MHZ2/MHZJ2 When closed 8.8 When open 22.8 7 Standard Type/Series MHZ2 Finger Position/Options Side Tap Mounting Type [1N1] Through Hole in Opening/Closing Direction [2N2] 4-MM Attachment mounting thread C C B A 4-H Attachment mounting hole S S O O B A Unit: mm Unit: mm Model A 3 4 5 6 Model A 3 4 5 6 B 5.7 7 9 12 C 2 2.5 4 5 MM M2.5 x 0.45 M3 x 0.5 M4 x 0.7 M5 x 0.8 B 5.7 7 9 12 H 2.9 3.4 4.5 5.5 1
state switch HS A B D-F7V D-J79C D-F7WV D-F7BAVL D-A7 D-A80 D-A73C D-A80C D-A79W 32, 40 D-A7 D-A80 D-A73C D-A80C D-A79W D-F7V D-F7BAVL D-F7WV D-J79C Auto switch model A B Hs A B Hs A B Hs A B Hs A B Hs Symbol Standard Stroke Bore size (mm) 32 40 38.5 42 38 41.5 6.5 9 6.5 9 6 (6.5) 9.5 13.5 3.5 6 34 37.5 9.5 13.5 6.5 9 35 38.5 9 (9.5) 31.5 35 6.5 10.5 9.5 13.5 8.5 (9) 13 (13.5) Long Stroke
R C R C (44) G1/2 E A H 2-P Port size B (S) E G1/2 2-M Thread depth N D A H B 2-P Port size 2-M Thread depth N D L L K K N.O.
Round plate (Including column) Position of rotational axis: Through the center A axis B Number of teetha 1. Find the moment of inertia I for the rotation of shaft (B). B 2. I is converted to the rotation of the shaft (A). r B 2 r I = m2 2 b a I I = A B Number of teethb 5.
Solid state switch D-F8 CUJ (As compared with SMC Series CU cylinders without magnet) Dimensions (Without magnet) Series Variations Bore size (mm) A(a) B(b) C(c) Bore size (mm) Rod end configuration Stroke (mm) Clean series 4 6 8 10 15 20 b Action Series Auto switch B Double acting Male thread Without thread None 4 10() 15() 13() 4 Single acting, Spring return 6 13(13) 19(22) 13(33) Double
Round plate (Including column) Position of rotational axis: Through the center (A) Number of axis teeth =a (B) 1. Find the moment of inertia I for the rotation of shaft (B). B r 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teeth =b 5.
Round plate (Including column) Position of rotational axis: Through the center Number of teeth = a (B) axis 1. Find the moment of inertia I for the rotation of shaft (B). r B 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teeth = b 5.
plated M J NBR, Stainless steel 304 D I G F E C Connection thread B A Barb One-touch: M-32F-2, M-04F-2 Applicable tubing (mm) Weight (g) A B C D E M1 M2 Model (O.D. / I.D.)
8370: JIS B 8361: JIS B 9960-1: 1 ) JIS B 8433: *2) 1. 2. 3. 1. 2. 3. 4.
CUJ (As compared with SMC Series CU cylinders without magnet) Dimensions (without magnet) (mm) b Bore Size A (a) B (b) C (c) B 4 6 8 10 10 () 15 () 13 () 13 (13) 19 (22) 13 (33) c + Stroke C + Stroke 13 () 21 () 13 () A 13.5 (15) 22 (24) 13 (36) a Numbers in parentheses are the dimensions of SMC Series CU cylinders.
Round plate (Including column) Position of rotational axis: Through the center axis (B) Number of teetha 1. Find the moment of inertia I for the rotation of shaft (B). B r 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teethb 5.
