Stations: 4 Stations, Exhaust Style: 3 (Individual Exhaust), A Port Size: 02 (1/4 Individual Exhaust), Thread: Rc
Stations: 5 Stations, Exhaust Style: 2 (Common Exhaust), A Port Size: 01 (1/8 Common Exhaust/Individual Exhaust), Thread: F (G)
Stations: 20 Stations, Exhaust Style: 2 (Common Exhaust), A Port Size: 01 (1/8 Common Exhaust/Individual Exhaust), Thread: T (NPTF)
Stations: 6 Stations, Exhaust Style: 3 (Individual Exhaust), A Port Size: 02 (1/4 Individual Exhaust), Thread: T (NPTF)
Stations: 14 Stations, Exhaust Style: 2 (Common Exhaust), A Port Size: 01 (1/8 Common Exhaust/Individual Exhaust), Thread: T (NPTF)
Stations: 14 Stations, Exhaust Style: 3 (Individual Exhaust), A Port Size: 01 (1/8 Common Exhaust/Individual Exhaust), Thread: T (NPTF)
Stations: 4 Stations, Exhaust Style: 2 (Common Exhaust), A Port Size: 01 (1/8 Common Exhaust/Individual Exhaust), Thread: F (G)
Stations: 16 Stations, Exhaust Style: 3 (Individual Exhaust), A Port Size: 02 (1/4 Individual Exhaust), Thread: N (NPT)
Rotary One-touch Fittings Manifold Series KM .** .101 (9) TB .102 (9-1) TB . 102 (9-2) TB . 103 (9-3) TB . 103 (10) .104 3 - (10-1) . 104 6.4 .105 1.105 11. 105 2.106 21. 106 3.107 31. 107 7. /.109 8. /.110 8.1 .110 8.2 .111 8.3 .112 8.4 .113 8.5 .114 8.6 .114 9. .115 9.1 /.115 9.2 .115 9.3 .117 9.4 .117 9.5 .118 9.6 .118 9.7 .118 10. .119 .121 .121 1TB Ver1.**.121 2TB Ver2.**.123 4 - LEC-T1 Series/ (ISO/IEC)(JIS) *1) *2) *1) ISO
J MVGQM (Slide bearing) A, DB, E Dimensions MVGQL (Ball bushing bearing) A, DB, E Dimensions DSymbol A E Symbol Bore size (mm) 40 A DB E DB Bore size (mm) Stroke Up to 50 st Over 50 st Up to 50 st Over 50 st -X 40 54 90 0 36 16 71.5 20 17.5 50 50 60 102 4 46 20 81 25 25 2063 63 61 102 0 41 20 81 25 20 Data 10-16-13 14 Valve Mounted Guide Cylinder Series MVGQ 80, 100 How to Order How to Order
. 9 3 . 10 31 . 10 32 . 12 33 . 13 1LECGPR1 . 13 2DIN LECGPR1D . 13 34 . 14 1 . 14 2 . 14 4 . 15 41 ADDRESS,B RATE . 15 42 CN2SW . 16 43 LEC . 17 44 SIEMENS PLC S7 . 19 5 . 21 51 CN4: . 21 52 CN3: . 21 53 CN1:CONT . 21 54 CN2:PC/TB . 22 1 - 6CN . 23 61 . 23 62 . 23 63 . 24 . 25 7CN3: . 26 8CN1:IF CONT . 27 81 . 27 82 . 29 9CN2:TB/PC . 30 91 . 30 10LED . 31 101 LED . 31 102
6 Series VH How to Order VH 2 0 1 02 1(P) port location Hand valve R Standard (Opposite to handle side) Handle side Body size (Base size) Port size (nominal size) 2 3 4 6 1/4 base 3/8 base 1/2 base 1 base 02 03 04 06 10 1/4 3/8 1/2 3/4 1 Piping/Mounting Mounting method Body mounted Panel mounted Body mounted Panel mounted Piping (1) Side Side Bottom Bottom Symbol 0 1 2 3 Port thread N F
Refer to pages starting with 181 for mounting. 95 95 100 8(4)-6.2 B () () (170) A 110 20 95 95 () () (150) A B A B 100 200 300 400 500 600 Stroke Model LG1H212SC-700-F-X10 LG1H212SC-800-F-X10 LG1H212SC-900-F-X10 LG1H212SC-1000-F-X10 LG1H212SC-1200-F-X10 Stroke Model LG1H212SC100-F-X10 LG1H212SC200-F-X10 LG1H212SC300-F-X10 LG1H212SC400-F-X10 LG1H212SC500-F-X10 LG1H212SC600-F-X10 580 680
4 = 100 ff, f 1 = 40"F, T2 = AO"F, VZ = ? We have to use th absolute tompratures in H (Rankine), thus 1oo v2 vz= 19!Ij!2Z=1ssrt" 4997 539?
4 = 100 ff, f 1 = 40"F, T2 = AO"F, VZ = ? We have to use th absolute tompratures in H (Rankine), thus 1oo v2 vz= 19!Ij!2Z=1ssrt" 4997 539?
F A F MX MTS Lr MY 16 16 16 Lr = 120 mm MXQ16-10 MXQ16-10 MXQ16-10 0.04 MXQ16-75 MXQ16-100 MXQ16-125 MXQ16-75 MXQ16-100 MXQ16-125 MXQ16-125 MXQ16-125 MXQ16-125 CY MXQ16-50 MXQ16-50 MXQ16-50 0.06 MXQ16-75 MXQ16-20 MXQ16-30 MXQ16-20 MXQ16-20 MXQ16-30 MXQ16-30 0.12 Table displacement amount (mm) Table displacement amount (mm) Table displacement amount (mm) MXQ16-75 MXQ16-40 MXQ16-75 MXQ16-75
B * s e i r e S F L A N r o t a c i r b u L d e e F o t u A l e d o M 0 0 4 F L A N 6 0 N 0 0 4 F L A N 0 0 5 F L A N 0 0 6 F L A N 0 0 8 F L A N 0 0 9 F L A N e z i s e p i P 8 / 1 8 / 3 2 / 1 4 / 3 4 / 3 1 1 4 / 1 1 2 / 1 1 2 m f c s p i r d l i o r o f w o l f . n i M 2 . 2 5 . 3 2 . 4 2 . 4 6 . 6 7 . 7 1 . 6 1 3 2 3 6 ) f g k ( s b l t h g i e W ) 5 8 . 0 ( 7 8 . 1 ) 8 8 . 0 ( 4 9 .
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 =
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 =