Guide Cylinder Series MGG depth 14.5 M16 x 2 depth 28 27 30 55 200 13.5 115 76 170 214 30 160 M12 x 1.75 depth 24 262 138 70 75 230 234 17.5 23 depth 17 M18 x 2.5 depth 32 30 32 70 245 15 125 80 210 245 35 190 304 153 M14 x 2 depth 28 80 85 280 274 For long strokes Bracket mounting strokes Bore size (mm) Stroke range (mm) Bore size (mm) Bore size (mm) Bracket mounting stroke Z Y X W V U T S R Q P Y R O 63 80 100 63
W W D E d M a MA Q C A K F NA NB B H S + Stroke M ZZ + Stroke With rod boot e 10 l f h + l ZZ + l + Stroke (mm) Bore size (mm) A a d B C F G GA GB K M MA NA NB R S Q V W T P J MM E D 0 0.018 0 0.021 0 0.021 0 0.021 0 0.025 0 0.025 0 0.025 0 0.062 0 0.062 0 0.074 0 0.074 0 0.074 0 0.074 0 0.087 40 17 45 23 10 60 17.5 M8 x 1.25 18 M14 x 1.5 7.5 8 44 18 9.5 13 11 25 20 1/4 14 30 22 37 106 5
Operating cylinder E-MY2H25-500 Set speed 400 mm/s Note) 1. Horizontal mounting 2. Wall mounting Set acceleration degree a 4.9 m/s2 Note) y z Mounting orientation Wall mounting Wb: MGGLB25-200 (4.35 kg) x y E-MY2H25-500TAN x z 3.
) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 13 13 l + Stroke 9 l 9 A K f N N f K A ZZ + 2 Stroke S + Stroke h + Stroke h Without Air Cushion S ZZ Stroke range Width across flats Bore (mm) Eff. thread length C B A D Ee11 F G H MA MB J K MM N P V W S ZZ 32 40 50 63 80 100 125 46 52 65 75 95 114 136 32.5 38 46.5 56.5 72 89 110 12 16 20 20 25 30 32 30 35 40 45 45 55
speed mm/s Piston speed mm/s Piston speed mm/s 8-16-7 7 Series CY1F Vertical Actuation 1.
m P 0.1 x m + m P D 1.6 x D 5.0 x D 5.0 x m m mv P Pv m > mv P > Pv Determination of allowable load mass & pressure Inclined operation (Refer to page 1548
speed mm/s Piston speed mm/s Piston speed mm/s 8-16-7 7 Series CY1F Vertical Actuation 1.
ZF Left Right 15 -60 -60 ZP 10 -40 -40 Air consumption ZCU -20 -20 5 S 1 S 2 R U N L HL H S 1 S 2 R U N L HL H S 1 S 2 R U NL HL H S 1 S 2 R U NL HL H S 1 S 2 R U N L HL H S 1 S 2 R U N L HL H S 1 S 2 R U N L HL H S 1 S 2 R U N L HL H kP a M O DE SET1 SET2 kP a M O DE SET1 SET2 kP a M O DE SET1 SET2 kP a M O DE SET1 SET2 kP a M O DE SET1 SET2 kP a M O DE SET1 SET2 kP a M O DE SET1 SET2 kP
Contents Action CQSB12-S-PS CQSB12-T-PS 12 12 Kits include items !2, !3 and !4 from the table above. CQSB16-S-PS CQSB16-T-PS 16 16 Kits include item !3 Single acting Spring return Single acting Spring extend CQSB20-S-PS CQSB20-T-PS 20 20 from the table above. CQSB25-S-PS CQSB25-T-PS 25 25 Seal kits consist of item !
Reducer elbow Union Y Use to change by 90 in a tube fetching direction from Onetouch fitting and to size down. P . 27 P . 28 KQ2L KQ2U Use to branch line in the same direction. How to Order KQ2 H 05 S 02 With thread seal One-touch fittings Nil Without seal S With thread seal Applicable tubing O.D.