Option Symbol and Composition Option Symbol and Composition Main body, shading coil material Holder material (in core ass'y) Option symbol Seal material Coil insulation type Main body, shading coil material Standard A B D E F G H J L N P T X Option symbol Seal material Coil insulation type NBR FKM Standard A B D E F G H J L N P T X NBR FKM B Polyacetal B FKM EPDM Brass or BC6, Copper FKM
0(0) 0 o 12. 2 4(7.a B 1(0) 8 10{6. 83 88 104 0(0) 0(3) 2.5{6.5) 4.5 B 1.5(O) 1 . 5 s.st2) 8.s{4.5) 10.5 38 ,t3.5 50.5 B 3(O) 3 10{6) 12i3. = H s 40 43.5 49 55.5 42 50 B 3(0) 3 7 10(6) 12 38 50.5 59 B 3(0) 7.4 10.5(6) 12.5 40 43.5 4S 55.5 35 42 50 Acrtssofies $eries CLA Di mensions Of Accessories lType Single Knuckle Joint Y Type Double Knuckle Joint Malerial: Free cutting sulfer steel l\
0(0) 0 o 12. 2 4(7.a B 1(0) 8 10{6. 83 88 104 0(0) 0(3) 2.5{6.5) 4.5 B 1.5(O) 1 . 5 s.st2) 8.s{4.5) 10.5 38 ,t3.5 50.5 B 3(O) 3 10{6) 12i3. = H s 40 43.5 49 55.5 42 50 B 3(0) 3 7 10(6) 12 38 50.5 59 B 3(0) 7.4 10.5(6) 12.5 40 43.5 4S 55.5 35 42 50 Acrtssofies $eries CLA Di mensions Of Accessories lType Single Knuckle Joint Y Type Double Knuckle Joint Malerial: Free cutting sulfer steel l
Solid state switch D-F8 CUJ (As compared with SMC Series CU cylinders without magnet) Dimensions (Without magnet) Series Variations Bore size (mm) A(a) B(b) C(c) Bore size (mm) Rod end configuration Stroke (mm) Clean series 4 6 8 10 15 20 b Action Series Auto switch B Double acting Male thread Without thread None 4 10() 15() 13() 4 Single acting, Spring return 6 13(13) 19(22) 13(33) Double
+ Stroke K A + Stroke M G J W 16 Minimum lead wire bending radius 10 Auto switch Q F 4 x N through H thread effective depth C 2 x M3 x 0.5 (Port size) I D M E Z L B + Stroke K A + Stroke M G J W Standard [mm] Bore size Stroke range Without magnet for auto switch With magnet for auto switch C D E F G H I J K L M N Q W Z A B A B 12 5 to 30 19.5 16 23 19.5 6 6 23 4 21.5 M3 x 0.5 26 1.5 5 3.5
Find the moment of inertia I for the rotation of shaft (B). B 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teeth=b 5. Solid sphere Position of rotational axis: Through the center of diameter 2 2 r I = m5 27 - Kinetic energy Table (9) shows the allowable kinetic energy of the rotary actuator. The end angular speed is obtained by: Table 9.
C B A A B A B A B ML1C25 ML1C32 ML1C40 MY-S25 MY-S32 MY-S40 5.5 9.5 5 8 M6 X 1 50 35 117 103 6.6 11 6 11.7 M8 X 1.25 64 45 146 128 9 14 5 14.8 M10 X 1.5 80 55 170 148 4.7-9 Series ML1 Construction Component Parts Component Parts Description Note Material No Description Note Hard anodized Hard anodized Hard anodized Hard anodized Hard anodized Material No Aluminum alloy Aluminum alloy Aluminum
To adjust the cylinder speed, use a speed controller. 30 20 CXW32 10 CXWL25 CX2N25 Load mass (kg) CXW20 CX2N25-B, CXWM25 5 CXW16 4 CX2N15-B CX2N15 3 2 CX2N10-B CX2N10 CXW10 1 0.5 10 50 100 200 300 500 1000 Cylinder speed (mm/s) 462 Series CX2 Prior to Use 1. Changing from the non-auto switch specifications to the auto switch specifications 2.