PUMA TT1800 Series - Komachine

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PUMA TT1800 series Horizontal Multi turret Turning Center PUMA TT1800 series PUMA TT1800S PUMA TT1800MS PUMA TT1800SY ver. EN 160502 SU 1/ 1

Product Overview Basic Information Basic Structure Line-up / Processing Detailed Information Options Applications Capacity Diagram Specifications Customer Support Service PUMA TT1800 series PUMA TT1800 series The Puma 1800 Series is a 65mm (2.6 inch) bar capacity high productivity horizontal turning center equipped with twin opposed spindles and upper / lower turrets. The left and right spindles can process work pieces independently to achieve excellent productivity. The work pieces processed by the left and right spindles are discharged via an automatic system. The PUMA TT Series has become one of DOOSAN’s bestselling products and is favored by customers all around the world.

Contents 02 Product Overview Basic Information 04 Basic Structure 08 Line-up / Processing Detailed Information 11 Standard / Optional Specifications 14 Applications 17 Capacity Diagram 22 Machine / NC Unit Specifications 26 Customer Support Service Sample Productivity doubled with the adoption of a right spindle and a lower turret! The left and right spindles and the upper and lower turrets operate independently to double the machine’s productivity. Excellent rigidity and power implemented with axis travel system optimization technology! The product’s rapid traverse rate of 40 m/min and High rigidity roller LM guide ways are designed to meet the required characteristics of machines whose users require a very high level of productivity. Equipped with an advanced finished-part removal system for both spindles! The left and right spindles are equipped with independent part catcher and unloader systems to provide a fully automated manufacturing system. 02 / 03

Product overview Basic Information Basic Structure Line-up / Processing Detailed Information Options Applications Capacity Diagram Specifications Customer Support Service One machine, Two Processes Two opposing spindles and upper and lower turrets installed on one machine With the adoption of two opposing spindles and upper / lower turrets, the Puma TT Series can cut both first and second operations simultaneously. Furthermore, the axis travel system, which is designed with high rigidity roller guide ways and fast federate of 40m/min, provides a high level of thermal stability. Designed as a wide-rib torque-tube structure to prevent twisting and deformation.

Basic Structure The Z, A axes are equipped with roller LM guide ways for increased rigidity and high speed, while the X and Y axes are equipped with box guide way for optimum rigidity, there by providing maximum productivity. Feed Axes Constitution High productivity is achieved with a process-intensive structure comprising opposing types of spindles and upper and lower turrets. Z1 axis X1 axis Y axis A axis C1 axis C2 axis X2 axis Z2 axis Description Travel distance Rapid traverse rate Unit PUMA TT1800S / MS PUMA TT1800SY X1, X2 axes mm (inch) X1: 165 (6.5) / X2: 190 (7.5) Z1, Z2 axes mm (inch) Z1: 700 (27.6) / Z2: 720 (28.3) Y axis mm (inch) A axis mm (inch) - 100 ( 50) (3.9 ( 2.0)) 770 (30.3) X1, X2 axes m/min (ipm) 20 (787.4) Z1, Z2 axes m/min (ipm) 40 (1574.8) Y axis m/min (ipm) A axis m/min (ipm) 7.5 (295.3) 40 (1574.8) Ball Screw LM Guide The effects of changes of temperature on the travel system have been minimized with the optimized low friction balls crew design. high rigidity / high speed structure with roller LM guides on the Z and A axes. 04 / 05

Product Overview Spindle Basic Information Basic Structure Line-up / Processing Detailed Information Options Applications Capacity Diagram Specifications High productivity achieved with highspeed, high-power spindle motor. Built-in Structure The PUMA TT series is equipped with built-in spindles to deliver high speed and responsiveness. Two opposing spindles provide the same turning performance characteristics using the same motors. Left spindle, Right spindle (8 inch) Max. Power 22 / 15 kW (29.5 / 20.1 Hp) Max. Speed 5,000 r/min Left spindle Right spindle Customer Support Service C axis Accuracy The positioning accuracy of the C axis has been enhanced by careful assembly of C-axis sensor and applying improved servo tuning. Polar coordinate interpolation Cylindrical interpolation C-axis C-axis X-axis PUMA TT1800 series Z-axis

