PFxx-OMP0001CN No.PF-OMP0001CN-F // PFMB7501 PFMB7102 PFMB7202 2 10 11 12 14 14 16 17 [] 21 OU1OUT2 {3 ] 22 22 [] 24 25 F0 26 F1 OUT1 28 F2 OUT2 36 F3 41 F10 42 F13 43 F20 44 F22 45 F30 46 F31 47 F80 OFF 48 F81 49 F90 50 F98 52 F99 53 54 58 59 61 62 62 65 67 -1No.PF-OMP0001CN-F (ISO/IEC)(JIS) *1) *2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems
No.PF-OMN0011CN-C / / PF3W3## SMC 2 9 12 13 15 15 16 21 23 23 F0 25 F1 OUT1 26 F2 OUT2 34 F3 40 F10 41 F20 45 F22 46 F30 48 F80 49 F81 50 F82 51 F90 52 F96 53 F97 54 F98 57 F99 58 59 62 63 66 66 69 71 -1No.PF-OMN0011CN-C (ISO/IEC)(JIS) 1) 2) 1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic fluid power -General rules
Selection of Dip Switch 53 Chapter 12: Driving 12-1. Setting of Origin Direction 54 12-2. Adjustment of Air Balance 54 Chapter 13: Error Messages & Countermeasures 13-1. Controller 5557 13-2. Brake Units Life Span 58 Chapter 14: Appendix 14-1.
Moment (Nm) Moment (Nm) Moment (Nm) Load mass (kg) M1 = F1 x L1 Piston speed V (mm/s) ML1C/M2, M3 M2 = F2 x L2 M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A. Consider (1) max. load mass, (2) static moment, (3) dynamic moment (when stopper collides) when calculating the max. allowable moment and load mass.
No.PS-OMU0002CN-D // ZSE20A(F) ISE20A 2 8 10 11 15 15 17 19 [] 22 23 3 24 26 28 28 28 F0 30 F1 OUT1 31 F2 OUT2 34 F3 36 F4 37 F5 FUNC 39 F6 41 F10 42 F11 48 F80 49 F81 50 F82 52 F90 53 F96 55 F97 56 F98 58 F99 60 61 65 65 66 75 75 78 -1No.PS-OMU0002CN-D 1 (ISO/IEC)(JIS) *1) *2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO
Analog voltage 1 to 5 V Analog voltage 1 to 5 V Or IO-Link hub (Commercially available) Process Data Bit offset 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 Item CH11 measured value: 16-bit signed integer Bit offset 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 Measurement data of sensors for 4 channels are combined and cyclically sent as a process data.
Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
Load weight (kg) m1 m2 m3 Moment (Nm) M3 = F3 x L3 F3 M1 = F1 x L1 F1 M2 = F2 x L2 F2 L1 L2 L3
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
F1 = X A1 X P . (1) F2 = X A2 X P . (2) 4 A1 = D2 . (3) 4 A2 = (D2 d2) . (4) F1 = Cylinder force generated on the extending side (N) F2 = Cylinder force generated on the retracting side (N) = Load rate A1 = Piston area on the extending side (mm2) A2 = Piston area on the retracting side (mm2) D = Tube bore size (mm) d = Piston rod diameter (mm) P = Operating pressure (MPa) While not
D1.6 x P First tentative bore size determination F1 D1.6 x P WB Inclined operation W+WBWV PPV W + WB>WV P>PV Allowable driving force table (Fn) (n = 1, 2, 3) Determination of allowable load weight & pressure F1 = x (W + WB) x 9.8 Horizontal F2 = (W + WB) x 9.8 x (cos + sin) Inclined F3 = (W + WB) x 9.8 x ( + 1) Vertical (Refer to page 4 for connection fitting weight.)
+ WB > WV P > PV Determination of allowable load weight & pressure F1 = x (W + WB) x 9.8 Horizontal Inclined Vertical F2 = (W + WB) x 9.8 x (cos + sin) (See page 63 for vertical operation.)
Actuation: 1 (2-Position Single), Barrier: w/o Barrier, Electrical Entry: TT (Cable Type), Lead Wire Length: 20 (2000mm), Manual Override: Non-Locking Push, Port Size: N3 (ø5/32 One-touch fitting), Thread Type: Rc, Bracket: F2 (w/Side Bracket)
Actuation: 2-Position Single, Barrier: w/o Barrier, Electrical Entry: Cable Type, Lead Wire Length: 2000mm, Manual Override: Non-Locking Push, Port Size: ø5/32 One-touch fitting, Thread Type: Rc, Bracket: w/Side Bracket
. $ lrOke F2 Single rear clevls / (C) Sing le rear clevis (mm) lJ, :.am ~A !!CD'" ~~~I ~::ri!:~ ' I ' i,; P,)" ilJ :B~ijza : zz ii' (mm), .
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Piston speed V (mm/s) M2 = F2 x L2 ML1C/M2, M3 Moment (Nm) M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A.
No.PF-OMJ0005CN-I () // PFM7## 2 10 13 14 14 16 17 20 22 22 F0 23 F1 OUT1 24 F2 OUT2 27 F3 28 F4 29 F5 30 F6 31 F7 32 F8 35 F9 36 F10 38 F11 39 F12 40 F13 41 F98 42 F99 44 45 49 50 53 54 54 57 59 73 -1No.PF-OMJ0005CN-I (ISO/IEC)(JIS) *1) *2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic fluid power -General rules
Moment (Nm) Moment (Nm) Load weight (kg) M1 = F1 x L1 Piston speed V (mm/s) M2 = F2 x L2 ML1C/M2, M3 Moment (Nm) M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A. Consider (1) max. load weight, (2) static moment, (3) dynamic moment (when stopper collides) when calculating the max. allowable moment and load weight.