03-16Torno Horiz CNC Torreta Motorizada

NL SERIES

Rigid & Precise

R i g i d a n d P r e c i s e C N C L a t h e sNL SERIESNL1500/NL2000/NL2500/NL3000

2

Ever since our first machine tool rolled off theproduction line in 1968, we here at Mori Seikihave continued to make CNC lathes that arepraised by customers everywhere. Over those35 years, we have released around 100 models.We can say with confidence that we believeevery single one was an improvement on itspredecessor. Today, we are on the threshold ofa new beginning in the field of CNC lathes, andwe are determined once again to create a lathethat will lead the industry in innovation. Afterreworking our designs, and incorporating datareceived from confronting heat related prob-lems and thousands of customer comments,we have improved our products even more.Our uncompromising development stance hasmade it possible to deliver unprecedentedrigidity, precision, and reliability. Our effortshave created our newest line, the NL Series.These new machines are high-rigidity, high-precision CNC lathes and set the new standardin “common sense” machining for a new age.

Rigid & Precise

MAPPS: Mori Advanced Programming Production System● Figures in inches were converted from metric measurements.

We have created a lathe that willchange the world.

Turret with a built-in milling motor P.4－7

Turning performance/Rigidity P.8－11

Thermal isolation P.12－13

Machining power P.14－15

Productivity P.16－17

Digital tailstock/Convenience P.18－19

Maintenance P.20－21

Automatic operation support P.22－23

Eco-friendly design P.24

Peripheral equipment P.25

MAPPSⅡ P.26－27

Variation P.28－29

Package P.30

Installation drawing P.31－35

Standard & optional features P.36－37

NC unit specifications (MSX-850) P.38

Machine specifications P.39－43

Service support P.44

(a new high-performance operating system)

3

R i g i d a n d P r e c i s e C N C L a t h e sNL SERIESNL1500/NL2000/NL2500/NL3000

4

5

Rigid & PreciseNL SERIES

Innovative turret designTurret with a built-in milling motor The milling mechanism on conventional lathes generatesa great deal of heat and vibration due to the large numberof parts involved, including the motor and gear belt. TheNL Series, however, features the industry's first turretwith a built-in milling motor. This revolutionary designminimizes heat generation and vibration while eliminatingtransmission losses. The new design increases both machin-ing accuracy and cutting performance.

The NL Series was designed to create a CNC lathewith true milling capability. For example, the NL2500can accommodate face mills of up to φ80 mm (φ3.1 in).NL Series machines boast milling performanceapproaching that of No. 40 taper machining centers.

φ80 mm

Face millNL2500

Tapping capacity M20

《Actual size》

(φ3.1 in.)

Extremely rigid turretIn order to enhance the milling function, it is essential to increasethe rigidity of the rotary-tool holders. The NL Series rotary-toolholders have a broader grip as compared to conventional lathes.By raising attachment precision we have vastly improved rigidity.

■ Coupling diameter

Greater coupling diameter than before.

■ Super-rigid rotary-tool holdersTaking a hint from couplings, whichare praised for their high repeatability,we developed a very rigid rotary-toolholder.

NL2500

Tool diameter and depth of cut Tool diameter and depth of cut

10－15 mm(0.4－0.6 in.)

φ20 mm(φ0.8 in.)

φ20 mm(φ0.8 in.)

20 mm(0.8 in.)

Previous model NL2500NL2500

φ210 mm　(φ8.3 in.)

φ250 mm　(φ9.8 in.)

φ210 mm　(φ8.3 in.)

φ250 mm　(φ9.8 in.)

Coupling diameter

19 % Greater

6

20 mm (0.8 in.)

Tool diameter＝Depth of cut

Rotary-tool holder rigidity

180 % Greater

Previous model

■ Comparison of rotary-tool holder rigidityConventional lathes leave chatter marks when the depth of cut is made deeper, but with the NL Series, it is now possible to cut to a depth equal to the tool diameter. This is attributed to the tool holders that have been designed to be more rigid.

NL2500YNL2500

A solid construction that can hold its own with the NL Series two-axis models.

DDS: Direct Drive Spindle

Y-axis specification constructionWe also independently developed a powerful platform for maximizing performance inthe Y-axis specifications. This has achieved rigidity between the spindle and the tooltip that exceeds that of conventional two-axis lathes.

■ High-performance rotary tool spindleA DDS motor that has no gear belt is used for the rotary toolspindle, delivering high-speed, high-efficiency machining.

NL SERIES

Max. rotary tool spindle speed

NL1500/NL2000/NL2500

I50mm(I2.0 in.)

6,000 min-14,000 min-1

NL3000

I60mm(I2.4 in.)

Y-axis travel (Y-type)

Previous model

NL2500

Rotary tool spindle acceleration time

0→4,000 min-10→4,000 min-1

0.11 sec.0.35 sec.

Previous model

Maximum rotary tool spindle torque

Rigid & PreciseNL SERIES

7

0→6,000 min-1

0.23 sec.

NL1500 24 N·m (17.7 ft·lbf)<3 min>

NL2000 29 N·m (21.4 ft·lbf)<3 min>

40 N·m (29.5 ft·lbf)<3 min>

NL2500NL3000

50 %Greater

Reduced approximately

70 %

8

The ultimatein turningOur goal was to minimize tool tip vibration, thus reducing the needto grind after cutting as well as extending tool life. The NL Seriesachieves this with its increased rigidity between the spindle andtool tip.

Improved tool tip rigidity

9

Rigid & PreciseNL SERIES

Handles large-diameterworkpiecesAlthough the NL Series machines remain rock solid duringheavy-duty cutting, their design incorporates the largestspindle through hole in its class <φ91 mm (φ3.6 in.) forNL2500>.

91 mm (3.6 in.)Through spindle hole diameter

NL1500

Through spindle hole diameter (headstock 1 spindle)

61 mm(2.4 in.)

NL2500

91 mm(3.6 in.)

NL2000

NL2500

73 mm(2.9 in.)

NL3000

105 mm(4.1 in.)

■ End face finishing accuracy

SL-253BMC

Patterns caused by large vibration during machining

Thanks to high rigidity, machining no longerrequires additional grinding.Increasing the rigidity between the spindle and the tool tip has made it possible to achieve high quality machinedsurfaces through turning alone.

NL2500

Conventional machines create a pattern on materialdue to the amount of vibration the tool tip generates.With the NL Series, there is no pattern on the material,thus eliminating the need for grinding.

■ Roundness (turning)

Filter: 1－50

10 μm

90°

270°

180° 0° 0.4μm

Tool

MaterialOuter diameterSpindle speedFeedrate

Diamond tool <Nose radius 0.5 mm (0.020 in.)>

Brass40 mm (1.6 in.)

4,000 min-1

0.05 mm/rev (0.0020 ipr)

Machine type NL2500MC/700

ToolInsertsMaterial <JIS>Cutting speedFeedrateDepth of cut

WTKNR2525M-16NTNMG160408-PF (4015)

S45C＊<A 150×150 mm (A 5.9×5.9 in.)>380 m/min (1,246.8 fpm)0.12 mm/rev (0.005 ipr)

0.1 mm (0.004 in.)

● See Automatic Operation Support (p23) for details on bar work capacity.

Patterns caused by small vibration during machining

＊ Carbon steel JIS: Japanese Industrial Standard

● The cutting test results indicated in this catalog are provides as an example. The results indicated in this catalogmay not be obtained due to differences in cutting conditions and environmental conditions during measurement.

NL2500

Previous model A

Previous model B

Ultra-high rigidity structureWe have a new design for the basic structure: the spindle, saddle and tailstock.This new design ensures consistent rigidity. The result is a level of rigidity thathas not been seen before, with increased stability due to the broad bottom face.

10

■ Broader guidewaysThe slideways are 30 % wider than those of conventional machinesand are the largest in the class. We have achieved an unknown levelof stability not only in turning work but also in milling work.

Guidewaywidth

Torsionallyrigid

100 %Greater

<comparison to conventional machines>

NL2500Y/700

Previous model

■ Bed torsion rigidity

NL2500

Dramatically better bed torsion rigidity compared to conventional machines has been achieved through static analysis.

Torsionally rigid100 % Greater

-18

-16

-14

-12

-10

-8

-6

-4

-2

0

2

-2,000 -1,800 -1,600 -1,400 -1,200 -1,000 -800 -600 -400 -200 0

Dis

plac

emen

t (μ

m)

Distance along rail (mm)

Top rail

Top rail

Bottom rail

Bottom rail

NL2500

Previous model

Top rail

Bottom rail

Torsion displacement graph

30%Greater30%Greater<comparison to conventional machines><comparison to conventional machines>

Highly rigid spindleThe axis rigidity of the headstock and its mounting have beenimproved by changing the shape of the headstock andincreasing the thickness of its parts. The diameter of thebearings has been increased. This allows better spindle rigiditywhile enlarging the through-hole diameter.Rigid & Precise

NL SERIES

Axis rigidity 20 % Greater

Headstock attachment rigidity

30 % Greater

Rigidity of the spindle itself

NL2500Acceleration/deceleration time＊

Spindle acceleration time(0→4,000 min-1)

Spindle acceleration time(0→4,000 min-1)

Spindle deceleration time (4,000→0 min-1)

3.4 sec.4.9 sec.Spindle deceleration time(4,000→0 min-1)

4.2 sec.

Previous model

3.6 sec.

NL1500Maximum spindle torque (standard)

200 N·m (147.5 ft·lbf) <50 %ED>NL2000 349 N·m (257.4 ft·lbf) <50 %ED>NL2500 599 N·m (441.8 ft·lbf) <25 %ED>NL3000

1,025 N·m (756.0 ft·lbf) <30 min>

NL SERIESMaximum headstock 2 spindle torque

77.8 N·m (57.4 ft·lbf) <25 %ED>

The No. 2 spindle also delivers powerful turning.

■ Improved acceleration/deceleration time and torque specs

■ Headstock 2 spindle(S-, SMC-, SY-types)

Raising the rigidity has endowed the NL Series with performance equal to that of spindle motors one class above.

11

50 %Greater

Reduced approximately 31 %

Reduced approximately14 %

＊ When mounted with chuck

<comparison to conventional machines>

12

■ Heat elimination layout

NL SERIES

Previous model

It is common to find the oil cooler – a major source of heat – located rightnext to the spindle in conventional machines. As a result, the headstockis affected adversely by that heat.

Placing the oil cooler behind the machine removes that heat sourcefrom the headstock. The machine is designed so that the exhaust fromthe oil cooler doesn’t come in direct contact with the machine.

Large heat displacement

Low heat displacement

Oil cooler

Oil cooler

■ Fully-covered bedCovering the bed with a cover makes it difficult for the heat from chips to betransmitted to the bed.

Oil cooler exhaust ventThe oil cooler’s exhaust heat is blown out ofthe cover in the direction of the machine’s side.

Dis

plac

emen

t (m

m)

-0.003

-0.005

-0.007

-0.009

-0.011

-0.013

-0.015

-0.001

0.001

0.003

Time (hour)0 1 2 3 4 5 6 7 98

Oil cooler/Rear side, exhaust blocked (X-axis tip)

Oil cooler/Left side surface layout (X-axis tip)

Oil cooler/Rear side, exhaust blocked (X-axis base)

Oil cooler/Left side surface layout (X-axis base)

3.1 μm

12.7 μm

NL2500

Previous model

Spindle thermal displacement

Thermalisolation

The most prominent feature of the NL Series is said to be theelimination of the adverse effects of heat. In order to raisethe continuous machining precision of lathes, 95 % of whichis said to be taken up by cutting time, we at Mori Seiki havecome up with the concept of total heat elimination.

Designed to eliminate all heat

Spindle CoolingWe have redesigned the spindle, which isthe greatest source of heat, to employ a uniform-heat construction that maintains anequal temperature all around the spindle.The main spindle unit is protected from risesin temperature by the spiraling oil jacketlocated all the way to the back side.