2 VQ5250 (A) 4 (B) 2 1 (P) 5 (R1) 3 (R2) 1 (P) 5 (R1) 3 (R2) VQ5351 (A) 4 (B) 2 VQ5350 (A) 4 (B) 2 1 (P) 5 (R1) 3 (R2) 1 (P) 5 (R1) 3 (R2) (A) 4 (B) 2 VQ5451 VQ5450 (A) 4 (B) 2 1 (P) 5 (R1) 3 (R2) 1 (P) 5 (R1) 3 (R2) VQ5551 (A) 4 (B) 2 VQ5550 (A) 4 (B) 2 1 (P) 5 (R1) 3 (R2) 1 (P) 5 (R1) 3 (R2) Parts list Parts list Description Material Note No. 1 2 3 Description Material Note No. 1 2 3 Body
8 / 3 S 6 3 7 0 Y R K 1 1 / 6 1 ) 6 4 . 7 1 ( 6 1 . 1 ) 5 . 9 2 ( 9 7 . 1 ) 5 . 5 4 ( 7 3 6 1 . 1 ) 5 . 9 2 ( 3 0 . 2 ) 5 . 1 5 ( 1 9 . 0 ) 3 2 ( 8 2 . 0 ) 7 ( 4 / 1 S 5 3 1 1 Y R K 2 3 1 1 / 6 1 ) 6 4 . 7 1 ( 9 8 . 0 ) 7 . 2 2 ( 7 6 . 0 ) 7 1 ( 0 1 . 1 ) 8 2 ( 8 / 3 S 6 3 1 1 Y R K 4 2 . 1 ) 5 . 1 3 ( 9 0 . 2 ) 3 5 ( 1 4 8 / 3 2 / 1 S 7 3 1 1 Y R K 0 4 . 1 ) 5 . 5 3 ( 9 1 . 2 ) 5 . 5 5
(The part number has a P suffix.) Metal Stopper Table Extension stroke end Retraction stroke end C D M B B E M P A C F Metal stopper only M G A D A MXQA-A38 Model Adjuster part no.
This may cause damage to the machinery. ) m m ( e z i s e r o B e v l a v n o i h s u C s t a l f s s o r c a h t d i W h c n e r w n o g a x e H 0 5 , 0 5 , 2 3 7 4 2 1 C 0 1 2 3 B M 5 . 2 5 . 2 y e k h c n e r w n o g a x e H 0 0 1 , 0 8 , 3 6 0 5 2 1 C 0 1 3 6 B M 4 4 y e k h c n e r w n o g a x e H Mounting & Piping 2. Be certain to activate the air cushion at the stroke end.
2 r e y @4 @8 @0 !0 i @3 o @4 @8 @7 u @2 r y RE A B REC !9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !6 @6 RHC MK(2) #7 #6 !5 RS Q G RS H A !9 @5 t @6 y #0 w @1 #0 #5 !7 #4 q @9@2 !8 #1 #2 !7 #5 #4 @1 RZQ MI W S CEP1 Component Parts CE1 No. No.
-X 20Data P . 10-12-8 P . 10-12-30 P . 10-12-18 P . 10-12-27 10-12-1 2 Achieve rationalization of production lines with position feedback Stroke reading cylinder Measurement is possible throughout the full stroke range.
Axial foot type/(L) BC SMC CLS125 MODEL FREE LOCK CHECK Cylinder With$ Locking Mechanism 5 30 Rc(PT) 1/4 S + Stroke BY H Unlocking port (unlocked when pressurized) Plug with breathing hole GC BB BA 43 A K For long strokes AL M (tie-rod reinforcement ring) GA M 2-Rc(PT) P 14 GA MM BZ GB 4-J RY LY 59 90 D 419 W LH LT Y X N RT Y X N LX Width across flats KA C LS + Stroke B ZZ + Stroke With rod
M16 x 1.5 21 34f8 22 5 Hydraulic Cylinder: 7MPa Series CHN Axial foot type: CHNL H GA2 GB2 I Rc P Rc P Rc P K A F GA1 GB1 T V Cushion valve Effective thread H2 width across flats B2 Cushion valve Cushion valve H1 width across flats B1 MM D 4-LD W LH LT Width across flats E GB3 GA3 Air release Air release NA NB S + Stroke X X LS + Stroke Y Y LX ZZ + Stroke LZ (mm) Bore size (mm) Stroke range
Coordinates and Moments z M3: Yawing M1: Pitching y x M2: Rolling Static moment Ceiling mounting Horizontal mounting Wall mounting M1 M2 M2 M1 M2 M3 y X x Y y z X x Y X x Z m1 x g m2 x g m3 x g Vertical mounting Mounting orientation Horizontal Ceiling Wall Vertical m1 m2 m3 m4 Static load m M3 M1 m1 x g x X m2 x g x X m4 x g x Z Static moment M1 m1 x g x Y m2 x g x Y m3 x g x Z y z M2 z Y
+ A = 100 y, z + A 100 10 y, z + A = 200 y, z + A = 200 y, z + A = 300 y, z + A = 300 1 1 0 200 400 600 800 1000 1200 0 100 200 300 400 500 600 700 800 Stroke [mm] Stroke [mm] [Graph 6] Allowable load mass by stroke 32 [Graph 5] Allowable load mass by stroke 25 100 100 y, z + A = 0 y, z + A = 0 y, z + A = 50 y, z + A = 50 10 Load mass [kg] Load mass [kg] 10 y, z + A = 100 y, z + A = 100