Unit mm)
(※ in case of Milling model)
X1, X2, Z1, Z2, B2-axis travel range Y-axis travel range
B1 axis travel range
Axis travel range Tool interference
Super NTMX / MX-5
Stopper
Stopper
(※130)
(※161)
(ATC travel range)
(ATC
travel
rang
e)
(ATC
travel
rang
e)
Stopper
StopperStopper
Stopper
StopperStopper
Stopper
Stopper
Stopper
Stopper
ST.+662(ATC travel range)
(※130)
(※161)
(※-329) (※+329)
Twin ATC &Twin MagazinesNakamura-Tome43 Nakamura-Tome 44
MetricInch
C21410C21411Turning holder (A) (CCW)
C21420C21421Turning holder (A) (CW)
Z8415Z8425Turning holder (B)
H22410(φ25) H22411(φ1)Boring holde r
H22416(φ25)H22417(φ1)Boring holder (with oil hole )
H22412(φ25)H22413(φ1)Multi-boring holder
H21470(□16,φ25)H21471(□5/8, φ1)Turning boring holder
H21478(□16)H21479(□5/8)Double turning holder
C21416C21417Double turning holder
C21430C21431Cut off holder (CCW)
C21440C21441Cut off holder (CW)
Qualified tool (□20×90)(19.05×90)
Qualified tool(□20×90)(19.05×90)
Qualified tool(□16×80)(□15.875/80 )
N3170 (φ25)N3180 (φ25.4)Set ring
M2112 (φ25-φ12)M2113 (φ25-φ10)M2122 (φ25.4 - φ12.7)M2123 (φ25.4 - φ9.525)Boring holder
V1115 (MT-2)M2114 (MT-1)V1125 (MT-2)M2124 (MT-1)Drill socket
M2110 (φ25-φ20)M2111 (φ25-φ16)M2120 (φ25.4-φ19.05)M2121 (φ25.4-φ15.875)Round hole bush
W145102
W145103
24ST
Super NTMX / MX-5
Tooling system diagram
C26330C26330Cross milling holder(MAX.φ14)
H26333H26333Straight milling holder(MAX.φ14)
Nakamura-Tome45 Nakamura-Tome 46
Tooling system diagramTurning tools Rotating tools *Alps tool type AC・AR・ASS
Endmill t ool
Endmill
CORO MILL 390
Digital drill
Super U drill
MT shank drill
Dril l t ool
Dril l t ool w it h oil hole
Tap (wit h coolan t hole)
Reamer
Tap
Face milli ng adapterC4-3 91.05-16 030 /0 32 /0 55 (0. 3/0.4/ 0.4kg)C4-3 91.05- 22 025 /0 55 (0. 4/0.5kg)
CORO GRIP AdapterC4- 391.HM-0 6 05 0 (0 .2kg)C4- 391.HM-12 052 (0.3 kg)C4- 391.HM-20 0 69 (0.7kg)
Collet393. CG-12xx40/20 xx52/25x x56 (φ3 ~20)393. CGS-12 xx40 /2 0xx52/25x x56 (φ 3~20 / S hield t ype)
ColletAR20 GB-M x (M4~12)AR20 GB-M x (M4~12)
393.14 -16/20/2 5/32-d (φ1~20)AR11/16/20/2 5/32O H-d (φ4 ~20 / S hield t ype)
Collet chuck adapterC4- 391.14 -16 070 (0.4 kg)C4- 391.14 -20/ 25 0 52 ( 0.3/0.4kg)C4- 391.14 -3 2 05 4 (0.5 kg)
Weldon shank adapterC4- 391.20 -0 6/08 050 (0. 4kg)C4- 391.20 -10 05 0A /12 050 A (0.5 /0.6 kg)C4- 391.20 -14/16 050 (0.6/ 0.7kg)
