Title not found VAC For single phase 200 VAC L1 CNP1 NFB MC CNP3 L1 CNP1 NFB MC CNP3 Single phase 200 to 230 VAC Three phase 200 to 230 VAC L2 L2 U U U Motor V U Motor V L3 L3 V V W M N () W M N W W P1 P1 PE PE P2 P2 CNP2 CNP2 P (+) P Regeneration option Regeneration option C C D D Detector Detector CN2 CN2 L11 L11 L21 L21 Note) For single phase 200 to 230 VAC, power supply should be connected to L1 and
Example) With L type bracket: E 0LWith T type bracket: E 0TOne with AC installed is special product. T Type Interface: (T) 1/8, 1/4, 3/8 T type interface makes it easier to diverge air output.
Basic Rc(PT)P Rc(PT)P GA H2 NN NN GB H1 MM I ND D NB NE C Effective Thread E E NF N JC 10 10 N JD A K F NA S+Stroke F H B WH ZZ+Stroke (mm) Stroke range (mm) 200 to 700 200 to 700 200 to 1000 200 to 1000 Bore (mm) 20 25 32 40 Eff. thread length 15.5 19.5 19.5 21 H1 5 6 6 8 H 44 48 51 54.5 GB 47.5 49.5 51.5 51.5 GA 53.5 56.5 55 56 F 16 16 19 21 E 14.5 18 18 20.5 D 10 12 12 16 C 40.5 45.5 51.5
Trace the arrow mark from the intersection D to obtain the intersection E. 4. The intersection E is the dew point under pressure 102 psi (0.7 MPa) with an ambient temperature 86F (30C) and a relative humidity 60%. The value for E is 144F (62C). 5. Trace the intersection E upward, and trace from the intersection D leftward to obtain the intersection C. 6.
/ USB 120.3 120.3 mm mm 200 200 mm/s mm/s 100 500 100 500 1 1 200 1000 200 1000 2 2 CN4 50 200 50 200 3 3 CN3 CN2 CN1 DC24V /P.9 2.1 P.13 3.1 () AWG20(0.5mm 2) 8mm C24VM24VEMG DC24V OV UL ,UL1310 Class2 (DC24V) DC24V 24V 0V 0V M24V C24V EMG (DC24V) DC24V 24V 0V 0V M24V C24V EMG 1.2 (1) /CD-ROM (PDF) (2) ACT Controller -4- Easy OK (3) ON OK OFF OK SVRE ALARM
*Power supply 100 V type: 35C Power supply 200/230 V type: 40C 2.
Back cover 8 2-Color Display Digital Flow Switch RoHS PF2M7 Series How to Order PF2M7 10 C6 A M Integrated display q r t y u i w e q Rated flow range e Port size Piping variations 01 0.01 to 1 L/min 02 0.02 to 2 L/min 05 0.05 to 5 L/min 10 0.1 to 10 L/min 25 0.2 to 25 L/min 50 0.5 to 50 L/min 11 1 to 100 L/min 21 2 to 200 L/min With One-touch fitting Female thread C4*2, C6, C8, N7 01, 02,
depth 9.9 LEF 44 60 LEJ 5.5 5H9 (+0.030 0 ) depth 5 LEL 48 70 A (Table traveling distance) L 61 (62) 10 10 LEM 60 46.8 LEY (60) 32 30 LES Vacuum port Rc1/8 n x 5.5 LEPY LEPS 60 LER 150 D x 150 (= E) B 15 LEH LEY -X5 11LEFS 11LEFS Dimensions [mm] Dimensions [mm] Model L A B n D E 11-LEFG32-S-50 200 57 180 4 11-LEFG32-S-100 250 107 230 11-LEFG32-S-150 300 157 280 11-LEFG32-S-200 350 207
Judgement n = 1 + 2A + 2B + 3A + 3B = 0 + 0.32 + 0.10 + 0.42 + 0.12 = 0.96 CY1S CY1S CY1L M1, M3 [Graph 11] Allowable moment CY1H 200 CY1F 100 Moment M1, M3 [Nm] CYP CY1S20-Z B C D E 10 5 100 400 280 200 DPiston speed [mm/s] -X Load factors on the guides can be calculated with the SMC Pneumatic CAD system.
