Stations: 4 Stations, A, B Port: 06 (Side 3/4), SI Unit: QW (DeviceNet), P, R Port Size: 06 (3/4), P, R Port Location: B (Both Sides), Thread: T (NPTF)

Stations: 8 Stations, A, B Port: 06 (Side 3/4), SI Unit: QW (DeviceNet), P, R Port Size: 06 (3/4), P, R Port Location: B (Both Sides), Thread: T (NPTF)

Stations: 3 Stations, A, B Port: 06 (Side 3/4), SI Unit: QW (DeviceNet), P, R Port Size: 06 (3/4), P, R Port Location: B (Both Sides), Thread: T (NPTF)

Stations: 4 Stations, A, B Port: 06 (Side 3/4), SI Unit: 0 (w/o SI Unit), P, R Port Size: 06 (3/4), P, R Port Location: B (Both Sides), Thread: T (NPTF)

Stations: 8 Stations, A, B Port: 06 (Side 3/4), SI Unit: QW (DeviceNet), P, R Port Size: 06 (3/4), P, R Port Location: B (Both Sides), Thread: T (NPTF)

Stations: 2 Stations, A, B Port: 06 (Side 3/4), SI Unit: QW (DeviceNet), P, R Port Size: 06 (3/4), P, R Port Location: B (Both Sides), Thread: T (NPTF)

Stations: 4 Stations, A, B Port: 06 (Side 3/4), SI Unit: 0 (w/o SI Unit), P, R Port Size: 06 (3/4), P, R Port Location: D Side, Thread: T (NPTF)

EXxx-OML0010CN

a) (52) b) 28 c) (52) c) (16) e) (16) f) (/) g) () h) () i) j) k) l) m) -19No.EX-OML0010CN-C 4.

PFMB.eng

Outline of settings Piping J Indicator LED Never mount the product upside down. The straight piping length shall be 8 cm or longer. Otherwise, if a straight section of piping is not installed, the accuracy varies by approximately 2%F.S. Avoid sudden changes in the piping size on the IN side of the product.

PF-OMM0004_C

PF3W720S 112 54 63.6(Max.68.6) 74.2 34 62.5 18 13.6 2.7 10 19 6 PF3W740S 142 71 75.25(Max.81) 94.5 44 79 28 16.8 2.7 10 28 7 S T PF3W704S 56.5 22 PF3W720S 60.5 22 PF3W740S 78 30 -84No.PF-OMM0004-D PF3W704/720/740(+) A AA D K S PF3W704S--T 115 50 81.2 69.5 67.5 PF3W720S--T 123 54 85.2 73.5 71.5 PF3W740S--T 153 71 105.5 90 89 -85No.PF-OMM0004-D PF3W711-U25/PF3W721-U30(PVC ) A B D E F J

IZS30_eng

(Strong electric field/ strong magnetic field/ surge.) j. The place where electricity is discharged. The situation which causes electric discharge on the 150 150 200 200 (mm) Wiring and piping Environment product. k. The place where strong high frequency is generated. l. The place where lightning disaster is expected. m.

CE

c. 6. 1. 7. a.060 b.2585%RH c. d. e. 8. ,, f. g.( 9. ) h. i. j. k. l. 2. 1. 2. 1. 3 2. 1. 3. 4. 1. 12:0.071.0MPa 2063:0.051.0MPa :060 5. 2. 1. 5m 1. 2. 2. 3. F.G. 4. 1. 1. 2. 12 10N [102kgfcm] 1. 2032 20N [204kgfcm] () 40,50,63 30N [306kgfcm] 2. 3. 2. 1.52 1. 2. 1. 1()ISO VG32 3. 4. 5. 6. 1. 2.14.5mT CE1 3. 4. (DC1224V) [] 1. 2. 3. 4. 2.

MONOSASHI-KUN WITH BRAKE CONTROLLER

MODEL 4-1 Monosahi-kun with Brake CE2 B 40 100 J No. of Auto switch Mounting None 2 B Standard s 1 L Plate n n F Rod Flange G Head Frange Auto switchs Type C Single Clevis D Double Clevis (Refer to Catalog) T Center Trunnion Cylinder Accessories J Nylon Tarpaulin Tube Bore Gaiter K Neoprene 40 40mm None Both Sides 50 50mm N None 63 63mm Cushion R Cushion at Rod side 80 80mm H Cushion at Head

CEx-OMQ0013

i. 7. j. k. l. 2. 8. ,,, 9. 1. 10. 2. 11. 3. 1. 1. 0.11.0MPa 0.30.5MPa :060 2. 3 2. 1. 3. 5 2. 35% 1. ( 6 ) ()70% ()35% 2. 50% ( 6 ) 15% 3. 1. 4. () 0.5 3. 5. F.G. 4. 1. 1. 2. 2. 3. 1. 1. 2. 2 3. 2. 1.52 4. 5. 1. 1ISO VG32 1. 2. 1. 2. 3. 1. 2. 1. 2. 14.5mT CE2 3. 15,000 18cm 4. 3. 4. IP65 5.

Rotary Actuator Ｃ ( Ｄ ) ＲＡ１＊＊＊３０～１００－＊＊Ｚ

Please refer below for calculation of kinetic energy. 2 I 2 1 E = E : Kinetic energy J : Angular speed rad/s I: Inertia moment kg/m2 Allowable kinetic energy for the rotary actuator is limited. The limit of rotation time is obtained by calculating inertia moment. Please refer following for obtaining inertia moment.

Rotary Actuator

Please refer below for calculation of kinetic energy. 2 I 2 1 E E : Kinetic energy J I: Inertia moment kg/m2 : Angular speed rad/s Allowable kinetic energy for the rotary actuator is limited. The limit of rotation time is obtained by calculating inertia moment. Please refer following for obtaining inertia moment.

Rotary Actuator with Solenoid valve Ｃ ( Ｄ ) ＶＲＡ１＊＊＊３０～１００－＊＊Ｚ

Please refer below for calculation of kinetic energy. 2 I 2 1 E = E : Kinetic energy J : Angular speed rad/s I: Inertia moment kg/m2 Allowable kinetic energy for the rotary actuator is limited. The limit of rotation time is obtained by calculating inertia moment. Please refer following for obtaining inertia moment.

CVRA1-E

E : Kinetic energy J 2 I 2 1 E = : Angular speed rad/s I: Inertia moment kg/m2 Allowable kinetic energy for the rotary actuator is limited. The limit of rotation time is obtained by calculating inertia moment. Please refer following for obtaining inertia moment. Basic inertia moment 2 r m I = m : Weight of load (kg) r : Load center of gravity and distance of rotation axis.

Rotary Table

The end angular speed is obtained by: t Table 9 Allowable kinetic energy (J) Size Allowable kinetic energy : Rotation angle [ rad ] : Rotation time [ s ] 1 0.001 Kinetic energy E is obtained by: 2 0.0015 3 0.002 7 0.006 E Therefore, the rotary table rotation time is: E: Allowable kinetic energy [ J ] : Rotation range [ rad ] I: Moment of inertia [ kgm2 ] During uniform acceleration, the

Fieldbus Device Handheld Terminal

to page 52) b) Tag name (Refer to page 28) c) Part number (Refer to page 52) d) Manifold number (Refer to page 16) e) Unit number (Refer to page 16) f) Number of bytes that SI unit occupies (Input/Output) g) Number of total input bytes (Digital input + Analog input + Diagnostic data) h) Number of total output bytes (Digital output + Analog output) i) Number of total digital input bytes j)