GENOS series
GENOS M560R-VVertical Machining Center
GENOS M460R-VEVertical Machining Center
Welcome to GENOS
GENOS technology carries Okuma's genetic heritage and takes you
to the leading edge of global competition.
GENOS-A high-quality global machine for the times. Get one for yourself.
1
Machining accuracy that promises high quality and high rigidity, productivity that exceeds expectations, and ease of use with the customer in mind.
Machine shops around the world long for machines like this. Okuma has faced this challenge head on, resulting in the high quality GENOS global machine.
Okuma's technical genes are found in cutting edge manufacturing that seeks to balance high quality and low cost.
2
Vertical Machining Centers
GENOS M460R-VEGENOS M560R-V
Thermo-Friendly Concept
Zero alignment drive / center drive
Diagonal rib structure casting
Advanced One-Touch IGF-M
Highly rigid double-column construction
Machining Navi
X
Z
Y
50 100 5001,000 4,00010,000
720 12,0002,500
5
10
50
100
500
1
1
5
10
50
0.5
0.1
199N-m (10 min)
146N-m (cont)
Spindle speed min-1
22kW (10 min)15kW (10 min)
11kW (cont)18.5kW (cont)
kW
Sp
ind
le m
oto
r o
utp
ut
N-m
To
rque
Table size: 1,000 x 460 mmWorking range: 762 x 460 x 460 mm
(X) (Y) (Z)
(X) (Y) (Z)
Table size: 1,300 x 560 mmWorking range: 1,050 x 560 x 460 mm
GENOS M460R-VE
GENOS M560R-V
� Wide-range spindle specifications 12,000 min-1
Spindle speed: 12,000 min-1
Spindle motor output: 22/18.5 kW(10 min/cont)
Torque: 199 N-mTapered bore: 7/24 taper No. 40
� 12,000 min-1 wide-range spindle
(Workpiece: S45C)
[Actual data]
ø80 face mill8 blades (cermet)
ø20 roughing end mill7 flutes (carbide)
ø63 insert drill(carbide)
Tool
895
4,000
720
318
225
251
142
30
3,000
4,800
108
1,113
56
7
3
20
504
672
Spindlemin-1
Cuttingm/min
Feedratemm/min
Widthmm
Depthmm
Amountcm3/min
M30 x 3.5 tap
Note: The “actual data” referred to above for this brochure represent examples, and may not be obtained due to differences in specifications, tooling, cutting, and other conditions.
1.0 1.2
3.5 7.1
Highly rigid construction for productivity that exceeds expectations
� Highly rigid double-column construction
� Machining capacity (GENOS M460R-VE/M560R-V)� Zero alignment drive / center drive � “X” diagonal rib casting
� Torsional rigidity comparisons (per weight)
Highly rigid double-column constructionFast, powerful, long-life spindle
Zero alignment drive / center drive
Ball screw bracket integrated in machine
Table center aligns with ball-screw center (center drive)
Guideway “center” alignswith ball-screw center(zero alignment center) GENOS with “X”
diagonal ribs
(bearing lubrication: oil air)
Small overhang to slideways means better, more efficient cutting
Highly rigid construction using 3D-CAD and FEM analysis
Spindle center of gravity aligns with ball-screw center (center drive)
Table
Ball screw center Guide
Ball screw center
Spindle center[Y axis] [Z axis]
Guide
Workpiece
Tough vertical ribsdirectly below linear ball guides
“X” diagonal rib casting
3 4
Bed
Chip coil conveyor with independent suspension(heat not transmitted to bed)
Trough
Hi-G control
Previous
Speed
Time
Reduced positioning time
Cutting time
� Hi-Cut Pro (standard)
A speed and acceleration controller to make sharper corners and smoother arcs—ideal for the extra accurate and quicker cycle time jobs.
