PSxx-OMM0002CN -2.312.31MPa 10.0-111.0kPa -121.0121.0kPa -29No.PS-OMM0002CN-F [F 5] <> [F 5] 1000 100 [F 5] MPa(ISE)kPa(ZSE)barpsi barpsi 23 [F 0] -30No.PS-OMM0002CN-F [F 7] 5R.D. <> [F 7] [F 7] -31No.PS-OMM0002CN-F [F 8] <> [F 8] [F 8] -32No.PS-OMM0002CN-F OUT1 AP1 (OUT1 AP1 1 AP2) OUT1 OUT1 OUT1 A1L A1H (A1L 1 AP2) OUT2 P_1H_1(n_1H_1)AP2 (OUT2 AP2 1 ) OUT2 OUT2 OUT1 OUT2
Positioning driver Model Operating Conditions Plate non-rotating accuracy () Allowable plate rotation torque (T) Allowable lateral load (F) Non-rotating accuracy () Stroke 50 75 100 125 150 175 200 Load (N) Stroke 50 75 100 125 150 175 200 Torque (Nm) 42 2.87 0.09 42 2.47 40 2.17 + 42 2.38 32 2.16 24 1.98 17 1.82 F T F Refer to page 304 for deflection data. 218 2 Phase Stepper Motor/Without
-A8 (Without buffer/Male thread) ZPT F-B5-A10 (Without buffer/Male thread) M10 x 1 M5 x 0.8 Hexagon width across flats 14 Hexagon width across flats 12 M5 x 0.8 M8 x 1 5 3 20 D 3 5 Y Hexagon width across flats 16 ZX 15 D 3 3 F Hexagon width across flats 12 Hexagon width across flats 12 ZR Hexagon width across flats 10 Hexagon width across flats 2 F Hexagon width across flats 3 ZM 3 C C ZH
flats 12 N 8 R F Applicable tube O.D.
B B DIN terminal Conduit terminal F Q Cable 0.24 to 0.47 D S G1/2 1.34 Qp0.08 F (1.73) 1.24 0.99 T C C R R E G1/2 E 2 x P Port size A 2 x P Port size A B1 Sp0.08 B B1 B Conduit Faston type Q F D Q F 0.44 z11 G1/2 0.90 R C C R E E 2 x P Port size A 2 x P Port size B1 A B1 B B Terminal part Faston connector (inch) 250 Series Electrical entry Size Port size Grommet (with surge P A B B1 C D E
A 1.5 F H S + Stroke 20 Non-lock manual release type K (This drawing shows the cases of 20 and 25.)
thread If ~I Fl .~ ~ lII m ~f o 4-oLD Io!
F 4-9.5 F 4-8 4-6 3-6.5 4-5 G 3-4 Y 3.5 Y 6 E E E Y 8 10 6 34 40 18 C C C A B D A A B D B D Dimensions Dimensions Dimensions (mm) (mm) (mm) A B C D E F Y A B C D E F G Y A B C D E F Y Model Model Model ZP40HB ZP63HB ZP100HB 40 41.4 28.4 43.2 20.5 30 13 63 65.1 45.5 67.6 31.5 50 4.5 21.5 100 103.1 68.6 106.7 47.5 80 35.5 ZP50HB ZP80HB ZP125HB 50 51.9 35.7 54 24 40.5 16.5 80 83 58.4 85.1 37
P.46 c 31 No.JXC-OMU0004-A 7.2 (1)3 (1) e e (4) [2] i j 3 LED a LED a i j 7 LED f 3 h O g 3 7 LED 0 LED b LED b g h 32 No.JXC-OMU0004-A (4) h NO( 7 LED f 2)7 LED h h *NO NO. 1 2 3 (5 g 7 LED 7 LED f 1 g h * h 4 7 LED f 6 g 2 7 LED f g 33 No.JXC-OMU0004-A (7) i j e 3) g 2 7 LED g j i * 47 e NO. (*) 1 1CW [CW] 2.
