MY1 Data MY1B16 to 100 MY1M16 to 63 MY1C16 to 63 MY1H16 to 40 L L R L L L L R R R R R L R R L Note 2) Note 2) R R L L O-ring L R Slide table operating direction Piping tube Note 2) For bottom piping, refer to the figure above.
Wh'rl 1pc 4) 85 + 30{n 2 4l 10+30(2 2) 75+~24 80+30(11 2 With n pes , . f-f-("::--=-=2.c..; 4 ::-.6 8 '-c---4.,, 8 e.'-,-~.-,-,-'~')c-t-_-"_ _ c..;.-= 8. 12. ' 6 .. )_+_"",":.:=:.: 4 ,,-.",8." "L __--+_-" "'.-= .. ,L)_+--, (" =-,12 '6 (" =4 ',,,2'-.. , ,,,6 ::" ) _~ Wlth2pcs (DiHe!'
2.5 R 1 R 2 2 1.2 6 8 2 6.7 8.8 3 Applicable pad B06MU/B08MU/B10MU/B15MU ZP2-B10MU ZP2-B15MU 9 8 6 6 4 4 R 4 2 2 1.2 2 2 2 8 R 7 2 2 4 2 2 6 15 10 Note) R part has to be smooth with no corners.
C0.5 file chamfer C WA DA F L X L R sphere F X X L R sphere TP H1 L T W1 L T L W1 L L 6-17-10 6-17-11 10 Simple Specials -XA1 to XA38: Change of Rod End Shape These changes are dealt with Simple Specials System.
Note 1) Current consumption (No load) Weight Note 2) Port size (Rc, NPT, G) Detection type Display PF2 1.7 to 17.0 l/min 1.7 to 17.0 l/min 2 to 16 l/min 0.1 l/min 0.1 l/pulse 3% F .S. or less 2% F .S. or less 0.35 to 4.5 l/min 0.35 to 4.5 l/min 0.5 to 4 l/min 0.05 l/min 0.05 l/pulse 3.5 to 45 l/min 3.5 to 45 l/min 5 to 40 l/min 0.5 l/min 0.5 l/pulse 7 to 110 l/min 7 to 110 l/min 10 to 100
stroke MA A K F GA GB H + Q + l 2 x Rc P R J MM RR TDe9 D E e Width across flats G Air release TT C Air release Air release 10 f l NA T B TX TY0.3 TY0.3 NB SS + Q + l + 1/2 stroke S + Stroke M H ZZ + Stroke ZZ + Q + l + Stroke TZ (mm) With rod boot Stroke range (mm) Bore size (mm) J e RR B C F GA GB M NA NB P R S T SS TD TT TX TY TZ l f Q B-rod C-rod B-rod C-rod 1 32 M10 x 1.25 25 to 1800
All dimensions in mittimeiers. 26 I Non-Adjustable Hydraulic Series lmperial Accessories sroP BAR (SB) ['l E -T I c __l _ l F --->l nr tdl o&| (n.ll A I ( D T I Boh Sire W.hhi r5&706300 Pll500 5odo5 l s t T 2 i t I 1 . 6 3 l . l l I l l I l l 6 r r f f r l k " D s ? l y t . I 6 . 1 158650300 PM?
(A) 2 L: L type (VQ20 only) 1 Directional Control Equipment 1 (P) Note) Consult SMC for N.O. type. Note) Specify "LF" for L type with bracket.
: Fluid temperature (C) S : Effective area (mm2) Cv : Cv factor (/) 4.1-50 VX31/32/33 Dimensions (Orifice size 1.5mm, 2.2mm, 3mm, 4mm) Energized Open/VX31 0, Energized Closed/VX31 2, Common/VX31 4, 32 4, 33 4 1 2 3 1 2 3 1 2 3 2 2 3 2 2 3 Grommet: G Conduit: C DIN connector: D Conduit terminal: T VX VNl VQ B Measurement for connection H J K L M L M L M L M N N Grommet Conduit DIN connector
Hexagon width across flats 12 Hexagon width across flats G 1 8 Model A 1 8 B C F: M5 x 0.8 F: M6 x 1 F: Rc K L Y E B C F: M6 x 1 F: M8 x 1.25 F: Rc K L Y D Model A E D G E D G E D G D D ZPT40B ZPT50B 34 6 8 6.2 38 5.5 5.5 13.8 10 13 12 15 5 8 16 25 25 31 40 50 43 53 51.5 47.5 32.4 19 24.4 16 48 57 ZPT10B 29 6 8 29 6.2 12 35 8.7 7.5 9.9 8.5 18.5 27.5 27.5 33.5 19 ZPT13B 16 18 20 ZPT16B 21
4(A) port side: Orange 2(B) port side: Green L2 5 (Rail mounting hole pitch: 12.5) L1 With option (Station n) (Station 1) Light/surge voltage suppressor 4 A 4 A 4 A 4 A 41 E 3/5 E 3/5 2 B 2 B 2 B 2 B 1 P 1 P 78 68.2 63 E 3 P 1 E 3 P 1 Individual EXH spacer 48 7.5 Individual SUP spacer 19.7 Block separation lever L Dimension n: Stations L n 2 135.5 125 106.5 14.5 3 148 137.5 117 15.5 4 160.5
7\ 1 4 2 (361 1 2 6 (321 1 2 0 ' L V (6) Nvdtls(,.Nol6 A B c D E F o H K M N P R 'l 57 140) 0.71 (18) 0 8 9 22.5\ 1 4 2 (36) r 2 6 ta2\ 1 2 0 130 5' , 2 ' (6) 5.87 149 2 467 ( 1 1 8 7 ) r . 1 8 1 1 . 2 O rml IAn q 0.ot l l 5 l.1i a3t 1.09 127 7l Millimetsrs in Parentheses '75 PSIG (5 Kgt/cm2) Distributed by: SM.9.
