End Lock Cylinder Series CBM2/ø20, ø25, ø32, ø40 Series CBA1/ø40, ø50, ø63, ø80, ø100 CL MLGC CNA CB CV/MVG Maintains the cylinder’s CXW original position even if the CXS air supply is interrupted. CXT MX MXS MXQ MXF MXW MXP Locked MG rWhen air pressure is supplied to the head side, this pressure pushes the lock piston upward to disengage the lock. MGP MGQ MGG MGC Unlocked MGF tAs the lock has been disengaged, the cylinder moves forward.
Rear plate 2-0 through MX A MTS U W A MY CY R V AP MG Y + Stroke Z + Stroke AB 4-AK hole 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 CX For 4-A0 D-X 20Cutout window WH (Max.)
MG 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 Application example CX Stroke (mm) Traveling parallelism 5 to 30 0.05 mm or less 40 to 60 0.1 mm or less D-X 20Auto switches offer numerous variations Reed switch, solid state switch, and 2-color indication solid
Number of fingers and therefore, mg F 2 x With "a" as the safety margin, F is determined as follows: mg F = x a 2 x When = 0.2 When = 0.1 mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg 10 x workpiece weight 20 x workpiece weight (Note) Even in cases where the coefficient of friction is greater than = 0.2, for safety reasons, SMC recommends selecting a gripping force which
= 0.1 mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg 10 x workpiece weight 20 x workpiece weight (Note) Even in cases where the coefficient of friction is greater than = 0.2, for safety reasons, SMC recommends selecting a gripping force which is at least 10 to 20 times the workpiece weight.
force at least 10 to 20 times the workpiece weight The 10 to 20 times or more of the workpiece weight recommended by SMC is calculated with a margin of a = 4, which allows for impacts that occur during normal transportation, etc. 2 x F > mg Number of fingers and therefore, When = 0.2 When = 0.1 mg F > 2 x mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 With a representing the margin, F is determined
the workpiece will not drop are F F mg 2 x F > mg Number of fingers Gripping force at least 10 to 20 times the workpiece weight The 10 to 20 times or more of the workpiece weight recommended by SMC is calculated with a safety margin of a = 4, which allows for impacts that occur during normal transportation, etc. and therefore, When = 0.2 When = 0.1 mg F > 2 x mg F = x 4 2 x 0.2 mg F =
Number of fingers and therefore, mg F 2 x With "a" as the safety margin, F is determined as follows: mg F = x a 2 x When = 0.2 When = 0.1 mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg 10 x workpiece weight 20 x workpiece weight (Note) Even in cases where the coefficient of friction is greater than = 0.2, for safety reasons, SMC recommends selecting a gripping force which
= 0.1 mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg 10 x workpiece weight 20 x workpiece weight (Note) Even in cases where the coefficient of friction is greater than = 0.2, for safety reasons, SMC recommends selecting a gripping force which is at least 10 to 20 times the workpiece weight.
the workpiece will not drop are F F mg 2 x F > mg Number of fingers Gripping force at least 10 to 20 times the workpiece weight The 10 to 20 times or more of the workpiece weight recommended by SMC is calculated with a safety margin of a = 4, which allows for impacts that occur during normal transportation, etc. and therefore, When = 0.2 When = 0.1 mg F > 2 x mg F = x 4 2 x 0.2 mg F =
= 0.2 When = 0.1 mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg 10 x work piece weight 20 x work piece weight (Note) Even in cases where the coefficient of friction is greater than = 0.2, for safety reasons, SMC recommends selecting a gripping force which is at least 10 to 20 times the work piece weight.
