CNA 70 27 1/4 37 to 39.5 51 153 37.5 9 8 27 13 24 244 M14 x 1.5 9 45 222 3.2 50 80 30 3/8 42 to 44.5 58 168 44 11 0 27 13 31 266 M18 x 1.5 11.5 50 250 3.2 59 93 31 3/8 50 to 51.5 58 182 52.5 12 0 34 16 24 290 M18 x 1.5 13.5 65 306 4.5 76 116 37 1/2 59.5 to 62.5 71 218 59.5 15 0 44 16 27 349 M22 x 1.5 13.5 75 332 6.0 92 133 40 1/2 66.5 to 69.5 72 246 69.5 15 0 43 17 29 378 M26 x 1.5 With Rod
70 27 1/4 37 to 39.5 51 153 37.5 9 8 27 13 24 244 M14 x 1.5 9 45 222 3.2 50 80 30 3/8 42 to 44.5 58 168 44 11 0 27 13 31 266 M18 x 1.5 11.5 50 250 3.2 59 93 31 3/8 50 to 51.5 58 182 52.5 12 0 34 16 24 290 M18 x 1.5 13.5 65 306 4.5 76 116 37 1/2 59.5 to 62.5 71 218 59.5 15 0 44 16 27 349 M22 x 1.5 13.5 75 332 6.0 92 133 40 1/2 66.5 to 69.5 72 246 69.5 15 0 43 17 29 378 M26 x 1.5 With Rod
Pin Cylinder, Double Acting, Sgl Rod. 103 lb. 371.
Pin Cylinder, Double Acting, Sgl Rod. 103 lb. 371.
Pin Cylinder, Double Acting, Sgl Rod. 103 lb.
Pin Cylinder, Double Acting, Sgl Rod. 103 lb. 371.
Cylinder, Compact. 103 lb. 503.
Operating Pressure Particle Generation Classification Flow Direction Symbols on Body 105 1.2 Particle concentration (particles/m3) Meter-out type Meter-in type ISO Class 6 Max. operating pressure MPa 1.0 104 Indication symbol ISO Class 5 0.8 103 ISO Class 4 0.6 102 ISO Class 3 Symbol 0.4 10 0.2 0 0.1 0.5 1 1 -5 0 20 40 60 Operating temperature C Particle diameter (m) Note) Refer to back page
D X NA R Mounting nut N W K N F S + Stroke F ZZ + Stroke H B E G Mounting nut NN NA F N 12CY3B15 (mm) L 57 66 70 80 92 J 6 6 8 8 10 K 11 8 10 15 16 I 12 15 18 23 G 5.5 7.5 7.5 8 11 H 13 20 20.5 22 29 F 10 13 13 16 16 E 2 2 2 2 3 NN M10 x 1 M20 x 1.5 M26 x 1.5 M26 x 1.5 M32 x 2 D 16.6 21.6 26.4 33.6 41.6 MM M4 x 0.7 M4 x 0.7 M5 x 0.8 M6 x 1 M6 x 1 B 35 36 46 60 70 N 11 18 18.5 20 26 ZZ 103
Operating Pressure Particle Generation Classification Flow Direction Symbols on Body 105 1.2 Particle concentration (particles/m3) Meter-out type Meter-in type ISO Class 6 Max. operating pressure MPa 1.0 104 Indication symbol ISO Class 5 0.8 103 ISO Class 4 0.6 102 ISO Class 3 Symbol 0.4 10 0.2 0 0.1 0.5 1 1 -5 0 20 40 60 Operating temperature C Particle diameter (m) Note) Refer to back page
Operating Pressure Particulate Generation Grade Classifications 1.2 104 Average particle concentration Particles/ft3 Max. operating pressure MPa Grade 4 1.0 103 0.8 Grade 3 102 0.6 101 Grade 2 100 0.4 Grade 1 10-1 0.2 0 5 0 20 40 60 1 0.1 0.2 Particle size m or less 0.3 0.5 Operating temperature C 15-17-3 4 Series AS-FPQ/FPG How to Order AS 2 1 1 2 F P Q 01 06 Body size 1 2 3 4 M5 standard
HI , 32 7 0 43 78 t 40 '8 0 43 82.5 SO 8 0 43 87.5 63 23 0 43 94 80 13 0 43 103 100 23 0 43 11 3.5 0syC 19 Series C95 MounUng AccesSOt'ies Part number rri~~ Pescriptlot) , . _,C9S1132 C95ia40 /, C95850 C951163 / C9511180 C951l1100 Tmnniol'lIncuitilgbl'acllet Nae'l MB-S03 MB-S04 MB-S06 MB-S10 fMoo.m; pI!
