5 Port Air Operated Valve Series SYA3000/5000/7000 1 Note 4) 5 port base mounted without sub-plate: SYJA340 3 position 28 5-2-20 3 Series SYJA3000 4/5 Port Air Operated Valve Dimesions: Body Ported Dimensions: Base Mounted 2 position single: SYJA3120-M3(-F) 2 position single: SYJA3140-M5 10 10 (28.4) (For mounting) 2-3.5 5 2.5 5 5 10 (22) (16.4) (10) 2-3.2 22 4 SA (For mounting) Manual override M3 x 0.5 (Pilot port) M3 x 0.5 (Pilot port) A
will display. . 5-8 Menu key . 5-9 Display and setting of date and time . 5-9 Operating condition display . 5-9 Current circulating fluid temperature [PV] . 5-10 Circulating fluid set temperature [SP] . 5-10 Circulating fluid discharge pressure [Press PV] . 5-11 Circulating fluid flow rate [Flow PV]. 5-11 Circulating fluid flow rate [DI PV]. 5-11 Independent pump operation [Pump] . 5-12 Operation
Fluid 5 to 40C (41 to 104F) Operating temperature C 0.2M to 1 x 10 -6 {1.5k to 7.5 x 10 -9} Operating pressure Pa {Torr} 5 8 5 8 Conductance l/s 1.3 x 10 -8 {1 x 10 -7} at ordinary temperatures, excluding gas permeation 1.3 x 10 -11 {1 x 10 -10} at ordinary temperatures, excluding gas permeation Internal External Leakage Pa m3/s {Torr l/s} KF16 KF25 KF16 KF25 Flange type/size Principle materials
Applicable model H G A B C J K E D F 16.5 MXS-AT6 5 MXS 6 7 10.5 2.5 21 19 8 5 M2.5 X 8 M5 X 0.8 MXS6, MXS8 26.5 MXS-AT6-X11 15 D 16.5 MXS-AT8 5 E E H MXS 8 M3 X 10 M6 X 1 8 12.5 3 25 9 6 22.5 26.5 MXS-AT8-X11 15 36.5 MXS-AT8-X12 25 5 G 20 MXS-AT12 MXS12 12 18.5 4 32 13 8 31 M4 X 8 M8 X 1 30 MXS-AT12-X11 15 B C 40 MXS-AT12-X12 25 24.5 MXS-AT16 5 F K K F A J MXS16 M5 X 10 M10 X 1 14 23 5 40
Note 10 P523020-5 30 A set of above numbers r, !2, !3, !7, !
-5 6-10-19 6-10-5 6-10-5 6-10-19 6-10-37 6-10-3 4 Series C76 Stroke Selection The maximum stroke at which the cylinder can be operated under a lateral load The relation between the cylinder size and the maximum stroke depending on the mounting style The region that does not exceed the bold solid line represents the allowable lateral load in relation to the cylinder of a given stroke length
10 5 MK(2) 10 Note) 15 Note) 1 pc. 5 5 Note) Please consult with SMC for shorter stroke length than indicated in the table.
10 5 MK(2) 10 Note) 15 Note) 1 pc. 5 5 Note) Please consult with SMC for shorter stroke length than indicated in the table.
-5 6-10-19 6-10-5 6-10-5 6-10-19 6-10-37 6-10-3 4 Series C76 Stroke Selection The maximum stroke at which the cylinder can be operated under a lateral load The relation between the cylinder size and the maximum stroke depending on the mounting style The region that does not exceed the bold solid line represents the allowable lateral load in relation to the cylinder of a given stroke length
Load factor: ((Load weight x 9.8)/Theoretical force) x 100% 3-10-4 5 Cylinder Speed Chart Use as a guide for selection. Please confirm the actual conditions with SMC Sizing Program.
A A F F A F L L L 6 6 6 L = 80 mm L = 80 mm L = 80 mm MXP6-5 MXPJ6-5 MXP6-10 MXPJ6-10 MXP6-5 MXPJ6-5 MXP6-10 MXPJ6-10 MXP6-5 MXPJ6-5 MXP6-10 MXPJ6-10 0.05 0.05 0.06 Table displacement amount (mm) Table displacement amount (mm) Table displacement amount (mm) 0.04 0.04 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local
(M): SYJ3 40-M-M5 M8 connector (WO): SYJ3 40(R)-WO-M5 3 4 5 3 4 5 3 4 5 Approx. 300 (Lead wire length) 41.5 [48.5] 26.1 46 M8 x 1 28.5 52.6 [59.6] Approx. 300 (Lead wire length) 55.8 32.6 49.3 111.5 [115.9] R1 P R2 R1 P R2 R1 P R2 91.9 [96.3] 10 10 10 10 10 10 28 28 28 109.7 14 14 14 5 5 5 37.6 [39.8] 47.4 [49.6] 39.1 46.5 Refer to page 1-5-79 for dimentions with connector cable. 1-5-13
10 10 10 W 71 58 49 44 LZ Bore size 63.5 53 52 47 54.5 45 38.5 34 40 32 25 20 50 63 80 100 4.5 4.5 4.5 6 17.5 17.5 20 20 75.5 75.5 95 95 157.5 157.5 188.5 192 55 55 60 60 10 12 11 14 5 5 6 6 40 45 55 65 22 22 28.5 30 11 13 14 16 5 5 5 7 66 82 100 120 86 106 125 150 70.5 82.5 101 121 Other dimensions are the same as basic style.