ISO shank adapterC4- 391.27-16 05 6 (0.5 kg)C4- 391.27-20 06 0 (0.5 kg)C4- 391.27-2 5 07 7 (0 .8kg)
MT shank adapter *AC4- MTA1-9 0 (M T1) (0.5 kg)AC4- MTA2-9 5 (M T2) (0.6 kg)AC4- MTA3-115 (MT3) (1.0kg)
CORO MILL 490 shoulder milli ng cutte r49 0- 025-C4- 08 M49 0- 032- C4- 08 M49 0- 04 0-C4- 08 M49 0-0 44-C4- 08 M49 0- 04 0-C4- 08 H49 0-0 44-C4- 08 H
CORO MILL 39 0 endmil lR390 -016 /020 C4-11LR390 -0 25 /0 32C4-11LR390 -0 25 /020 C4-11MR390 -0 40C4- 11L/11HR390 -0 40C4- 11M060R390 -0 40C4- 11M075
CORO MILL 39 0 long edgeR390 -0 40C4- 45 MR390 -0 40C4- 43 L
CORO MILL 690 long edgeR690 -0 40C4- 45 MR690 -0 40C4- 43 L
Super U dril l CORO Dril l 8 80880-Dx xxxC5- 03(3×D , φ1 2.0-φ4 3)
Tap adapterExternal lubricationC4-3 91.62- 20 1 07/25 126 (0 .7/1.0kg)Internal lubricationC4-3 91.62- 20 112 /25 131 (0 .7/1.0kg)
Millin g chuck adapter *AC4-TRX16-70 (0. 4kg)AC4-TRX20-75 (0. 9kg)
Hydro chuck adapterC4- 391.CGB-06 086 (0. 4kg)C4- 391.CGB-12 098 A (0.6 kg)C4- 391.CGB-12 148 A (0.9 kg)C4- 391.CGB-12 198 A (1.2kg)C4- 391.CGA-12 062 A (0.6 kg)C4- 391.CGA-12 100 (1.0kg)C4- 391.CGA-20 0 75 (0. 9kg)C4- 391.CGC-12 * **C4- 391.CGC-20 * **
Side cutter , Shoulder, Face milli ng
φ3 2 Extension
Extensio n adapterC4-3 91.01- 40 060A (0.5 kg)C4-3 91.01- 40 080A (0.7kg)C4-3 91.01- 40 040 (0. 4kg)
Reductio n adapterC4-3 91.02- 32 0 55A (C4-C3) (0. 5kg)C4-3 91.02- 32 070A ( C4-C3) (0.6 kg)
R385 cutte rMilling cutter for cast iron
R215 cutte rFor plunge
R210 cutte rFor high feed / plunge
79 0 aluminum endmil l Shoulder milling for aluminum alloy
Cuttin g head “ CORO TURNR RC” for OD Face t urningCORO TURNR 107C4-D CLNR/L-2 70 50 -0 9/12 /16 (0.4 kg)C4-DWLNR/L-27 050 -0 6/ 08 (0. 4kg)
Cuttin g head T-Ma x U-LOCKR
for OD threadin gC4-R/L16 6.4FG-2705 0-16 /22 (0. 4kg)C4-R/L16 6.4FGZ-27 050 -16/22 (0. 4kg)CORO (FGZ)
CORO THREAD 266 cuttin g headC4-2 66 R/LFG-2705 0- 22 (0. 4kg)C4-2 66 R/LFGZ-2 70 50 -22 (0.4kg)CORO (FGZ)
CORO TURNR TRTR-C4- D13JCR/L-2 70 50 (0. 3kg)TR-C4- V13JBR/L-27 050 (0. 3kg)
CORO TURNR 107C4-SCLCR/L-27 050 -0 9/12 (0. 4kg)C4-SDJCR/L-2 70 50 -0 7/11 (0. 4kg)
CORO TURNR 107C4-SCLCR/L-11070 -0 9 (0.3 kg)C4-SCLCR/L-13080 -0 9 (0.4 kg)C4-SCLCR/L-170 90 -0 9/12 (0. 5kg)C4-SCLCR/L-2 70 80 -0 9/12 (0. 7kg)
Cuttin g unit for grooving / cut of f turnin gC4-R/LF123 D15/ E15- 27055 B (0.4kg)C4-R/LF123 F20/G2 0- 270 60B /6 5B (0.4kg)C4-R/LF123 H25/J25/ K25- 27067/ 70 B (0.5kg)
