CG5-S Mineral oil A C A A A A 18 Sodium hypochlorite (2%, Room temperature) A C A D D B 19 Sodium chloride A A A A B 20 Carbon dioxide A A A A A A 21 Natural gas A A A A A A 22 Boric acid A B A D A B 23 Unless noted otherwise, the solution concentration is in a saturated state.
Series ZM 13-14-20 4.
The kinetic energy of a load can be found using the following formula. 20 10 5 M 100 300 1000 2000 500 M 2 2 Ek = Maximum drive speed (mm/s) Ek: Kinetic energy (J) M: Weight of load (kg) : Piston speed (m/s) Example) Find the rod end load limit when a 63 air cylinder is operated at a maximum drive speed of 500mm/s.
10 J 6 Mounting base side B D 10 9.5 Across AA MXP10-20 Without magnet and switch rail 2-M30.5, 3.5 deep 2-M20.4, 3 deep For magnet mounting For rail mounting 8 2.5 4.7 6-M30.5 15 15 4 deep L (mm) Model G H J K L M N S V W Z MXP10-10 8 32 52.4 20 20 21 6.5 10 44 40 60 MXP10-20 20 50 82.4 36 36 39 7.5 20 74 65 90 168 168 Precision Air Slide Table Series MXP Dimensions 12 MXP12 Scale:55%
F A A Lr MXF8 Lr = 20 mm 0.04 0.04 0.08 MXF8-30 Table displacement amount (mm) Table displacement amount (mm) Table displacement amount (mm) MXF8-30 0.03 0.06 0.03 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com MXF8-20 MXF8-10 MXF8-20 MXF8-30 0.02 0.04 0.02 MXF8-
across flats MB J K MM N P V W S ZZ S ZZ A C B D Ee11 F G H 32 40 50 63 80 100 4 4 5 5 5 5 M6 x 1 6 6 7 7 10 10 M10 x 1.25 26.5 26.5 31 31 37.5 37.5 1/8 1/4 1/4 3/8 3/8 1/2 84 84 94 94 114 114 178 186 210 210 258 258 90 90 102 102 124 124 184 192 218 218 268 268 32.5 38 46.5 56.5 72 89 12 16 20 20 25 30 30 35 40 45 45 55 13 13 14 14 20 20 47 51 58 58 72 72 46 52 65 75 95 114 22 30 35 35 40
2 w i A CJ1 CJP CJ2 A Cylinder tube sectional view A-A !0 o CM2 CG1 Component Parts MB No. q w e r t y u i o !0 !1 No.
B C GA H1 FF GL F GD D E E GC M BB J BL C CC D EE GB K AA AL Bore size (mm) Without rod boot With rod boot 40 50 63 80 100 25 to 850 25 to 700 45 30 10 10 10 54 32 26 11 22 20 44 16 11 15 6 27 71.5 60 42 22 21 150.5 8 M8 x 1.25 25 to 800 25 to 650 50 35 12 13 10 59 40 27 11 27 21 52 20 10 17 9 32 80.5 70 46 24 28.5 162.5 11 M8 x 1.25 25 to 800 25 to 650 60 35 15 18 10 67 40 26 27 23 64 20
The kinetic energy of a load can be found using the following formula. 20 10 5 M 100 300 1000 2000 500 M 2 2 Ek = Maximum drive speed (mm/s) Ek: Kinetic energy (J) M: Weight of load (kg) : Piston speed (m/s) Example) Find the rod end load limit when a 63 air cylinder is operated at a maximum drive speed of 500mm/s.
J Prevent air from being drawn into the hydraulic piping. DWhen operating a stop valve or a skip valve with a solenoid valve, considering it is an external pilot, provide pneumatic piping with 0.3 to 0.7 MPa of air pressure. The pressure for the pilot must be set to the operating pressure of the cylinder or higher.
INP 1 INP ON 0.50 2 INP ON a bINP ON < / [mm/sec] [mm/sec] 1 4 30% 1 4 40% 5 20 35% 5 20 60% LEY*16** 21 50 60% 85% LEY*16*A* 21 50 80% 95% 1 4 20% 1 4 40% 5 20 35% 5 20 60% LEY*25** 21 35 50% 65% LEY*25*A* 21 35 80% 95% 1 4 20% 5 20 35% LEY*32** 21 30 60% 85% -41- LEY*16** LEY*25** LEY*32** LEY*16*A* LEY*25*A* A B C A B C A B C A B C A B C [kg] 1 1.5
Take measures for drop prevention by strut, etc. * For lock unit with a rod boot, add J to the part number suffix. Example) MWB50TF-UA-J 2.
