5 Port Air Operated Valve Series SYA3000/5000/7000 1

L4 356 464 572 680 788 896 1004 L4 = 108 x n + 140 L3 = 108 x n + 90 306 414 522 630 738 846 954 VVPA460 ( ) for VVPA460 5-3-30 1 4/5 Port Air Operated Valve Series VSA420 Model Flow characteristics P A/B A/B EA/EB Valve model Port size Rc Note) Weight (kg) Body size Pilot port size Function SA C [dm3/(sbar)] 4.2 5.1 5.6 4.2 5.1 5.6 4.1 5.0 5.4 4.3 4.7 5.1 C [dm3/(sbar)] 4.1 5.9 6.5

VPA4

L4 356 464 572 680 788 896 1004 L4 = 108 x n + 140 L3 = 108 x n + 90 306 414 522 630 738 846 954 VVPA460 ( ) for VVPA460 5-3-30

VP4

414 522 630 738 846 954 L3 = 108 x n + 90 L4 L dimension L1 L2 VVP450 VVP460 464 ( ): VVP460 3-6-10 11 Made to Order Specifications: Series VP450/470 External Pilot/With Surge Voltage Suppressor External Pilot/-X40 Model no.

e-Rodless Actuator

Load weight (kg) m1 m2 m3 Moment (Nm) M1=F1 x L1 F1 F2 M3=F3 x L3 F3 M2=F2 x L2 L1 L2 L3 Maximum load weight 1. Maximum allowable load (1), static moment (2), and dynamic moment (at the time of acceleration/deceleration) (3) must be examined for the selection calculations.

Air Fittings Fitting Series For Special Environment

N L1 L2 L3 L4 L5 L6 P Q1 Q2 M KRM12-06-02-10 KRM12-06-02-6 99 10 6 6 89 47 1 4 17 19.5 33.5 23.5 33 13.5 8.5 13 19 10 125 6 108 10 55 73 106 104 KRM12-08-03-10 KRM12-08-03-6 3 8 8 19 139 11.5 22.5 37.5 26 36.5 10 15.5 20.5 14.7 86 126 119

Mechanically Jointed Rodless Cylinder Series MY2H/HT ø16, ø25, ø40

Load (kg) m1 m2 m3 Moment (Nm) M3 = F3 x L3 F3 M1 = F1 x L1 F1 M2 = F2 x L2 F2 L1 L2 L3 1. Maximum allowable load (1), static moment (2), and dynamic moment (3) (at the time of impact with stopper) must be examined for the selection calculations. To evaluate, use a (average speed) for (1) and (2), and (impact speed = 1.4a) for (3).

3 Port Solenoid Valve Series SYJ300/500/700

P=10.5 15.5 Station n L1 L2 3 52 44 Station 20 230.5 222.5 6 83.5 75.5 8 104.5 96.5 10 125.5 117.5 Station 2 41.5 33.5 4 62.5 54.5 5 73 65 7 94 86 9 115 107 11 136 128 12 146.5 138.5 13 157 149 14 167.5 159.5 15 178 170 16 188.5 180.5 17 199 191 18 209.5 201.5 19 220 212 12 Series SYJ300 Type 20R Manifold: Top Ported (External Pilot Type)/SS3YJ3-20RStations -00 [ ] for AC Grommet (G) L3

DOC1020530

When wires used for L11 and L21 are thinner than wires used for L1, and L3, use a molded-case circuit breaker. 11. Connecting a servo motor of the wrong axis to U, V, W, or CN2 of the driver may cause a malfunction. 12. The illustration of the 24 V DC power supply is divided between input signal and output signal for convenience.

AC Servo Motor Driver (SSCNET /H Type)

DC (Note 12) CN3 (Note 5) Forced stop 2 DOCOM DICOM 24 V DC (Note 12) Malfunction (Note 4) (Note 5) ALM CN8 RA1 (Note 9) Short-circuit connector (Packed with the servo amplifier) [1] Power supply input terminals, L1, L3: Provide specified power supply to input terminals L1 and L2. [2] Connect the motor power supply input terminal (U, V, W) to the driver power terminal (U, V, W).

I

E U N I T T Y P E D I M E N S I O N S S I N G L E U N I T: DIN R A I L M O U N T No. of Sensors 2 3 4 5 6 L1 70 105 140 175 210 L2 105 140 175 210 245 L3 140 175 210 245 280 No. of Sensors 2 3 4 5 6 L1 70 105 140 175 210 L2 36 71 106 141 Courtesy of Steven Engineering, Inc. !

