SMC Pneumatic Clean Series With air cushion 4-FD E-0.05 0 FT F FX0.15 B (mm) Bore size 40 B 61 E 25 F 2 FX 46 FD 6.6 FT 8 50 63 76 92 30 32 2 2 58 70 9 11 9 9 Note) End boss is machined on the flange for E.
B F MM NA GC GA C A M12 x 1.0 M10 x 1.0 NN M5 x 0.8 M4 x 0.7 NDh8 Z S 12-0.027 10-0.022 4 5 122 121 66 65 0 0 10112122Axial foot style (L) / CJ2WL, CJ2WL GA GC Piping port 4-M5 x 0.8 MM NN GC NN F GA F MM Cover surface D D LY LB LH X A Y Y X LX A NA NA LZ H S + Stroke H + Stroke Z + 2 x Stroke 2-LC Mounting hole (mm) 16 10 15 15 5 4 8 8 11 11 28 28 23 21.5 5.5 5.5 2.3 2.3 GA LC Bore size
F = mg Mass m Movement I: Inertial moment Refer to page 100. Static torque calculation Tf = F x L (Nm) Load . g = 9.8m/s2 F: Pressing force (N) : Angular acceleration Load .
M1 = F x L Port side A M2 = F x L M3 = F x L Note) Deflection: Displacement of section A when force acts on section F REAH10 REAH10 REAH10 Slider Type/Slide Bearing REAS Slider Type/Ball Bushing REAL 0.08 0.03 Deflection (mm) Deflection (mm) Deflection (mm) 0.02 0.06 0.02 0.04 0.01 0.01 0.02 0.5 1.5 2.5 0 0.5 1.5 0 0.5 1.0 1.5 0 1.0 2.0 Moment (Nm) 1.0 Moment (Nm) Moment (Nm) REAH15, 20,
M1 = F x L F A F F A L L L Opposite port side Guide central axis (single axis type) Port side For the dual axis type, this is the cylinder's central axis.
Dimensions/20 to 40 Basic/CM2YB Width across flats B2 2-P (Port size) (Rc, NPT, G) 2-NN H1 H2 G G Width across flats B1 I 2-Eh8 D MM AL A F F NA 1.5 1.5 N N K H S + Stroke ZZ + Stroke Boss-cut ZZ + Stroke (mm) A AL B1 B2 D E F G H H1 H2 I K MM N NA NN P S ZZ Bore size (mm) 20 25 32 40 0 0.033 0 0.033 0 0.033 0 0.039 18 15.5 13 26 8 13 8 41 5 8 28 5 M8 x 1.25 15 24 M20 x 1.5 1/8 62 116 20
I/F DICOM CN3-5 DC24V(DC24V10% 150mA) DC24V CN3-10 DC24V I/F DOCOM CN3-3 EM1LG DC24V DC24V LG CN3-1 MO1MO2 CN3-11 SD 3 22 3 3.6 OFFON CPU () ON ON OFF OFF ON ON OFF OFF ON ON ON () OFF () OFF 1s ON ON () OFF 50ms 60ms () OFF 50ms 60ms .
7.5 7.5 9 11 L A B 22 22 F 5 5 5.5 5.5 L 3.5 3.5 4.5 5 A B 17 17 F 5 5 5.5 5.5 L 3.5 3.5 4.5 5 12 16 20 25 45.5 13.5 25.5 5 to 30 5 to 30 5 to 50 5 to 50 35 to 200 35 to 200 75 to 200 75 to 300 6 8 7 12 6 8 10 12 25 29 36 40 M4 x 0.7 6.5 6.5 9 9 7.5 7.5 9 11 7 7 10 10 4 4 7 7 0.5 0.5 1 1 20.5 M3 x 0.5 32 38 47 52 5 6 8 10 15.5 20 3.5 3.5 5.4 5.4 45.5 13.5 25.5 34 M4 x 0.7 20.5 24 M4 x 0.7
NA S + Stroke F H WH B ZZ + Stroke (mm) A B C D E F GA GB H H1 H2 I Bore size (mm) Stroke range (mm) Effective thread length 26 8 5 44 47.5 53.5 16 14.5 10 18 40.5 32 15.5 200 to 700 20 31 8 6 48 49.5 56.5 16 18 12 22 45.5 36 19.5 200 to 700 25 38 9 6 51 51.5 55 19 18 12 22 51.5 44 19.5 200 to 1000 32 47 11 8 54.5 51.5 56 21 20.5 16 24 61.5 53 21 200 to 1000 40 N NE NA NB NF ND NN P S WH
(2.8) 3/h) 3/h) 3/h) 3/h) (182m (273m (384m (510m (ANR) (1) 120SCFM 173SCFM 258SCFM 353SCFM 45 F (7.2) 3/h) 3/h) 3/h) 3/h) (205m (294m (438m (600m 130SCFM 181SCFM 297SCFM 406SCFM 50 F (10) 3/h) 3/h) 3/h) 3/h) (221m (308m (504m (690m 100psi (0.7MPa) 100 F (37.8) 100 F (37.8) 41122 F (550) 22 150psi (0.15 ~ 1.0MPa) 36-104F (2~40) 85% (4) AC115V10% AC230V10% (60Hz) AC460V10% (60Hz
