CEx-OMG0106 m/s Piston Speed m/s 19 4-3 Selection Example .
Example using a 20[mm] Lead Actuator with target travel speed of 500[mm/sec] Rotations per second Travel distance per second Travel distance per rotation Rotation Speed (rpm) = {Speed (mm/s) Lead (mm) }60 (S) = {500 (mm/s) 20 (mm) }60 (s) =1500 (rpm) The rotation speed must be a value between 0 and the allowable actuator speed. The actuator will not operate if set to 0.
[s] [mm] [mm] 1.5 64 100 kPa 0.15 mm 2.0 64 100 kPa 0.3 mm [s] [s] [mm] [mm] -21No.PS-OMF0005CN-E ISA2-G ISA2-H 100 kPa 1.5 64 5 m 100 kPa 2.0 64 5 m [mm] [mm] [kPa] [kPa] -22No.PS-OMF0005CN-E ISA2 () 1 ON ( +)ON ()ON OFF Yes 2 No ( OFF +)ON 1 ()ON 3 ()ON 1,3 OFF 4 5 ON OFF 6 7 8 -23No.PS-OMF0005CN-E No.
Note 1) At rated voltage 2.1-4 Series SY100 How to Order Light and surge voltage suppressor Standard (Cv0.008) Without light and surge voltage suppressor S Z R U With surge voltage suppressor With light and surge voltage suppressor With surge voltage suppressor (Non-polar-style) With light and surge voltage suppressor (Non-polar style) "S" type does not apply to AC model because rectifier
Rotations per Second Distance of movement per second Distance of movement per rotation Rotation Speed (rpm) = Speed (mm/s) Lead (mm) }60 (S) = {500 (mm/s) 20 (mm) }60 (s) =1500 (rpm) -36- 6.6.3 Acceleration/deceleration Time Configuration < Acceleration/deceleration Time Configuration> Acceleration/deceleration time (ms) configuration: The acceleration/deceleration time sets the amount
x) (24s)10.28 (261) 'r0.91 (2n) 11.9 (293) 1217 (309) 12.ffi (325) 13.,r3 (341) L2 1.57 (40) 2.20 (56) 2.83 \72) 3.46 (88) 4.09 004) 4.72 020) (136) s.98 \152) 6.61 (168) 7.24 (184) 7.47 (200) (26) 9.13 (232) 9.76 \244) 1039 ( 4 ) '11'o2 (280) 11.66 (2e6)12.2a (32) 12.91 (328) t3 0.63 o6) 1.26 (32) 1.89 (4s) (64) 3.15 (80) 3.78 (e6) 4.41 1112) 5.04 (128) (i44) 6.30 (160) 6.93 (176) /.5tt
s NVZ3000 Symbol With Subplate Body porled Vpe Base mounted type with subplate NVZ3r20 NVZ340 Cv0.25 1 1 / l \ l h u d l / l \ L E l ff NVZ32?
I O N S AD S E R I E S A U I T O D R A I N S S Y M B O L S H O W T O O R D E R A U T O D R A I N S E R I E S AD AD402-02 (1/4) PT AD402-03 (3/8) PT AD402-04 (1/2) PT AD600-06 (3/4) PT AD600-10 (1) PT H O W T O O R D E R A U T O D R A I N S E R I E S NAD NAD402-N02 (1/4) NPT NAD402-N03 (3/8) NPT NAD402-N04 (1/2) NPT NAD600-N06 (3/4) NPT NAD600-N10 (1) NPT FOR FURTHER TECHNICAL DETAILS ON THIS
i 0 5 r s 0 0 8 I a9 d 0 0 7 I ooo E o o E 0 0 : fr I 0 0 5 o 3 o 0 4 I 4 0 0 3 E oo, o !
Note 2) V, S and R specifications are 45T, 45T1.
I { 0 s l I l 6 l ; D.0 t' 6 l 0.6 0.5 o.4 0.3 6 ' ) !
(PAP331) Besides, sidebody and port are made of molded piece, that has enabled to generate lower particulate. 1 N Diaphragm material 1 With silencer AN200-02 for Air EXH. 2 When NPT port thread is necessary, use AN200-N02. 1 PTFE Long service life Operating method Durability has been improved by adopting the denaturated PTFE for the diaphragm.
Types 10, 20 Types 10, 20 VVDW 0 2 C 1 01 2 VVDW 2 0 4A Series Series 1 2 10 20 1 2 10 20 Thread type VC Rc G NPT Nil F N Material VDW C S C37 SUS Type 30 VQ VVCW20-4A OUT port size Stations Symbol M5 01 Port size M5 1/8 (6A) For 2 stations For 3 stations 1 2 VX2 VX Type 10 is M5 only.
Double acting D M Rc NPT G 10, 16, 20, 25 32, 40 32, 40 32, 40 TN TG Nil Model/Stroke Bore size (mm) Maximum operating frequency (c.p.m) Open/Close stroke (mm) (L2-L1) Width at closing (mm) (L1) Width at opening (mm) (L2) Weight (g) Model 112211221122112211221122112211221122112211221122112211221122112211221122MHL2-10D MHL2-10D1 MHL2-10D2 MHL2-16D MHL2-16D1 60 72 94 112 84 126 92 134 172
Two Hand Control Valve VR51 Series RoHS An output is available through synchronized, twohanded operation (within 0.5 s)!
Description L3 L2 18 1 DC (+) 2 N.C.
L3 M1 L4 H(1) A(2) D1 D2 L1 L2 L3 L4 T M1 Weight (g) Model Model Min.
Dimensions n L 2 39 31 3 50 42 4 61 53 5 72 64 6 83 75 7 94 86 8 105 97 9 116 108 10 127 119 11 138 130 12 149 141 13 160 152 14 171 163 15 182 174 16 193 185 17 204 196 18 215 207 19 226 218 20 237 229 L1 L2 1.13-11
(P1+0.1013) l/min(ANR) Calculation by effective area Q=109.6.S.(P1+0.1013) l/min(ANR) Water How to Read the Graph In case of a flow of 2 l/min.