1]OUT1[F 2]OUT2 P_1 H_1 [kv] ON OFF [] <> 1 [P_1] -16No.IZ*-OMU0031 1 1 [P_2] -17No.IZ*-OMU0031 2[F 0] [F] 2 2 [F 0] 0.4 kV 19 [F 1] OUT1 [F 2] OUT2 20 OUT1+0.2 kV OUT2-0.2 kV 0.04 kV [F 1] OUT1 ON OFF 21 [F 3] 25 mm 22 [F 4] 1 23 [F 5] ON 24 [F 6] OFF 25 [F98] OFF 26 [F99] OFF 27 -18No.IZ*-OMU0031 [F 0] <> [F 0] [F 0] -19No.IZ*-OMU0031 [F 1] OUT1 OUT1 ON OUT1ONOFF
OUT1 OUT2 OUT2 SET [F 2] OUT2 1SET 2SETSET2 -33No.PS-OMV0003CN-G [F 3] 0.01 sec.0.0030.00 sec. <> UPDOWN[F 3] SET UP DOWN SET [F 3] 190% 2(233033) -34No.PS-OMV0003CN-G [F 4] <> ,UPDOWN[F 4] SET UP DOWN SET [F 4] SET SET (36) -35No.PS-OMV0003CN-G () OUT1 SET[AP1 REdY] (OUT1[AP1 REdY]UPDOWN1 OUT2) OUT1 OUT1 OUT1 SET[AP1 RUn] ([AP1 RUn]UPDOWN1 OUT2) OUT2 SET[AP2 REdY] (OUT2
23 [H_2] [WH2] (58) SET 25 ON OFF SET UP DOWN ON ON ON ON OFF OFF OFF OFF OUT1 OUT1 OUT2 OUT2 SET [F 2] OUT2 1SET 2SETSET2 -36No.PS-OMV0008CN-E [F 3] 0.0030.00 sec.0.01 sec. <> UPDOWN[F 3] SET UP DOWN SET [F 3] 190% 2(253336) -37No.PS-OMV0008CN-E [F 4] <> ,UPDOWN[F 4] SET UP DOWN SET [F 4] SET SET (39) -38No.PS-OMV0008CN-E OUT1 SET[AP1 REdY] (OUT1[AP1
1]OUT1(26)[F 2]OUT2(34) -21No.PF-OMN0011CN-C 3 1 [P_1][n_1] 1 1 OUT1OUT2[P_2][n_2] [ tn][ tp] [F 1]OUT1(26)[F 2]OUT2(34) 28 (23 ) -22No.PF-OMN0011CN-C 2 [F 0] [F] 2 2 [F 0] 25 4 L/min [F 1] OUT1 26 ON OFF 50% 5% ON OFF [F 2] OUT2 34 () ( ) ON OFF 50% 5% OUT1 -23No.PF-OMN0011CN-C [F 3] 40 1 [F10] 41 [F20] 45 [F22] 46 OFF [F30] 48 OFF [F80] 49 () [F81
safety margin of a=4, which allows for impacts that occur during normal transportation, etc. 2 x F > mg Number of fingers When = 0.2 When = 0.1 mg F = x 4 2 x 0.2 and therefore, mg F > 2 x mg F = x 4 2 x 0.1 = 10 x mg = 20 x mg With "a" representing the extra margin, F is determined by the following formula: 10 x work piece weight 20 x work piece weight Note) Even in cases where the
Note 2) Bowl assembly for AFD30 to AFD40-06 includes a bowl guard (steel band material). 33 Micro-Mist Separator AFD20/30/40 Dimensions AFD20 Bracket (option) L D G F K M J E B H OUT IN C OUT Port size o s Drain Min. clearance for maintenance 45 A AFD30, 40, 40-06 L Bracket (option) D A G F K M J C AFD30:50 AFD40:75 B E IN OUT H OUT Port size P Drain Min. clearance for maintenance AFD20
port 1/8, 1/4 (Rc, NPT, G) 2 x P Port size 2 x P Port size F E F E D D C B C B Port size: Size 14 A A ( 52) ( 52) (20) (20) Silencer (Option) Silencer (Option) Pilot port 1/8, 1/4 (Rc, NPT, G) Pilot port 1/8, 1/4 (Rc, NPT, G) Exhaust port 3/8 Exhaust port 3/8 2 x P Port size 2 x P Port size F E F E G G D C B D C B 20 20 Dimensions [mm] Model Port size P A B C D E F G JSXFAF-06 3/4 74 55.5
l Cross section C-C #i .. :: fl ffi -i+-sLJ rr Model D f G, I K L !,!
l Cross section C-C Cross section C-C #i .. :: fl ffi -i+-sLJ rr Model D f G, I K L !,!
(T) (F) (T) VV802-P-01 (Size 18 mm) 18 9 1/8" VV801-P-03 (Size 26 mm) By mounting individual SUP spacers on a manifold block, it is possible to provide individual SUP ports for each valve. 22.5 11 Size 18 mm 1(P) 4(A) 129.5 61 2(B) 1(P') 19 26 13 3/8" 3(R2) 5(R1) Circuit diagram 28.6 14.3 Size 26 mm 112 Individual EXH spacer 49 12.5 (F) (T) (F) (T) VV802-R-01 (Size 18 mm) 18 9 1/8" VV801