Turret Turret with increased speed and rigidity The upper and lower turrets double machine productivity by allowing independent, simultaneous operation. Features stronger and faster turrets; upgraded servo motors for faster and more accurate tool rotation; and a stabilized structure for higher productivity and heavier-cutting capability. Turret indexing time (1 face) 0.15s No. of tool station (the same for the upper and lower turrets) 12 station No. of index positions (the same for the upper and lower turrets) 24 index position Turret with Upgraded Speed and Rigidity The new turret has passed stricter speed and side loading tests. In addition, the cross-roller bearing reduces backlash and improves accuracy due to improved rigidity. Indexing time has been reduced by 20-30% compared with previous models. Reduced non-cutting time 10% Higher indexing speed Improved accuracy Rotary Tool Structure Highly Resistant to Thermal Error The milling turret including rotary tools features a BMT design standard for higher rigidity. In addition, the minimization of thermal error due to oil and air lubrication of the rotary tools delivers the best milling, drilling and tapping performance in its class. 06 / 07

Product overview Basic Information Basic Structure Line-up / Processing Detailed Information Options Applications Capacity Diagram Specifications Customer Support Service Diverse Line-up Large capability Rotary tools can be selected for milling, tapping and drilling, while Y axis can be used for cutting slanting or curved surfaces. A process-intensive turning center capable of conducting multiple processes, further widening the choices of machining processes. Variation Specification Standard X Not Applicable PUMA TT1800S PUMA TT1800MS PUMA TT1800SY Chuck Size 8 inch 8 inch 8 inch Left spindle O O O Right spindle O O O Upper / lower turrets O O O Rotary tool X O O Upper Y axis X X O

Variation, processing Large capability (a) max. turning diameter of 230mm (9.1 inch) ㅡ a (b) max. turning length of 230mm (9.1 inch) b bar working diameter of 65mm (2.6 inch) Y-axis Milling Wide variety of multi axis milling cycles can be achieved using the Y axis on the top turret. Y-axis stroke 100 ( 50) mm Y axis (3.9 ( 2.0) inch) Y-axis rapid traverse rate 7.5 m/min X axis Y axis Groove finish cutting using the Y-axis Multi-face cutting X1 Y axis Y axis (295.3 ipm) X axis X axis Milling in an eccentric position Y & X axes circular interpolation Mill-turning - Live tool holders are a BMT standard, with many tool holder configurations available. (angled holders, multi spindle holders, etc) - Polar milling and Cylindrical milling are standard on machine. Cutting Concept Multi tasking with Right /Left spindle and Upper /Lower turret optimizes productivity. Long shaft machining concept by synchronising the rotation of both spindles PUMA TT Series turning centers can double the user’s productivity by holding long workpieces securely with synchronized control of the left and right spindles and simultaneous cutting with the upper and lower turrets. Turning at the same position is carried out with the upper and lower turrets simultaneously. Different cutting processes can be carried out on a single work piece with the upper and lower turrets simultaneously. 08 / 09

Product Overview Complex machining with left and right hand spindles, upper and lower turrets Basic Information Basic Structure Line-up / Processing Detailed Left spindle Right spindle Upper / Lower turret simultaneously machining with left spindle Upper / Lower turret simultaneously machining with right spindle Information Options Applications Capacity Diagram Specifications Internal slotting operation Customer Support Service Gear hobbing and polygon turning first process and second process simultaneously machining concept it can time milled features from spindle to spindle (example : bolt hole pattern on right spindle to a keyway machined from the left spindle) First process Part transfer Second process Cutting with the left spindle Synchronized rotation and parts feed using the left and right spindles Rear side cutting with the right spindle (First process have being cutting with left spindle) one machine, two parts concept (same process, same cutting) PUMA TT Series turning centers double the user’s productivity thanks to the independent yet simultaneous operation of the left and right spindles and the upper and lower turrets. PUMA TT1800 series

Standard / Optional Specifications Various options are available to satisfy all the customers’ requirements. Standard Optional X N/A NO. Description Features PUMA TT1800series 1 210 mm (8 Inch) None Soft Jaws Hardened & Ground Hard Jaws Dual Pressure Chucking Chuck Clamp Confirmation Tail Center For Turret 4.5 / 3.0 Bar 9 7 / 5, 10 / 7, 14.5 / 10, 28 / 19.5, 70 / 70 bar 10 Oil Skimmer 11 Coolant Chiller 12 Coolant Pressure Switch 13 Coolant Level Switch Cooling Flow Switch 15 High Coolant Interface 16 Chuck Coolant (Left / Right) 17 Through Spindle Coolant(T.S.C) For Spindle (Left / Right) 18 Coolant Gun 19 Chip Conveyor Side Type 20 Chip Conveyor Rear Type Chip Bucket 22 Air Blow (Left / Right) 23 Mist Collector 24 Tool Setter (Manual / Auto) 25 Parts Catcher And Box 26 Parts Unloader And Conveyor 27 Work Ejector Auto Door 29 Cut-Off Confirmation 30 Work / Tool Counter 31 Robot Interface (PMC I/O, Profibus) 32 Bar Feeder Interface 33 Tool Load Monitoring 34 Linear Scale (X1, X2, Z1, Z2, Y) 35 Signal Tower Air Gun 37 Air Conditioner For Electric Cabinet 38 Light For Electric Cabinet 39 Extra M-Code (4ea) 40 Auto Power Off Chuck (Left / Right) 2 3 Jaws (Left / Right) 4 5 Chucking option 6 7 Tailstock 8 Coolant Pump (60 / 50Hz) 14 21 28 Coolant options Chip processing options Measurement & Automation 36 Optional devices For further details of the range of options, please contact Doosan. 10 / 11