Rigid & PreciseNL SERIES

13

Milling turret with a heat-suppressing designThe industry’s first turret with a built-in milling motor minimizes heat.

Ball screw shaft cooling＊(option)Shaft cooling is used on ball screws to control heat during feed.

Inverter-controlled oil coolerAn inverter-controlled oil cooler withvery accurate temperature regulationhas been used.

Motor

Timing belt 1

Timing belt 2

Bevel gear

Keyed shaft

+

+

+Involuted spline

+

+

Built-in milling motor

Keyed shaft+

1/10Rising turret temperatures

Previous model NL SERIES

NL SERIESInternal design of the turret

The transmission with all its gear, belts,and more, generates a substantial amountof heat and can adversely affect machiningprecision.

The built-in milling motor design haseliminated the transmission mechanism.Therefore, sources of heat are eliminatedand jacket cooling is performed. This isonly achieved with a built-in millingmotor.

＊ X-axis only.

Oil jacket

or lessBuilt-in milling motor

Oil jacket

14

Machining powerRigid & Precise

NL SERIES

By employing a super-rigid construction for the NL Series andequipping it with a turret with a built-in milling motor, it isable to deliver cutting equal to that of machines one classabove. This contributes to productivity.

Machine typeMaterial <JIS>Spindle speedDepth of cutCutting speedFeedrate

Heavy-duty cutting <O.D.> Throw-away drill

NL2500MC/700

S45C＊

764 min-1

10 mm (0.4 in.)120 m/min (393.7 fpm)0.4 mm/rev (0.016 ipr)

Machining rate per minute

576.0 mL/min(35.1 in3./min)

As you can see, wide cutting canbe done in outer diameter heavycutting.

Machine typeMaterial <JIS>Spindle speedDrill diameterCutting speedFeedrate

Milling capacity (material <JIS>：S45C＊)

NL2500MC/700

S45C＊

549 min-1

58 mm (2.3 in.)100 m/min (328.1 fpm)0.3 mm/rev (0.012 in.)

《Actual size》

Turning performance

Machining rate per minute

435.2 mL/min(26.5 in3./min)

20 mm (0.8 in.)20 mm (0.8 in.)

A 23 mm (A 0.9 in.)

End mill <B 20 mm (B 0.8 in.) High speed steel> Drill <B 23 mm (B 0.9 in.) High speed steel> Tap

Machining rate per minute

25.6 mL/min (1.6 in3./min)Machine typeRotary tool spindle speedDepth of cutCutting speedFeedrate

NL2500MC/700

320 min-1

20 mm (0.8 in.)20 m/min (65.6 fpm)64 mm/min (2.5 ipm)

Machining rate per minute

43.0 mL/min (2.6 in3./min)Tool

M20×P2.5Machine typeRotary tool spindle speedCutting speedFeedrate

NL2500MC/700

345 min-1

25 m/min (82.0 fpm)103.5 mm/min (4.1 ipm)

Machine typeRotary tool spindle speedCutting speedFeedrate

NL2500MC/700

160 min-1

10 m/min (32.8 fpm)400 mm/min (15.7 ipm)

JIS: Japanese Industrial Standard ＊Carbon steel● The cutting test results indicated in this catalog are provides as an example. The results indicated in this catalog may not be obtained due to differences in cutting conditions and environmental conditions during measurement.

A 58 mm (

58 mm (A 2.3 in.

2.3 in.)

A 5

8 m

m (A

2.3

in.)

Previous model

15

Comparison of cutting time

Comparison of milling power (material <JIS>：S45C＊1)

End mill <B 20 mm (B 0.8 in.) High speed steel> Drill <B 20 mm (B 0.8 in.) High speed steel>

Depth of cut

15 mm (0.6 in.) 20 mm (0.8 in.)Spindle load

100 % 55 % <40 %>Machining rate per minute

12.5 mL/min(0.8 in3./min)

25.6 mL/min (1.6 in3./min)<19.2 mL/min (1.2 in3./min)>

NL2500MC/700

Approx. 4 times＊2

Machining powerApprox. 4 times＊2

Machining power

Previous model

Feedrate

Machine type Machine type

40 mm/min (1.6 ipm) 120 mm/min (4.7 ipm)Spindle load

115 % 82 % <54 %>Machining rate per minute

12.6 mL/min(0.8 in3./min)

37.7 mL/min (2.3 in3./min)<25.1 mL/min (1.5 in3./min)>

NL2500MC/700

< > Parentheses indicate a cutting depth of 15 mm (0.6 in.).

● The cutting test results indicated in this catalog are provides as an example. The results indicated in this catalog may not be obtained due to differences in cutting conditions and environmental conditions during measurement.

6-inch chuck machine

Previous model A Previous model B NL1500Cutting time

Non-cutting time

Total time

14926175

14925174

12421145

<sec.>

<sec.>

<sec.>Compared against previous model BTotal time

Reduced by

16.7 % <29 sec.>

Compared against previous model ATotal time

Reduced by

17.1 % <30 sec.>

Compared against previous model DTotal time

Reduced by

14.5 % <69 sec.>

Compared against previous model CTotal time

Reduced by

13.7 % <65 sec.>

Compared against previous model FTotal time

Reduced by

7.6 % <32 sec.>

Compared against previous model ETotal time

Reduced by

7.1 % <30 sec.>

Compared against previous model GTotal time

Reduced by

5.2 % <46 sec.>

8-inch chuck machine

Previous model C Previous model D NL2000Cutting time

Milling time

Non-cutting time

Total time

26316842473

26416845477

21914940408

<sec.>

<sec.>

<sec.>

<sec.>

10-inch chuck machine

Previous model E Previous model F NL2500Cutting time

Non-cutting time

Total time

39228420

39032422

36624390

<sec.>

<sec.>

<sec.>

12-inch chuck machine

Previous model G NL3000Cutting time

Non-cutting time

Total time

84740887

81031841

<sec.>

<sec.>

<sec.>

< > Parentheses indicate a feedrate of 80 mm/min (3.1 ipm).

＊1 Carbon steel＊2 Calculated using the same ratio for the spindle load.JIS: Japanese Industrial Standard

16

ProductivityRigid & Precise

NL SERIES

What are the differences in machining time, production volume,and sales between previous models and the NL Series? Wehave included a machining simulation comparing the NL Series to previous models, so take a look at the outstandingproductivity of the innovative NL Series for yourself.

Workpiece

Material <JIS>Size

：：

A7075（Aluminum）A 150 mm×150 mm (A 5.9 in.×5.9 in.)

Previous model

Previous model

NL SERIES

SL-2 (manufacturing period: 1978ー1987)

SL-25MC(manufacturing period: 1987ー2000)

MV-40

+

NL2500MC/700

JIS: Japanese Industrial Standard

17

Cycle time comparison

Comparison of production volume and sales (25 USD/EUR per workpiece)

I.D. bottom drillingEnd face & O.D. rough cuttingRough boringEnd face & O.D. finishingI.D. finishingO.D. groovingO.D. threadingWorkpiece transferFace groove roughingFace groove finishingM12×P1.75 tap pre-drillingM12×P1.75 tap bottom drillingM12×P1.75 tapping

2538051141894967207

1,800801698202611581

2225236916139531060

785684198598452

13136646952632600

43638066239181

12345678910111213

Total cutting time <sec.> 6,377 3,890 2,058

ProcessCutting time <sec.>

SL-2TMV-40 SL-25MC NL2500MC/700

0 1,000 2,000 3,000 4,000 5,000 6,000 7,000 (sec.)

6,377 sec.6,377 sec.

3,890 sec.3,890 sec.

2,058 sec.2,058 sec.

Reduced by 47 % (1,832 sec.)Reduced by 47 % (1,832 sec.) Reduced by 68 %(4,319 sec.)

Reduced by 68 %(4,319 sec.)

Running time (one day) : 8 hours×85 ％＝3,600 sec.×8×0.85＝24,480 sec.Number of days operating in 1 year : 21 days×12 months=252 daysProduction volume per day (pcs./day) : 24,480 sec.÷Cycle time (sec.)

0

15

10

5

Pro

duct

ion

volu

me

(pcs

./day

)

44

66

1212

8 pcs.6 pcs.6 pcs.8 pcs.

pcs. pcs.

pcs. pcs.

pcs. pcs.

1st month 3rd month 6th month 9th month 1st year

SL-2TMV-40

SL-25MC

NL2500MC/700

2,100 3,1506,300 6,300

9,450

18,900

12,600

18,900

37,800

18,900

28,350

56,700

25,200

37,800

75,600

2,100 3,1506,300 6,300

9,450

18,900

12,600

18,900

37,800

18,900

28,350

56,700

25,200

37,800

75,600

SL-2TMV-40

SL-25MC

NL2500MC/700

■ Comparison of productionvolume

■ 1-year sales simulation

SL-2TMV-40 SL-25MC NL2500MC/700

Comparison with SL-2TMV-40

200 USD/EUR per day

4,200 USD/EUR per month

50,400 USD/EUR per year

Comparison with SL-25MC

150 USD/EUR per day

3,150 USD/EUR per month

37,800 USD/EUR per year

(USD/EUR)

18

Convenience

Rigid & Precise

NL SERIES

Easier and faster. The NL Series was designed to deliver the convenienceand setup performance of a machine one class above.

Tailstock control screenMachining using the tailstock drill (option)

Digital tailstockThe NL Series comes standard with a newfeature – a highly rigid digital tailstock drivenby a servomotor. This drastically reducesset-up time. (New standard feature doesnot apply to S-, SMC- and SY-types.)

The operator is freed from the hassle of having to lock the tailstock whenchanging to a workpiece of a different length, connecting it to the turret, etc.

■ Fewer steps requiring operationof the tailstock

With the conventional hydraulic system, changing the tailstock spindle settingswas inconvenient, so there was a limit to how much operating time could bereduced. A digital tailstock with variable feed speed control allows separatespeeds to be set for approach and engagement, reducing the operating time ofthe tailstock spindle by over 20 %.

■ Operating time reduced

With a hydraulic tailstock spindle, thrust is controlled indirectly using ahydraulic pressure meter, so if you use different machine models, youwill get different thrusts even if the same pressure is set. With a digitaltailstock, however, the thrust is measured directly, so the workpieceengagement is done accurately, raising machining precision.

■ Variable pressure control using program instructions

The digital tailstock, which has out-standing functionality as a tailstock,uses a servomotor drive that allows itto be used as a third spindle.

■ More applications

Reducedby over 50 %

Reducedby over 20 %

Setup timeTailstock spindle operating time

Approach position, retract position, re-chucking, and more can be done simplyand easily from the MAPPSⅡ screen. Besides being able to handle a varietyof different workpiece types, it can also work with M-code thrust selectionas a standard feature.

■ Simple operation using MAPPSⅡ

19

Previous model NL SERIES

Adjustableoperating panelThe easy-to-use operating panelswivels 90°. Improved visibility duringoperation.

Broader field of visionThe new design includes a vertical front door and awindow closer to the operator. The broader field ofvision allows the operator to view the machine interiorwithout having to stoop down. The distance betweenthe operating panel and the machine interior has beenshortened, thus reducing eye strain.

NL Series operating panelWe have changed the layout of the buttons on the operating panel to improve setup. We’ve also used rotary buttons for those with most frequent use.

0－90°

Functions and accessories for raising versatilityThe NL Series has been designed with the operatorfirst and foremost in mind, with innovations includedthroughout the machines to increase convenience.

Automatic door

Equipped with automatic doorsto enhance automation not onlyduring normal operation butalso when using a robot.

OP option

OP

XThe photo shown may differ from actual machine.

20

Maintenance

Rigid & Precise

NL SERIES

Minimizing machine down time. In our constant effort to become themost trusted machine tool company in the industry, we design MoriSeiki machines with maintenance and reliability in mind.

