Vacuum (mm) 02_o2 0 4 _ o 4 0 6 0 6 0 8 _ 0 8 10 _ o.10 1 3 @ 1 3 1 6 @ 1 6 20 @2O 25 _ a25 32 _ a32 40 s4O 50 o50 Pad dia. (mm) 02_o2 0 4 o 4 0 6 a 6 0 8 0 8 1 0 _ o 1 0 1 3 _ o 1 3 1 6 _ s 1 6 20 szo 25 o25 32 s32 40 s4O 50 650 Thread Dia. s2-sB o4(}o50 B4 M4 x 0.7 o B5 M5 x 0.8 o a Thread B6 M G x l a o B8 M8 x 1.25 o a 8 1 0M 1 0 x 1 . 2 5 o o .
(mm) 02_o2 0 4 _ o 4 0 6 0 6 0 8 _ 0 8 10 _ o.10 1 3 @ 1 3 1 6 @ 1 6 20 @2O 25 _ a25 32 _ a32 40 s4O 50 o50 Pad dia. (mm) 02_o2 0 4 o 4 0 6 a 6 0 8 0 8 1 0 _ o 1 0 1 3 _ o 1 3 1 6 _ s 1 6 20 szo 25 o25 32 s32 40 s4O 50 650 Thread Dia. s2-sB o4(}o50 B4 M4 x 0.7 o B5 M5 x 0.8 o a Thread B6 M G x l a o B8 M8 x 1.25 o a 8 1 0M 1 0 x 1 . 2 5 o o .
10 Torr-0 PSI (10 Torr-Okqt/cm2) 0.012 // Without subplate \\ ( 0.029 Il \ (13) ll NVJl24 N.O. 0-100(0-7) '10 Torr-0 PSI (10Torr'Qkg cm,) '10 Torr-85 PSI (10 Torr 6kg7cm,) 0.008 NVJl24A 0 * 7 1 ( 0 5 ) 10 Torr-0 PSI (10 Torr'0kgl/cmr) 10 Torr-57 PSI (10 Torr-4kgf/cmr) 0.012 Note) In cas ot NVJ124O, suDply air to "R" port, "P' port will be the exhaust port Solenoid Specifications Snecifications
10 Torr-0 PSI (10 Torr-Okqt/cm2) 0.012 // Without subplate \\ ( 0.029 Il \ (13) ll NVJl24 N.O. 0-100(0-7) '10 Torr-0 PSI (10Torr'Qkg cm,) '10 Torr-85 PSI (10 Torr 6kg7cm,) 0.008 NVJl24A 0 * 7 1 ( 0 5 ) 10 Torr-0 PSI (10 Torr'0kgl/cmr) 10 Torr-57 PSI (10 Torr-4kgf/cmr) 0.012 Note) In cas ot NVJ124O, suDply air to "R" port, "P' port will be the exhaust port Solenoid Specifications Snecifications
10 Torr-0 PSI (10 Torr-Okqt/cm2) 0.012 // Without subplate \\ ( 0.029 Il \ (13) ll NVJl24 N.O. 0-100(0-7) '10 Torr-0 PSI (10Torr'Qkg cm,) '10 Torr-85 PSI (10 Torr 6kg7cm,) 0.008 NVJl24A 0 * 7 1 ( 0 5 ) 10 Torr-0 PSI (10 Torr'0kgl/cmr) 10 Torr-57 PSI (10 Torr-4kgf/cmr) 0.012 Note) In cas ot NVJ124O, suDply air to "R" port, "P' port will be the exhaust port Solenoid Specifications Snecifications
Load weight (kg) Load weight (kg) Load weight (kg) 10 10 10 MY1H40 MY1H40 MY1H40 MY1H40 MY1H40 MY1H40 MY1H40 2. Reference formula [Dynamic moment at impact] Use the following formulae to calculate dynamic moment when taking stopper impact into consideration.
P16 s1 s1 s1 s1 s2 s2 s2 s2 ... ... ... ... s32 s32 s32 s32 0.5mm) 1 2 , 2. 30mm 30mm 3.
Selection of Dip Switch 10. Driving 45 10-1. Setting of Origin Direction 10-2. Adjustment of Air Balance 11. Error Messages & Countermeasures 46 11-1. Controller 11-2. Brake Units Life Span 12. Appendix 50 12-1.
Program P1 P2 P3 P16 S1 S1 S1 S1 S2 S2 S2 S2 Step S32 S32 S32 S32 Following are CEU2s special feature: 1. Predictive Control & Learning Function (Allow High Repeatability and Precision. 0.5mm) With learning function, after every execution, brake point will be amended, according to the deviation of stopping position from setting position.