Cuttin g head for 45° OD turning C4-DSDNN-00 050 -12- 2 (0. 4kg)C4-DSSNR/L-2 70 42-12- 2 (0.4 kg)C4- DDNNN-00 050 -11C4- DDNNN-000 55 -15
Cuttin g head for ID threa dC4-R/L16 6.0KF-12 060- 11 (0. 3kg)C4-R/L16 6.4K F-1206 0-16 (0. 3kg)C4-R/L16 6.4K F-14 060- 16 (0. 4kg)C4-R/L16 6.4K F-17070-16 (0. 4kg)C4-R/L16 6.4K F-22 09 0-16 (0. 7kg)C4-R/L16 6.4K F-27 08 0-16 (0.7kg)
Head cartridge t ype boring bar (steel) C4-5 70 -2C 1 6 0 48 (0. 4kg)C4-5 70 -2C 20 0 58 (0. 4kg)C4-5 70 -2C 2 5 06 4 (0. 5kg)C4-5 70 -2C 32 074 (0.6 kg)C4-5 70 -2C 4 0 073 (0. 8kg)C4-5 70 -2C 1 6 0 41R/L (0.4kg)C4-5 70 -2C 20 0 47R/L (0.4kg)Head cartridge t ype boring bar (vibratio n absorptio n)C4-5 70 -3 C 16 08 8 (0. 4kg)C4-5 70 -3 C 20 107 (0.5 kg)C4-5 70 -3 C 25 1 32 (0. 8kg)C4-5 70 -3 C 32 15 4 (1.3kg)C4-5 70 -3 C 40 073 (1.8kg)
Adapte r for round shank t ype borin g barC4-131-000 40 -10 (0. 4kg)C4-131-000 45 -12 (0.4 kg)C4-131-000 50 -16 (0.5 kg)
Super U drill CORO Drill 880880-D xxxxC5-0 3(3×D , φ 12 .0 -φ 43)
Turnin g holder AAC4- BHB20R-100 (CCW)AC4- BHB19.05R-10 0 (CCW, Inch)
Blank adapter for special applicationC4-NR-040095 -B (1.0kg)C4-NR-06 0165 -B (3.6kg)C4-NR-0800 75 -B (2.4kg)C4-NR-10 00 85 -B (4.1kg)
Extensio n adapterC4-3 91.01- 40 060A (0.5 kg)C4-3 91.01- 40 080A (0 .7kg)C4-3 91.01- 40 040 (0. 4kg)
Reductio n adapterC4-3 91.02- 32 0 55 A (C4-C3 ) (0.5 kg)C4-3 91.02- 32 070A (C 4-C3 ) (0.6 kg)
C4-3 91.50-40 120 -B (1.3kg)C4-3 91.50- 80 120 -B (4.3k g)
C4-R/L16 6.4K F-15 06 5- 22 (0. 4kg)C4-R/L16 6.4K F-19 070- 22 (0. 4kg)C4-R/L16 6.4K F-22 09 0- 22 (0.7kg)C4-R/L16 6.4K F-27 08 0- 22 (0. 8kg)(逆さバイトの場合は KFZタイプ)
Cutting head T-Ma x P for borin g barC4-PCLNR/L-170 90 -12 (0. 5kg)C4-PCLNR/L-2 2110 -12 (0 .8kg)C4-PCLNR/L-2 70 80 -12 (0. 8kg)C4-PCLNR/L-2 7120 -12 (1.1kg)
C4-PSDNN-00 050 -12/15 (0. 4kg)C4-PSSNR/L-2 70 42-12 (0. 4kg)
C4-NF123 G20-000 70 B (0.5 kg)C4-NF123 J25-00 07 7B (0.5kg)
T-Max Q-CUTR CORO CUTR 1-2 ,3 CORO CUTR SL
Adapter 0° , 45° , 9 0°for SL
Cuttin g head for CORO TURN SL type
Steel borin g barφ6 , 8, 10, 1 2, 1 6
Carbide borin g barφ6 , 8, 10, 1 2, 1 6
Sleeve
Super NTMX / MX-5
Super NTMX
Nakamura-Tome47 Nakamura-Tome 48
Machine Specification
L/R:65mm(op.)
4,500min-1SteplessA2-680mm110mm66mm
Control Specification■Capacity
■Axis travel
■Left and Right Spindle
■C-axis
■Tool spindle
■Tool spindle B1-axis
■Lower turret
■Driven tools(op.)