A A Width across flat D (Hexagon) Width across flat 8 (Hexagon) 3 3 B E E Width across flat 12 (Hexagon) B Width across flat 8 (Hexagon) 6 8 5 10.5 E 2.5 11.7 6.6 Dimensions Dimensions A B E 4 3 A B Model ZPT4-A6 ZPT4-A8 M6 x 1 M8 x 1 D 8 12 E 3 4.5 Model ZPT2-A5 ZPT2-A6 M5 x 0.8 M6 x 1 21 26 26 16 ZPT3-A6 Adapter part no. ZPT1-B4/B5 Adapter part no.
How to Order S 2 B P H S4 200 LEY 63 A2 w y !0 i o e r t q u !1 !2 !3 !
Component Parts No. q w e r t y u No. i o !0 !1 !2 !3 !
E Es Note 3) Bore size determination NG Determination of allowable stroke (W + WB) V 2 E = x ( ) 2 1000 E Es Note 2) OK Determination of pressure (P) when making intermediate stop Review of order made products based on operating conditions P Ps Note 1) This cylinder cannot perform an intermediate stop using an air pressure circuit in vertical operation.
E Es Note 3) Bore size determination NG Determination of allowable stroke (W + WB) V 2 E = x ( ) 2 1000 E Es Note 2) OK Determination of pressure (P) when making intermediate stop Review of order made products based on operating conditions P Ps Note 1) This cylinder cannot perform an intermediate stop using an air pressure circuit in vertical operation.
Piston speed mm/s Piston speed mm/s Features 6 Series MY2H Maximum Allowable Moment/Maximum Allowable Load Moment/MY2HT (Double axis) MY2HT/M3 MY2HT/M1 MY2HT/M2 300 300 300 200 200 200 100 100 100 Moment Nm Moment Nm Moment Nm 50 50 50 MY2H40 40 40 40 MY2H40 MY2H40 30 30 30 MY2H25 20 20 20 MY2H25 MY2H25 MY2H16 10 10 10 MY2H16 MY2H16 8 8 8 5 5 5 100 200 300 400500 1000 1500 100 200 300 400500
128 200 300 38 50 88 124 174 110 80 5 6 4 8 20 24 63 M10 x 1.5 MLGPM (slide bearing)/A, DB, E dimensions MLGPL (ball bushing)/A, DB, E dimensions A E A E Bore size (mm) Bore size (mm) DB DB st50 50
/Plug-in Unit 10-SQ1000 Kit (Lead wire cable) L Electrical entry G1/2 P=11.5 1.5 36.9 L1 L2 L3 L4 49.4 47 31.8 20.5 5 7.3 Indicator light Station number 19.2 1.5 AWG24 Lead wire Manual override (Mounting hole dimension) 4.6 10 34.3 74.5 108.5 (Single) 113.1 (Double) 122 (3 position) (108.5) 10 74.5 35 5.5 28.1 12.7 2 x M4 DIN rail clamp screw 9 e d i s U e d i s D n 8 7 6 5 4 3 2 Stations
Floating Joint Center of sphere M M U U D H G B F P C E R A (mm) Max. operating tension and compression N Center of sphere R Model Max. screw-in depth P Allowable eccentricity U M A Applicable bore size Weight (kg) B C D E F G H Nominal size Pitch Compression Tension JB40-8-125 JB63-10-150 JB80-16-200 JB100-20-250 JB140-22-250 20, 25 32 40 50, 63 80 8 10 16 20 22 29 35.5 47.5 59 71.5 1.25
C D A B Side support B MY-SB 2 x J MY1B MY1B MY1H E A B MY1B C D MY1M (mm) MY1C A 61 70 87 B C D E F G H J Part no.
L1 L2+A5 L3 2 1 W V 2 E= ( ) 2 9.8 1000 Collision speed V=1.4 Va *) Corrected coeficient 1 10 420 E= ( ) =0.09 2 9.8 1000 V=1.4 x 300=420 Calculate kinetic energy E(J) of moment. Calculate allwable kinetic energy Ea(J). Check that kinetic energy of moment does not exceed allowable kinetic energy.