7\ 1 4 2 (361 1 2 6 (321 1 2 0 ' L V (6) Nvdtls(,.Nol6 A B c D E F o H K M N P R 'l 57 140) 0.71 (18) 0 8 9 22.5\ 1 4 2 (36) r 2 6 ta2\ 1 2 0 130 5' , 2 ' (6) 5.87 149 2 467 ( 1 1 8 7 ) r . 1 8 1 1 . 2 O rml IAn q 0.ot l l 5 l.1i a3t 1.09 127 7l Millimetsrs in Parentheses '75 PSIG (5 Kgt/cm2) Distributed by: I I I SM.9.
min 2 to 16 l/min 5 to 40 l/min 04 20 40 90 Material restriction Note) Fixed units: Real-time flow rate: l/min Accumulated flow: l Thread type Nil N F Rc NPT G Lead wire M12 3 m lead wire with connector Without lead wire Nil N Port size 67 Output specification PNP open collector 2 outputs 4 16 40 Port size Applicable model Flow rate (l/min) Symbol 03 04 06 3/8 1/2 3/4 90-PF2W704, 90-PF2W720
2 to 15 Plug-in type VV5FR2-01 VK VFR200-F 2 to 8 VFR210-G VFR210-E VFR210-T VFR210-D VFR210-L VFR210-M Note) Side/Bottom 1 4 VZ 1 4 1 8 C6, C8 , Non plug-in type VV5FR2-10 2 to 15 VF VFR Note) Side ported and bottom ported cannot be taken at the same time.
Mitsubishi Electric Corporation Yaskawa Electric Corporation Nil W F R L T B None Axial Right Left Top Bottom 100/115VAC (50/60Hz) G 1 N.C. (B contact) 2 pcs.
) M8 connector (WO): SYJ3120-WO-M3 (-F) L plug connector (L) : SYJ3120-L-M3 (-F) M plug connector (M): SYJ3120-M-M3 (-F) (2) Approx. 300 (Lead wire length) 28 [35] 12.6 32.5 M8 x 1 15 39.1 [46.1] Approx. 300 (Lead wire length) 64.3 [66.5] (2) 54.5 [56.7] (2) 63.4 56 49.5 13.5 13.5 13.5 15 15 15 22.1 22.1 22.1 Refer to page 1-5-79 for dimentions with connector cable. 1-5-8 9 4/5 Port Solenoid
[P_1] OUT1 1000 L/min [H_1] OUT1 100 L/min 1000 L/min [P_2] OUT2 100 L/min [H_2] OUT2 OUT1OUT2 [F 1]OUT1(28)[F 2]OUT2(36) -22No.PF-OMP0001CN-F <> 1 [P_1][n_1][] 500 L/min OUT1OUT2[P_2][n_2] [F 1]OUT1(28)[F 2]OUT2(36) 29 (24) -23No.PF-OMP0001CN-F [] 2 [F 0] 2 F0 F1 F99 2 -24No.PF-OMP0001CN-F [F 0][rEF] [rEF] [Anr] 26 1 [ L] L/min [Uni] [oU1] OUT1 [HYS] [1ot] OUT1 [1_P] [
M (maximum allowable moment)(Nm) Allowable load F (N) = L x 10 3 0.68 Allowable load F = 30 x 10 3 = 22.7 (N) (: Constant for unit conversion) Load f = 10 (N) < 22.7 (N) 12-2-15 15 Parallel Style Air Gripper Compact Series (Without Auto Switch) Series MHZA2-6/MHZAJ2-6 Size: 6 How to Order MHZA 2 6 D MHZA J 2 6 D Dust cover type With dust cover Nil F S Chloroprene rubber (CR) Fluoro rubber
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 =