■Drive motor
■General
Max. turning diameterStandard turning diameterDistance between centersMax. turning lengthBar capacityChuck size
SIide travel Xl / X2SIide travel Zl / Z2SIide travel YSIide travel B2-axisRapid feed Xl / X2Rapid feed Zl / Z2Rapid feed B2 axisRapid feed Y
Spindle speedSpindle speed rangeSpindle noseHole through spindleI.D. of front bearingHole through draw tube
Least input incrementLeast command incrementRapid index speedCutting feed rateC-axis clampC-axis connecting time
Tool spindle speedTool shank typeNumber of tool stockmax. tool diameter /without adjacent toolmax. tool length / max. tool weightATC time (Tool to tool)
Indexing rangeIndexing mechanismClamp function
Type of turret headNumber of Tool station /Number of IndexingTool size (square shank)Tool size (round shank)
Drive systemSpindle speedSpindle speed rangeNumber of driven-tool stationsHolder type and tool size
Left spindleRight spindleRotating tool spindle (Tool spindle)
Machine heightFloor space
Machine weightPower supply / Air supplyHydroulic unit/Lubrication oil cooler/Coolant
220mmm170mmmmax.980mm / min.210mm780mmmL/R:51mmL/R:165mm(6") , 210mm(8")
570 / 130.5mm1297 / 658mm(728mm※in case of Milling model)土100mm770mm30 / 16m/min40 / 40m/min40m/min16m/min
5,000min-1SteplessA2-563mm90mm52mm
0.001°0.001°600min-11~4,800°/minDisk clamp1. 5sec.
12,000min-1Capto C4,HSK-A40(op.)24 x 260mm/80mm180mm/4kg1.3sec.
190° (土95°)Servo motor + camCurvic coupling (5 degree) Brake (0.001 degree)
Dodecagonal drum turret24口20mmφ25mm
Individual rotation6,000min-1stepless12Straight holder φ1mm - φ14mmCross holder φ1mm - φ14mm
11/7.5kW11/7.5kW7.5/3.7kW
2650mm3935mm×3015mm (including Chip tank)4542mm×3015mm (including Chip conveyor & tank)14500kg69.6kVA /0.5~0.7MPa100L / 4.2L /480L
■Items
■Controlled axes
■Input command
■Feed function
■Program memory
■Operation and display
■Program support
Control type
Controlled axesSimultaneously controlled axes
Least input incrementLeast command incrementMax.programmable dimensionAbsolute / incremental programmingDecimal inputProgram codeInch / Metric conversionProgrammable data input
Cutting feed
DwellFeed per minute / Feed per revolutionThread cuttingThread cutting retractContinuous thread cuttingHandle feedAutomatic acceleration/decelarationLinear accel./decel. After cutting feed interpolationRapid feed overrideCutting feedrate overrideAI contouring control I
Part program storage lengthPart program editingProgram number searchSequence number searchAddress searchNumber of registerable programsProgram storage memoryMultiple program simultaneous editingDNC operation through memory card
Extended part program editing
Operation panel:Dsiplay:Keyboard
Circular interpolation R programmingDirect drawing dimension programming or Chamfering /Corner RCanned cycleMultiple repetitive canned cycleMultiple repetitive canned cycle ⅡCanned cycle for drillingAxis recompositionSub programHelp functionBalance cutCustom macroAddition to custom macro common variables3-D coodinate convert3-D rigid tapHelical interpolationLuck-beiⅡ NT Manual GuideAbnormal Load detectionNT Work NavigatorNT NurseNT Collision Guard
FANUC 31i-A5 2PATH
9axes5axes (upper Xl, Zl , C1 [C2], Y, B1) + 4 axes (lower X2, Z2, C2[C2], B2)
X,Z,Y,B2 : 0.001mm/0.0001inch(diameter for X-axis) B1,C:0.001°X 0.0005mm, Z,Y,B2 : 0.001mm, C,B1 : 0.001°±999999.999mm/±39370.0787inch, ±999999.999°X,Z,Y,C,B1,B2(absolute only for B1,B2) / U,W,V,HStandardEIA / ISO automatic recognitionG20 / G21G10
feed/min X,Z,Y : 1~8000mm/min,0.01~314inch/minB1:1~8000degree/minC:1~4800degree/minB2:1~4800mm/min、0.01~188inch/minfeed/rev X,Z,Y:0.0001~8000.0000mm/rev、0.000001~50.000000inch/revB2:0.0001~4800.0000mm/rev、0.000001~50.000000inch/revNote) Max. cutting feed is the value during AI contouring mode.Max. cutting feed except AI contouring mode is:feed/mm X,Z,Y,B2 : 1~4800mm/min,0.01~188inch/minC,B1 : 1~4800degree/minfeed/rev : 0.0001mm/rev~4800.0000mm/rev,0.000001~50.000000inch/revG04G98/G99G32StandardStandardManual pulse generator 0.001/0.01/0.1mm, ° (per pulse)StandardStandardFO/25/50/100%(changeable to every 10%(by switch ))0-150%(each 10%)G5. 1
Total 2560mdelete, insert, changeStandardStandardStandardTotal 2000programsBacked up by batteryStandardStandard (Only one turret can access memory card at a time)(not including memory card)Standard
(19” SXGA 1280 x 1024) color LCD Touch Panel
StandardStandard (by setting parameter)G90. G92. G94G70 -G76StandardG80,G89Standard(used for C axis control from Lower)StandardStandardG68. G69StandardStandard (After addition ,#100~#199, #500~#999)StandardStandardStandardStandardStandardStandard (not including contact bar)StandardStandard
●Safety quality specification Safety devices such as various interlock, various safety fences, auto loading device, work stocker, automatic fire extinguisher etc. are available as options which can be included in your purchase package. Please contact our local distributor and dealer for your specific requirements.