Product Overview Basic Information Basic Structure Line-up / Processing Detailed Peripheral equipments Chip Conveyor (right side) The chip conveyor boasts excellent chip disposal performance, a stable design, and superior operation and maintenance convenience. Users can select the optimal type for specific requirements to improve the efficiency of their work space. Name Hinged belt Magnetic scrapper Drum filter (single type) Drum filter (double type) Application Steel Cast steel, iron Cast Steel, cast, nonferrous metals Features - General use - Easy-to-understand manual - Suitable for steel works - Chips are scraped up producing 30 mm chips or longer and discharged - Suitable for sludge - Suitable for nonferrous metals - Suitable for long and short chips - Cooling water filtering function Information Options Applications Capacity Diagram Specifications Shape Customer Support Service Coolant Chiller (recommended) 70 Bar High Pressure Coolant A detachable-type coolant chiller is recommended to control temperature and minimize thermal error. 70 bar high pressure coolant suitable for high productivity. Coolant chiller Coolant tank Optional devices PUMA TT1800 series Auto tool setter Coolant Blower Singnal tower Oil skimmer Mist Collector Work Ejector Collet Chuck

Left Spindle Parts Catcher Right Spindle Parts Unloader and Work Ejector Single operation part produced on the left spindle, or bar remnant can be ejected into the bucket. Work processed by the right spindle is delivered to the parts unloader by the work ejector and then discharged to the parts conveyor. Parts Conveyor Finished workpieces are transferred to the indexable output belt conveyor which discharges them to a receiving container. Maximum material size for unloader / conveyor system Max. work diameter ø65 mm (2.6 inch) Max. work length 150 mm (5.9 inch) Max. work weight 3kg (6.6 lb) 12 / 13

Product Overview FANUC 31i Basic Information Basic Structure Line-up / Processing Detailed FANUC CNC optimized for DOOSANʼs machine tools maximizes usersʼ productivity. User-friendly OP Panel The operation panel of new design enhances operating convenience by common buttons and layout, and uses qwerty type keyboard for easy and fast operation. 10.4 inches Display Information Options Applications Capacity Diagram USB & PCMCIA card (standard) Specifications QWERTY keyboard (standard) Buttons can be easily added for additional options Customer Support Service Operation panel newly designed for greater user convenience Productivity Improvement non-cutting time has been reduced by speeding up individual machine element operating speeds and increasing acceleration / deceleration characteristics. Non-cutting time Multi M code Reduced by Up to 3 M-code commands can be used for a block, thereby enabling simultaneous processing and further reducing non-cutting time. g tin ut Cu t M14 M31 M69; No g tin n-c 10% M14 Cycle Time tt Cu ing ut tin g ACTION n-c No M31 ACTION M69 ACTION Cycle time reduce M code FIN Real time custom macro function During operation of the parts unloader of the right spindle, this function allows the lower turret to conduct the cutting operation for the left spindle. This function also further improves the productivity. Upper turret Right spindle Left spindle Lower turret

EZ-Guide i Using the DOOSAN EZ-Guide i, users can create a cutting program for any desired shape, including patterns, by entering figures only. Example programming Cutting shape EZ-Guide i screen Automatic creation of cutting program O7000 (SAMPLE PROGRAM) ; M3 S1500 ; G0 X50. Y125. ; G0 Z30. ; G1040 T0.5 J3. H0.2 K0.5 ; G1020 H120. V50. U37. W68. ; G0 Z80. ; M5 ; Enter the dimensions of the shape. A cutting program is automatically created with the entered values. Easy Operation Package Doosan's Easy Operation Package (EOP) supports the user with functions relating to tool data, error diagnostics, set up and machine monitoring. Tool Load Monitoring Function Convenience of Maintenance and Service During cutting operation, abnormal load caused by wear or damage of the tool is detected and an alarm is triggered to prevent further damage. The condition and service procedures of the sensors are provided for easy maintenance and servicing of major units. Tool monitoring screen Turret maintenance and service screen 14 / 15