� With Hi-Cut ProSharp corners
� Without Hi-Cut ProRound corners
Hi-Cut Pro Off Hi-Cut Pro On
Thermo-FriendlyConcept
Fast and accurate machining provides superb quality
Thermo-Friendly Concept Non-cutting time
Oil air lubrication for spindle bearing is supplied from 4 nozzles arranged evenly on left and right for uniform bearing temperature on the circumference.
Outer perimeters of bearing housing and spindlehead are cooled to make spindlehead temperature uniform.
“Box-build” structureColumn structure built up of simple blocks is
used to permit straightforward thermal distortion
Thermally balanced structureA cover is set on the front of the column and the control cabinet on the back for even conduction of temperature.
Chips with heat produced by machining are quickly removed before heat is transferred to machine.
� Measures to deal with heat in spindle bearing
� Insulation measures from coolant, chips
Nozzle 3
Nozzle 2Nozzle 4
Nozzle 1
Highly AccurateControl Technology
Machine designs thatequalize ambient temperatures
Thermo-FriendlyConcept
Simple machineconstruction
Thermal deformation over time: less than 8 m
Double cooling oil jacket
Thermo Active Stabilizer — Construction (TAS-C)
Thermo Active Stabilizer — Spindle (TAS-S) Sloped telescopic cover
Symmetrically builtThick walls
Machine coversPeripheral equipment placement
Machine “hot spots” diffused
(Compared to previous Okuma machine)35% less non-cutting time
Room temperature change of 8˚C (using TAS-C)
� Rapid traverse X-Y: 40 m/min, Z: 32 m/min
� ATC time (T-T) 1.2 sec
Thermally symmetric cooling arrangement
� Thermo-Friendly Construction (TFC)
� TAS-C: Thermo Active Stabilizer—Construction
� TAS-S: Thermo Active Stabilizer—Spindle
Thermally symmetric structureEqual left-right construction permits straightforward thermal distortion
“Proactively” keeps the machine [construction] in optimum, stable condition during shop environment temperature change resulting in superb (stable) machining accuracies.
Accurate compensation during spindle start/stops,and speed changes.
Acceleration/deceleration during positioning is controlled by math functions linked to motor speed/torque characteristics, to provide both machine accel/decel and vibration control.
� Hi-G Control (standard)
"Working with temperature changes" Okuma's Thermo-Friendly Concept is a structurally designed, thermal deformation control technology that provides astonishing cutting accuracy. It frees the operator from troublesome machine warm-ups and offsets. During long production runs with changing shop temperatures, the required part dimensions remain stable.
5 6
0
20
40
60
80
100
120(%)
0
20
40
60
80
100(%)
136%100%
100% 85%
OSP-P300 GENOS M460R-VE
With a variety of eco-friendly features
Ecology and economy specs that eliminate waste
Energy-saving function Energy-saving technology
Environmental economic benefits of Okuma’s Thermo-Friendly Concept
Thermo-Friendly Concept
Energy-saving function Energy-saving technology
*1. Calculations are examples only, and may differ from actual circumstances. Temperature-controlled room capacity: 10 m x 10 m x H3 m ±2°C
Prevents CO2 emissions equivalent to about 7,500 beech trees
� Amount of energy consumed for temperature-controlled room
� Power-saving function
� Energy-saving operation
Savings of approximately 135,000 kWhper year(*1)
In environments with normal temperature changes, machining accuracies equivalent to thosein temperature-controlled rooms are achieved. As long as the operator is comfortable,there is no need for air conditioning to ensure accuracy.