●Precautions about the use of cutting coolantSynthetic Coolants are Damaging to Machine ComponentsConcerning the use of cutting fluids, cautions have to be taken on the type of coolant being used.Among coolants available in the market, some types are damaging to machine components and should be avoided. Typical damages are turcite wear, peeling of paint, cracking and damage to plastics and polymers, expansion of rubber parts, corrosion and rust build up on alumi-num and copper. To prevent such damages, coolants that are synthetic, or containing chlorine have to be avoided.Machine warranty terms do not apply to any claims or damage arising from the use of improper coolant.
20,000min-1(op.)
MX-5
Nakamura-Tome49 Nakamura-Tome 50
Machine Specification
L/R:65mm(op.)
4,500min-1SteplessA2-680mm110mm66mm
Control Specification■Capacity
■Axis travel
■Left and Right Spindle
■C-axis
■Tool spindle
■Tool spindle B1-axis
■Lower turret
■Driven tools(op.)
■Drive motor
■General
Max. turning diameterStandard turning diameterDistance between centersMax. turning lengthBar capacityChuck size
SIide travel Xl / X2SIide travel Zl / Z2SIide travel YSIide travel B2-axisRapid feed Xl / X2Rapid feed Zl / Z2Rapid feed B2 axisRapid feed Y
Spindle speedSpindle speed rangeSpindle noseHole through spindleI.D. of front bearingHole through draw tube
Least input incrementLeast command incrementRapid index speedCutting feed rateC-axis clampC-axis connecting time
Tool spindle speedTool shank typeNumber of tool stockmax. tool diameter /without adjacent toolmax. tool length / max. tool weightATC time (Tool to tool)
Indexing rangeIndexing mechanismClamp function
Type of turret headNumber of Tool station /Number of IndexingTool size (square shank)Tool size (round shank)
Drive systemSpindle speedSpindle speed rangeNumber of driven-tool stationsHolder type and tool size
Left spindleRight spindleRotating tool spindle (Tool spindle)
Machine heightFloor space
Machine weightPower supply / Air supplyHydroulic unit/Lubrication oil cooler/Coolant
220mm170mmmax.980mm / min.210mm780mmmL/R:51mmL/R:165mm(6") , 210mm(8")
570 / 130.5mm1297 / 658mm(728mm※in case of Milling model)土100mm770mm40 / 16m/min40 / 40m/min40m/mi n40m/min
5,000min-1SteplessA2-563mm90mm52mm
0.001°0.001°600min-11~10,000°/min(1~40,000°/min:Al contouring mode)Disk clamp1. 5sec.
12,000min-1Capto C424 x 260mm/80mm180mm/4kg1.3sec.