Product Overview SIEMENS 840D Basic Information Basic Structure Line-up / Processing Detailed Information SIEMENS CNCs have been adopted and optimized for DOOSANʼs machine tools to maximize usersʼ productivity. Large 19-inch Screen Two path programs are displayed simultaneously in the large 19-inch screen for enhanced user convenience. 19-inch display 19 inch Options Applications Capacity Diagram Specifications 2GB user memory Customer Support USB (standard) Service QWERTY keyboard Conversational Convenient function The machining monitoring function developed on the basis of the Shop Turn – an interactive machining support function of SIEMENS – provides users with cutting, servicing and maintenance screens for easy and convenient machine operation. Cutting and operation support function The automation units (parts catcher, parts unloader) can be easily controlled via interactive windows. This function shows a cutting and tool path simulation of a cutting program on a real-time basis. Shop-turn mode[various] Operation safety function Maintenance and service convenience function Maintenance and service of major units and peripheral devices, timer setting and parts counter setting can be easily carried out on a convenient screen. Protection Zone Synchronized Actions checks the interference between the turret and the spindle to prevent collisions that can be caused by the operator. [Custom] [attachments] [Protection zones] [offset] [operating parameter] [TC service] Machining accuracy improvement The NC controls spindle speed at an optimal level for precision threading and turning, making it possible to improve surface roughness automatically. PUMA TT1800 series [various] [attachment] [DSSV] Before applying the function After applying the function

Spindle Power-Torque Diagram FANUC Left and Right spindles (built-in) Rotary tool Max. spindle speed : 5000 r/min Max. power : 22 kW (29.5 Hp) Max. spindle speed : 5000 r/min Max. power : 5.5kW (7.4 Hp) S2 30min S3 40% 11kW N 6 15 m N 0 14 Cont. 47 (34.7) 15 22 (29.5) S2 30min Cont. S3 25% 18.5 (24.8) 15 (20.1) 11 (14.8) 10 m N 4 m 0 N 1 7 8 5 Torque : N.m (ft-lbs) Torque : N.m (ft-lbs) 157 (115.9) S2 30min 140 (103.3) Cont. 6 20 20 15kW S2 30min / S3 40% S2S1 40% Cont. 105 (77.5) S2 30min m m 88 (64.9) NCont. 25 Output : kW (Hp) 208 (153.5) 30 22kW 18.5kW 14 (10.3) Cont. S3 25% 5.5 (7.4) Cont. 688 910 750 1400 2000 Spindle speed : r/min 1.1 (1.5) 750 1115 2500 5000 4000 Spindle speed : r/min 45 50 1 00 00 2 68 75 91 10 11 14 8 0 0 00 00 00 000 10 0 5000 4500 Output : kW (Hp) S2 30min S1 Cont. Left and Right spindles (built-in) Rotary tool Max. spindle speed : 5000 r/min Max. power : 22 kW (29.5 Hp) Max. spindle speed : 5000 r/min Max. power : 7.8 kW (10.5 Hp) Cont. S6 60% Output : kW (Hp) Torque : N.m (ft-lbs) S6 25% S6 40% S6 60% Cont. S6 40% 955 1200 1100 1250 Spindle speed : r/min Torque : N.m (ft-lbs) 22 (29.5) 21.9 (29.4) 21.4 (28.7) 19.6 (26.3) S6 25% 220 (162.4) 190 (140.2) 170 (125.5) 150 (110.7) 49 (36.2) S6 25% 26 (19.2) Cont S6 25% 7.8 (10.5) Cont 4.1 (5.5) 1500 5000 Output : kW (Hp) SIEMENS 5000 Spindle speed : r/min 16 / 17

Product Overview External Dimensions Basic Information PUMA TT1800S / MS / SY Unit : mm (inch) Basic Structure Line-up / Processing Top View Detailed Rear chip conveyor Information Options Applications Capacity Diagram Specifications Customer Support 2070 (81.5) Service 559 (22.0) Side chip conveyor 2080 (81.9) Front View 3255 (128.1) 3905 (153.7) 4595 (180.9) PUMA TT1800 series