After completion of automatic operation, equipment power shuts off at set time
� Energy-saving NC unit
· Computer in a flat panel with a high-performance CPU
· Power-saving design
· LCD (Liquid Crystal Display) used
� Energy-saving drive unit
· Low-loss power transistor used
· Power regeneration system used
� Power-saving function � Energy-saving operation
� Hydraulic unit eliminated (electric pump cylinder used for tool load/unload)
� Oil controller controlled by power-saving inverter � Energy-saving drive, NC unit
Ecology & EconomyMachines and technology to achieve eco-friendly "monozukuri"
In-machine lights out
Gravity axis (Z axis) servo Off
Spindle orientation release
In-machine coil type chip conveyor stop
� Automatic power shutoff
� Lift-up chip conveyor, mist collector interlocked operation
Spindle cooler motor Off
Coolant stop
2000 OSP PreviousOkuma machine
1990s OSP
Powerconsumption Reduced 60% compared to
previous Okuma machine
Powerconsumption Reduced 15% compared to
previous Okuma machine
(Optional)
NC unit power consumption (%) Servo unit power consumption (%)
40%
7 8
9 10
Chip discharge
230 (280)
460 (560)
460 (560)
230 (280)
210 (215)
Wide opening
GENOS M460R-VE: 850 mmGENOS M560R-V: 1,323 mm
M560R-V
Table
Travel Y travel Travel
800
The ultimate in user-friendly design
Actual required footprint: 7.9 m2 (9.8 m2)� No maintenance on left or right
Left side Right side
� Wide door opening: 850 mm (1,323 mm)
� Approach to table: 210 mm (215 mm)
� Table height: 800 mm
Truly machinist oriented, superb ease-of-use machine operation
� Tool load/unload button on spindlehead� Loading/unloading tools to/from the magazine can be performed from the front of the machine
� Power lines, air source, chip discharge, and other maintenance functions are concentrated in back of the machine
With wide door opening for easy workpiece access and setup changes
Outstandingease of use
M460R-VEM460R-VE
Note: Above floor-space related photos and drawing do not show or include lift-up chip conveyor, thru-spindle coolant unit, transformer, and other accessories.
� In-machine chip conveyor (coil)
Bed
Table
(Machine front)
Lift-up chip conveyor(illustrated image; also see p.14)
Coolant tank
(Machine rear)
3,58
0 (3
,875
)
2,81
0 (3
,105
)
2,210 (2,520)
M460R-VE( ) for M560R-V
M460R-VE( ) for M560R-V
Machining Navi M-g (Optional)
Based on the chatter noise captured by the
microphone, Machining Navi displays a
number of optimal spindle speed
possibilities on the screen. The operator can
change to the indicated spindle speed with
a single touch and immediately confirm the
result.
Spindle speed and chatter are linked in a periodic manner, manifesting as
alternating ranges with and without chatter.
This means that there will be cases in which chatter cannot be
suppressed with a reduction in spindle speed, and other cases where
increasing the spindle speed will eliminate the chatter.
Machining Navi navigates the extremely difficult process of finding the
optimal spindle speed value by analyzing chatter and instantly determining
(powerful computing) the best spindle speed.
Spindle speed
Axi
al c
uttin
g
Range without chatter
Range with chatter(gray area)
Chatter
Select and confirm any of a number of possible spindle speeds with a single touch
Microphone attached to operation panel captures sound
Machining Navi instantly determines the optimal cutting conditions for highly efficient machining.
Push cutting conditions higher to increase profit
Cutting conditions can be changed while looking at analysis results
Machining processes can be newly added or revised on the Machining Order Table. Each process can be set freely with tool units, and know-
how can be input with the edit function with a high degree of freedom. The recommended value is automatically set when new additions are
made.
Can be operated directly from Machining Order Table.
When a problem is detected it can be quickly corrected and checked, speeding
up first part machining.
The objective: simple programming
Simple operations for 1st part machining jobs
Interactive operations Advanced One-Touch IGF-M (Optional)
Hi-tech Okuma mechatronics for advancedmachining applications
11 12
MachiningNavi
� Tool path, cutting conditions...