1.5 LEFB LEFB16 LEFB25 LEFB32 T [mm] 48 mm/s 1100 1400 1500 [mm/s] () 48 [mm/s] () 78 1.6 LER LER10 LER30 LER50 J K J K J K [mm] 12 8 12 8 12 7.5 mm/s 420 280 420 280 420 280 [mm/s] () 30 20 30 20 30 20 [mm/s] () 38 25 38 25 38 25 1.7 LEH LEHZ(J)10 LEHZ(J)16 LEHZ(J)20 LEHZ(J)25 LEHZ32 LEHZ40 K [mm] 251/73 249/77 246/53 243/48 242/39 254/43 (3.438) (3.234) (4.642) (5.063) (6.205
PB H thread depth C Vent hole Note 3) J PC EV Z T M U D K Note 2) L R 4 x O1 thread depth R W A + Stroke B + Stroke S EH M 6 x MO thread depth MR XA H9 depth XA MH Section XX details MA ML + Stroke MC MD Section XX XB XA H9 XA [mm] Incremental encoder Absolute encoder B C D EH EV Without lock With lock Without lock With lock A W Z A W Z A W Z A W Z Size Stroke range [mm] 25 15 to 100 238
l b --" ,m'i$;:f, 4ra 20 Standard Stroke lmm) 30 40 50 60 75 100 125 175 200 225 250 275 300 350 400 150 Y f r N t * w -l Yw Y Ns a a a a a a a a a a a a a o a a a a a a a a a a a a a a a a a '*?
Width across flats B1 GA GB Bore size A AL B1 H H1 MM ZZ 2-Rc P H1 20 14 12.7 11.0 25.4 4.0 1/4-28 108.4 M BM 25 14 12.7 12.6 28.4 4.8 5/16-24 111.4 (E1) 32 21 19 17.3 41.4 6.4 7/16-20 126.4 D I 40 19 16.6 17.3 41.4 6.4 7/16-20 134.4 MM BZ B2 AL A 50 22.4 19.8 18.8 52.6 7.9 1/2-20 161.6 K KA 63 22.4 19.8 18.8 52.6 7.9 1/2-20 161.6 (F1) Plug bolt (4 pcs. included) C 80 8-J 0.1 S + Stroke
three sides) 3-R2.5 12 2 +0.030 0 3-5H9 long groove depth 4 (one each on three sides) 50h9 0 -0.062 M5 x 0.8 Port A M5 x 0.8 Port B 4-M6 x 1 depth 10 I N J E A D P A A M N 16.5 27 6.5 8 17.5 26 R SMC R E 16 8 O P P T A I R R G Y R A I 48 36 Side A Side B 12-11-15 16 Series MRHQ Dimensions MRHQ25 A 70 58 B 93 4-M6 x 1 depth 10 47 64 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South
A 1 () () [] A 2 LECSSSeries/ / *3) 1 1.5 *3)1 1 A 3 1. 15P()-N() 2. L1L2L3 (MC) 3. () () A 4 4. (1) 0+55() 0+40() -20+65() -15+70() 90%RH() 80%RH() 90%RH() () 1000m LECS-S5 LECS-S7 LECS-S8 () 5.9m/s2 XY49m/s2 .
4 A 4 A 4 A 4 A 4 One-touch fitting [1(P), 3/5(E) port] Applicable tubing O.D.: 10 (SMC) (17.4) (7.5) (11.8) (For DIN rail mounting) (Pitch) P=11.5 10PGC (20 pins) 10PHC (10 pins) 27.9 15.8 One-touch fitting [4(A), 2(B) port] Applicable tubing O.D.
25 31 EC 6.5 8.5 9.5 ED 60 74 94 EY 53.5 67 81.5 FA 46.7 67.3 67.3 FB 33 43 43 FC 13 17 17 FF 6 6 6 FH 12 16 16 TA 7 12 12 TT Max. 16.5 Max. 20 Max. 25 Applicable cylinder ML2B25 ML2B32 ML2B40 D-X 717 ML2B Series Dimensions Side support A MY-SA 2 x G F E 2 x H A B C D Side support B MY-SB 2 x J A B C D A 61 70 87 B 75 84 105 C D E F G H J Part no.