ARM10/11

537 482 427 372 317 262 207 152 ARM3000 L2 578 523 468 413 358 303 248 193 138 L3 550 495 440 385 330 275 220 165 110 14-4-58

VQ

SY SYJ (L5) Plug assembly (L4) VK 2-4.5Mounting hole 1 2 3 VVQ100-12A(L3) 88 (8.5) L2 VZ 48.7 L1 VT VT (45) (35) 33 25 (5.5) VP 23.5 12.3 VG R11 Manual override 21.5 (Min. bending inner radius) (29.3) VP 104 VQ VQZ Stations 1 2 3 4 5 n Dside Uside VZ 2-M5 X 0.8(E port) VS 2-M5 X 0.8(P port) 42.9 A A 20 (8.5) 1.5 5 n-M5 X 0.8 (A port) 5 (7.5) 15 P=10 38 Equation: L1=10n+32 L2=10n+43

How to Order Series ZM Vacuum Ejector With Valve and Switch For details about certified products conforming to international standards, visit us at www.smcworld.com. 1

(In the case of side entry/With plug at the bottom) Rc 1/8 Hexagon socket head cap plug (mm) L1 1 Stations L 28 1.5 40 1.5 72 1.5 8 140 2.0 152 2.0 184 2.0 9 156 2.0 168 2.0 200 2.0 10 2 44 1.5 56 1.5 88 1.5 3 60 1.5 72 1.5 104 1.5 4 76 1.5 88 1.5 120 1.5 5 92 1.5 104 1.5 136 1.5 6 108 2.0 120 2.0 152 2.0 7 124 2.0 136 2.0 168 2.0 172 2.0 184 2.0 216 2.0 L2 L3

ZMA

VAC. port Silencer dedicated for manifold (mm) L1 1 Stations L 28 1.5 40 1.5 72 1.5 10 3 60 1.5 72 1.5 104 1.5 4 76 1.5 88 1.5 120 1.5 5 92 1.5 104 1.5 136 1.5 6 108 2.0 120 2.0 152 2.0 7 124 2.0 136 2.0 168 2.0 8 140 2.0 152 2.0 184 2.0 9 156 2.0 168 2.0 200 2.0 2 44 1.5 56 1.5 88 1.5 172 2.0 184 2.0 216 2.0 L2 L3 13-4-31

Vacuum

.\ L3 2.83 (72\ 3.46 (88) 4.09 (104) 4.72 (120\ 5.35 (136) 5.98 (152) 6.61 (168) 7.24 (18/.\ 7.87 (2001 Millimtef in parentheses, 53 C Single-Stage Nozzle (o1.5) . Produces high suction flow with quick response time. . Interchangeable with all other nozzleldiffuser ass'ys.

17

MY1B m2 m3 Moment (Nm) MY1M M1 = F1 x L1 F1 M2 = F2 x L2 M3 = F3 x L3 F3 F2 MY1C L2 L1 L3 MY1H 4. Accuracy Mechanically jointed rodless cylinders do not guarantee traveling parallelism. When accuracy in traveling parallelism and intermediate stroke position is required, please contact SMC sales representatives.

Mechanically Jointed Rodless Cylinder MY1H Series Linear Guide Type: ø25, ø32, ø40  Piping can be connected from 4 directions on the head cover.  Allows on-site piping to suit the MY1B installation MY1H MY1H conditions. MY1B MY1M MY1C MY

Load mass (kg) m1 m2 Moment (Nm) m3 M3 = F3 x L3 F3 F2 M1 = F1 x L1 F1 M2 = F2 x L2 L2 L1 L3 Calculation of Guide Load Factor 1) Maximum load mass (1), static moment (2), and dynamic moment (3) (at the time of impact with stopper) must be examined for the selection calculations. To evaluate, use a (average speed) for (1) and (2), and (collision speed = 1.4a) for (3).

Mechanically Jointed Rodless Cylinder With Protective Cover Series MY1  W ø16, ø20, ø25, ø32, ø40, ø50, ø63 1

-X 20m2 m3 Data Moment (Nm) M1 = F1 x L1 F1 F2 M3 = F3 x L3 F3 M2 = F2 x L2 L1 L2 L3 Maximum Load Weight Select the load from within the range of limits shown in the graphs. Note that the maximum allowable moment value may sometimes be exceeded even within the operating limits shown in the graphs. Therefore, also check the allowable moment for the selected conditions.

MY1

MY1 HT m2 m3 MY1 W MY1 W Moment (Nm) M3=F3 x L3 F3 F2 M1=F1 x L1 F1 M2=F2 x L2 MY2C L2 L1 L3 Maximum Load Mass MY2 H/HT Select the load from within the range of limits shown in the graphs. Note that the maximum allowable moment value may sometimes be exceeded even within the operating limits shown in the graphs. Therefore, also check the allowable moment for the selected conditions.

NARM Series

3.37 1.67 (7) (21) (54) (968) (55) (153.5) (70) (53) (23.5) (27.5) (48.5) (55) (35) (59) (85.5) (42.5) Dimensions by number of stations Model Symbol 2 3 4 5 6 7 8 9 10 NARM2500 L1 4.66 6.30 7.95 9.61 11.26 12.91 14.57 16.22 17.87 (118) (160) (202) (244) (286) (328) (370) (412) (454) L2 4.17 5.83 7.48 9.13 10.79 12.44 14.09 15.75 17.40 (106) (148) (190) (232) (274) (316) (358) (400) (442) L3