C85 2-LD D D SW C KK ND B LH K NA LX AM NA 3 N1 N2 L S + Stroke H ZZ + Stroke Head cover Y Head cover F (mm) NA Bore KK ZZ AM B C D EE G1 G2 H K L LD LH LX N1 N2 ND h8 S SW WH XB 0 0.033 0 0.033 20 20 8 28 106 20 G 1/8 30 6 15 21 76 13 10 22 33.5 30.3 22 8 M8 x 1.25 29 15 24 5.5, 9.5 depth of counterbore 6.5 25 26 10 33.5 115 22 G 1/8 36 8 18 25 79 17 14 26 36.6 22 8 29 15 30 39 M10 x 1.25 6.6
pin part number Snap ring Cotter pin Applicable bore size (mm) 20 NZ R1 A A1 E1 L L1 ND MM NX U1 Part no.
2 x 5.5 through 4 x 9 counter bore depth 7 CHQ CHQ Rod end male thread H H Approx. 28.5 CHK 10 49 D D CHN 10 CHM 36 CHS 47 36 8 2 x Rc 1/8 (port size) C X L C X L + Stroke 20 20 CH2 5 + Stroke 57 + Stroke 5 67 + 2 strokes CHA Related Products 32 to 100 2 x P (port size) H with effective thread depth C 4 x N through hole 8 x O counter bore DF F I I D D M E Z K M E J B + Stroke L + Stroke
Q=2040Cv(P1+0.1013) 1 G 273 273+ l /min (ANR) Calculation by effective area Q=113S(P1+0.1013) 1 G 273 273+ l /min (ANR) Water How to Read The Graph In case of a flow of 100 l/min: VNB4 (Orifice 25).P to 0.035MPa VNB4 (Orifice 20).P to 0.08MPa VNB4 (Orifice 15).P to 0.2MPa How to Calculate Flow Calculation by Cv factor Q=14.2Cv .l/min 10.2P G Calculation by effective area Q=0.8S .l
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Leakage test result a t e l u g c Stainless steel linear guide & low particulate generation vacuum grease e i 2 t n r a e CX p r a 0.0 10 0 20 10 w 10-10 0 5 10 t i o o n L DTime [min] Operation cycles -X e e a a l l k k a t e l u w w g a a c 2 e i o
with a * mark is irrelevant to models without a rear plate. 3.20-10 Compact Guide Cylinder Series MGC Front Face Mounting Flange/With Rear Plate MGClFl-l-R CL MLGC CNA CB CV/MVG CXW CXS CXT MX MXU MXS MXQ MXF MXW MXP Bore (mm) Stroke range (mm) MG J I B AP AO AN AM AL AK AJ AI AH AG AB AA A N M L K 20 25 32 40 50 75, 100, 125, 150, 200 44 25 106 22 M6 110 55 9 6.6 90 75 120 105 13 11 84 25
of transfer Cylinder stroke Bore size Port 15mm (RSH20) 20mm (RSH32) 20mm 32mm 20 32 15 20 20 32 Z73 D L RSH RS1H 30 50 Z73 D L Bore size Number of auto switches 50mm 63mm 80mm 50 63 80 Thread type Nil S 2 pcs. 1 pc.
corners I) (mm) Width across corners I 85 103 132 FZ 93 114 138 GA 16 24 24 H 128 144.5 171.5 E 64 77 98 FT 20 25 25 FX 73 90 110 A 221 243.5 299.5 B 93 99 128 CD 20 20 25 CT 8 10 10 CZ 36 45 45 D 32 40 50 L 45 54 56 N 9 11 13 O QA 10 12.5 12.5 QB 7 8.5 10 GB 16 24 35 Stroke 30 30 40 Bore size (mm) 50 63 80 14 depth 5 18 depth 6 20 depth 6 P (Piping port) TN NPT 1/8 NPT 1/4 NPT 1/4 R 40
(SMAII BORE} UFM10 x t ) UF r/220 uF s/16 18 + UF I-72 [ ' Dtr_ C l' I j rIl l l T F I r H o .L 8 a.22 & _l -! g.3t g 1 R r I -1 .2( 20 F G (otolog llo.
Stroke adjusting unit Nil L Without adjusting unit Shock absorber + Adjusting bolt Shock absorber model Type 25 RB1007 32 RB1412 40 RB1412 Applicable Auto Switch/Refer to page 10-20-1 for further information on auto switches.
Stroke adjusting unit Nil L Without adjusting unit Shock absorber + Adjusting bolt Shock absorber model Type 25 RB1007 32 RB1412 40 RB1412 Applicable Auto Switch/Refer to page 10-20-1 for further information on auto switches.
A B C Lead 20 10 5 2.86 20 10 5 Parameter *1,*2 Para.
Lock position 2 Bore size Suction flow rate l/min (ANR) 20/25/32/40 Holding force (Max.)
= 400 mm/s (20) L = 100 mm, V = 400 mm/s 100 100 63 63 50 50, 63 50, 63 50 10 10 40 40 Load mass m (kg) Load mass m (kg) 40 40 32 32 32 32 25 25 25 25 20 20 20 20 1 1 0.1 0.1 10 100 50 51 200 10 100 50 51 200 Stroke (mm) Stroke (mm) 508 Model Selection MGPW Series L L m m Horizontal Mounting Ball bushing MGPWL20 to 25, MGPWA20 to 25 (21) L = 50 mm, V = 200 mm/s or less (22) L = 100 mm, V
M a n i f o l d m o u n t e d v e r s i o n s o f t h e V YH y r e g a r e a v a i l a b l e .
min (ANR) Air consumption 200 l/min (ANR) 30 30 Air consumption 100 l/min (ANR) Air consumption 50 l/min (ANR) VQ 20 SUP = 0.2 MPa 20 SUP = 0.2 MPa VX2 10 10 VX 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 0 0 10 30 40 50 20 60 VX3 10 20 Discharge rate (l/min)
X 5.5 L3=50+R+V L4=50+T+X 50 SMC H H L L S S O O U U C C P P K K R 8 S U 57 (at knob locked) DIN rail part no.
MHR3-10R/MDHR3-10 MHR3-15R/MDHR3-15 0.6 L L L L 0.6 Pressure ( MPa) Pressure ( MPa) 0.5 0.5 Gripping point 0.4 L: Distance to the gripping point 0.4 Internal grip 0.3 0.3 0.2 0 10 20 30 40 50 0.15 0.2 0 10 20 30 40 50 Gripping point L (mm) Gripping point L (mm) Gripping point Effective Gripping Force Guidelines for the selection of the gripper with respect to workpiece mass Selection of
When the rotational axis and load center of Rectangular parallelepiped) Position of rotational axis: Perpendicular to the plate through the center of gravity gravity are not consistent L 2 r I = K + mL K: Moment of inertia around a b the load center of gravity 2 2 b a + 2 r I = m 12 4.Round plate K = m2 9. Gear transmission 4.