7.4

) 22.8 10.5 7.4 58.5 39.7 41.8 9.2 22 28.5 22.9 20.4 10.5 8 8 3 x C2, C4, N1, N3 <1(P), 5(EA), 3(EB) port> C2: 2 One-touch fitting C4: 4 One-touch fitting N1: 1/8" One-touch fitting N3: 5/32" One-touch fitting 8.7 With plug connector/light, built-in silencer S0716S-mM(O)-m 16.7 2-Position Double/4-Position Dual 3-Port Grommet: S07 6-mG-m 2 A B C 8 2 x 3.2 5.3 2 x C2, C4, N1, N3 <4(A), 2

3 Port Solenoid Valve Metal Seal/Rubber Seal, Base Mounted Series VQZ100/200/300 21

Standard type: 1 W AC High pressure type: 1.0 W Low wattage type: 0.5 W Model (g) Cv Cv b C [dm3/(sbar)] b C [dm3/(sbar)] VQZ100 0.25 VQZ115 0.35 0.46 1.0 0.23 0.87 13 or less 10 or less 22 or less Poppet N.C. valve 25 0.45 VQZ215 0.20 0.17 2.0 0.38 1.7 18 or less 14 or less 34 or less Metal seal N.C. valve 0.80 VQZ235 0.40 0.46 3.0 0.65 2.3 20 or less 15 or less 36 or less Rubber seal 53

3 Port Solenoid Valve Metal Seal/Rubber Seal, Body Ported Series VQZ100/200/300 1

(Inch) N1 N3 N7 N9 N11 M5 02 Symbol M5 thread 1/8" 5/32" 1/4" 5/16" 3/8" thread 1 4 Pressure Specifications VQZ100 2(A) port (2) VQZ100 VQZ200/300 Series VQZ200 Metal seal VQZ300 0.1 to 0.7 MPa (1) External pilot pressure range Note) Metric size of One-touch fittings (C) are also available.

3 Port Solenoid Valve Metal Seal/Rubber Seal Body Ported VQZ100/200/300

How to Order Valve T VQZ212 5M N7 Example/Valve VQZ212R 5M C6 External pilot specification Thread (Cylinder ports, and P/R ports) Rc(PT) N NPT External pilot port T NPTF M3 X 0.5 (VQZ200) M5 X 0.8 (VQZ300) F G(PF) Note) R port of VQZ200 is only PF 1/16 Cylinder ports Symbol M5 02 N1 N3 N7 N9 N11 3/8" 1/8" 5/32" 1/4" 5/16" M5 Tube O.D.

AC Servo Motor Driver (SSCNET /H Type)

Save the displayed waveform screen (print screen). -53- 6.10 Display All Monitor List The method how to obtain the electric actuator condition is described with the display all function of the setup software. Click Monitor Display All of the setup software to display Display All window. The condition of each item is displayed.

Dedicated Controller Series LC1 Uniaxial Type

Mounting bracket Ass'y Mounting screws Controller model M3 x 0.5 LC1-1-N3 LC1-1B-N3 M5 x 0.8 LC1-1-N5 LC1-1B-N5 M3 LC1-1-L3 LC1-1B-L3 M5 LC1-1-L5 LC1-1B-L5 Note) This controller comes with either the T-nuts or T-brackets as accessories.

CEx-OMG0106

We=1.4xVaxWx10 L2 W2 M3=F3x L3 M= WexL =5xVaxWxL 3 F3 L3 W4 an= F = M = E Fmax Mmax Emax W3 F / M / E : Calculate Load / Momentum / Kinetic Energy Fmax / Mmax / Emax: Max. loading / momentum / kinetic energy under the condition of allowable speed (valve obtained from graph) Ek= W V2 2g Allowable Momentum & Maximum Loading

Magnetically Coupled Rodless Cylinder Low Profile Guide Type Series CY1F ø10, ø15, ø25 1

Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2 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. Maximum Allowable Load To evaluate, use a (average speed) for (1) and (2), and (impact speed = 1.4a) for (3).

Low Profile Guide Type

Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2 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. Maximum Allowable Load To evaluate, use a (average speed) for (1) and (2), and (impact speed = 1.4a) for (3).

MY2

Load weight (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 load weight (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).

Magnetically Coupled Rodless Cylinder Low Profile Guide Type Series CY1F ø10, ø15, ø25 1

.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2 1.

CY1F

Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2 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. Maximum allowable load To evaluate, use a (average speed) for (1) and (2), and (impact speed = 1.4a) for (3).

MY1

Load weight (kg) Caution The cylinder should be mounted in m1 orientation if maximum dustproofing is required. m m m Moment (Nm) M = F x L F3 M = F x L M = F x L F F2 L2 L1 L3 Maximum load weight Select the load weight from within the range of limits shown in the graphs. Note that the maximum allowable moment value may sometimes exceed even the operating limits shown in the graphs.

ML1C

Moment (Nm) Moment (Nm) Moment (Nm) Load mass (kg) M1 = F1 x L1 Piston speed V (mm/s) ML1C/M2, M3 M2 = F2 x L2 M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A. Consider (1) max. load mass, (2) static moment, (3) dynamic moment (when stopper collides) when calculating the max. allowable moment and load mass.

Mechanically Jointed Rodless Cylinder with Brake, Hy-rodless Cylinder Series ML1C ø25, ø32, ø40 1

.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Piston speed V (mm/s) M2 = F2 x L2 ML1C/M2, M3 Moment (Nm) M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A.

PFxx-OMJ0005CN

No.PF-OMJ0005CN-I () // PFM7## 2 10 13 14 14 16 17 20 22 22 F0 23 F1 OUT1 24 F2 OUT2 27 F3 28 F4 29 F5 30 F6 31 F7 32 F8 35 F9 36 F10 38 F11 39 F12 40 F13 41 F98 42 F99 44 45 49 50 53 54 54 57 59 73 -1No.PF-OMJ0005CN-I (ISO/IEC)(JIS) *1) *2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic fluid power -General rules

Mechanically Jointed Rodless Cylinder with Brake, Hy-rodless Cylinder Series ML1C ø25, ø32, ø40 1

Moment (Nm) Moment (Nm) Load weight (kg) M1 = F1 x L1 Piston speed V (mm/s) M2 = F2 x L2 ML1C/M2, M3 Moment (Nm) M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A. Consider (1) max. load weight, (2) static moment, (3) dynamic moment (when stopper collides) when calculating the max. allowable moment and load weight.

2

49.5 13.3 13.8 2.3 2.3 2.5 35.4 Note) D1 D2 L1 L2 L3 A M P tubing O.D.

Table of Contents

area (mm2) Weight (g) A L4 Model L1 L2 L3 M d thread R I.D.

Air Slide Table

L3: Confirm that this value is lower than the max. overhang shown at the bottom right of the graph. L3 max. overhang = 100 mm w Confirm that L1, L2, and L3 are lower than the max. overhang.