MHL2 MHL MHR Model/Stroke Opening/Closing stroke (mm) L2 L1 Weight (g) Max. operating frequency (c.p.m.)
L1 L2 2. Do not gouge or scratch the mounting surfaces of the rod cover and head cover. Parallelism of the mounting surfaces will be degraded, causing increased operating resistance and wear of the bearings, etc. 3.
M61 7.4 7 12 MXQ16B M61 7.4 10 15 MXQ20B M81.25 18 14 20 MXQ8C M40.7 2.1 6 9 MXQ12C M50.8 4.4 8 12 Caution Types other than MXQ20(A) and MXQ25(A) have through tapped hole Use the bolt shorter than max. screw depth (L2) by 0.5mm or more.
Load mass (kg) m1 m2 m3 Moment (Nm) M3 = F3 x L3 F3 M1 = F1 x L1 F1 M2 = F2 x L2 F2 L1 L2 L3
Model/Stroke Width at closing (mm) Width at opening (mm) Max. operating frequency Opening/Closing stroke (mm) Mass (g) Bore size (mm) Model (L1) (L2) (L2-L1) c.p.m MHL2-10D MHL2-10D1 MHL2-10D2 MHL2-16D MHL2-16D1 MHL2-16D2 MHL2-20D MHL2-20D1 MHL2-20D2 MHL2-25D MHL2-25D1 MHL2-25D2 MHL2-32D MHL2-32D1 MHL2-32D2 MHL2-40D MHL2-40D1 MHL2-40D2 60 20 56 76 280 40 78 118 345 10 40 60 96 156 425 30
Model Bolt Proper tightening torque N.m L1 MGZ/MGZR20 MGZ/MGZR25 MGZ/MGZR32 MGZ/MGZR40 MGZ/MGZR50 MGZ/MGZR63 MGZ/MGZR80 L2 11 11 16 16 16 16 20 10 10 12 12 15 15 23 2.5 to 3.1 2.5 to 3.1 4.1 to 6.4 4.1 to 6.4 8.8 to 13.8 8.8 to 13.8 30.4 to 47.5 M5 x 0.8 M5 x 0.8 M6 x 1 M6 x 1 M8 x 1.25 M8 x 1.25 M12 x 1.75 L2 L1 2.
entry (In the case of side entry/With plug at the bottom) Rc 1/8 Hexagon socket head cap plug (mm) L1 1 Stations L 28 1.5 40 1.5 72 1.5 8 140 2.0 152 2.0 184 2.0 9 156 2.0 168 2.0 200 2.0 10 2 44 1.5 56 1.5 88 1.5 3 60 1.5 72 1.5 104 1.5 4 76 1.5 88 1.5 120 1.5 5 92 1.5 104 1.5 136 1.5 6 108 2.0 120 2.0 152 2.0 7 124 2.0 136 2.0 168 2.0 172 2.0 184 2.0 216 2.0 L2
VAC. port Silencer dedicated for manifold (mm) L1 1 Stations L 28 1.5 40 1.5 72 1.5 10 3 60 1.5 72 1.5 104 1.5 4 76 1.5 88 1.5 120 1.5 5 92 1.5 104 1.5 136 1.5 6 108 2.0 120 2.0 152 2.0 7 124 2.0 136 2.0 168 2.0 8 140 2.0 152 2.0 184 2.0 9 156 2.0 168 2.0 200 2.0 2 44 1.5 56 1.5 88 1.5 172 2.0 184 2.0 216 2.0 L2 L3 13-4-31
Monitoring L Logical operation equipment L1 Logical operation equipment Input signal I Input equipment O Output equipment Input signal I1 Input equipment O1 Output equipment Output signal Output signal Monitoring Cross monitoring Monitoring L2 Logical operation equipment Input signal I2 Input equipment O2 Output equipment OTE Output of test result TE Testing equipment Output signal Output
M1 = F1 x L1 M2 = F2 x L2 M3 = F3 x L3 F2 F1 F3 LC6m LC6m L1 E-MY2C P.1127 L2 L3 E-MY2H LZm LZm P.1133 E-MY2HT LC3F2 LC3F2 Caution Xm Xm Select the required model by taking into consideration the operating condition specifications and any possible specification changes that may occur during operation.
Model/Stroke Width at closing (mm) Width at opening (mm) Max. operating frequency Opening/Closing stroke (mm) Mass (g) Bore size (mm) Model (L1) (L2) (L2-L1) c.p.m MHL2-10D MHL2-10D1 MHL2-10D2 MHL2-16D MHL2-16D1 MHL2-16D2 MHL2-20D MHL2-20D1 MHL2-20D2 MHL2-25D MHL2-25D1 MHL2-25D2 MHL2-32D MHL2-32D1 MHL2-32D2 MHL2-40D MHL2-40D1 MHL2-40D2 60 20 56 76 280 40 78 118 345 10 40 60 96 156 425 30
CYLINDER, L2, 32MM CM2 KIT/ACCESSORY, .17600 lb
Add to Cart SMC GDM2A-L1 din connector, VX2 2-WAY MEDIA VALVE*** $15.09 Add to Quote Add To Cart Add to Cart SMC GDM2A-L2
Add to Cart SMC GDM2A-L1 din connector, VX2 2-WAY MEDIA VALVE*** $15.09 Add to Quote Add To Cart Add to Cart SMC GDM2A-L2
Add to Cart SMC GDM2A-L1 din connector, VX2 2-WAY MEDIA VALVE*** $15.09 Add to Quote Add To Cart Add to Cart SMC GDM2A-L2
, C95/C96 TIE-ROD CYLINDER, L2, 32MM C95/CP95 ACCESSORY, .00000 lb
, C95/C96 TIE-ROD CYLINDER, L2, 32MM C95/CP95 ACCESSORY, .00000 lb
, L2, 32MM C95/CP95 ACCESSORY
(mm) Connection thread R Effective area (mm2) Min. port size
L1 L2+A5 L3 Kinetic Energy 2 1 V 2 E = W () 2 1000 Collision speed V = 1.4 Va 1 420 2 E = x 1 () = 0.088 2 1000 Find the kinetic energy E (J) of the load. ) Correction factor (Reference values) V = 1.4 x 300 = 420 Ea = K E max Find the allowable kinetic energy Ea (J). Confirm that the kinetic energy of the load does not exceed the allowable kinetic energy.