Tooling System PUMA TT1800S / MS / SY Unit : mm (inch) OD, FACE, CUT-OFF (7) S Series MS and SY Series (5) SINGLE OD TOOL HOLDER TURNING TOOL (1) OD TOOL( 20) (1) DOUBLE OD TOOL HOLDER (BOTH SIDE) (2) (2) DOUBLE OD TOOL HOLDER (2) (2) FACE TOOL HOLDER (1) (1) CUTTING TOOL ( 20) CUT-OFF TOOL HOLDER ID HOLDER (2) (9) (7) SINGLE ID TOOL HOLDER (2) UPPER TURRET BMT 55P (2) (2) LOWER TURRET BMT 55P (2) (1) (1) BORING BAR SLEEVES ø10 x H25 ø12 x H25 ø16 x H25 ø20 x H25 TRIPLE ID TOOL HOLDER BORING BAR (2) U-DRILL SLEEVES ø20 - H32 ø25 - H32 HOLDER COVER FOR U-DRILL (2) (2) BORING BAR SLEEVES ø10 - H32 ø12 - H32 ø16 - H32 ø20 - H32 ø25 - H32 DRILL SOCKET MT NO.1 MT NO.2 MT NO.3 U-DRILL DRILL LIVE CENTER (MT#3) OD / ID HOLDER BORING BAR SLEEVES OD/ID TOOL HOLDER ø10 x H25 ø16 x H25 ø12 x H25 ø20 x H25 OD TOOL ( 20) (2) ROTARY TOOL STRAIGHT MILLING HEAD FOR SIDE CUTTING (2) (1) COLLET CHUCK COLLET (ER25) (ø3 ø16) (1) MILLING ARBOR ADAPTER ANGULAR MILLING HEAD FOR FACE CUTTING PLUG (1) DUMMY PLUG WELDON ADAPTER(ID16) 18 / 19

Product Overview Tool Interference Diagram Basic Information PUMA TT1800S / MS / SY Unit : mm (inch) Basic Structure Line-up / Processing 352 (13.9) Detailed Information 11 (0.4) Options 291 (11.5) 50 (2.0) max. ø16 (0.6) Applications Capacity Diagram 57 68 (2.2) (2.7) Specifications Customer Support ø175 (6.9) ø230 (9.1) Service ø583 (23.0) (Max. swing dia.) Upper turret ø110 (4.3) 165 (6.5) ø583 ø110 (4.3) ) Double ID tool holder 103 (4.1) ø215 (8.5) ø112 (4.4) 3.7 5( ø9 Double OD tool holder ) ø24 141 (5.6) 0 (9 .4) 24 (0.9) ø230 (Max. turning dia) ø240 (9.4) (6.5 85 (3.3) 165 ) 100 Lower turret 165 (6.5) 103 (4.1) 190 (7.5) (X2-axis stroke) 166 (6.5) 24 (0.9) 165 (6.5) (X1-axis stroke) (23.0 ) (3.9 ø25 (1.0) (Boring bar dia.) ) 68 57 (2.7) (2.2) 3.9 0( 10 ø32 (1.3) (Boring bar dia.) max. ø16 (0.6) 100 (3.9) PUMA TT1800 series 165 (6.5) ø583 (Max. swing dia.)

