SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
0.01 ID Construction IDG SFD101-02 SFD102-02 IDK w q r t e q r e w AMG AFF AM AMD AMH Component Parts Component Parts No. Description Note Material Aluminum alloy No.
Inlet air temperature 35C Outlet air pressure dew point 10C Ambient temperature 35C Inlet air pressure 0.5MPa Air flow 1200 l/min (ANR) Inlet air temperature 55C Outlet air pressure dew point 10C Ambient temperature 35C Inlet air pressure 0.7MPa Air flow 350 l/min (ANR) Condition Condition A = 0.75 based on conditions q, w and e 1 B = 0.95 based on conditions q, w and e 1 C = 1.00 based on
f g Nil Reed switch L R Solid state switch S h Nil L R S Operating direction Left Right a b h g d c f e Note) Lead wire length symbols 0.5m .
Condition Condition Inlet air temperature 35 C Outlet air pressure dew point 10 C Ambient temperature 35 C Inlet air pressure 0.5MPa Air flow 1200 l/min (ANR) Inlet air temperature 55 C Outlet air pressure dew point 10 C Ambient temperature 35 C Inlet air pressure 0.7MPa Air flow 350 l/min (ANR) A = 0.75 based on conditions q, w and e 1 B = 0.95 based on conditions q, w and e 1 C = 1.00 based
M o n m e t e r kg.m=kilogram-meter ft. lb = foot pound mm (H2O) = millimeter water column in (H2O) = inches water column mm (Hg) = fnillimeter mercury column in (Hg) = inches mercury column Basic Formulas Circle circumference = '[D = 2rr Circle atea = fit2 Force=PressurexArea Cylinder Volume (rod side) = (pislon area rod cross-section area) x stroke Cylinder Volume (head end) = piston area
e E , q 1.5 8 1 2 1 6 2 0 Cylinder speed (in/sec.) Sl6ct a propr unit sccording to exhaust flo/, in lh6 following ordr: (l) Oete|mine air con6umplion ot actuaicrs uaed in tl|e ckc\rii.
0 o e AS-FM !4 u Meter-in type Meter-out type AS-D e Seal method: Face seal For G thread AS-T Meter-in type Meter-out type ASP !1 ASN r !2 AQ q w ASV y t AK i VCHC o ASR ASQ !0 u !5 e Meter-out type Meter-in type Component Parts No.
Inlet air temperature 35C Outlet air pressure dew point 10C Ambient temperature 35C Inlet air pressure 0.5MPa Air flow 1200 l/min (ANR) Inlet air temperature 55C Outlet air pressure dew point 10C Ambient temperature 35C Inlet air pressure 0.7MPa Air flow 350 l/min (ANR) Condition Condition A = 0.75 based on conditions q, w and e 1 1 B = 0.95 based on conditions q, w and e C = 1.00 based on
2 w e !3 !4 r t y u i !5 !6 No.
(ANR) c V -~ AM~4S0 E V ;;2 1 -E t~ AM~350 ~ ~ 2 ~05 -tV 'ct! AM~2S0 1. Select the point of contact A of inlet pressure and max. air flow capacity in the graph. V j.--v v V AMl,so 0.2 Ij.--~ V I 2.Select the type whose max. air flow capacity is over that point; AMH650. 0.2 0.4 0.6 0.8 1.0 tnlet air pressure MPa SeriesAMH How to Order .