Machine cover designWe designed the machine covers so that maintenance locations areeasily seen when they are removed, and the openings have beenmade wider to allow easier access.

We have used a see-through materialfor the rear cover, making mainte-nance even easier.

■ See-through design(machine rear) Machine downtime is further

reduced by using a doordesign that enables windowreplacement without having toremove the door.

■ Replacing windows

21

Spindle unit replacementA spindle design with a separate rear bearing housing makes it possibleto replace the spindle unit without having to remove the motor wiring.The time it takes to replace the spindle is dramatically shorter whencompared with previous models.

Turret centering adjustment

The supply hole for the lubricant tank for theslideways is located in the front of themachine for easy refilling.

■ Lubricating oil (for sliding surfaces) tank

Maintenance devicesPull out the coolant tank in frontWith the new design, the coolant tank can be pulled out in front withouthaving to pull out the chip conveyor. It can be pulled out easily anddoes not take up extra space in the back.

Easily perform regular maintenance thanks to the device layout, which was designedfrom the point of view of the operator.

Cap bolt

Decentering pin

Removing the machine side covers providesaccess to the decentering pin and all thecoupling bolts, including the cap bolts. Thishas made turret centering adjustment mucheasier.

The air equipment is located on the rightside panel in order to facilitate maintenance.

■ Central location of air equipment

22

Automatic operation support (option)

Rigid & Precise

NL SERIES

What customers expect from automated devices has expanded from theautomation and unmanned operation needs of the past to includegreater reliability, reduced non-cutting time, and quieter operation.Mori Seiki has poured more resources into design in order to developautomated devices that raise productivity.

Specifications

Loader hand

LG-05 <machine travel type> LG-10 <machine travel type>Loader type

NL1500/NL2000 NL2500 NL3000Item

Gantry-type loader Max. travel speed

ModelMax. transfer weightApplicable workpiece diameterApplicable workpiece lengthNumber of pallet tablesMax. workpiece weightMax. workpiece stacked heightApplicable workpiece diameter

180 m/min (590.6 fpm) 200 m/min (656.2 fpm)

5 kg (11 lb.)×220―150 mm (0.8―5.9 in.)10―120 mm (0.4―4.7 in.)

14 [20] [26]35 kg (77 lb.)/pallet

20―150 mm (0.8―5.9 in.)

90 m/min (295.3 fpm)120 m/min (393.7 fpm)

10 kg (22 lb.)×2

20―150 mm (0.8―5.9 in.)10 [20]

75 kg (165 lb.)/pallet

30―200 mm (1.2―7.8 in.)

Parallel hands/Back end double hands(3-jaw)

470 mm (18.5 in.)

Parallel hands

30―250 mm (1.2―9.8 in.)30―200 mm (1.2―7.8 in.)

X-axis <hand up/down>Z-axis <loader unit left/right>

Workstocker

[ ] Option

■ Standard features

■ Optional features

2

Type AⅠ＊1 Type AⅡ Type AⅢ＊1 Type AⅣ

1 1 22 123 3

1 233

Type CⅠ＊1＊2　　　 Type CⅡ＊2　

Type CⅣ＊2　　　 Type EⅢ＊1＊2　　

Type CⅢ＊1＊2　　　

3

1 124

3

1 1 24

3

1 124

2 1 12 2433

3

1 124

Units1234

MachineWorkstockerLoaderTurnover unit

■ System variations

＊1 Not applicable for hollow cylinder specifications. ＊2 Please contact Mori Seiki. ＊3 For details contact Mori Seiki.

Order system

● Work counter● 14-station rotary workstocker (LG-05)/

10-station rotary workstocker (LG-10)● Hand air-blow● Chuck air-blow

● Automatic power off system● Spindle orientation● Low air pressure detecting switch● Signal tower (3-stage)

● Gantry-type loader for shaft work● Chip conveyor (right disposal＊3/rear disposal)● Turret-mounted workpiece-pusher● 20-station rotary workstocker/

26-station rotary workstocker (LG-05)● Number of pallet guides: 4● Double hand for A 200 mm (A 7.9 in.) workpiece＊3

● Workpiece holding detector

● Oil mist collector● External emergency stop button● Quality check chute● Center-guide specification

(workpiece pallet)● Hexagonal material specification

(workpiece pallet)

Gantry-type loader systemWe have achieved completely automated start-to-finish machining using only one machine, frommaterial supply to discharging the completed workpiece.This is a high-speed mass production system that reduces non-cutting time.

A ball caster wheel conveyor is usedbecause it does not cause many chipproblems.

■ Workstocker■ Loader hand

Parallel hands

A close confirmationswitch comes as astandard feature, thusimproving the reliabilityof the work chucking.

Back end double hands

■ Loader travel speed (travel)NL1500/NL2000

200 m/min (656.2 fpm)

NL2500/NL3000

120 m/min (393.7 fpm)

NL1500 with Gantry Loader

23

Workpiece unloader＊ (built-in type)We have further developed the previous parts catcher so that it cannow be customized more easily by the end user. Both spindleshandle workpieces up to double the previous length.

The capacity of the bucket has been doubledfor more convenient automation.

■ Workpiece bucket

■ Recommended accessories for bar feeder specification

Bar work capacity＊

In-machine traveling workpiece unloader systemOperate unmanned when equipped with the workpiece conveyor.With the S-type, receive workpieces from either the No. 1 or No. 2 spindles.

Bar feeder systemComplete bar machining is possible on a single machine when coupled witha workpiece unloader. You won’t need a work loader/unloader or turnover unit.

＊ Depending on the chuck/cylinder used and its restrictions, it may not be possible to reach full bar work capacity.

＊Standard for S-, SMC-, SY-types.

X Bar feeder XMulti counter XSignal tower X Guide bushing XWork stopper

NL1500

φ52 mm(φ2.0 in.)

NL2000

φ65 mm(φ2.5 in.)

NL2500

φ80 mm(φ3.1 in.)

NL3000

φ90 mm(φ3.5 in.)

■ Applicable workpiece diameterNL SERIES

80 mm (3.1 in.)■ Applicable workpiece lengthNL SERIES

200 mm (7.8 in.)

■ Max. transfer weightNL1500/NL2000/NL2500

3.0 kg (6.6 lb.)

NL3000

4.0 kg (8.8 lb.)

Bar puller systemAutomatically discharge the machined piece from the No. 2 spindle,making it easier to automate machining of bar workpieces and makingthis system ideal for long workpieces that cannot be handled by aworkpiece unloader.

Bar feeder

Bar feeder

Bar puller

Workpiece bucketIn-machine traveling workpiece unloader

Workpiece conveyor

NL2000

24

Eco-friendly design

Rigid & Precise

NL SERIES

Reducing the strain on the environment has become an important taskfacing companies today. NL Series have been designed with environ-mentally friendly functions to make this task easier. The new functionsfocus on reducing lubricant and electricity consumption. This focusfills customer needs at reduced costs.

Reduced consumption of lubricantEnergy savings

Reduction in electricity consumptionPower savings

The amount of lubricant needed by the box wayhas been reduced, contributing to energy savings.

Less 50 %

■ Comparison of amounts oflubricant needed

■ Automatic machine light functionIf the operating panel is not touched for a certain amount oftime, the interior light turns off. This saves energy andlengthens the life of the machine lights.

■ Function to reduce power consumption during standbyThe amount of electricity consumed in standby mode hasbeen reduced.

■ Automatic power-off functionIf the keyboard is not touched after a certain amount of time and NC operation is notbeing performed, power is cut off to the servomotor, the spindle, the coolant pump, andthe chip conveyor, thereby saving energy.

Energy-saving settings screen

25

Peripheral equipment

Rigid & Precise

NL SERIES

Chip disposal mechanisms are responsible for raising machine operatingrates. Measuring devices that contribute to improved setup…Mori Seiki has a whole lineup of very reliable peripheral devices ideal forwhatever kind of machining you do.

Chip disposal

Measurement Others

Hinge type

＊Chip conveyors are available in various types for handling chips of different shape and material.X For details contact Mori Seiki.

Scraper type

■ Chip conveyor＊

A chip conveyor that efficiently disposes of chips.Choose the specifications right for you.

■Other devices

OP

■ Manual type in-machine tool presetterPerform tool measurement more efficiently, therebyimproving setup.

Signal tower Collet chuck Hydraulic steady rest Coolant float switch

Oil mist collector Chuck air blow

Oil skimmer Work counter Semi-dry unit High-pressure coolant system

OP

OP Option

Air blow

■ Equipped with an LCD display thathas a very wide angle of view

■ Equipped with large memory as a standard feature

■ A global model in 13 languages

■ Network

The pointing device enables accurate andsmooth turning during 3-D cutting simulations.

● The NL Series is equipped with a wide-angle 10.4-inch TFT LCD display.

■ Equipped with a pointing device

Easy-to-use keyboard with a perfect balancebetween operation and compactness.

■ Keyboard layout

A calculator key is included, allowing theoperator to call up a function calculator fromany screen.

■ A handy calculator function

●User memory area

Standard 50 MB<Tape memory length equivalent to 127,000 m (416,687 ft)>

Option 500 MB

Card DNC operation possible

3×better CPU performance than previous models,

with 8×larger main memory

for CNC Lathe

26

A new high-performance operating system

Rigid & Precise

NL SERIES

Mori Seiki’s CAPS-NET Global Edition is acustomer support service using the Internet.

A network-enabled data management system forhigh-speed transfer of data between computerand machine.

CAPS-SERVERStandard feature

Japanese, English, German, French, Italian, Spanish, Portuguese, Dutch, Swedish, Turkish,Korean, Chinese (simplified), Chinese (traditional)

CAPS-NET Global Edition(option)

MAPPS：Mori Advanced Programming Production System●Please see the product catalogs for details. ●The photo shown may differ from actual machine.

Faster setup Minimizing machine down time

27

■ 3-D cutting simulation ■ Displaying tool info

It is possible to zoom and to rotate whilesimulating it. The display of the tool pathis possible.

■ Buffer block display

Blocks of programs being run which are in the buffer can also be displayed.

■Macro variable name display

The values of macro variables can be checked during the macro program check.

Programs can be managed ingroups for easier searching.

The status of the program -No Editing, Foreground, andBackground - is displayed.

Data can be sorted according to different criteria.

●By number ●By date●By size ●By comment

Choose which information you wantdisplayed.

■ Custom display

■ Group management

■ Status display

●Date ●Comment●Size ●Display/hide group

■ A bigger milling menuThe milling function has been greatlyenhanced. A drilling and milling menuequal to that of a machining center isincluded.

■Limit switch guidance function

The status (on/off) of the limit switchcan be checked along with the layoutdiagram without having to look at thestrong electric diagram, shortening thetime it takes to perform maintenance.

OP Option

■ Sorting

Faster creation of programs

Creating programs

Program check Program management

Data on the tools being used, including spindleguidance diagrams and compensation values,can be displayed during the program check.

■ Regular maintenancefunction

Once a predetermined amount of timehas passed, the screen automaticallyjumps to maintenance items that needattention.

■ Tool list

Tools used by the selected program aredisplayed as a list along side simulatedimages of the workpiece shape, givingoperators important data in a quick-to-grasp visual format.

■ Simple soft jaw forming function

The setup-saving function automaticallyhandles everything from rough machiningto finishing, simply by entering the requireddimensions for soft jaw forming and cut-ting conditions on the screen.

Machining pattern

Geometry pattern

■ Island shape

Up to 127 islands can be defined.

■ Open pocket

Machining time is greatly reduced by the optimized path generation function for open pockets.

■ Help

When you get stuck, a G code guidance and PLC message details function are useful.

OP

OP

■ Rapid registration

Register parts of or whole programs thatare frequently used and paste them intoother programs in a single operation.

Register Insert

28

VariationsRigid & Precise

NL SERIES

We want everyone to use the new standard in CNC lathes.Mori Seiki’s NL Series has machines in four classes for dif-ferent workpiece sizes and six types to best match the levelof the customer’s machining and process integration. With atotal of 30 variations, you are bound to find one right for you.