S32 S32 S32 S32 0.5mm) 1 2 2. 3. LCD 4.DIN 30mm 30mm 10 - 2-2 30mm No. 2-3 (1), (Err6), 1 ML2B25 15 ML2B32 19 ML2B40 24 2-4 5mm 5-10-15 5mm Err5 4.2 5 10 15 20 1.0 1.0 1.0 1.0 5.8 5mm30mm Err6: 20 30 100mm/sec :50cm :0.5MPa 11 - 3 3 3 3 ML2B+CEU2 NO 1 () () YES NO () YES NO YES YES NO YES NO YES YES NO NO NO YES A 12 - A 1.
Loosen the screws lhat hold the DIN rail at both sides and separate the manfold 10 the right and left Product is CE compliant with standard part number.
H A G G RG RT RS B 296 305 C R310 R445 D 93 129 E 60 87 F 10 15 G 6 7 B 296 309 C R390 R495 D 93 129 E 60 87 F 10 15 G 6 7 B 299 307 C R350 R440 D 93 129 F 10 15 G 6 7 H 610 700 A 600 743 A 680 797 A 643 740 15 32 15 32 15 32 Y Note 2) Y Note 2) Y Note 2) X 558 to 573 685 to 708 X 518 to 533 558 to 581 X 541 to 556 595 to 618 15 32 15 32 15 32 558 to 573 685 to 708 518 to 533 558 to 581
50 20 20 10 10 10 5 4 3 2 1 40 30 20 0.2 1 2 3 4 5 0.3 0.4 10 m1max m2max m3max m1max m3max m2max Weight (kg) Weight (kg) 10 Model Selection Series MY3A/3B MY350 w When the external guide is used. 300 400 500 Collision deceleration (m/s2) 200 External guide load factor selection 2300 N 100 External shock absorber Impact force and absorption capacity confirmation 30 40 50 20 10 2 3 4 5 10
48 48 (63) 0 (10) 40 D-M9, D-M9V 10 (17) 0 0 54 59 (66) 48 58 (65) 5 (12) D-F9W, D-F9WV 10 (17) 0 0 54 59 (66) 48 58 (65) 5 (12) ( ): Denotes the values of D-A9V, D-M9V and D-F9WV.
12 16 0.1 5 10 20 30 40 50 100 200 0.01 5 10 20 30 MXW Overhang L (mm) Overhang L (mm) Maximum Speed: Up to 400 (mm/s) Graph (5) Graph (2) Maximum Speed: Up to 300 (mm/s) MXJ 0.3 50 40 30 20 MXP 0.2 10 MXY 0.1 2 3 4 5 Mass W (kg) Mass W (kg) 40 32 MTS 0.04 0.05 1 0.03 0.5 0.4 0.3 0.2 25 20 8 0.02 16 12 0.01 0.1 5 10 20 30 5 10 20 30 40 50 100 200 Overhang L (mm) Overhang L (mm) Graph (3)
Refer to catalog N366 Series Variations @ Boq1" l N m ) L lg) 10 16 20 25 32 40 50 MHY2NOD 10 0 . 1 6 71 70 MHY2N60 1 6 0.54 84 150 MHY2-MD 20 1 . 1 0 106 3m MHY2.25D 2.24 560 MHw2 Rack Style Unique seal design Grippng force when allows shorter total length construction and constant opening and closing fingers.
MT-S16 16 Weights MT-S20 20 (g) MT-S25 25 End lock additional weight 50 157 222 400 547 1,000 1,533 Standard stroke (mm) MT-S32 32 Model 200 699 912 1,495 2,208 25 52 138 186 350 487 918 1,420 175 649 851 1,412 2,095 5 36 150 599 790 1,330 1,983 10 40 125 549 729 1,247 1,870 15 44 100 194 294 500 669 1,165 1,758 20 48 75 175 258 450 608 1,083 1,645 30 56 MT-S40 40 MTS8 MTS12 MTS16 MTS20
Valve Mounting Direction: S (Single Solenoid Coil on the Same Side as A,B Ports), Piping: 32 (4 Port/Base Mounted Common SUP Common EXH), Stations: 10 Stations, A B Port Size: C4 (ø4 One-touch Fitting)
Valve Mounting Direction: S (Single Solenoid Coil on the Same Side as A,B Ports), Piping: 32 (4 Port/Base Mounted Common SUP Common EXH), Stations: 10 Stations, A B Port Size: M5 (Base Mounted M5X0.8)
Valve Mounting Direction: Single Solenoid Coil on the Same Side as A,B Ports, Piping: 4 Port/Base Mounted Common SUP Common EXH, Stations: 10 Stations, A B Port Size: ø4 One-touch Fitting, P R Port Thread: -