� Approach/relief, cutting depth movement
Selectedoverall
Selectedrange
Cycle start
Tool path, cutting conditions... Approach/relief, cutting depth movement
Key items changed directly on Machining Order Table
Mid-cycle start/single cycle start by simply selecting target on Machining Order Table
Immediate editing from Machining Order Table
Details are established in window
Processes can be added or have their order changed for each tool
on the Machining Order Table
13 14
Machine Specifications
Standard Specifications and Accessories
460
150 to 610
800
12,000
Stepless
7/24 taper No. 40
ø70
X-Y: 40, Z: 32
X-Y-Z: 32
22/18.5
X-Y-Z: 4
MAS BT40
JIS (thru)
32
ø90
ø125
300
8
7.8 [8 kg x 100 mm]
Memory random
2,746
OSP-P300M-R
Travels
Table
Spindle
Feedrate
Motors
ATC
Machine Size
Control
Model Item Description
X axis (ram saddle horizontal)
Y axis (table front/back)
Z axis (spindle vertical)
Table top to spindle nose
Max work dimension
Floor to table top
Max load capacity
Max spindle speed
Speed ranges
Tapered bore
Bearing dia
Rapid traverse
Cutting feedrate
Spindle
Feed axes
Tool shank
Pull stud
Tool capacity
Max tool dia (w/adjacent tool)
Max tool dia (w/o adjacent tool)
Max tool length
Max tool weight
Max tool moment
Tool selection
Height
Floor space
Weight
mm
mm
mm
mm
mm
mm
kg
min-1
mm
m/min
m/min
kW
kW
tool
mm
mm
mm
kg
N-m
mm
mm
kg
*1. Use water-based coolant.*2. Okuma pull studs required.
GENOS M460R-VE & M560R-V “Package” Specifications (Europe Package Specs)
Lift-up chip conveyor
762
460
1,000 x 460
700
2,210 x 2,810
6,500
GENOS M460R-VE
Spindle speed 50 to 12,000 min-1
Rapid traverse X-Y: 40 m/min, Z: 32 m/min
Spindle cooling system
Air cleaner (filter)
Spindle oil-air lubrication system
Spindle thermal deformation control (TAS-S)
Thermo active stabilizer construction (TAS-C)
Automatic tool changer
ATC magazine shutter
Tool unclamp package
Coolant supply systems tank capacities*1
Thru-spindle coolant*2
Coolant nozzle
In-machine chip conveyor (coil)
Lift-up chip conveyor
ATC air blower (blast)
Chip air blower (blast)
Foundation washers (with jack bolts)
2-lamp status indicator
Work lamp
Full enclosure shielding
Tapered bore cleaning bar
Hand tools
Tool box
Operation panel with color LCD
Pulse handle
7/24 taper No. 40, 22/18.5 kW
Oil controller
Including regulator
32-tool magazine
M460R-VE: 190 L (100 L effective), 250-W pump
M560R-V: 230 L (120 L effective), 250-W pump
1.5 MPa (medium pressure, large volume)
Flexible nozzles (5)
Table both sides
Hinge type
Side chip disposal (height: 1,000 mm)
Nozzle type
8 pcs
CE compliant (LED signal tower)
With ceiling
Item Description
12,000 min-1 spindle
32-tool ATC
Shower coolant supply
Tool breakage detection / Auto tool length compensation
Pre-arrangements for Auto zero offset / Auto gauging
In-machine chip conveyor (coil)
Lift-up chip conveyor
1.5 MPa thru-spindle coolant
Air blow during spindle rotation
Transformer
Table both sides
Hinge type
Side chip disposal (height: 1,000 mm)
Large volume
Thru-spindle
Conveyor Type
HingeA hinged steel belt
conveyor suitable for steelchips in various shapes and
lengths (coils/curls,short/medium/long)
To easily handle hot, wet or dry chips, or otherscrap material from milling, boring, drilling and
other machining center operations.
Remarks
For reliable and efficient handling of chips from machine tools.
Unit: mm
* Commercially available milling chucks may interfere with the ATC tool change arm and tooling outer portions. Please check dimensions with tool manufacturer documentation before use.
7.8 N-m
GENOS M560R-V
1,050
560
1,300 x 560
900
2,520 x 3,105
7,700
ATC tool dimensions
� Max tool sizeIn tool magazine (with adjacent tools)
� Max single tool size(Without adjacent tools)
� Max tool mass moment
GENOS M460R-VE / GENOS M560R-V
ø44.