NL1500MC Y S SMC SY

Center variations

Standard chuck size<headstock 1 spindle/headstock 2 spindle>

Number of tool stations

Travel <X-/Z-axis>

Travel <Y-axis>

500

6 -inch / 6 -inch

12 tools

Bar work capacity＊1 52 mm (2.0 in.) [34 mm (1.3 in.)＊2]

260/590 mm (10.2/23.2 in.)

100 <±50> mm (3.9 <±2.0> in.)

＊1 Depending on the chuck/cylinder used and its restrictions, it may not be possible to reach full bar work capacity. ＊2 At 8,000 min-1.● The photo shows the machine equipped with options.

30variations

in all

2-axis turning

NL1500MC/500

/

NL2000MC Y S SMC SY

Center variations

Standard chuck size<headstock 1 spindle/headstock 2 spindle>

Number of tool stations

Travel <X-/Z-axis>

Travel <Y-axis>

500

8 -inch 6 -inch

12 [10] tools

Bar work capacity＊1 65 mm (2.5 in.)

260/590 mm (10.2/23.2 in.)

100 <±50> mm (3.9 <±2.0> in.)

[ ] Option

[ ] Option

2-axis turning

NL2000SMC/500

30variations

in all

29

S Headstock 2 spindle

A sub-spindle is mounted in themachine. When the first processcompletes, you can immediatelytransfer the workpiece to the sub-spindle, achieving continuousmachining with both high speedand high precision.

MC Turret with milling function

While milling with the spindlerotating, multi-axis turning ismade possible by simultaneouslycontrolling three axes, includingthe C-axis. This flexibly meetsprocessing needs even wheninvolving drilling processes orcomplex shapes.

Y Turret with Y-axis control

Controls tool center height inboth the direction of the workpiece diameter (X-axis)and the direction of the axis(Z-axis). Achieves high-accuracymachining even with processessuch as offset key grooving ordrilling off-center holes, whichare difficult for conventionalturning centers.

/ 6 -inch

NL2500MC Y S SMC SY2-axis turning

Center variations

Standard chuck size<headstock 1 spindle/headstock 2 spindle>

Number of tool stations

Travel <X-/Z-axis>

Travel <Y-axis>

700 1250

10 -inch

12 [10] tools

Bar work capacity＊1 80 mm (3.1 in.)

260/795＊2, 1,345＊3 mm(10.2/31.3＊2, 53.0＊3 in.)

100 <±50> mm (3.9 <±2.0> in.)

[ ] Option

＊1 Depending on the chuck/cylinder used and its restrictions, it may not be possible to reach full bar work capacity. ＊2 Distance between centers 700 type ＊3 Distance between centers 1250 type● The photo shows the machine equipped with options.

700 1250

NL3000MC Y

Center variations

Standard chuck size

Number of tool stations

Travel <X-/Z-axis>

Travel <Y-axis>

12 -inch

10 [12] tools

Bar work capacity＊1 90 mm (3.5 in.)

280/820＊2, 1,370＊3 mm(11.0/32.3＊2, 53.9＊3 in.)

120 <±60> mm (4.7 <±2.4> in.)

[ ] Option

2-axis turning

NL2500MC/700

NL2500Y/1250

NL3000Y/700

NL3000MC/1250

30

PackageRigid & Precise

NL SERIES

Mori Seiki has packages with various options already set tomatch your production type, making it easy to choose the rightcombination of features. Select multiple packages for a singlemachine.

Bar Material Package

This package improves automation and efficiency when machining bar materials.

Setup Support PackageThis package includes features effective inreducing setup time.

Automatic door (with tape switch)

Package 3

Workpiece rest

Package 4

Package 1 Package Available on machines shipped since August 2005

2

Bar feeder I/F＋

Cut-off holder＋

8-inch chuck specifications (headstock 2 spindle)＋

Guide bushing

Bar feeder I/F＋

Workpiece unloader＋

Workpiece positioning holder (turret-mounted type)＋

Cut-off holder＋

Guide bushing

＋

Signal tower (3-stage)＋

Tailstock air blow

Long Workpiece PackageThis package is for working with long workpieces.

SMW Brace Anchor I/F (one)

Package 7

SMW Brace Anchor I/F (one)

Package 8

＋

Tailstock air blow＋

Workpiece rest＋

Tailstock air blow

Aluminum Machining PackageThis package raises productivity whenmachining aluminum workpieces.

Chip conveyor with chip catcher

Package 6

＋

Shower coolant

Super High-Pressure CoolantPackageThis package efficiently disposes of chips.

High-pressure coolant system <7 MPa (1,015 psi)>

Package 5

＋

Coolant cooling unit＋

Oil mist collector I/F

● NL2000, NL2500 only.

31

Chip conveyor(option)

Spindle center

580 (22.8) Door opening

2695 (106.1) 693 (27.3)

2461 (96.9) 234(9.2)

3495 (137.6)

839 (33.0)

721 (28.4) <NL1500>707 (27.8) <NL2000>

52 (2.0) <NL1500> 107 (4.2) <NL2000>

1000

(39

.4)

5 (0

.20)

5 (0

.20)

2222

(87

.5)

Sig

nal t

ower

spe

cific

atio

n

1100

(43

.3)

2115

(83

.3)

Spindle large nose

Rear jack bolt position

370(14.6)

1848 (72.8)

661 (26.0)1189 (46.8)

1856

(73

.1)

1100

(43

.3)

14(0.6)

1923 (75.7)

60(2.4)

188 (7.4) <S-type>

1862 (73.3)

2050 (80.7) <S-type>

Spindle center

Power supply port

Hydraulic unit

Electrical cabinet

Spindle large nose

Headstock 2spindle large nose

Compressed air supply port

Oil cooler

721 (28.4) <NL1500>707 (27.8) <NL2000>

1850

(72

.8)

900

(35.

4) M

aint

enan

ce a

rea

1300

(51

.2)

Spa

ce to

rem

ove

cool

ant t

ank

1651

.6 (

65.0

)

769

(30.

3)

503

(19.

8)

839 (33.0) 580 (22.8)Door opening

900 (35.4) Maintenance area 2461 (96.9) 234(9.2)

693 (27.3)

865 (34.1) Space to remove chip conveyor

170

(6.7

)

70 (2.8)

900 (35.4)

370

(14.

6)

188

(7.4

) <

S-t

ype>

390

(15.

4) S

pace

to r

emov

e ch

ip c

onve

yor

Chip conveyor(option)

571

(22.

5)D

oor

open

ing

Bed shape

107 (4.2) <NL2000>52 (2.0) <NL1500>

Headstock 2spindle large nose

60 (

2.4)

770 (30.3) <NL1500>784 (30.9) <NL2000>

770 (30.3) <NL1500>784 (30.9) <NL2000>

Installation drawing (NL1500, NL2000)

■ Front view

■ Plan view

■ Side view

Q50630A02

mm (in.)

Floor Line

Spindle center

Spindle large nose

1100

(43

.3)

5(0

.20)

2115

(83

.3)

2183

(85

.9)

Aut

omat

ic d

oor

spec

ifica

tion

107 (4.2)Hollow chuck

3840 (151.2)

2866 (112.8) 234(9.2)3100 (122.0) 740 (29.1)

2282

(89

.8)

Oil

mis

t col

lect

or s

peci

ficat

ion

2222

(87

.5)

Sig

nal t

ower

spe

cific

atio

n

1000

(39.

4)

970

(38.

2)

1740

(68

.5)

170(6.7)

900 (35.4) 961 (37.8)

1044 (41.1) 780 (30.7) Door opening

759 (29.9)Automatic door opening

Headstock 2 spindle large nose

Coolant gun (option)

Oil mist collector (option)

Chip conveyor (option)

Workpiece conveyor (option) Workpiece conveyor(option)

Floor Line

Spindle center

Coolant gun (option)

Oil mist collector (option)

370(14.6)

5(0

.20)

970

(38.

2)

138 (5.4) <S-type>

14 (0.6)

405 (15.9) 1189 (46.8) 661 (26.0) 850 (33.5)

1848 (72.8)60 (2.4)

1862 (73.3)

1922 (75.7)

2000 (78.7) <S-type>

Rear jack bolt position

1856

(73

.1)

319 (12.6)

Hydraulic unit

Oil cooler

Workpiece conveyor(option)

630 (24.8)

390

(15.

4)

Spa

ce to

rem

ove

chip

con

veyo

r

242

(9.5

)16

52 (

65.0

)

370

(14.

6)

362 (14.3)

107 (4.2)Hollow chuck

1044 (41.1)

1050 (41.3)

900 (35.4) 961 (37.8)

900 (35.4)Maintenance area

3840 (151.2)

269(10.6)

215 (8.5)70

(2.8)

170 (6.7)

2866 (112.8) 234(9.2)

740 (29.1)

1300

(51

.2)

Spa

ce to

rem

ove

cool

ant t

ank

1850

(72

.8)

900

(35.

4)M

aint

enan

ce a

rea

319

(12.

6)

4865 (191.5)

394

(15.

5) 900

(35.

4)50 (2

.0)

50(2

.0)

4050

(15

9.4)

Electrical cabinet

Bed shape

60 (2.4

)57

1 (2

2.5)

Doo

r op

enin

g

Spindle large nose

503

(19.

8)

Headstock 2 spindle large nose

Oil mist collector (option)

Compressed air supply port

Operation panel

Coolant gun (option)

Power supply port

Semi-dry unit (option)

Oil skimmer(option)

Chip conveyor(option)

138

(5.4

) <

S-t

ype>

φ300 (11.8)

780 (30.7) Door opening

759 (29.9)Automatic door opening

405

(15.

9)

310

(12.

2)

865 (34.1)Space to remove chip conveyor

845 (33.3)

32

Installation drawing (NL2500/700)

■ Front view

■ Plan view

■ Side view

Q50631A03

mm (in.)

Rear jack bolt position

1100

(43

.3)

5 (0

.20)

5 (0

.20)

420 (16.5)

2095 (82.5)

661 (26.0)

195.4(7.7)

35 (1.4) 12 (0.5)

2143 (84.4)

1921

(75

.6)

2029

(79

.9)

Chip conveyor(option)

984

(38.

7)

711(28.0)

4082 (160.7)

1352 (53.2)

2227

(87

.7)

1100

(43

.3)

2231

(87

.8)

Sig

nal t

ower

spe

cific

atio

n

745 (29.3) Door opening

690 (27.2)Door opening

550 (21.7) 448 (17.6)

1481 (58.3)

234(9.2)

12 (0.5)

4328 (170.4)

5039 (198.4)

715 (28.1) Operation panel travel

Spindlecenter

1516 (59.7)

Spindle center

Spindle large noseHeadstock 2spindle large nose

Electrical cabinet

Oil cooler

Hydraulic unit

Chip conveyor(option)

Power supply port

Spindle centerSpindle large nose

Bed shape

Compressed air supply port

1481 (58.3) 745 (29.3) Door opening

690 (27.2) Door opening

900

(35.

4)

Mai

nten

ance

are

a

550(21.7)

448(17.6)

1425

(56

.1)

Spa

ce to

rem

ove

cool

ant t

ank

4082 (160.7)900 (35.4)Maintenance area

1702

(67

.0)

399

(15.

7)

760(29.9)

463

(18.

2)

420

(16.

5)

1900

(74

.8)

200

(7.9

)

1352 (53.2) 1516(59.7)

234(9.2)

711 (28.0)

1050 (41.3)

70 (2.8)

715 (28.1)Operation panel travel

674

(26.

5)

Headstock 2spindle large nose

160 (6.3)Space to remove chip conveyor

621

(24.

4)

Doo

r op

enin

g

390

(15.

