CE -12-8 P . 10-12-30 P . 10-12-18 P . 10-12-27 10-12-1 Achieve rationalization Stroke reading cylinder Measurement is possible throughout the full stroke range.
Bore size (Stroke (mm)) 6 8 12 16 20 25 10, 20, 30, 40, 50 10, 20, 30, 40, 50, 75 10, 20, 30, 40, 50, 75, 100 10, 20, 30, 40, 50, 75, 100, 125 10, 20, 30, 40, 50, 75, 100, 125, 150 10, 20, 30, 40, 50, 75, 100, 125, 150 Applicable Auto Switches/Refer to Best Pneumatics No. 3 for further information on auto switches.
/Flange Rod end width across flats 10 10 21 21 46 46 Data Part no.
11 depth 6.5 63 1/4 19.5 10 40 65 55 10 22.4 19 M16 x 2 20 7 52 9 14 depth 8.6 71 1/4 20.5 10 50 71 60 11 28 24 M20 x 2.5 24 8 58 11 17.5 depth 10.8 81 1/4 22 10 63 80 67 13 35.5 30 M27 x 3 33 9 69 13 20 depth 13 97 1/4 25.5 10 80 95 78 17 45 41 M30 x 3.5 36 14 86 15 23 depth 15.2 117 3/8 30 15 100 122 96 26 56 50 M39 x 4 45 21 106 17 26 depth 17.5 142 3/8 36 15 Note 1) Body dimensions are
Area: (800) 258-9200-www.stevenengineering.com 0.03 0.04 0.03 0.02 0.03 0.02 0.02 0.01 0.01 0.01 0 10 20 30 40 Load (N) 0 10 20 30 40 Load (N) 0 10 20 30 50 Load (N) 40 10 10 10 L = 100 mm L = 100 mm L = 100 mm Table displacement amount (mm) Table displacement amount (mm) Table displacement amount (mm) MXP10-10 MXP10-20 MXP10-10 MXP10-20 0.04 0.03 0.08 MXP10-10 MXP10-20 MXP10-10 MXP10-20
A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Mass calculation m1 = a x b x c x Relative density Z1 Inertial moment around Z1 axis Z1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) A Inertial moment around Z axis A = Z1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm) Mass
Nil XB6 XB7 XB9 XC4 XC6 X103US X114US None High temperature Note 10, 11) Mounting Front nose mount Rear pivot mount Double end mount Block mount Note 2, 10, 11) B C E R W Low temperature Note 10, 11) Low speed Note 10, 11) Heavy duty wiper Note 10) Bore size Stainless steel rod Note 9) Double rod Note 3, 10) Rotated ports Note 7, 10) 7/16" 9/16" 3/4" 7/8" 1-1/16" 1-1/4" 1-1/2" 2" Note 3,
MHR2-10/MDHR2-10 MHR2-10/MDHR2-10 20 20 Pressure 0.6 MPa Pressure Gripping force (N) Gripping force (N) 15 15 0.6 MPa 0.5 MPa MHZ 0.5 MPa 10 10 0.4 MPa 0.4 MPa MHF External grip 0.3 MPa 0.3 MPa 5 5 MHL 0.2 MPa 0.2 MPa MHR 0 10 20 30 40 50 0 10 20 30 40 50 Gripping point L (mm) Gripping point L (mm) MHK Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main
A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Weight calculation m1 = a x b x c x Relative density IZ1 Inertial moment around Z1 axis IZ1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) IA Inertial moment around Z axis IA =IZ1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm)
A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Weight calculation m1 = a x b x c x Relative density IZ1 Inertial moment around Z1 axis IZ1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) IA Inertial moment around Z axis IA =IZ1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm)
= 9.0 x 10-6 (kgm2) Moment of inertia around Z axis = Z1 m1r12 X 10-6 z r2 z2 B part r2 = 47(mm) Calculation of weight m2 = d x e x f x Specific gravity m2 = 5 x 10 x 12 x 2.7 x 10-6 = 0.002 (kg) Moment of inertia around Z2 axis Z2 = {m2 (d2 + e2)/12} x 10-6 Z2 = {0.002 x (52 + 102)/12} x 10-6 = 0.02 x 10-6 (kgm2) B = 0.02 x 10-6 + 0.002 x 472 x 10-6 = 4.4 x 10-6 (kgm2) = 9.0 x 10-6
10 10 5 4 3 4 5 3 4 5 3 2 2 2 1 1 1 1 5 10 20 10 5 1 20 30 10 5 1 20 30 Transfer speed (m/min) Transfer speed (m/min) Transfer speed (m/min) Lever-type weight of transferred object and transfer speed graphs (graphs (2) and (3)) show the values at room temperature (20 to 25C).
Applicable bore size A D L MM N R W Flat type Round type CJ-CF010 CJ-CR010 10 8 10 13 M4 x 0.7 6 10 8 Part no.
IY-G02 CD-MU02 CD-MU03 CD-MU04 Applicable retaining ring C-type 8 for shaft C-type 8 for shaft C-type 10 for shaft C-type 10 for shaft CDH10 (mm) CJ 7 10 10 CI 17 22 27 CH 11 13 13 CF 4 7 10 CE 3.5 3.5 3.5 CB 23 27 31 CA 53 67 85 Size 25 32 40 Part no.
Replacement parts (With external shock absorber type) Description Size 10 20 30 50 P891010-10 P891020-10 P891030-10 P891040-10 Seal kit No. Description Qty. No. Description Qty. No. Description Qty. No. Description Qty.
10 10 MY3M MY2HT16 MY2HT16 8 8 8 5 5 5 100 200 300 400500 1000 1500 100 200 300 400500 1000 1500 100 200 300 400 500 1000 1500 Piston speed mm/s Piston speed mm/s Piston speed mm/s Load Mass/MY2HT (Double axis) MY2HT/m1 MY2HT/m2 MY2HT/m3 80 80 80 50 50 50 30 30 30 20 20 20 MY2HT40 MY2HT40 MY2HT40 Load mass kg Load mass kg Load mass kg 10 10 10 MY2HT25 MY2HT25 MY2HT25 5 5 5 4 4 4 MY2HT16
W or less 20 VA or less 10 W or less 20 VA or less 10 W or less 20 VA or less 10 W or less Between case and AC line: 1500 VAC for 1 min.
Minimum Stroke for Auto Switch Mounting (mm) D-M9 10 D-M9V 5 D-M9W 15 D-M9WV 10 D-A9 10 D-A9V 5 Number of auto switches mounted Bore size (mm) 32 1, 40 50 2, 63 1 10 5 15 15 10 10 2 1 The outline dimensions for 5 mm stroke will be the same as those for 10 mm stroke. 2 The outline dimensions for 10 mm stroke will be the same as those for 15 mm stroke. 7 Prior to Use Auto Switches Common Specifications
Load Weight Allowable Moment MY2H/m3 MY2H/M3 MY2H/M1 MY2H/M2 60 50 60 50 60 50 60 50 40 40 30 30 30 30 20 20 20 20 Load weight kg Moment Nm Moment Nm Moment Nm MY2H40 MY2H40 MY2H40 MY2H40 10 10 10 10 MY2H25 MY2H25 MY2H25 MY2H25 5 5 5 5 4 4 4 4 3 3 3 3 MY2H16 2 2 2 2 0.2 MY2H16 MY2H16 MY2H16 1 1 1 100 200 300 400500 1000 1500 1 100 200 300400 500 1000 1500 100 200 300 400500 1000 1500 100