45
ø63
ø90
32 12 30030˚
Mass including shank may be up to 78.4 N (8 kg), and the position of center of gravity at that time may be up to 100 mm from the datum diameter (ø44.45).
ø76
ø4
4.4
5
ø1
25
ø6
3
32 30300
30˚
100 78.4N (8kg)
**
GENOS M460R-VE
�Table size
�Dimensional drawing / Installation drawing
�Working ranges
�Dimensional drawing / Installation drawing
�Table size �Working ranges
GENOS M560R-V
762Spindle travel range (X axis)
1,000
8015
015
0
460
Tab
le t
rave
l (Y
axi
s)80
T-slot detail(3 slots)
18H7
30
30+2 0
12+2 0
460
Travel 460
Z-a
xis
trav
el(s
pin
dle
ver
tical
)
Z-a
xis
trav
el(s
pin
dle
ver
tical
)
230 230
Trav
el 4
60
X-axis travel(spindle vertical)
500500
381 381
Travel 762
1,000
Y-axis travel (table F/B)
Table width
Table length
125
125
125
92.5
92.5
150
T-slot
30
18H7
1,300
1,050
Spindle travel range (X axis)
560
Tab
le t
rave
l (Y
axi
s)
18H7
7
Cross groove
Cross groove detail
Table length
Z-a
xis
trav
el(s
pin
dle
ver
tical
)
Z-a
xis
trav
el(s
pin
dle
ver
tical
)
X-axis travel(spindle vertical)
Y-axis travel (table F/B)
Travel 560
560
280280
Trav
el 4
60
Travel 1,050
150
525 525
6501,300
650Table width
Table length
T-slot detail(4 slots)
Lift-up chip conveyor
Chip bucket
600
100
100
610
551
1,89
0 (B
ed b
otto
m le
ngth
)
(Mar
gin)
500
(Margin)500
(Margin)500
1,33
030
045
0
R600R600
4,1001,770 (Bed bottom) 1,050
135
565
701
5801,2001,270
Tank removal direction
59
Thru-spindle coolant unit
Transformer
Height from floor: 750 mm or 2,150 mm(2 plcs)
Power inlet37 kVA � 50 mm2 4C
NC cabinet
(Opt)
Spindle center
3,10
531
0
1,34
055
0
(Mar
gin)
500
3,87
5
1035
41,
188
32-tool ATC
Bed bottom line R492
1,030 (Bed bottom)935 5052,470 50
515 515
170
295
Air inlet height 954, Rc3/8 internalRequired capacity 500 L/min (ANR) More than 0.5 MPa Supplied air temperature should be within +5°C
Spindle center
Spindlehead cooler
32-tool ATC
Air unit
Coolant tank
2,74
6
1,40
0 (C
NC c
abin
et h
eight
)
2,15
0
750
650
2,795 310750
560 280280
845MoveMove Y-axis travel
560Table width
1,950
Tank removal direction
32-tool ATC
Spindle centerSpindlehead cooler
2,74
6
1,40
0 (C
NC c
abin
et h
eight
)75
0
Air unit
Coolant tank 2,495750 315
1,800
Tank removal direction
695
Move MoveY-axis travel460230 230
460Table width
2,49
2
NC cabinet
3,58
0
112
170
320
240
610
1,64
0 (B
ed b
otto
m le
ngth
)1,
190
450
354
910
R600
1,500 (Bed bottom)1,200
550580
850
870 Spindle center860 (Bed bottom) 430
2,160 50
430430
R492
551
59
Lift-up chip conveyor
Chip bucket(Opt)
32-tool ATC
Air inlet height 758, Rc3/8 internal
Required capacity 500 L/min (ANR) More than 0.5 MPaSupplied air temperature should be within +5°C
Bed bottom line
Tank removal direction
2,81
0
100
100
1,33
0
Thru-spindle coolant unit
500
(Mar
gin)
R600
Height from floor: 750 mm or 2,150 mm(2 plcs)
Power inlet37 kVA � 50 mm2 4C
600
3,761
1,131(Margin) (Margin)500 500
(Mar
gin)
500
15 16
Signal tower
Tool load/unload button
Pulse handle
ATC oper-ation panel
ATCmagazine door
1,300 860 600
920 850 (Doors open)
1,000 Table full length
Operation panel
381Move
381Move
762 X-axis travel
938 83
2,60
02,
002
Lift-up chip conveyor
Chip bucket(Opt)
460
Z-ax
is tra
vel
1,00
030
585
730
610
7015
0
380 470390
380 200
(in-MC)
Floor
1,23
5
146
4211,0201,450 450 600380 200
95
Operationpanel
Signal tower
Tool load/unload button
693 630
610
73015
070
3058
51,
000
2,29
52,
600
146
(in-MC)
Pulse handle
757 390
1,300 Table full length
460
Z-ax
is tra
vel
1323 (Doors open)
525 Move525 Move