4) S

pace

to r

emov

e ch

ip c

onve

yor

33

Installation drawing (NL2500/1250)

■ Front view

■ Plan view

■ Side view

Q50635A02

mm (in.)

SpindlecenterSpindle large nose

Rear jack bolt position

Spindle center

1150 (45.3)

1072 (42.2)

900 (35.4) Door opening

250 (9.8) Hollow chuck

3410 (134.3) 675 (26.6)

3200 (126.0) 210 (8.3)

1050

(41

.3)

5 (0

.20)

2265

(89

.2)

1145

(45

.1)

4335 (170.7)

5 (0

.20)

1145

(45

.1)

60 (2.4) 2016 (79.4)

406 (16.0)

2076 (81.7)

705 (27.8)1311 (51.6)

2306

(90

.8)

Sig

nal t

ower

spe

cific

atio

n

1940

(76

.4)

Spindle large nose

Hydraulic unit

Electrical cabinet

Oil cooler

Power supply port

Chip conveyor(option)

Compressed air supply port

1072 (42.2)

250 (9.8) Hollow chuck 1150 (45.3) 900 (35.4) Door opening

407

(16.

0)

3200 (126.0) 210(8.3)

675 (26.6)

2016

(79

.4)

900 (35.4)Maintenance area

900

(35.

4)M

aint

enan

ce a

rea

1416

(55

.7)

Spa

ce to

rem

ove

cool

ant t

ank

60 (2.4

)

1050 (41.3)

1774

.6 (

69.9

)

1143 (45.0)Space to remove chip conveyor

380

(15.

0) S

pace

to r

emov

e ch

ip c

onve

yor

503

(19.

8)

70 (2.8)

481.

5(1

9.0)

356

(14.

0)

Chip conveyor(option)

647

(25.

5)

Doo

r ope

ning

Bed shape

34

Installation drawing (NL3000/700)

■ Front view

■ Plan view

■ Side view

Q50632A02

mm (in.)

Spindlecenter

Spindle center

Spindle large nose

Chip conveyor(option)

Rear jack bolt position

1145

(45

.1)

1050

(41

.3)

1418 (55.8)

661 (26.0)

4300 (169.3)

720 (28.3) Door opening

720 (28.3) Door opening

1476 (58.1)

5 (0

.20)

5 (0

.20)

2385

(93

.9)

210 (8.3)12 (0.5)

4522 (178.0)

403 (15.9)

881 (34.7)

12 (0.5)

2291 (90.2)

2244 (88.3)35 (1.4)

705 (27.8)19

65 (

77.4

)11

45 (

45.1

)

2331

(91

.8)

Sig

nal t

ower

spe

cific

atio

n22

02 (

86.7

)

192 (7.6) 442 (17.4)

5184 (204.1)

Hydraulic unit

Oil cooler

Electrical cabinet

Power supply port

Bed shape

Chip conveyor(option)

Spindle large nose

Spindlecenter

Compressed air supply port

1050 (41.3)

60 (2.4

)

210(8.3)

661 (26.0) 272 (10.7)Space to remove chip conveyor

1431

.5 (

56.4

) S

pace

to r

emov

e co

olan

t tan

k

422

(16.

6)

1790

(70

.5)

4300 (169.3)900 (35.4)Maintenance area

2032

(80

.0)

900

(35.

4)

Mai

nten

ance

are

a

1418 (55.8)

550 (21.7)Operation panel travel

565 (22.2) 719 (28.3)

691

(27.

2)

444

(17.

5)

658 (25.9)

1476 (58.1)

70 (2.8)

482

(19.

0)

356

(14.

0)

662.

5 (2

6.1)

D

oor o

peni

ng

390

(15.

4) S

pace

to r

emov

e ch

ip c

onve

yor

550 (21.7)Operation panel travel

720 (28.3) Door opening

720 (28.3) Door opening

35

Installation drawing (NL3000/1250)

■ Front view

■ Plan view

■ Side view

Q50633A02

mm (in.)

36

Standard & optional features

Spindle

Max. spindle speed (headstock 1)

Max. spindle speed (headstock 2)

Inverter-controlled oil cooler

Spindle orientation (headstock 1)

Spindle orientation (headstock 2)

Spindle synchronized tapping

●○○×

×

×

×

××××●●○××○

●○○×

×

×

×

××●○●●○●○○

×××●

○

×

×

××××●●○××○

×××●

○

×

×

××●×●●○●○○

××××

×

●

○

××××●●○××○

××××

×

●

○

××●×●●○●○○

××××

×

×

×

●○××●●○××○

6,000 min-1<11/11/7.5 kW (15/15/10 HP)>＊1

6,000 min-1<15/15/11 kW (20/20/15 HP)>＊1

8,000 min-1<11/7.5 kW (15/10 HP)>＊2

5,000 min-1<15/15/11 kW (20/20/15 HP)>＊1

5,000 min-1

<18.5/18.5/18.5/15 kW (24.7/24.7/24.7/20 HP)>＊3

4,000 min-1

<18.5/18.5/15 kW (24.7/24.7/20 HP)>＊4

4,000 min-1

<26/26/22 kW (34.7/34.7/30 HP)>＊5

3,000 min-1<22/18.5 kW (30/24.7 HP)>＊6

3,000 min-1<30/25 kW (40/33.3 HP)>＊6

6,000 min-1<11/7.5 kW (15/10 HP)>＊2

8,000 min-1<11/7.5 kW (15/10 HP)>＊2

Without lock functionWith lock functionWithout lock functionWith lock functionSpindle center

Bolt-tightened turret head

Quick-change type turret head (VDI)

Max. rotary tool spindle speed

Tool holdersRotary-tool holdersCapto-compatible holderPolygon option

Overhang of O.D. cutting rotary tool

Turret●×○×○×○＊7

○＊8

●＊10

○＊10

●○＊10

○○＊10

●○＊11

●×○×○×○＊7

×●＊10

○＊10

●○＊10

○○＊10

●○＊11

●○○○○○○＊7

○＊8

●＊10

○＊10

●○＊10

○○＊10

●○＊11

●○○○○○○＊7

×●＊10

○＊10

●○＊10

○○＊10

●○＊11

●○○○○○×○＊8

●＊10

○＊10

●○＊10

○○＊10

●○＊11

●○○○○○××●＊10

○＊10

●○＊10

○○＊10

●○＊11

○●○○○○×○＊8

●＊10

○＊10

●○＊10

○○＊10

●○＊11

12-station10-station12-station (SL compatible)10-station (SL compatible)12-station (including outer circumference)10-station (including outer circumference)16-station (including outer circumference)12-station (face type)6,000 min-1 <5.5/5.5/3.7 kW (7.5/7.5/5 HP)>＊9

10,000 min-1 <5.5/5.5/3.7 kW (7.5/7.5/5 HP)>＊9

50 mm (2.0 in.)100 mm (3.9 in.)

○○×××○○××

×

××××

×

××

×○○××××○○

×

×○××

×

×○

×○○××○○××

×

××××

×

××

××○○×××○○

○＊12

×○○＊12

○＊12

○＊12

×○

××○○×○○××

×

××××

×

××

×××○○×××○

×

○○×○＊12

×

○＊12

○

Hydraulic chuck (headstock 1)

Hydraulic chuck (headstock 2)

Hydraulic steady rest (bolt-tightening)

Hydraulic steady rest (automatic)

Steady rest

Workpiece holding device○○×××××○○

×

×○××

×

×○

6-inch8-inch10-inch12-inch15-inch6-inch8-inchAutomatic centering type (SLU-1Z) (SLUA-1Z)Automatic centering type (SLU-2Z) (SLUA-2Z)Automatic centering type (SLUB-3Z) (SLUAB-3Z)Automatic centering type (SLU-3.1Z) (SLUA-3.1Z)InterfaceAutomatic centering type (SLU-1Z) (SLUA-1Z)Automatic centering type (SLU-2Z) (SLUA-2Z)Automatic centering type (SLUB-3Z) (SLUAB-3Z)Automatic centering type (SLU-3.1Z) (SLUA-3.1Z)Bolt-tightening

××××××

●○××○＊15

○

××××××

×○＊14

●○○＊15

○

××××××

××●○○＊15

○

Tailstock/tailstock spindle

Tailstock spindle

Drilling with the tailstockNo tailstock

●○××○＊15

○

Live center specification＊13 (MT4)Built-in center specification＊13 (MT3)Live center specification＊13 (MT5)Built-in center specification＊13 (MT4)

●●○○

●×○○

●●○○

●×○○

●●○○

●×○○

MeasurementManual type in-machine tool presetter (headstock 1)Manual type in-machine tool presetter (headstock 2)Automatic in-machine tool presetterIn-machine workpiece measuring system＊16

●×○○

Built-inRemovableHeadstock 1Inner and outer diameter measurement

NL1500

2-axis turning,MC, Y S, SMC, SY

2-axis turning,MC, Y S, SMC, SY

2-axis turning,MC, Y S, SMC, SY

2-axis turning,MC, Y

NL2000 NL2500 NL3000

○＊17

●○○○○○○○○○☆☆

○＊17

●○○○○○○○○○☆×

○＊17

●○○○○○○○○○☆☆

○＊17

●○○○○○○○○○☆×

○＊17

●○○○○○○○○○☆☆

○＊17

●○○○○○○○○○☆×

Bed cover chip flush coolant device

Coolant system

Super high-pressure coolant unit

Semi-dry unitOil skimmerCoolant cooling unitCoolant float switchCoolant flow switch

Through-spindle coolant system

Coolant○＊17

●○○○○○○○○○☆×

325/520 W（50/60 Hz）635/1,040 W（50/60 Hz）3.5 MPa7 MPaInterface

Headstock 1Headstock 2

37

●●●●●●●○●○

○○●○●●☆

Others

Signal tower

Chuck foot switch

Built-in worklightHand toolsAnti-dust specifications

1-stage3-stage1 foot switch2 foot switches

Safety featuresFull coverImpact resistant viewing windowDoor interlock system (incl. mechanical lock)Chuck jaw stroke end check＊20

Cylinder check valve＊20

Low hydraulic pressure detecting switchFootswitch with lock deviceEarth leakage breakerOvertravelDanger sensing device interface＊21

Software

Common items to all models

○☆○○●

Workpiece holding deviceCollet chuckIndex chuckSoft jawsChuck high/low pressure systemWork stopper (in spindle)

Interface○☆○○○

Improved accuracy

Direct scale feedback

Ball screw center cooling device

○○○○

X-axisY-axisZ-axisX-axis

Operation support device/functionTotal counterMulti counterWork counterAutomatic doorAutomatic power off system

Automatic operation supportLoaderRobotBar feederWorkpiece restPull-out fingerTurret-mounted workpiece-pusherGuide bushing

External M-code output

External work number search

InterfaceInterfaceInterface

A 53 mm (A 2.1 in.)

510

○☆○○○○○○○○

＊1 50 %ED/30 min/cont ＊2 25 %ED/cont ＊3 25 %ED/50 %ED/30 min/cont ＊4 25 %ED/50 %ED/cont ＊5 10 min/30 min/cont ＊6 30 min/cont ＊7 Tools used: A 30 mm (A 1.2 in.) VDI holder (for ZT1000, ZT1500).＊8 2-axis turning only.＊9 3 min/5 min/cont＊10 For MC-, SMC-, Y- and SY-types only.＊11 Y-axis stroke is limited for the Y- and SY-type.＊12 Distance between centers 1250 type only.＊13 “Center” not included.＊14 Distance between centers 700 type only.＊15 Only applicable for live center specification.＊16 Certain workpiece shapes cannot be measured.＊17 Standard feature when the rear disposal chip conveyor is selected.＊18 Not including gantry loader specifications.＊19 Not applicable when the right disposal type chip conveyor is selected.＊20 Featured only when optional chuck/cylinder is selected.＊21 Recommended when oil-based coolant is used or during unmanned operation.

