MLGP Bore size (mm) a b c d e b a 6.5 8.5 11 10.5 13.5 17.8 5.5 7.5 10 4 4.5 7 11 13.5 18.5 40 50 63 Note 2) For intermediate strokes, dimensions A, B, C, E, WA, and WB will be the same as the longer of the standard strokes. c d e MLGPM, MLGPL common dimensions (mm) IC Standard stroke (mm) Bore size (mm) B C DA FA FB G GA GB GC H HA IA Extension locking Retraction locking ID IE IH J K L IB 100
Component Parts Replacement Parts No. u i Description Description Sub-plate Pilot valve No. q w e r t y Note Aluminum die-casted Part no.
P(D Appendix e/How to caculate a rnomenl of ineriia .e@ Difilensions ..,,.,.,.,,.,.,,.,.,., C6 with Auto switch.-. e@ Auto Swilch DiagramgRolatron Into. ..
E NF 10 N JD N JC 10 A K F NA S + Stroke F H WH B ZZ + Stroke (mm) A B C D E F GA GB H H1 H2 I Bore size (mm) Stroke range (mm) Effective thread length 26 8 5 44 47.5 53.5 16 14.5 10 18 40.5 32 15.5 200 to 700 20 31 8 6 48 49.5 56.5 16 18 12 22 45.5 36 19.5 200 to 700 25 38 9 6 51 51.5 55 19 18 12 22 51.5 44 19.5 200 to 1000 32 47 11 8 54.5 51.5 56 21 20.5 16 24 61.5 53 21 200 to 1000 40
Applicable cylinder D G F H L I C E J K M N Part No.
Brazil EXW1-BMJAAE E EXW1-BMJAAN N EXW1-BMJABE E EXW1-BMJABN N A Base MJ B A B EXW1-RDXNE4AE E EXW1-RDXNE4AN N EXW1-RDXNE4BE E EXW1-RDXNE4BN N EXW1-RDYNE4AE E EXW1-RDYNE4AN N EXW1-RDYNE4BE E EXW1-RDYNE4BN N EXW1-RDMPE3AE E EXW1-RDMPE3AN N EXW1-RDMPE3BE E EXW1-RDMPE3BN N EXW1-RDMNE3AE E EXW1-RDMNE3AN N EXW1-RDMNE3BE E EXW1-RDMNE3BN N A DX N B E4 A EXW1 DY N B Remote R A P B DM E3 A N B -17No.EX-OMZ0016
~I ~--~~ K ~~ P~ ' ~k I -TFunnion Pin' . , nue ' :e In . L L 1===:: . e ~l Nut ftO'a E . d Nilt ;1 ' , 0 , d d u {} B I I H B ILH ~ I Model j Bore,size(rnm} . d , I .Ji'.. ..I ~. e ~:C _ ~1IlIO
e r w t q w q t VSR8-2-FG-DVSS8-2-FG-De r e r w q t w q t VSS8-2-DFHG FIG FJG VSR8-2-DFHG FIG FJG e r e r w q t w q t VSR8-2-DFDAG FDBG FDCG e r w q t Replacement Parts VSR8-2-DFDAG FDBG FDCG VSR8-2-DFHG FIG FJG VSR8-2-FG-DVSR8-2-FG-SVSS8-2-DFHG FIG FJG VSS8-2-FG-DVSS8-2-FG-SDescription No.
2 @1 e u o t @3 !8 @0 @0 @2 !4 !7 !1 !9 !2 @1 @4 e u o t @3 !8 @0 @0 @2 q w r @5 y !5 !6 i q w r @5 y !5 !
2 e @1 q @7 @5 @8 MY CXSM10 CXSM15 CY @0 !5 @9 @4 r w !3 i !0 @2 u t !6 @0 !5 @9@3@4r w !3i!0@2u t!6 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 D-X 20!4 y e !1 !2 @3 @1 q !4y e !1 !2 q @1 Data CXSM20 to 32 @0 !5 !6 @3 @4rw o i !0 u @2 t !4 y e !1 !
Non-locking push type Push-turn locking slotted type Push-turn locking lever type R port P, E port Note) Enter the cable length symbol in .
connector type Plug connector with cover type Cable type L LL TT Symbol Port size Applicable series Without sub-plate Nil 02 02 03 03 04 1/4 1/4 3/8 3/8 1/2 52-SY5000 Lead wire length 52-SY7000 3 6 10 15 20 30 100 300 mm 600 mm 1000 mm 1500 mm 2000 mm 3000 mm 10 mm (Semi-standard) 52-SY9000 Manual override Non-locking push type Push-turn locking slotted type Push-turn locking lever type Nil D E
NO. 19 NO. , 26 , 41 - 10-2 CEU5 , ROM , , ,SMC RAM , ,SMC 2ROM E ,, , , 2ROM E 2ROM 80 E , , ,SMC , 42 -
(0-149) D RESET SVON <> <> (0-901) E <> (0-902) E <> <> <> (0-910) E <> SDRAM SDRAM (0-911) E <> 87 No.SFOD-OMT0009CN-B code <> FROM FROM (0-912) E <> <> Modbus (CI 1 2 CI 3 4)OFF <> Modbus (0-913) E <> (0-914) E <> 88 No.SFOD-OMT0009CN-B (2) code <> , [] (1) (2) =0 (3) (4) (5) (6) (7) (1-048) B RESET <> <> [] (1) -+ (2) (1-049) B <> RESET <> + JOG <> + (1-052
R R: Gripping point distance [mm] 6 MHL2 Series Construction 10 16 to 25 e r t u w y @4 @0 @1 @2 !7 !5 !8 @3 !3 e o i q @6 @7 @3 @5 !9 !0 !2 !1 !6 !4 Component Parts No. Description Material Note 1 Body Aluminum alloy Hard anodized No.
H w H w H e e H H r 2.2-2 Series KJ Male connector: KJH Thread (T) UNF NPT 10-32UNF <10-32UNF> <10-32UNF> Tube O.D. (inch) H (Hex.) Min. hole dia.
Common exhaust: VV3P7-41Stations 1-04 (G) (E) (T) (D, Y) N.C.
1 Drain q r e w t i u y o !0 !
L1 L2+A5 L3 2 1 W V 2 E= ( ) 2 9.8 1000 Collision speed V=1.4 Va *) Corrected coeficient 1 10 420 E= ( ) =0.09 2 9.8 1000 V=1.4 x 300=420 Calculate kinetic energy E(J) of moment. Calculate allwable kinetic energy Ea(J). Check that kinetic energy of moment does not exceed allowable kinetic energy.