= 0.1 mg F = x 4 2 x 0.2 and therefore, mg F > 2 x mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg With "a" representing the extra margin, F is determined by the following formula: 10 x work piece weight 20 x work piece weight Note) Even in cases where the coefficient of friction is greater than = 0.2, for reasons of safety, a gripping force should be selected which is at least 10 to 20 times
Number of fingers and therefore, mg F 2 x With "a" as the safety margin, F is determined as follows: mg F = x a 2 x When = 0.2 When = 0.1 mg F = x 4 2 x 0.2 mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg 10 x work piece weight 20 x work piece weight (Note) Even in cases where the coefficient of friction is greater than = 0.2, for safety reasons, P/A recommends selecting a gripping force which
Width across flats MG MB series MN (mm) Bore size (mm) MG 17 19 24 24 27 32 MH 44 48 53 53 72 75 MI 23 32 38 38 45 55 MK 9 10 13 13 14 17 ML 20 22 24 24 32 35 MN M8 x 1.25 M10 x 1.25 M14 x 1.5 M14 x 1.5 M16 x 1.5 M20 x 1.5 ZZ 175 183 205 205 258 261 32 40 50 63 80 100 MI MK 4 H1 ML + Adjustment Stroke MH + Stroke + Adjustment ZZ + 2 x Stroke + Adjustment (A: 25 mm, B: 50 mm) Width across
/m3 (ANR) ( 0.8 ppm) 2 3 AFD20-A to AFD40-06-A Max. 0.1 mg/m3 (ANR) (Before saturated with oil 0.01 mg/m3 (ANR) or less 0.008 ppm) 2 3 Rated flow [L/min (ANR)] 1 AFM20-A to AFM40-06-A 200 450 1100 AFD20-A to AFD40-06-A 120 240 600 Drain capacity [cm3] 8 25 45 Bowl material Polycarbonate Bowl guard Semi-standard (Steel) Standard (Polycarbonate) Weight [kg] 0.09 0.19 0.38 0.43 1 Conditions
1 Air Slide Table Long Stroke Type Series MXY 6, 8, 12 MX MTS MY CY MG 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 CX MXP D-X 20Data A long stroke type of Series MXP air slide table with integrated linear guide is newly released. 8-9-1 2 Use of linear guide provides
Acid consumption [pH4.8](mgCaCO3/L) 100 or less 50 or less 50 or less Total hardness (mgCaCO3/L) 200 or less 70 or less 70 or less Calcium hardness (mgCaCO3/L) 150 or less 50 or less 50 or less Ionic state silica (mgSiO2/L) 50 or less 30 or less 30 or less Iron (mg/L) 1.0 or less 0.3 or less 1.0 or less Copper (mg/L) 0.3 or less 0.1 or less 1.0 or less Reference items Sulfide ions (mg/L)
/L) 200 50 50 (mg/L) 200 50 50 [pH4.8](mgCaCO3/L) 100 50 50 (mgCaCO3/L) 200 70 70 (mgCaCO3/L) 150 50 50 (mgSiO2/L) 50 30 30 (mg/L) 1.0 0.3 1.0 (mg/L) 0.3 0.1 1.0 (mg/L) (mg/L) 1.0 0.1 1.0 (mg/L) 0.3 0.3 0.3 (mg/L) 4.0 4.0 4.0 6.07.0 1 2 JIS K 0101 2 a b c 4.2 IDF100150F-W 4 2 IDX-OM-Z004 4 (3) 1 Y Y , Y Y (4) 3 2 (5) 1( 2 3 4 a) 1. 1.5 2. 4.2
Ammonium ion (mg/L) 1.0 or less 0.1 or less 1.0 or less Residual choride (mg/L) 0.3 or less 0.3 or less 0.3 or less Free carbon dioxide (mg/L) 4.0 or less 4.0 or less 4.0 or less Stability index 6.0~7.0 or less The water that passes through the water-cooled condenser is referred to as cooling water.
) 22.8 10.5 7.4 58.5 39.7 41.8 9.2 22 28.5 22.9 20.4 10.5 8 8 3 x C2, C4, N1, N3 <1(P), 5(EA), 3(EB) port> C2: 2 One-touch fitting C4: 4 One-touch fitting N1: 1/8" One-touch fitting N3: 5/32" One-touch fitting 8.7 With plug connector/light, built-in silencer S0716S-mM(O)-m 16.7 2-Position Double/4-Position Dual 3-Port Grommet: S07 6-mG-m 2 A B C 8 2 x 3.2 5.3 2 x C2, C4, N1, N3 <4(A), 2