● The details given above and the specifications are subject to change without notice.● Specifications, accessories, safety device, and function are available upon request.● Some options are not available in particular regions. For details contact Mori Seiki.

●: Standard features ○: Options ☆: Please contact Mori Seiki ×: Not available

×○○＊19

Safety featuresLow air pressure detecting switchDry anchorRaised machine height 100 mm (3.9 in.)

●○○＊19

×○○＊19

●○○＊19

×○○＊19

●○○＊19

×○○＊19

○××○○○●＊18

☆○●○

○××○○○○☆○××

○××○○○●＊18

☆○●○

×○○×○×○☆＊14

○××

×○○×○×●＊18

☆＊14

○●○

×○○×○×○☆＊14

○××

○××○○○○☆○××

Automatic operation support

Gantry-type loader

Workstocker

Workpiece unloaderIn-machine traveling workpiece unloaderWorkpiece conveyor

Workpiece push-out equipment

LG-05LG-1010-station14-station20-station26-station

Cylinder type

NL1500

2-axis turning,MC, Y S, SMC, SY

2-axis turning,MC, Y S, SMC, SY

2-axis turning,MC, Y S, SMC, SY

2-axis turning,MC, Y

NL2000 NL2500 NL3000

Chip conveyor (outside machine)

Air blow system

Through-spindle air blow system

Chuck top coolantCoolant gunChip bucketOil mist collector

Chip disposal○○○○☆☆☆☆☆○☆●○○○×○○×○○○○

Hinge type (right)Hinge type (rear)Scraper type (right)Scraper type (rear)Magnet scraper type (right)Magnet scraper type (rear)Spiral type (right)Spiral type (rear)Scraper type with drum filter (right)Hinge type <for aluminum> (right)Hinge type <for aluminum> (rear)Interface (right)Interface (rear)Tool tipChuck (headstock 1)Chuck (headstock 2)Tailstock spindleHeadstock 1Headstock 2

○○○○☆☆☆☆☆○☆●○○○●×○●○○○○

○○○○☆☆☆☆☆○☆●○○○×○○×○○○○

○○○○☆☆☆☆☆○☆●○○○●×○●○○○○

○○＊14

○○＊14

☆☆＊14

☆☆＊14

☆○☆＊14

●○＊14

○○×○○×○○○○

○○＊14

○○＊14

☆☆＊14

☆☆＊14

☆○☆＊14

●○＊14

○○●×○●○○○○

○○＊14

○○＊14

☆☆＊14

☆☆＊14

☆○☆＊14

●○＊14

○○×○○×○○○○

I/O interfaceExternal message

Status displayClock functionActual position displayProgram displayParameter setting displaySelf-diagnosis functionAlarm displayAlarm history displayOperator’s message history displayOperation history displayRunning time display/No. of parts displayActual feedrate displayDisplay of actual spindle speed and T codeOperation panel: Display sectionServo adjustment screenSpindle adjustment screenHardware/software system configuration displayRegular interval maintenance screenMaintenance information display screenData protection key

Screen clear

Part program storage

Number of stored programsProgram protectBackground editingExpanded tape editingUndo/Redo functionLine no. display function

Tool functionsNumber of tool offsetsTool position offsetY-axis offset＊2

Tool nose radius offsetTool geometry offset/Tool wear offsetTool life management7-digit tool offset data＊13

Tool offset measurement direct data input

Tool offset measurement direct data input B

Miscellaneous function Auxiliary function lockHigh-speed M/S/T/B interface

Multiple miscellaneous function commands＊9

Spindle speed functionsConstant surface speed controlSpindle speed overrideSpindle 1 orientationSpindle 1 output switching＊10

Spindle 2 orientation＊11

Spindle 3 orientation＊12

Spindle synchronized control＊8

Multiple-spindle control＊11

Synchronized tapping＊1

Load monitoring function

Optional block skipMax. command valueProgram numberSequence numberAbsolute (incremental)programming

Decimal point programming/ Electrical calculator type decimal point programming

Diameter/radius programming (X-axis)Plane selectionRotary axis designationRotary axis roll-overCoordinate system settingAutomatic coordinate system settingCoordinate system shiftWork coordinate systemManual absolute on/offDrawing dimension direct inputChamfer, corner RProgrammable data inputSub-program call

Custom macro

Interruption type custom macroSingle repetitive cycleMultiple repetitive cycleMultiple repetitive cycleⅡHole machining canned cycleF15 formatCommand angles of straight lines

Rapid traverse rate overrideFeed per minuteFeed per revolutionConstant tangential velocity controlCutting feedrate clamp

Automatic acceleration/deceleration

Feedrate overrideJog feedrate overrideOverride cancel

Positioning

Linear interpolationCircular interpolationDwellPolar coordinate interpolation＊1

Cylindrical interpolation＊1

Helical interpolation＊7

Thread cutting/Synchronous feedMulti-start thread cuttingRetract during thread cutting cycleContinuous thread cuttingVariable lead thread cuttingSkipHigh-speed skipMulti-skipZero returnZero return check2nd zero return3rd and 4th zero return

Sequence number collation and stopDry runSingle block

Jog feedrate

Manual zero returnZero point setting without dogManual pulse handle feed

Controlled axesSimultaneously controllable axesCs contouring control ＊1

Inclined axis control for arbitrary axis＊2

Least input incrementLeast command incrementMax. command valueInch/metric conversionInterlock＊5

Machine lockStroke limit Ⅰ

Stroke limit ⅠB

Chuck and tailstock barrier＊6

Chamfering ON/OFFBacklash compensationRapid traverse/cutting feed backlash compensationStored pitch error compensationInclined angle offsetStraightness offsetCutting feedrate

38

NC unit specifications (MSX-850)Standard

Controlled axesX, Z, C＊1, Y＊2, B, 4＊3, 5＊4, 6＊2

X, Z, C＊1, Y＊2

Y-axis0.001 mm (0.0001 in.)0.001 mm (0.0001 in.)±99,999.999 mm (±9,999.9999 in.)

Prohibited area to enter: Inside of set area

G9,999 pulses

Memorized relative position compensation

Interpolation functionslinear interpolation type positioningis possible

Circular interpolation＋Linear interpolation (max. 2 axes)

Program input1 block±8 digits4-digit O code/8-digit O code5-digit N code

X (U), Z (W), C (H)＊1,Y (V)＊2, B＊8

Electrical calculator type decimalpoint programming is changeableusing parameter

Standard: Diameter

PC parameter

Up to 8 nestings

200 sets (# 100 to # 199, # 500 to # 599)

Pocket cutting, zigzag thread cutting

Miscellaneous function/Spindle speed function4-digit M code

High-speed FIN function

3 commands

5-digit S code

50－150 % (10 % increments)

Winding switchover

With rotary tool spindle

Feed functionsF0/5/10/25/100 %

Interpolation in cutting feed

Linear type (rapid traverse)/Exponential function type (cutting feed)

0－200 % (10 % increments)0－5,000 mm/min (0－197 ipm)

Operation

0－5,000 mm/min (0－197.0 ipm)<20 steps>

1unit per control system: ×1, ×10, ×100

Option

Tool function/Tool offset function4-digit T code80 sets

Used by in-machine tool presetter

Editing320 m (1,050 ft) <4 kB≒10 m (33 ft) in tape length>

200 programs

Data input/outputRS-232-C/PCMCIA (typeⅠ,Ⅱ)

Setting and display

Program name: 18 characters

10.4-inch TFT color LCD

It is possible to set on the screen ofsaving electricity power

Additional part program storagecapacity (in total)

Additional number of stored programs (in total)

□ Programming resolution 1/10 <0.0001 mm (0.00001 in.)>□ Stroke limit Ⅱ,ⅡB □ Program restart□ Manual handle feed interruption □ Circular thread cutting□ Polygon cutting between spindles＊1

□ Addition of optional block skip (9 blocks)□ Additional custom macro common variables (300 sets: #100 to #199,

#500 to #699, 600 sets: #100 to #199, #500 to #999)□ Island shape, open pocket＊1

□Additional number of tools to be controlled by the tool life managementfunction (80 sets)

□ External data input (external program number search, external tool offset, and external work coordinate system shift)

□ External work number search (workpiece number: 1－15)

600/1,280/2,560/5,120 m(1,969/4,200/8,400/16,799 ft)

400＊14/1,000＊15programs

I95011A02＊1 MC-, SMC-, Y-, SY-types only. ＊2 Y-, SY-types only.＊3 2-axis turning, S-types only. ＊4 MC-, SMC-types only.＊5 External-input controlled axis interlock is optional.

Interlock is not possible for user-selected axis.＊6 Only works in automatic operation.＊7 Standard for Y- and SY-types.

Available as option for MC-, SMC-types only.＊8 S-, SMC-, SY-types only.＊9 This function is standard for the specified M codes.＊10 Function depends on spindle motor specifications.＊11 MC-, SMC-, S-, Y-, SY-types only.＊12 SMC-, SY-types only.＊13 Distance between centers 1250 type only.＊14Min. 600 m (1,969 ft) tape recording length required

for 400 workpieces.＊15Min. 1,280 m (4,200 ft) tape recording length required

for 1,000 workpieces.

39

NL1500MC/500 NL1500Y/500 NL1500S/500 NL1500SMC/500 NL1500SY/500

Capacity

NL1500/500Item

Travel

Spindle

Turret

Feedrate

Tailstock

Power sources

Tank capacity

Machine size

Motor

［ ］Option JIS: Japanese Industrial Standard

＊1 Depending on the chuck/cylinder used and its restrictions, it may not be possible to reach full bar work capacity.

＊2 At 8,000 min-1.

＊3 Depending on restrictions imposed by the workpiece clamping device, fixture and tool used, it may not be possible to rotate at the maximum spindle speed.

＊4 When mounted with double boring holder.

＊5 25 %ED/cont

＊6＋4 kVA for loader specification

＊7 High output

＊8 ANR refers to a standard atmospheric state; i. e., temperature at 20 ℃ (68 ﾟF); absolute pressure at 101.3 kPa (14.7 psi); and relative humidity at 65 %.

＊9 Chip conveyor not included.

Swing over bed mm (in.)

Swing over cross slide mm (in.)

Max. turning diameter mm (in.)

Standard turning diameter mm (in.)

Max. turning length mm (in.)

Bar work capacity＊1 mm (in.)

X-axis travel mm (in.)

Z-axis travel mm (in.)

Y-axis travel mm (in.)

Headstock 2 travel <B-axis> mm (in.)

Max. spindle speed＊3 min-1

Type of spindle nose

Through spindle hole diameter mm (in.)

Min. spindle indexing angle

Spindle bearing inner diameter mm (in.)

Number of tool stations

Shank height for square tool mm (in.)

Shank diameter for boring bar mm (in.)

Tool shank diameter for rotary tool mm (in.)

Turret indexing time s

Max. rotary tool spindle speed＊3 min-1

Rapid traverse rate mm/min (ipm)

Tailstock travel mm (in.)

Tailstock spindle diameter mm (in.)

Taper hole of tailstock spindle

Spindle drive motor kW (HP)<50 %ED/30 min/cont>

Rotary tool spindle drive motor <3 min/5 min/cont> kW (HP)

Feed motor kW (HP)

Electrical power supply＊6 kVA

Compressed air supply MPa (psi), L/min (gpm)

Coolant tank capacity L (gal.)

Machine height <from floor> mm (in.)

Floor space <width×depth>＊9 mm (in.)

Mass of machine kg (lb.)

