Step Motor Controller .> q Check that actuator label for model number.
(-Q) 10-SS3YJ3-42(-Q) 10-SS3YJ3-S42(-Q) Applicable base Sub-plate 10-SS3YJ3-41(-Q) 10-SS3YJ3-S41(-Q) 10-SS3YJ3-42(-Q) 10-SS3YJ3-S42(-Q) Applicable base 10-SS3YJ3-20(-Q) Manifold base Manifold base Manifold base Note) Add suffix -Q for the CE-compliant product.
57.4 45.4 9 18.4 L M L D L L M Q Q D 2 x N 2 x O Q Q Different Diameter Cross: KQ2TX Applicable tubing b Applicable tubing O.D.
[mm/s] (Operating condition) a1: Acceleration [mm/s2] T1 = V/a1 [s] T3 = V/a2 [s] = = 0.57 [s] T2: Constant speed time can be found from the following equation.
S 3 0 7 0 L 2 Q K 7 1 5 . 8 4 9 4 9 6 8 / 1 S 1 0 9 0 L 2 Q K 2 1 2 . 5 1 2 1 5 . 3 2 5 . 3 4 7 4 5 . 8 1 6 0 3 6 1 / 5 4 / 1 S 2 0 9 0 L 2 Q K 4 1 5 . 9 4 1 5 7 4 8 / 3 S 3 0 9 0 L 2 Q K 7 1 5 . 1 5 3 5 4 7 4 / 1 S 2 0 1 1 L 2 Q K 7 1 9 . 7 1 7 1 5 . 5 2 6 5 9 5 1 2 7 9 6 8 / 3 8 / 3 S 3 0 1 1 L 2 Q K 8 5 1 6 6 7 2 / 1 S 4 0 1 1 L 2 Q K 2 2 5 . 4 6 5 . 5 6 7 4 1 R(PT) 4 / 1 S 2 0 3 1 L 2
R and S (Because S function is also included in R.) S and T (Because S function is also included in T.) Note 2) Voltage symbol 20 (200 VAC) is the terminal block connection as standard. Option S cannot be chosen. Voltage symbol 10 (100 VAC) is the power cable with plug as standard.
Ts[s]: Cylinder stop time P1[MPa]: Supply pressure P2[MPa]: Secondary pressure (Necessary cylinder pressure) Calculate momentary flow Q.
3 CQ2B16-T-PS CQ2B16-S-PS 16 CQ2B20-T-PS CQ2B20-S-PS 20 Port size Rc 1/8, 1/4 CQ2B25-T-PS CQ2B25-S-PS 25 Port size M5 x 0.8 Nickel plated 20 to 50, Anodized 32 to 50 CQ2B32-T-PS CQ2B32-S-PS 32 CQ2B40-T-PS CQ2B40-S-PS 40 CQ2B50-T-PS CQ2B50-S-PS 50 A set includes !4. Note Kits include items !4, !5, !
1 i q !4 r e !0 !1 q i !2 o !3 y Component Parts No.
50 Individual -X Piston speed mm/s Piston speed mm/s Piston speed mm/s Piston speed mm/s Technical data 1235 Series CY1F Precautions at Vertical Operation and Intermediate Stop Vertical Actuation 1.
CJP CJ2RA 16 S Z 45 CJ2 CJ2 45 16 With auto switch CDJ2RA S Z B M9BW JCM CM2 With auto switch (Built-in magnet) q w e r t y u i o !
D Q VXE VXP Conduit C E U 280 VXR VXH 23 B G1/2 VXF R T VX3 A IN OUT N SMC VXA 8 x 18 F S Q D Flat terminal C E U 11 R T B A IN OUT N SMC 8 x 18 S Q D F (mm) Electrical entry Model Flat terminal Conduit terminal Conduit Applicable flange A B C E F N Q R S D T T U U U 84 (92) V T 90 (98) 179.5 (187.5) 92.5 (100.5) 92.5 (100.5) 98.5 (106.5) 192.5 (200.5) 98 (106) 98 (106) 104 (112) 168 (176
MY3M Shock Absorber Specifications Piston Speed 10 16 to 100 Bore size (mm) RB 0806 RB 1007 RB 1412 RB 2015 RB 0805 Model Without stroke adjusting unit 100 to 500 mm/s 100 to 1000 mm/s 100 to 1500 mm/s (2) A unit 2.9 5.9 19.6 58.8 100 to 200 mm/s 100 to 1000 mm/s (1) Max. energy absorption (J) 1.0 Stroke adjusting unit L unit and H unit 6 7 12 15 100 to 1000 mm/s Stroke absorption (mm) 5
P Q R 6 6 8 24.3 26.2 16.8 18.7 S 12.8 15.2 8 Applicable tubing O.D.
Required fluid volume for extension (l/min) Required fluid volume for retraction (l/min) Bore size (cm) Piston rod diameter (cm) Piston speed (mm/s) Q: Q: D: d: : Q = D __ 4 6 _ 1000 .. Formula (1) Q = (D d) __ 4 6 _ 1000 .
RHC MK(2) Auto Switch Internal Circuit D-B59W RS Q G Weight RS H A Choke coil OUT (+) Brown (g) Reed switch RZQ D-B59W Zener diode Auto switch model Main circuit of switch 20 0.5 MI W S Lead wire length (m) LED 76 3 OUT () Blue CEP1 5 CE1 Indicator light/Display method Dimensions CE2 Operating range ML2B Indication Green Red Red C J G5-S Optimum operating position CV MVGQ Indicator light
32 272 178 36 Stroke B Stroke A S + Stroke (A + B) ZZ + Stroke (A + B) 40 280 178 38 50 314 198 41 63 314 198 43 80 386 242 52 ZZ S Q L GC Bore size (mm) 100 386 242 52 40 282 180 66 12 42 GC 50 310 194 74 14 48 Stroke B Stroke A Series MB1 63 326 210 76 14 48 S + Stroke (A + B) 80 390 248 90 16 58 ZZ + Stroke (A + B) 100 414 270 98 18 60 Stroke B Stroke A ZZ + Stroke (A + B) S + Stroke
This is the same concept representing the easy to run through as sonic conductance C. (3) Formula for flow rate When P2 + 0.1 0.5, choked flow P1 + 0.1 293 Q = 120 x S (P1 + 0.1) (3) 273 + t When P2 + 0.1 > 0.5, subsonic flow P1 + 0.1 293 Q = 240 x S (P2 + 0.1) (P1 P2) (4) 273 + t Conversion with sonic conductance C: S = 5.0 x C(5) Q : Air flow rate[dm3/min(ANR)], dm3 (cubic decimeter