1050 X-axis travel
1,23
5
ATC oper-ation panel
ATCmagazine door
Lift-up chip conveyor
Chip bucket(Opt)
30+2 0
12+2 0
955
300
450
Transformer
650
Floor
Table length
17 18
�3D-E Kit Specifications (Europe Package Specs)
�Optional SpecificationsInteractive functionsAdvanced One-Touch IGF-M
ProgrammingProgram notes (MSG)Coordinate system selection3-D circular interpolationCylindrical side facingSlope machiningSkip functionDrawing conversion
Program branch; 2 setsF1-digit feedUser task 2MonitoringMachining Navi M-g (cutting condition search)
Manual gauging (w/o sensor)Interactive gauging
Conversational programming and machine operations
Message displayed on screen by part program200 sets (Std: 20 sets)
Easier to execute
G31Programmable mirror imageEnlarge/reduce
ParameterI/O variables (16 each)
From chatter to optimum spindle speed
Touch-sensor, touch-probe required
External I/O communicationDNC-DTDNC-T3High-speed, high-precisionSuper-NURBS
OperationsSequence operation
Block skipExternal M signalsOtherAdditional axis for rotary tableOSP-VPS (Virus Protection System)
Fast, high-precision applications(shape comp, adaptive control)
Sequence restart (Std)Mid-block restart3 sets4 signals, 8 signals
1 additional axis
[Interactive Programming with Okuma’s Advanced One-Touch IGF-M]Simple key operations help the operator learn fast and use it right away. Interactively program/operate
in the shop –– at the machineProgram in the office
NC program, IGF data
IGF data
On-machine
(PC-based Advanced One-Touch IGF-M*)
� Featuring the PC-IGF . . .
* Applications with other machines require additional software.
� PC-IGF� Advanced One-Touch IGF-M
Auto program schedule updateCoordinate system selectionHelical cuttingSynchronized Tapping IIProgrammable travel limitsArbitrary angle chamferingTool life managementAuto power shut-offSequence stopReal 3-D simulationI-MAPSimple load monitorNC operation monitorCycle time reductionTool breakage detection (touch sensor)Auto gauging (preps)Mulitiple languages
Item
To change a part program during a scheduled run100 sets (Std: 20 sets)To machine large-diameter screws with angular cuttersFast & accurate rigid tapping (synchronized spindle speed, angle, feed axis position)Per G22, G23Easy any-angle chamfering (C, R)Tools automatically replaced per No. of workpieces or cycle timesAt auto run end or preset timesMachining stopped at designated sequence No.Real time simulation of all machining modes (auto, MDI, manual)Easy part program editing per guide maps (with drawing calculate)Spindle load (stops machining at overload)Time totals (cutting, operation, spindle rotation, external input, etc) and 4 workpiece countersReduces/shortcuts operation proceduresIncludes auto tool offsetIncludes auto zero offset15 languages available
Description
OSP-P300M-R
�Standard SpecificationsControlPosition feedbackCoordinate functionsMin / Max inputs
FeedSpindle controlTool compensationDisplaySelf-diagnosticsProgram capacityProgram operations
Easy Operation
Machine operations
MacMan