923.8 (36.4) <interference with front cover 579.8 (22.8)>

755 (29.7)

356 (14.0)

260 (10.2)

515 (20.2)

52 (2.0) [34 (1.3)＊2]

260 (10.2)

590 (23.2)

12

20 (3/4)

100 <±50> (3.9 <±2.0>)－

－

6,000 [8,000]

JIS A2-5

61 (2.4) [43 (1.7)＊2]

564 (22.2)

Headstock 1, 2: 6,000 [8,000]

Headstock 1, 2: JIS A2-5Headstock 1: 61 (2.4) [43 (1.7)＊2] Headstock 2: 43 (1.7)

Headstock 1: 100 (3.9) [85 (3.3)＊2] Headstock 2: 85 (3.3)100 (3.9) [85 (3.3)＊2]

Max. 40 (11/2) [32 (11/4)＊4]

ー

0.2

ー

ー

0.2

ー

26 (1.0)

0.25

6,000 [10,000]

26 (1.0)

0.25

6,000 [10,000]

Headstock 1: Max. 40 (11/2) [32 (11/4)＊4] Headstock 2: Max. 32 (11/4)

－ 0.001゜ － 0.001゜

11/11/7.5 (15/15/10) [15/15/11 (20/20/15)] [11/7.5 (15/10)＊2＊5]

254 (67.1)

2,120 (83.5)

X, Y: 2.0 (2.7) Z: 3.5 (4.7)

27.0 [31.0＊7]

ー

5,600 (12,320)5,300 (11,660)

2,695×1,923 (106.1×75.7) 2,695×2,050 (106.1×80.7)

5,400 (11,880) 5,400 (11,880)

564 (22.2)

80 (3.1)

Live center <MT4> [Built-in center <MT3>]

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

C: 400 min-1

X, Z: 30,000 (1,181.1)Y: 10,000 (393.7)

Tailstock: 7,000 (275.6)C: 400 min-1

X, Z, B: 30,000(1,181.1)

X, Z, B: 30,000(1,181.1)

C: 400 min-1

ー

ー

ー

5.5/5.5/3.7 (7.5/7.5/5)

X: 2.0 (2.7) Z: 3.5 (4.7) X, B: 2.0 (2.7) Z: 3.5 (4.7)

ー

18.6 [22.8＊7] 23.1 [26.8＊7]

5.5/5.5/3.7 (7.5/7.5/5)ー

27.1 [31.1＊7]

X, Y, B: 2.0 (2.7) Z: 3.5 (4.7)

31.4 [35.5＊7]27.0 [31.1＊7]

X, Z, B: 30,000(1,181.1)

Y: 10,000 (393.7)C: 400 min-1

Headstock 1: 11/11/7.5 (15/15/10) [15/15/11 (20/20/15)][11/7.5 (15/10)＊2＊5]

Headstock 2: 11/7.5 (15/10)＊5

5,700 (12,540)5,500 (12,100)

100 <±50> (3.9 <±2.0>)－

I94028A02

Machine specifications (NL1500)

0.5 (72.5), 100 (26.4) <ANR＊8>

40

Power sources

Tank capacity

Motor

254 (67.1)

2,120 (83.5)

0.5 (72.5), 100 (26.4) <ANR＊8>

ー

ー

ー

5.5/5.5/3.7 (7.5/7.5/5)

X, Y, B: 2.0 (2.7) Z: 3.5 (4.7)

35.5［40.2＊7］

Headstock 1: 15/15/11 (20/20/15) [18.5/18.5/18.5/15 (24.7/24.7/24.7/20)＊4]

Headstock 2: 11/7.5 (15/10)＊5

5,800 (12,760)

NL2000MC/500 NL2000Y/500 NL2000S/500 NL2000SMC/500 NL2000SY/500

Capacity

NL2000/500Item

Travel

Spindle

［ ］Option JIS: Japanese Industrial Standard

＊1 Depending on the chuck/cylinder used and its restrictions, it may not be possible to reach full bar work capacity.

＊2 Depending on restrictions imposed by the workpiece clamping device, fixture and tool used, it may not be possible to rotate at the maximum spindle speed.

＊3 When mounted with double boring holder.

＊4 25 %ED/50 %ED/30 min/cont

＊5 25 %ED/cont

＊6＋4 kVA for loader specification

＊7 High output

＊8 ANR refers to a standard atmospheric state; i. e., temperature at 20 ℃ (68 ﾟF); absolute pressure at 101.3 kPa (14.7 psi); and relative humidity at 65 %.

＊9 Chip conveyor not included.

923.8 (36.4) <interference with front cover 579.8 (22.8)>

755 (29.7)

356 (14.0)

275 (10.8)

510 (20.0)

65 (2.5)

260 (10.2)

590 (23.2)

100 <±50> (3.9 <±2.0>)ー

－

5,000

JIS A2-6

73 (2.9)

564 (22.2)

Headstock 1: 5,000 Headstock 2: 6,000

Headstock 1: JIS A2-6 Headstock 2: JIS A2-5

Headstock 1: 73 (2.9) Headstock 2: 43 (1.7)

Headstock 1: 120 (4.7) Headstock 2: 85 (3.3)120 (4.7)

ー 0.001゜ 0.001゜ー

X, Z, B:30,000Y:10,000

100 <±50> (3.9 <±2.0>)ー

Turret

Feedrate

Tailstock

12 [10]

25 (1)

Max. 50 (2) [32 (11/4)＊3]

ー

0.2

ー

ー

0.2

ー

26 (1.0)

0.25

6,000 [10,000]

26 (1.0)

0.25

6,000 [10,000]

Headstock 1: Max. 50 (2) [32 (11/4)＊3] Headstock 2: Max. 32 (11/4)

15/15/11 (20/20/15) [18.5/18.5/18.5/15 (24.7/24.7/24.7/20)＊4]

X, Y: 2.0 (2.7) Z: 3.5 (4.7)

31.0［35.7＊7］

ー

5,700 (12,540)5,400 (11,880)

2,695×1,923 (106.1×75.7) 2,695×2,050 (106.1×80.7)

5,500 (12,100)

564 (22.2)

80 (3.1)

Live center <MT4> [Built-in center <MT3>]

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

C: 400 min-1

X, Z: 30,000 (1,181.1)Y: 10,000 (393.7)

Tailstock: 7,000 (275.6)C: 400 min-1

X, Z, B: 30,000(1,181.1)

X, Z, B: 30,000(1,181.1)

C: 400 min-1

5.5/5.5/3.7 (7.5/7.5/5)

X: 2.0 (2.7) Z: 3.5 (4.7) X, B: 2.0 (2.7) Z: 3.5 (4.7)

ー

20.0 [24.1＊7] 23.8 [31.3＊7]

ー

31.1［35.8＊7］

X, Z, B: 30,000(1,181.1)

Y: 10,000 (393.7)C: 400 min-1

5,600 (12,320)5,500 (12,100)

Swing over bed mm (in.)

Swing over cross slide mm (in.)

Max. turning diameter mm (in.)

Standard turning diameter mm (in.)

Max. turning length mm (in.)

Bar work capacity＊1 mm (in.)

X-axis travel mm (in.)

Z-axis travel mm (in.)

Y-axis travel mm (in.)

Headstock 2 travel <B-axis> mm (in.)

Max. spindle speed＊2 min-1

Type of spindle nose

Through spindle hole diameter mm (in.)

Min. spindle indexing angle

Spindle bearing inner diameter mm (in.)

Number of tool stations

Shank height for square tool mm (in.)

Shank diameter for boring bar mm (in.)

Tool shank diameter for rotary tool mm (in.)

Turret indexing time s

Max. rotary tool spindle speed＊2 min-1

Rapid traverse rate mm/min (ipm)

Tailstock travel mm (in.)

Tailstock spindle diameter mm (in.)

Taper hole of tailstock spindle

Spindle drive motor kW (HP)

<50 %ED/30 min/cont>

Rotary tool spindle drive motor <3 min/5 min/cont> kW (HP)

Feed motor kW (HP)

Electrical power supply＊6 kVA

Compressed air supply MPa (psi), L/min (gpm)

Coolant tank capacity L (gal.)

Machine height <from floor> mm (in.)

Floor space <width×depth>＊9 mm (in.)

Mass of machine kg (lb.)I94029A02

Machine size

Machine specifications (NL2000)

41

Machine specifications (NL2500/700)

NL2500MC/700 NL2500Y/700 NL2500S/700 NL2500SMC/700 NL2500SY/700

Capacity

NL2500/700Item

Travel

Spindle

Turret

Feedrate

Tailstock

Power sources

Tank capacity

Machine size

Motor

［ ］Option JIS: Japanese Industrial Standard

＊1 Depending on the chuck/cylinder used and its restrictions, it may not be possible to reach full bar work capacity.

＊2 Depending on restrictions imposed by the workpiece clamping device, fixture and tool used, it may not be possible to rotate at the maximum spindle speed.

＊3 When mounted with double boring holder.

＊4 10 min/30 min/cont

＊5 25 %ED/cont

＊6＋4 kVA for loader specification

＊7 High output

＊8 ANR refers to a standard atmospheric state; i. e., temperature at 20 ℃ (68 ﾟF); absolute pressure at 101.3 kPa (14.7 psi); and relative humidity at 65 %.

＊9 Chip conveyor not included.

Swing over bed mm (in.)

Swing over cross slide mm (in.)

Max. turning diameter mm (in.)

Standard turning diameter mm (in.)

Max. turning length mm (in.)

Bar work capacity＊1 mm (in.)

X-axis travel mm (in.)

Z-axis travel mm (in.)

Y-axis travel mm (in.)

Headstock 2 travel <B-axis> mm (in.)

Max. spindle speed＊2 min-1

Type of spindle nose

Through spindle hole diameter mm (in.)

Min. spindle indexing angle

Spindle bearing inner diameter mm (in.)

Number of tool stations

Shank height for square tool mm (in.)

Shank diameter for boring bar mm (in.)

Tool shank diameter for rotary tool mm (in.)

Turret indexing time s

Max. rotary tool spindle speed＊2 min-1

Rapid traverse rate mm/min (ipm)

Tailstock travel mm (in.)

Tailstock spindle diameter mm (in.)

Taper hole of tailstock spindle

Spindle drive motor kW (HP)

<25 %ED/50 %ED/cont>

Rotary tool spindle drive motor <3 min/5 min/cont> kW (HP)

Feed motor kW (HP)

Electrical power supply＊6 kVA

Compressed air supply MPa (psi), L/min (gpm)

Coolant tank capacity L (gal.)

Machine height <from floor> mm (in.)

Floor space <width×depth>＊9 mm (in.)

Mass of machine kg (lb.)

923.8 (36.4) <interference with front cover 579.8 (22.8)>

755 (29.7)

356 (14.0)

275 (10.8)

705 (27.7)

80 (3.1)

260 (10.2)

795 (31.3)

12 [10]

25 (1)

100 <±50> (3.9 <±2.0>)ー

－

4,000

JIS A2-8

91 (3.6)

734 (28.9)

Headstock 1: 4,000 Headstock 2: 6,000

Headstock 1: JIS A2-8 Headstock 2: JIS A2-5Headstock 1: 91 (3.6) Headstock 2: 43 (1.7)

Headstock 1: 140 (5.5) Headstock 2: 85 (3.3)140 (5.5)

Max. 50 (2) [32 (11/4)＊3]

ー

0.2

ー

ー

0.2

ー

26 (1.0)

0.25

6,000 [10,000]

26 (1.0)

0.25

6,000 [10,000]

Headstock 1: Max. 50 (2) [32 (11/4)＊3] Headstock 2: Max. 32 (11/4)

18.5/18.5/15 (24.7/24.7/20)[26/26/22 (34.7/34.7/30)＊4]

265 (70.0)

2,120 (83.5)

X, Z, Y: 3.5 (4.7)

36.2［42.7＊7］

ー 0.5 (72.5), 100 (26.4) <ANR＊8>

6,100 (13,420)5,800 (12,760) 5,900 (12,980)

734 (28.9)

80 (3.1)

Live center <MT5> [Built-in center <MT3>] [Built-in center <MT4>]

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

C: 400 min-1

X, Z: 30,000 (1,181.1)Y: 10,000 (393.7)

Tailstock: 7,000 (275.6)C: 400 min-1

X, Z, B: 30,000(1,181.1)

X, Z, B: 30,000(1,181.1)

C: 400 min-1

ー

ー

ー

5.5/5.5/3.7 (7.5/7.5/5)ー

27.6［35.8＊7］ 31.8［40.0＊7］

5.5/5.5/3.7 (7.5/7.5/5)ー

X, Z, Y: 3.5 (4.7) B: 2.0 (2.7)

39.2［47.0＊7］36.2［42.8＊7］

X, Z, B: 30,000(1,181.1)

Y: 10,000 (393.7)C: 400 min-1

Headstock 1: 18.5/18.5/15 (24.7/24.7/20) [26/26/22 (34.7/34.7/30)＊4]

Headstock 2: 11/7.5 (15/10)＊5

6,200 (13,640)

100 <±50> (3.9 <±2.0>)ー

6,000 (13,200)I94030A02

5,900 (12,980)

ー 0.001゜ 0.001゜ー

X, Z: 3.5 (4.7) X, Z: 3.5 (4.7) B: 2.0 (2.7)

3,100×1,922 (122.0×75.7) 3,100×2,000 (122.0×78.7)

42

NL2500MC/1250 NL2500Y/1250 NL2500S/1250 NL2500SMC/1250 NL2500SY/1250

Capacity

NL2500/1250Item

Travel

Spindle

Turret

Feedrate

Tailstock

Power sources

Tank capacity

Machine size

Motor

［ ］Option JIS: Japanese Industrial Standard

＊1 Depending on the chuck/cylinder used and its restrictions, it may not be possible to reach full bar work capacity.