Working Range Diagram PUMA TT1800S / MS / SY Unit : mm (inch) Single OD Tool holder Double OD Tool holder 700 (27.6) 700 (27.6) 700 (27.6) 103 39travel 103 39 (Z1 axis distance) 205 7575 (Z1 axis travel distance) 205 (Z1 axis travel distance) 205 75 (4.1) (1.5) (4.1) (1.5) (8.1) (3.0) 770 (30.3) (8.1) (8.1) (3.0) (3.0) 770 (30.3) 770 (30.3) (A(A axis travel distance) axis travel distance) (A axis travel distance) 103 103 3939 103 39 (4.1) (4.1) (1.5) (1.5) (4.1) (1.5) ID Tool holder 75 (27.6) 700 (27.6) 130 75 75 700 130 75 (3.0) (Z139 axis travel(5.1) distance) (3.0) (Z1 axis travel distance) (3.0) (5.1)(3.0) 139 139 39 (5.5) (1.5) (5.5) (1.5) 24(6.5) (0.9) 24 (0.9) 166 (6.5) 24 166 (0.9)(6.5)166 190 (7.5)190 (7.5) 85 184 856 (0.2) 184 6 (0.2) 190 (7.5) 85 184 6 (0.2) (X2 axis travel distance) (X2 axis travel distance) (3.3) (7.2)(3.3) (7.2) (X2 axis travel distance) 166 (6.5) 24 (0.9) (3.3) (7.2) 166 (6.5) 24 (0.9) 190 travel (7.5)190 (X2 axis travel distance) (7.5) (X2 axis travel distance) 190 (7.5) 85 6 (0.2) 190 184 (7.5) (X2 axis distance) 166 (6.5) 166 24 (0.9) 190travel (7.5)distance) (6.5) 24 (0.9) 85 (X2 axis (3.3)184 (7.2) 6 (0.2) (X2 axis travel distance) 190 (7.5) 190 (7.5) (3.3) (7.2) 85 184 85 6 (0.2) 184 6 (0.2) 190 (7.5) (X2 axis travel distance) (X2 axis travel distance) (X2 axis travel distance) 190 (7.5) (X2(3.3) axis(7.2) travel distance) (3.3) (7.2) 190 (7.5) (X2 axis travel distance) 190 (7.5) (X2 axis travel distance) 75 (3.0) 103 (4.1) 75 700 (27.6) 130 75 75 700 75 (5.1)(3.0) (3.0)(27.6) (Z1 axis travel130 distance) (3.0) (Z1 axis travel distance) (5.1)(3.0) 22 (0.9) 22 (0.9) 22 (0.9) (6.5)16624 (0.9) 24 (0.9) (0.8) 21 (0.8) (6.5) 166 (6.5) 24166 (0.9) 169 21 (0.8)169 21169 190 travel (7.5)190 (X2 axis travel distance) (7.5) (X2 axis travel distance) 190 (7.5) (X2 axis distance) (6.7) 190 (7.5)190 (7.5) (6.7) (6.7) 190 (7.5) 22 (0.9) 190 (7.5)190 (7.5) axis travel distance) (X2 axis travel distance) 190169 (7.5) 21 (0.8) (X2 axis distance) 166 travel (6.5) (X2 24 (0.9) 22 (0.9) (X2 distance) (X2 axis travel distance) 190 (7.5) (X2 axis travel distance) 166 (6.5) 24 (0.9) 169 21axis (0.8)travel (X2 axis travel distance) (6.7) 190 (7.5) 22 (0.9) 22 (0.9) 190 (7.5) (X2 axis travel distance) (6.7) 190travel (7.5)distance) 166 (6.5) 166 24(6.5) (0.9) 24 (0.9) 169 21 169 (0.8) 21 (0.8) 190 (7.5) (X2 axis 190 (7.5) (X2 distance) 190axis (7.5)travel (X2 axis travel distance) 190 (7.5)distance) (X2 axis travel distance) (6.7) 190 (7.5) 190 (7.5) (6.7) (X2 axis travel (X2 axis travel 165 (6.5) (X1 axis travel distance) 190axis (7.5) (X2 axis distance) 165 (6.5) (X1 axis travel distance) 165 (6.5) (X1 axis travel distance) 165 (6.5) (X1 axis travel distance) 190 (7.5) (X2 travel axis travel distance) 165distance) (6.5) (X1 travel distance) 165 (6.5) (X1travel axis distance) (X2 axis travel distance) (X2 159 axis travel159 distance) 24 (0.9) 24 141 (5.6)141 (5.6) (0.9) 24 (0.9) 141 (5.6) 6 (0.1) (6.3) 6 (0.1) (6.3) 6 (0.1) 159 (6.3) ø210 (8.3) ø210 165 (6.5) (X1 axis travel distance) 165(8.3) (6.5) (X1ø210 axis(8.3) travel distance) ø210 (8.3) 5050 (2.0) 50 (2.0) ø210 165(8.3) (6.5) (X1ø210 axis(8.3) travel distance) 50 50 (2.0)50 165 (6.5) 24 (0.9) 141 (X1 (5.6)axis travel distance) (2.0) (2.0) 6 (0.1) 