190° (土95°)Servo motor + camCurvic coupling (5 degree) Brake (0.001 degree)
Dodecagonal drum turret24口20mmφ25mm
Individual rotation6,000min-1stepless12Straight holder φ1mm - φ14mmCross holder φ1mm - φ14mm
11/7.5kW11/7.5kW7.5/3.7kW
2754mm3935mm×3109mm (including Chip tank)4542mm×3109mm (including Chip conveyor & tank)14500kg69.6kVA /0.5~0.7MPa100L / 4.2L /480L
■Items
■Controlled axes
■Input command
■Feed function
■Program memory
■Operation and display
■Program support
Control type
Controlled axesSimultaneously controlled axes
Least input incrementLeast command incrementMax.programmable dimensionAbsolute / incremental programmingDecimal inputProgram codeInch / Metric conversionProgrammable data input
Cutting feed
DwellFeed per minute / Feed per revolutionThread cuttingThread cutting retractContinuous thread cuttingHandle feedAutomatic acceleration/decelarationLinear accel./decel. After cutting feed interpolationRapid feed overrideCutting feedrate overrideAI contouring control Ⅱ
Part program storage lengthPart program editingProgram number searchSequence number searchAddress searchNumber of registerable programsProgram storage memoryMultiple program simultaneous editingDNC operation through memory card
Extended part program editing
Operation panel:Dsiplay:Keyboard
Circular interpolation R programmingDirect drawing dimension programming or Chamfering /Corner RCanned cycleMultiple repetitive canned cycleMultiple repetitive canned cycle ⅡCanned cycle for drillingAxis recompositionSub programHelp functionBalance cutCustom macroAddition to custom macro common variables3-D coodinate convert3-D rigid tapHelical interpolationLuck-beiⅡ NT Manual GuideAbnormal Load detectionNT Work NavigatorNT NurseNT Collision Guard
FANUC 31i-A5 2PATH
9axes5axes (upper Xl, Zl , C1 [C2], Y, B1) + 4 axes (lower X2, Z2, C2[C2], B2)
X,Z,Y,B2 : 0.001mm/0.0001inch(diameter for X-axis) B1,C:0.001°X 0.0005mm, Z,Y,B2 : 0.001mm, C,B1 : 0.001°±999999.999mm/±39370.0787inch, ±999999.999°X,Z,Y,C,B1,B2(absolute only for B1,B2) / U,W,V,HStandardEIA / ISO automatic recognitionG20 / G21G10
feed/min X1,Z1,Y1 : 1~40000mm/min,0.01~1574inch/minB1:1~18000degree/minC:1~40000degree/minX2,Z2 : 1~8000mm/min,0.01~314inch/minB2:1~4800mm/min、0.01~188inch/minfeed/rev X1,Z1,Y1:0.0001~4000mm/rev、0.000001~50inch/revX2,Z2 : 0.0001~8000mm/rev,0.000001~50inch/revB2:0.0001~4800mm/rev、0.000001~50inch/rev
Note) Max. cutting feed is the value during AI contouring mode.Max. cutting feed except AI contouring mode is:feed/mm X1,Z1,Y1 : 1~10000mm/min,0.01~393inch/minC,B1 : 1~10000degree/minX2,Z2,B2 : 1~4800mm/min,0.01~188inch/minfeed/rev X1,Z1,Y1 : 0.0001~10000mm/rev,0.000001~50inch/revX2,Z2 : 0.0001~4800mm/rev,0.000001~50inch/revG04G98/G99G32StandardStandardManual pulse generator 0.001/0.01/0.1mm, ° (per pulse)StandardStandardFO/25/50/100(changeable to every 10%(by switch )0-150%(each 10%)G5. 1
Total 2560mdelete, insert, changeStandardStandardStandardTotal 2000programsBacked up by batteryStandardStandard (Only one turret can access memory card at a time)(not including memory card)Standard
(19” SXGA 1280 x 1024) color LCD Touch Panel
StandardStandard (by setting parameter)G90. G92. G94G70 -G76StandardG80,G89Standard(used for C axis control from Lower)StandardStandardG68. G69StandardStandard (After addition ,#100~#199, #500~#999)StandardStandardStandardStandardStandardStandard (not including contact bar)StandardStandard
●Safety quality specification Safety devices such as various interlock, various safety fences, auto loading device, work stocker, automatic fire extinguisher etc. are available as options which can be included in your purchase package. Please contact our local distributor and dealer for your specific requirements.
●Precautions about the use of cutting coolantSynthetic Coolants are Damaging to Machine ComponentsConcerning the use of cutting fluids, cautions have to be taken on the type of coolant being used.Among coolants available in the market, some types are damaging to machine components and should be avoided. Typical damages are turcite wear, peeling of paint, cracking and damage to plastics and polymers, expansion of rubber parts, corrosion and rust build up on alumi-num and copper. To prevent such damages, coolants that are synthetic, or containing chlorine have to be avoided.Machine warranty terms do not apply to any claims or damage arising from the use of improper coolant.
20,000min-1(op.)
Cat.No 0116E01011106R
This catalog was published in June,2011.Specifications,illustrations and data given herein aresubject to change without notice.
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