, #11 SCM240A, #11, #5 SCM240A, #11, #5, #19 1.4-42 Series CM2 Single Clevis (C) CM2C Bore size Stroke S T (mm) N P Bore U E CD I RR A NA CI K AL NN CX L B1 D MM F G H H1 0 0.033 0 0.033 0 0.033 0 0.039 1/8 1/8 1/8 1/4 13 5 M20 X 1.5 15 14 9 28 9 18 24 24 5 15.5 10 30 8 M8 X 1.25 13 20 8 41 20 M10 X 1.25 17 6 M26 X 1.5 15 14 9 33.5 9 22 30 30 5.5 19.5 10 30 10 13 25 8 45 26 M10 X 1.25 17
Applicable bore size (mm) A1 L NDd9 MM B C d H B C d H 0.030 0.060 0.030 0.060 Y-J010SUS 10 SNJ-016SUS 10 NTJ-010SUS 10 3.3 14 7 8 15.2 21 M4 x 0.7 16.2 M10 x 1.0 4 8.1 M4 x 0.7 3.2 Y-J016SUS SNKJ-016SUS NTJ-015SUS 16 16 16 5 17 8 11 16.6 21 M5 x 0.8 19.6 M12 x 1.0 4 9.2 M5 x 0.8 4 NDH10 U1 NX R1 Part no. +0.048 0 Y-J010SUS 3.3 3.2 8 10 +0.048 0 Y-J016SUS 5 6.5 12 10 Rod end cap T-bracket
10 20 30 Model Port size Orifice diameter [mm] JSX10 Series 1/8 1.6 2.4 5 (For orifice diameter 2.4) Grommet 1/8 3.2 Stainless steel NBR Air JSX20 Series DIN terminal 15 Brass N.C.
and operating temperature Cv Vacuum to 1700 psig (11.7 MPa) 2550 psig (17.6 MPa) 8000 psig (55.2 MPa) 40 to 160F (40 to 71C) (No freezing) 3) 0.65 2 x 10-11 Pam3/sec 2 x 10-10 Pam3/sec 4) 4 x 10-9 Pam3/sec 5) Inboard leakage Outboard leakage Leak rate Across the seat leak Ra max 15 in. (0.4 m) Option: 10 in. (0.25 m), 7 in. (0.18 m), 5 in. (0.13 m) Surface finish Face seal, Tube weld NPT
20 CY 15 10 MG 0.1 10 CX 0.1 6 6 D-X 0.03 5 5 10 20 30 40 50 100 10 20 30 40 50 100 20Overhang L (mm) Overhang L (mm) Graph (4) V = Up to 800 mm/s (Up to 700 mm/s for 15, 20) Data CXSJM CXSJL Graph (3) V = Up to 600 mm/s CXSJM CXSJL 20 32 0.5 25 1 15 20 0.5 15 Weight m (kg) 10 0.1 10 0.1 6 6 10 20 30 40 50 100 5 10 20 30 40 50 100 5 Overhang L (mm) Overhang L (mm) Note) V = 700 mm/s for 15
10 to 32 Graph (3) V = 200 mm/s Graph (4) V = 400 mm/s 4 20 3 10 32 5 25 1 Weight m (kg) Weight m (kg) 32 20 25 0.5 1 20 15 0.5 15 10 CXSM CXSL CXSM CXSL 10 5 0.1 5 0.1 10 20 30 40 50 100 10 20 30 40 50 100 Overhang l (mm) Overhang l (mm) Graph (5) V = 600 mm/s Graph (6) V = 700 mm/s (800 mm/s for 10) 2 0.6 20 32 25 0.4 1 15 20 Weight m (kg) Weight m (kg) 0.5 15 0.2 10 10 CXSM CXSL CXSM
Inertial load: Ta 20Inertial load Effective torque Ts . 10 x Ta = 10 x x Effective torque (3 to 5) Tf Effective torque 10 Ta = 10 x 0.00109 x (2 x ( / 2) / 0.32) Load types = 0.380 Nm Effective torque OK Effective torque Note) I substitutes for t the value for inertial moment.