F 4 T 10 9 Silencer box 2(B), 4(A) port size Air release valve None With silencer box Nil 3/8 (Right side) 1/2 (Right side) 3/8 (Left side) 1/2 (Left side) 3/8 (Bottom) 1/2 (Bottom) Mixed 03R None With air release valve Nil SB 04R E 03L Thread type 04L 03Y Rc G NPTF Nil 04Y F 1(P), 3(R2), 5(R1) port size T 1/2 (Down side) 1/2 (Up side) 1/2 (Both sides) 3/4 (Down side) 3/4 (Up side) 3/4 (
Chapter 4 Rotary axis setting switch (SW1) SW1 Used to set the axis No. of servo amplifier. 8 driver. 7 9 Section 3.13 A 6 B 5 8 C 7 4 9 A 6 D 3 B 5 C E 4 2 D 3 F 1 E 2 F 1 0 0 SW1 ON 4F Test operation select switch (SW2-1) TEST SW2 Used to perform the test operation mode by using MR Configurator. SW2 1 2 MR Configurator2TM.
Conditi on Inlet Air Temperature 100 F (37.8C) Ambient Temperature 100 F (37.8C) Voltage 115V 60Hz Working Fluid Compressed Air Operating Range Inlet Air Temperature 41-122 F (5-50C) MIN.
(2.8C) (17 m 3/h) (25 m 3/h) (43 m 3/h) (70 m 3/h) (100 m 3/h) (120 m 3/h) 11 SCFM 16 SCFM 26 SCFM 43 SCFM 62 SCFM 80 SCFM 45 F (7.2C) (19 m 3/h) (27 m 3/h) (45 m 3/h) (74 m 3/h) (106 m 3/h) (136 m 3/h) 17 SCFM 28 SCFM 45 SCFM 65 SCFM 86 SCFM 12 SCFM 50 F (10C) (20 m 3/h) (28 m 3/h) (47 m 3/h) (77 m 3/h) (110 m 3/h) (147 m 3/h) 100psig (0.7MPa) 100 F (37.8C) 100 F (37.8C) 115V 60Hz
24 V F Black 0 V -X G Shield 649 CEP1 Series Construction 12, 20 !
) Black F 0V (power supply) (Shield) G Shield 3 High Precision Scale Cylinder Series CEP1 Construction 12, 20 !
These vortexes are stable under certain conditions, and their frequency is proportional to the flow velocity, resulting in the following formula. f = k x v f: Frequency of vortexes, v: Flow velocity, k: Proportional constant (determined by the vortex generator's dimensions, shape, etc.) Therefore, the flow rate can be measured by detecting this frequency.
Actuator effective torque STa (S is 10 times or more) (Example) (Example) F: Pressing force (N) Friction coefficient Accelerating torque calculation Ta = I (Nm) Static torque calculation Weight m F = mg Ts = F x l (Nm) I : Moment of inertia Static torque calculation Movement Refer to page 11.
Bore size L F G D Foot style Rod side flange style Head side flange style Double clevis style 12 16 20 25 12 mm 16 mm 20 mm 25 mm Cushion/Rod end thread Nil C M Standard (Rod end female thread) With rubber bumper Rod end male thread Combination above is possible.
Ta 10 STa(S 10) = & I Ta (Nm) I: & 2 = & (rad/s2) 2 t 5.2 5.3 22 5.4 P A F 1 1 = (1) P A F 2 2 = (2) 2 1 D 4 A = (3) ) d D ( 4 A 2 2 2 = (4) F=[N] F=[N] = A=[mm] A=[mm] D=[mm] d=[mm] P=[MPa] 5.6 () 5.7 () 5.5 23 6. 6. 6. 6. ,, , ,, 6-1. 6.1 (m) DC AC 0.5 3 5 (L) (Z) (N) 3 (NPN) F7NV F79 3 (PNP) 5V,12V F7PV F7P IC F7BV J79 2 12V J79C 24V 3 (NPN) F7NWV F79W PLC 3 (PNP) 5V,