Magnet: D (Built-in Magnet), Mounting: F (Rod Flange), Type: N (Rubber Bumper), Bore: 20mm, Port Thread Type: TN [NPT ø20 to ø100 Rubber Bumper, ø32 to ø100 Air Cushion), Stroke: 50mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: None, Rod End Bracket: None, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal
Magnet: D (Built-in Magnet), Mounting: B (Basic), Type: A (Air Cushion), Bore: 50mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 50mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: None, Rod End Bracket: None, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal
Magnet: D (Built-in Magnet), Mounting: L (Axial Foot), Type: N (Rubber Bumper), Bore: 20mm, Port Thread Type: TN [NPT ø20 to ø100 Rubber Bumper, ø32 to ø100 Air Cushion), Stroke: 50mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: None, Rod End Bracket: None, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal
Bore: 25, Stroke: 50mm, Adjuster/Functional Option: Z (w/o Adjuster), Functional Option: w/o Functional Option, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal
Bore Size: 10mm, Stroke: 50mm, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal
e-Rodless Actuator D-M9P D-M9NV D-M9B D-M9N D-M9PV D-M9BV Auto switch part no.
AMF150C AMF-EL150 AMF-EL150-F AMF250C AMF-EL250 AMF-EL250-F AMF350C AMF-EL350 AMF-EL350-F AMF550C AMF-EL550 AMF-EL550-F AMF650 AMF-EL650 AMF850 AMF-EL850 Except option F For option F Element assembly Glass fiber, others AMF-EL450 AMF-EL450-F 4 Industrial Filters Replacement Procedure Actuators Modular F.R.L.
Width across flats KA ~\, -t n I E ~ I='" "r\ f'iiI .J ... " UJ o o ) ~ L::: ~ ::;: "" ~E ~ ~ c Cl DC N f I-A _ K F _ L{ ~M [T D B " m :Jl Cl (mm) c.
Movement Load : Angular acceleration F: Pressing force (N) T f = F x l (Nm) . 2 = (rad/s 2) Load Static torque calculation t 2 g = 9.8 m/s2 Ts = F x l (Nm) l : Rotation angle (rad) Lever t : Rotation time (S) Axis Rotary actuator Axis Allowable Load Application of the load on the axial direction is tolerated if no dynamic load is generated and the values are within what is shown in the
Dimensions Basic style: RECB 2 x P (Rc, NPT, G) 2 x NN Width across flats B2 G H2 G Width across flats B1 H1 Plugged (M5 x 0.8) I 2 x Eh8 NA D MM AL K A 1.5 1.5 Effective thread length 2 x FL Width across flats KA NA F N N ZZ + Stroke S + Stroke F H (mm) A AL B1 B2 D E F FL G H H1 H2 I K KA N NA NN P S ZZ MM Bore (mm) 0 -0.033 0 -0.033 0 -0.033 0 -0.039 20 M8 x 1.25 M20 x 1.5 18 15.5 13 26
Dimensions Basic style: RECB 2 x P (Rc, NPT, G) 2 x NN Width across flats B2 G H2 G Width across flats B1 H1 Plugged (M5 x 0.8) I 2 x Eh8 NA D MM AL K A 1.5 1.5 Effective thread length 2 x FL Width across flats KA NA F N N ZZ + Stroke S + Stroke F H (mm) A AL B1 B2 D E F FL G H H1 H2 I K KA N NA NN P S ZZ MM Bore (mm) 0 -0.033 0 -0.033 0 -0.033 0 -0.039 20 M8 x 1.25 M20 x 1.5 18 15.5 13 26
Amount of displacement on A when the load is applied at F. Amount of displacement on A when the load is applied at F.
QA Tubing O.D. 6 J QB Q F Built-in One-touch Fittings Stroke 13 20 Stroke 8 Applicable tubing O.D.
Calculation of applied lateral load The lateral load F equals the total load of the workpiece. Thus, F= 5 x 0.05 x 9.8 = 2.5 (N) 1. Calculation of applied lateral load F F = N m g (N) = 0.2 x 10 x 0.1 x 9.8 = 2.1 (N) CC 70 Lateral load F (N) RB 60 0.4 MPa 50 J 40 2.
Calculation of applied lateral load The lateral load F equals the total load of the workpiece. Thus, F= 5 x 0.05 x 9.8 = 2.5 (N) 1. Calculation of applied lateral load F F = N m g (N) = 0.2 x 10 x 0.1 x 9.8 = 2.1 (N) CC 70 Lateral load F (N) RB 60 0.4 MPa 50 J 40 2.
Number of fingers and therefore, mg F 2 x With "a" as the safety margin, F is determined as follows: mg F = x a 2 x When = 0.2 When = 0.1 mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg 10 x workpiece weight 20 x workpiece weight (Note) Even in cases where the coefficient of friction is greater than = 0.2, for safety reasons, SMC recommends selecting a gripping force which
Number of fingers and therefore, mg F 2 x With "a" as the safety margin, F is determined as follows: mg F = x a 2 x When = 0.2 When = 0.1 mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg 10 x workpiece weight 20 x workpiece weight (Note) Even in cases where the coefficient of friction is greater than = 0.2, for safety reasons, SMC recommends selecting a gripping force which
Head Flange: CG3GN Bore size Stroke With rubber bumper Width across flats KA GA GB 4 x FD 8 x J 2 x P F R0.5 H1 0 E 0.05 MM D FX 0.15 0 E 0.05 I B C Corner of the cover (20 to 63) H A AL Width across flats B1 Width across flats NA F FT C FX 0.15 S + Stroke ZZ + Stroke B End boss is machined on the flange for E.
Auto switch Auto Switch Specifications D-M9P(With indicator light) Auto switch model D-M9P Electrical entry direction In-line Wiring 3-wire Output PNP type Applicable load IC circuit,Relay,PLC Power supply voltage DC51224V(4.5 to 28V) Current consumption 10 mA or less Load voltage Load current 40 mA or less Internal voltage drop 0.8 V or less at 10 mA (2 V or less at 40 mA) Current leakage