159 (6.3) (2.0) 46.5 (1.8) 46.5 (1.8)46.5 (1.8) distance) distance) 141 (5.6) 165 (6.5) (X1 165axis (6.5)travel (X1 axis travel distance)24 (0.9) 165axis (6.5)travel (X1 axis travel distance) 6 (0.1) 159 (6.3) 165 (6.5) (X1 ø210 (8.3) ø210 (8.3) ø210 (8.3)24 (0.9) 141 50 50 (2.0) (5.6) 141 (5.6) 24 (0.9) 6 (0.1) 159 (6.3) 6 (0.1) 159 (6.3) ø210 (8.3) 50 (2.0) (2.0) 50 ø210 (8.3)ø210 (8.3) 46.5 (1.8) ø210 (8.3)ø210 (8.3) (2.0) 46.5 50 50 50 (2.0) 50 (2.0) (1.8) (2.0) 46.5 (2.0) (1.8) 46.5 (1.8) 165 travel (6.5)165 (X1 axis travel distance) 165 travel (6.5)165 (X1 axis travel distance) (6.5) (X1 axis travel distance) 165 (6.5) (X1 axis (6.5) (X1 axis travel distance) (0.9) 165 (6.5)165 (X1 axis travel distance) distance) distance) (0.9) (6.5) (X1 axis travel distance) 165 (6.5) (X1 axis 22 (0.9) 16522 (6.5) (X1 22 axis travel distance) 24 (0.9) 24141 (5.6)141 (5.6) 21 (0.8) 21 144(0.8) (5.7)144 (5.7) (0.9) 24 (0.9) 141 (5.6) 21 (0.8) 144 (5.7) ø210 (8.3) ø210 (8.3) ø210 (8.3) ø210 (8.3) (8.3) ø210 (8.3) ø210 (8.3) ø210 (8.3) ø210165 (8.3)(6.5)ø210 (X1 axis travel distance) 165 (6.5) (X1 axis travel distance) 22 (0.9) 165 (6.5) (X1 axis travel distance) 165 (6.5) (X1 axis travel distance) 165 (6.5) (X1 axis travel distance) 22 (0.9) 165 (6.5) (X1 axis travel distance) 24 (0.9) 141 (5.6) 21 (0.8) 144 (5.7) ø210 (8.3) 24 (0.9) 21 (0.8) (5.7) 165 (6.5) (X1 distance) 165 (6.5) (X1 distance) 165axis (6.5)travel (X1 axis travel distance) 165axis (6.5)travel (X1 axis travel distance) 165(0.9) (6.5) (X1 distance) 165axis (6.5)travel (X1 axis travel distance) ø210 141 (8.3)(5.6) ø210 (8.3) 22 (0.9) 22 ø210144 (8.3) ø210 (8.3) 24 (0.9) 24 ø210 (8.3)21 (0.8) 144 141 (5.6) 141 (5.6) (5.7) 144 (5.7) (0.9) 21 (0.8) ø210 (8.3)ø210 (8.3) ø210 (8.3)ø210 (8.3) ø210 (8.3)ø210 (8.3) 75 (3.0) 700 (27.6) 700 (Z1 axis travel distance) 205 75 (27.6) (Z1 axis travel distance)770205 (8.1) (3.0) (30.3) (8.1)distance) 770 (30.3) (A axis travel (27.6) (A axis travel700 distance) 700 (27.6) (Z1distance) axis travel 205 distance) 205 (Z1 axis75travel 103 39 (8.1) (3.0) (30.3) (30.3) 770(8.1) 39 (4.1) 770 (1.5) axis travel distance) (1.5)(A axis travel(Adistance) 75 700 (27.6) 130 39700 139 (27.6) 130 75 1307575 75 3975139 700 (27.6) (3.0) (Z1 axis travel distance) (5.1) (3.0) (5.5) (1.5) (5.5) (1.5) (3.0) (Z1 axis travel distance) (5.1) (3.0) (3.0) (Z1 axis travel distance) (5.1)(3.0) 185 720 (28.3) 185 75 (3.0) 720 (28.3) (7.3) (Z2 axis travel distance) (7.3) (Z2 axis travel distance) 75 (3.0) 185 185 75 (3.0) 720 (28.3) 720 (28.3) (7.3) (Z2distance) axis travel distance) (7.3) (Z2 axis travel 75 (3.0) 80 700 (27.6) 80 120 80 700 (27.6) 80distance) 120 (3.1) (4.7) (3.1) (Z1 axis travel 75 (3.0) 720 (28.3) (3.1) (Z1 185 axis distance) (3.1) (4.7) 185travel 720 (28.3) 185 75 (3.0) 75 (3.0) 720 (28.3) (7.3) (Z2 axis travel distance) (7.3) axis travel distance) (7.3) (Z2 axis (Z2 travel distance) 700 (27.6) 80 80 700 (27.6) 80 120 80 120 103 (Z1 39 axis travel distance) (3.1) (3.1) (4.7) (3.1) travel distance) (3.1) (4.7) 103 (Z1 39 axis (4.1) (1.5) (4.1) (1.5) 103 3980 103 39 700 (27.6) 80 120 700 (27.6) 80 (1.5)80(4.1) (1.5)700 (27.6) 80 12080 120 (4.1) (3.1) (Z1 axis travel distance) (3.1) (4.7) axis travel distance) (3.1) (4.7) axis(Z1 travel