X, Y, Z simultaneous 3-axis, spindle control (1 axis)OSP full range absolute position feedback (zero point return not required)Machine coordinate system (1 set), work coordinate system (20 sets)8-digit decimal, ±9999.9999 to 0.0001 mm , 0.0001°Decimals as: 1 µm, 10 µm, 1 mm (1°, 0.01°, 0.0001°)Cutting feed override 0 to 200%, rapid traverse override 0 to 100%Direct spindle speed commands, override 30 to 300%, multi-point indexingNo. of registered tools: Max 999 sets, tool length/radius compensation: 3 sets per tool15-inch color LCD + touch panel operationsAutomatic diagnostics and display of program, operation, machine, and NC system faultsProgram storage: 4 GB, operation buffer: 2 MBProgram management, editing, multitasking, scheduled program, fixed cycle, G-/M-code macros, arithmetic, logic statements,math functions, variables, branch commands, coordinate calculate, area calculate, coordinate convert, programming helpOne series of operations completed with a single screen (single mode operation)Comprehensive management of tool shape and tool compensation information for each tool number Tool data shared between machining and Advanced One-Touch IGF (optional)Machine operating panel achieves sure machine operationsMDI, manual (rapid traverse, manual cutting feed, pulse handle), load meter, operation help, alarm help,sequence return, manual interrupt/auto return, pulse handle overlap, parameter I/O, self-diagnostics, PLC monitorMachining management: machining results, machine utilization, fault data compile & report, external outputUSB (2 ports), Ethernet, RS-232-C interface (1 channel)TAS-S (Thermo Active Stabilizer––Spindle), TAS-C (Thermo Active Stabilizer––Construction), Hi-G Control,Hi-Cut Pro
Basic Specs
Programming
Operations
Communications / NetworkingHigh speed/accuracy specs
Satisfaction from complete control of a machine tool
� Setup operations
� Trial/continuous cuts� Programming � Tool preparations
As a “machine & control” builder, Okuma makes further strides in machine tool manufacturing with
this superb control featuring "Easy Operation". Okuma took a close look at the way machinists
actually operate machine tools, to help them create smoother and more effective ways of producing
parts. Novice operators as well as professional machinists get complete control—and satisfaction.
Moreover, what you want to see and do conveniently come together in a “single-mode operation.”
First, select one of three operation screens. Then simply touch the screen or press a function key to
see and do your job.
Okuma Control OSP-P300M-R
When using Okuma products, always read the safety precautionsmentioned in the instruction manual and attached to the product.
This product is subject to the Japanese government Foreign Exchange and Foreign Trade Control Act with regard to security controlled items; whereby Okuma Corporation should be notified prior to its shipment to another country.
� The specifications, illustrations, and descriptions in this brochure vary in different markets and are subject to change without notice.Consult your local Okuma representative for specific end-user requirements. Pub No. GENOS-MR-E-(E)-(2a)-400 (Jul 2013) Printed in Japan
OKUMA Corporation, OGUCHI-CHO, NIWA-GUN, AICHI 480-0193, JAPAN • TEL (0587) 95-7825 • FAX (0587) 95-6074
Okuma Techno (Thailand) Ltd.Singapore Branch
Okuma Tech Centerat York TechnicalCollege
Okuma’s Global Support System
Okuma Europe GmbH (Germany)
BYJC-Okuma (Beijing) Okuma America Corporation
Okuma Korea Technical Service Center
Oguchi Plant (World Headquarters)
OKUMA Corporation
Kani Plant
OKUMA Europe RUS
Okuma Technical Centre East
Okuma Technology Centre South
OkumaTechnology Center Paris
Okuma Australia Pty Ltd
OkumaNew Zealand
Okuma Techno (Thailand)
Okuma India Pvt Ltd Okuma Machine Tool (Shanghai) Corporation
Tatung-Okuma Co. LtdOkuma Taiwan Technical Center
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