J K l .. oN D P Q W X Z ..J (mm) 50 89 55.5 26 20 64 10.5 M1Bxl .5 B6 7 17 33.5 50 6.6 11 Depth 8 1/4 10.5 71 28.5 19 4" 80 112 68.5 32.5 25 98 12.5 M22xl .S 132 6 22 43.5 77 11 17.5 Depth 13.5 3/8 16 104 35.5 26 65.5 83 94.5 81 26 20 n 10.5 Ml8xl .5 103 7 17 33.5 60 90 14 Depth 10.5 1/4 15 84 28.5 19 55.5 High Magnetic Field Resistallce Sellies COQ2BP Foot Mount: COQ2LPO-OOM-OO H Thread
S Z A A1 GB P Q QA R T B C D E GA GC H J L MM Bore size 5 30 40 50 5 10 15 20 25 30 40 50 10 15 20 25 20 16 12 11 5.5 4.5 9 4 4.5 2 16 12 26 20 40 32 8 6 30 27 M6 x 1.0 M5 x 0.8 14 12.5 21.5 19 22 19 19 16 16 14 6 5 7.6 depth 6.5 81 72.5 86 77.5 91 82.5 96 87.5 101 92.5 106 97.5 116 126 100 88.5 93.5 103.5 108.5 135 145 40 36.5 110 98.5 113.5 9.5 depth 8 105 115 120 125 83 88 93 98 103
VXA3114-01 PA PAX PB 17-3-103 The VX series will be revised shortly. Series VXA31/32 Dimensions P port Bracket Pilot port J (Spanner flat) Port size P Port size Rc With bracket K 6 7.5 Symbol Model A B C D E F G H J L 29 32 M 14.5 17 1 8 1 4 VXA31 VXA32 19 25 20 20 18 21 20 20 22.5 27.5 42.5 47.5 71 80 81 90 21 27 , , 1 4 3 8 17-3-104 The VX series will be revised shortly.
How to Calculate the Load Energy Moment of Inertia and Rotation Time E = 2 x 103, = 2 2 1 t 0.006 Moment of inertia (kgm 2) 0.005 E : Kinetic energy(mJ) I : Moment of inertia(kgm2) : Angular velocity(rad/s) : Rotation angle(rad) 180 = 3.14 rad t : Rotation time(s) 40 Selecting range 32 Selecting range 0.004 0.002 0.0025 0.003 0.001 The that is obtained here is the terminal angular velocity
hole 8-O Counter bore Load carrying direction L q CZ CT CT Y V U CD Conveyor lower limit position T R H B Stroke 2-Rc(PT)P D QA FT A GA Pressure port at rear side Pressure port at front side QB 2-Plug WB GB E W (Diagonal I) (mm) I B GB P QA CD QB CT CZ D E FT FX FZ GA H Stroke A L Bore (mm) N O 1 8 1 4 1 4 50 14 depth 5 85 93 16 10 20 7 8 36 32 64 20 73 93 16 128 30 221 45 9 63 18 depth 6 103
The SY is available in body ported or base mounted styles, and can be used individually or manifold mounted. 4/5 PORT SOLENOID VALVE. 5 port solenoid valve. 103 lb. VVD.
58 70 SF 1 A Valve open and locked position 508 10 10 SFD 95 (Lever operating direction) Max. 132 Connection part Rc 3/8 (NPT 3/8) LLB LLB A Hand valve Valve closed position AD Air operated valve 3.5 GD Clean regulator With flow adjuster Pressure outlet port Rc 1/8 One-touch fitting 12 Digital flow switch PA pilot port Rc 1/8 Restrictor (36.5) Clean air filter Note) One-touch fitting 12 103
Throttle needle SUP port SUP port Rc, NPT, G 1/4 P U L L Rc, NPT, G 1/4 6 118 143 144 0.1 0.1 0 MP 0 178 162 DIN connector 64.4 Manual lock DIN connector 25 43.6 41.6 Conduit terminal 82 Conduit terminal 97 With regulator + 2 port solenoid valve With 2 port solenoid valve SUP port on the right 97 Conduit terminal 82 Conduit terminal DIN connector DIN connector 0 T E S 9 0.3 133 128 0.4 103