distance) (3.1) (Z1(3.1) (3.1) (4.7) 103 3939 max.120 (4.7) max.120 (4.7) 103 39103 max.120 (4.7)max.90 max.120 (4.1) (4.7) (3.5) (4.1)(1.5) (1.5) (4.1) (1.5) max.90 (3.5) 100 80 80 720 (28.3)(4.7) max.120 max.120 (4.7) 100 80 (3.9) 80 720 (28.3) max.120 (4.7) max.120 (4.7) (3.1) (3.1) (Z2 axis travel distance) max.90 (3.5) (3.9)(3.1)(Z2 axis max.90 (3.1) travel distance) (3.5) 139 39 139 39139 39 (5.5) (5.5)(1.5) (1.5) (5.5) (1.5) 55 130 75 720 (28.3) 55 130 (2.2) (5.1) 720 (28.3) (Z2 axis travel 75 distance) (3.0) (2.2) (5.1) (Z2 axis travel distance) (3.0) 75 55 130 55 130 75 720 (28.3) 720 (28.3) (5.1) (Z2distance) axis travel(3.0) distance) (3.0) (2.2) (5.1) (2.2) (Z2 axis travel 700 (27.6) 60 160 60 Angular milling head 700 (27.6) 5555 130 75(6.3)(2.4) 720 (28.3) 160 axis travel distance) 130 720 (28.3) (2.4) 55 60 130 7560 75 720(Z1 (28.3) (Z1(5.1) axis travel distance) (2.2) (3.0) (Z2 axis travel distance) (2.4) (6.3) (2.4) (2.2) (Z2 (5.1) axis travel distance) (2.2) (5.1) (3.0) (3.0) axis (Z2 travel distance) 80 700 (27.6) 80 60 160 60 700 60 160 60 (3.1) 103(27.6) 39 103 39 (Z1 axis travel distance) (3.1) (2.4) (6.3) (2.4) travel (2.4) (Z1 axis (4.1) (1.5)distance) (6.3)(2.4) (4.1)(1.5) 80 80 103 39 (3.1) 103 39 (3.1) 700 (27.6) 60 700(1.5) 160 700 (27.6) 160 60 (4.1) (27.6) 1606060 60(1.5) 60(4.1) (Z1 axis travel distance) (2.4)axis (6.3)(2.4) (Z1 axis travel distance) travel distance) (2.4) (Z1(2.4) (6.3)(2.4)(6.3)(2.4) 103 39 103 39 103 39 (4.1) (1.5) (4.1)(1.5)(4.1)(1.5) 8080 80 (3.1) (3.1) (3.1) 40 160 720 (28.3) 40 160 (1.6) 720 60 (6.3)(28.3) (Z2 axis travel distance) (1.6) (6.3)(Z2 axis travel distance) (2.4) 60 (2.4) 50 (2.0) 50 50(2.0) (2.0) 50 (2.0) 50 (2.0) 50 (2.0) 46.5 (1.8)46.5 (1.8) 46.5 (1.8) 50 (2.0) 50 (2.0) 50 (2.0) 50 (2.0) 46.5 (1.8) 50 (2.0) 50 (2.0) 50 (2.0) 46.5 (1.8) 46.5 (1.8) 46.5 (1.8) max.67 (2.6) max.67 (2.6) max.67 (2.6) max.67 (2.6) max.67 (2.6) max.67 (2.6) max.67 (2.6) 160(28.3) 720 (28.3) 60 100720 80(28.3) 720 (28.3)80 80 40 160 40 720 60 100 80 (1.6) (2.4) (Z2distance) axis travel distance) (3.1) (Z2distance) axis travel distance) (1.6) (6.3)(Z2 (2.4) axis(6.3) travel (3.9)(3.1)(Z2(3.9) (3.1) max.120 axis(3.1) travel max.120 (4.7) (4.7) max.120max.120 (4.7) (4.7)max.120max.120 (4.7) (4.7) max.90 (3.5) max.90 (3.5) 140max.90 (3.5) 700 (27.6) 140 140 700 (27.6) Straight milling head Angular milling head (5.5) (Z1 axis travel140 distance) (5.5) Straight milling head Angular milling head 4040 160 720 (28.3) (5.5) 100 (Z180 axis travel distance) 8080 720 (28.3) 160720 (28.3) 720 (28.3) 60 6060 40 160 720 (28.3)(5.5) 100 80 100 80720 (28.3) 80 (1.6) (6.3)(Z2 (2.4) axis travel distance) (3.9)(3.1) (3.1) (Z2 axis travel distance) (1.6) axis travel distance) (1.6) (6.3) (2.4) (2.4) (Z2 (6.3) axis (Z2 travel distance) axis travel distance) (3.9)(3.1)(3.9) (3.1) (3.1) (Z2 (3.1) axis(Z2 travel distance) 140 700 (27.6) 140 103 39 140 700 (27.6) 140 Straight milling head Angular 103 39 (4.1) Straight milling head milling headmilling head (5.5)travel (Z1distance) axis travel(5.5) distance) (5.5) Spindle center (1.5) (5.5) (Z1 axis Straight milling head(4.1) Y axis travel distance 251.6 Angular (9.9) Spindle center Spindle center (1.5) 251.6 (9

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