＊2 Depending on restrictions imposed by the workpiece clamping device, fixture and tool used, it may not be possible to rotate at the maximum spindle speed.

＊3 When mounted with double boring holder.

＊4 10 min/30 min/cont

＊5 25 %ED/cont

＊6＋4 kVA for loader specification

＊7 High output

＊8 ANR refers to a standard atmospheric state; i. e., temperature at 20 ℃ (68 ﾟF); absolute pressure at 101.3 kPa (14.7 psi); and relative humidity at 65 %.

＊9 Chip conveyor not included.

Swing over bed mm (in.)

Swing over cross slide mm (in.)

Max. turning diameter mm (in.)

Standard turning diameter mm (in.)

Max. turning length mm (in.)

Bar work capacity＊1 mm (in.)

X-axis travel mm (in.)

Z-axis travel mm (in.)

Y-axis travel mm (in.)

Headstock 2 travel <B-axis> mm (in.)

Max. spindle speed＊2 min-1

Type of spindle nose

Through spindle hole diameter mm (in.)

Min. spindle indexing angle

Spindle bearing inner diameter mm (in.)

Number of tool stations

Shank height for square tool mm (in.)

Shank diameter for boring bar mm (in.)

Tool shank diameter for rotary tool mm (in.)

Turret indexing time s

Max. rotary tool spindle speed＊2 min-1

Rapid traverse rate mm/min (ipm)

Tailstock travel mm (in.)

Tailstock spindle diameter mm (in.)

Taper hole of tailstock spindle

Spindle drive motor kW (HP)<25 %ED/50 %ED/cont>

Rotary tool spindle drive motor <3 min/5 min/cont> kW (HP)

Feed motor kW (HP)

Electrical power supply＊6 kVA

Compressed air supply MPa (psi), L/min (gpm)

Coolant tank capacity L (gal.)

Machine height <from floor> mm (in.)

Floor space <width×depth>＊9 mm (in.)

Mass of machine kg (lb.)

923.8 (36.4) <interference with front cover 679.8 (26.8)>

755 (29.7)

356 (14.0)

275 (10.8)

1,298 (51.1)

80 (3.1)

260 (10.2)

1,345 (53.0)

12 [10]

25 (1)

100 <±50> (3.9 <±2.0>)ー

－

4,000

JIS A2-8

91 (3.6)

1,284 (50.6)

Headstock 1: 4,000 Headstock 2: 6,000

Headstock 1: JIS A2-8 Headstock 2: JIS A2-5

Headstock 1: 91 (3.6) Headstock 2: 43 (1.7)

Headstock 1: 140 (5.5) Headstock 2: 85 (3.3)140 (5.5)

Max. 50 (2) [32 (11/4)＊3]

ー

0.2

ー

ー

0.2

ー

26 (1.0)

0.25

6,000 [10,000]

26 (1.0)

0.25

6,000 [10,000]

Headstock 1: Max. 50 (2) [32 (11/4)＊3] Headstock 2: Max. 32 (11/4)

ー 0.001゜ ー 0.001゜

18.5/18.5/15 (24.7/24.7/20)[26/26/22 (34.7/34.7/30)＊4]

380 (100.3)

2,232 (87.9)

4,328×2,143 (170.4×84.4)

X, Z, Y: 3.5 (4.7)

37.0 [43.6＊7]

ー 0.5 (72.5), 100 (26.4) <ANR＊8>

7,500 (16,500)7,200 (15,840) 7,300 (16,060)

1,284 (50.6)

110 (4.3)

Live center <MT5> [Built-in center <MT4>]

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

C: 400 min-1

X, Z: 30,000 (1,181.1)Y: 10,000 (393.7)

Tailstock: 7,000 (275.6)C: 400 min-1

X, Z: 30,000 (1,181.1)B: 20,000 (787.4)

X, Z: 30,000 (1,181.1)B: 20,000 (787.4)

C: 400 min-1

ー

ー

ー

5.5/5.5/3.7 (7.5/7.5/5)

X, Z: 3.5 (4.7)

ー

28.3 [36.5＊7] 32.7 [40.8＊7]

5.5/5.5/3.7 (7.5/7.5/5)ー

X, Z: 3.5 (4.7)Y, B: 2.0 (2.7)

40.0 [47.8＊7]

X, Z: 3.5 (4.7) B: 2.0 (2.7)

37.1 [43.6＊7]

X, Z: 30,000 (1,181.1)B: 20,000 (787.4)

Y: 10,000 (393.7)C: 400 min-1

Headstock 1: 18.5/18.5/15 (24.7/24.7/20) [26/26/22 (34.7/34.7/30)＊4]

Headstock 2: 11/7.5 (15/10)＊5

7,600 (16,720)

100 <±50> (3.9 <±2.0>)ー

7,400 (16,280)I94030A02

7,300 (16,060)

Machine specifications (NL2500/1250)

43

Machine specifications (NL3000)

NL3000MC/700 NL3000Y/700 NL3000/1250 NL3000MC/1250 NL3000Y/1250

Capacity

NL3000/700Item

Travel

Spindle

Turret

Feedrate

Tailstock

Power sources

Tank capacity

Machine size

Motor

［ ］Option JIS: Japanese Industrial Standard

＊1 Depending on the chuck/cylinder used and its restrictions, it may not be possible to reach full bar work capacity.

＊2 Depending on restrictions imposed by the workpiece clamping device, fixture and tool used, it may not be possible to rotate at the maximum spindle speed.

＊3＋4 kVA for loader specification

＊4 High output

＊5 Chip conveyor not included.

995 (39.2) <interference with front cover 700 (27.6)>995 (39.2) <interference with front cover 670 (26.4)>

825 (32.5)

310 (12.2)

90 (3.5)

280 (11.0) <210＋70 (8.3＋2.8)>

10 [12]

25 (1)

Max. 50 (2)

0.3

120 <±60>(4.7 <±2.4>) ー

820 (32.3)

3,000

JIS A2-8

105 (4.1)

1,370 (53.9)

713 (28.0) 1,260 (49.6)

160 (6.3)

ー

110 (4.3)

Live center <MT5> [Built-in center <MT4>]

22/18.5 (30/24.7) [30/25 (40/33.3)]

ー6,000 [10,000] 6,000 [10,000]

ー ー26 (1.0) 26 (1.0)

ー 0.001゜ー 0.001゜

420 (16.5)

300 (79.2)

2,270 (89.4)

370 (97.7)

2,390 (94.1)

4,522×2,291 (178.0×90.2)

X, Z, Y: 3.5 (4.7)

39.7 [46.9＊4]

6,500 (14,300)6,000 (13,200)

3,410×2,076 (134.3×81.7)

8,100 (17,820)7,600 (16,720)

734 (28.9)

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

C: 300 min-1

X, Z: 3.5 (4.7) X, Z: 3.5 (4.7)

X, Z: 30,000 (1,181.1)Y: 10,000 (393.7)

Tailstock: 7,000 (275.6)C: 300 min-1

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

X, Z: 30,000 (1,181.1)Tailstock: 7,000 (275.6)

C: 300 min-1

1,284 (50.6)

5.5/5.5/3.7 (7.5/7.5/5)ー

32.4 [40.0＊4] 38.1 [44.0＊4]

5.5/5.5/3.7 (7.5/7.5/5)ー

32.4 [40.0＊4]

X, Z, Y: 3.5 (4.7)

39.7 [46.9＊4]38.1 [44.0＊4]

X, Z: 30,000 (1,181.1)Y: 10,000 (393.7)

Tailstock: 7,000 (275.6)C: 300 min-1

120 <±60>(4.7 <±2.4>) ー

I94031A02

Swing over bed mm (in.)

Swing over cross slide mm (in.)

Max. turning diameter mm (in.)

Standard turning diameter mm (in.)

Max. turning length mm (in.)

Bar work capacity＊1 mm (in.)

X-axis travel mm (in.)

Z-axis travel mm (in.)

Y-axis travel mm (in.)

Max. spindle speed＊2 min-1

Type of spindle nose

Through spindle hole diameter mm (in.)

Min. spindle indexing angle

Spindle bearing inner diameter mm (in.)

Number of tool stations

Shank height for square tool mm (in.)

Shank diameter for boring bar mm (in.)

Tool shank diameter for rotary tool mm (in.)

Turret indexing time s

Max. rotary tool spindle speed＊2 min-1

Rapid traverse rate mm/min (ipm)

Tailstock travel mm (in.)

Tailstock spindle diameter mm (in.)

Taper hole of tailstock spindle

Spindle drive motor <30 min/cont> kW (HP)

Rotary tool spindle drive motor <3 min/5 min/cont> kW (HP)

Feed motor kW (HP)

Electrical power supply＊3 kVA

Coolant tank capacity L (gal.)

Machine height <from floor> mm (in.)

Floor space <width×depth>＊5 mm (in.)

Mass of machine kg (lb.)

Nagoya Head Office 2-35-16 Meieki, Nakamura-ku, Nagoya City, Aichi 450-0002, Japan Phone: (052) 587-1811

Nara Campus 362 Idono-cho, Yamato-Koriyama City, Nara 639-1183, Japan Phone: (0743) 53-1121

Iga Campus 201 Midai, Iga City, Mie 519-1414, Japan Phone: (0595) 45-4151

Chiba Campus 488-19 Suzumi-cho, Funabashi City, Chiba 274-0052, Japan Phone: (047) 410-8800

www.moriseiki.com

● The export of this product is subject to an authorization from the government of the exporting country. Check with the government agency for authorization.

NLSERIES-EA05

D.0503.CDT.0000

Accumulation of operating status data

InternetAt the your office and home

Server

At the your factoryAt the your factory

CAPS-NET Global EditionRemote monitoring of your machines over the Internet. With this service it is possible to buildremote management systems for machine tools having great speed and cost performance.

●This system allows you to see the operating statusof your machine tools over the Internet fromwherever you may be in the world

●Regular e-mail notifications are sent to directlyto you with your machine operating status

Low initial investment and running cost

● If you have any questions regarding the content, contact your nearest Mori Seiki dealer or Technical Center.● The information in this catalog is valid as of March 2005. Design and specifications subject to change without notice.● Mori Seiki is not responsible for differences between the information in the catalog and the actual machine.

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Service support A rapid and efficient maintenance support system.

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Service Center(Iga, Chiba)

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24 hours

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365 Operating 365days a year

Factory Service

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● Currently in Japan only.

OP Option

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