Micro-Mist Separator with Prefilter Series AMH L ~ ::;; '" O.06I---+--+---+---:>I"--+-::-::c:-::!-l ~ / /o~la ~ / /v 0.7MPa ~ /-Y ~0.04 V ~ 0.04 f-i-,I"''---c,..-f'''---c-l---l-l ~ /~/ VI Q) a. 0.3MPa_0.5MPs_ ~ 80021-W'--+---+---+0.3MP.~-1__1 ~ Max.fIowline ---o.7MPa 8 0.02 Max.fIow line ~~_-0.5M!,a -I _:---..
(m) kilogram (Kg) 1 Kg = 2.2 lbs Volume* gallon (US gallon) liter (l) 1 US Gal = 3.71 l Temperature degrees Fahrenheit (F) degrees Celsius (C) C = 5/9 (F-32) Torque pounds (f) inches (lbs (f) in.) Newton-meters (Nm) 1 Nm = 8.88 lb(f)-in.
(m) kilogram (Kg) 1 Kg = 2.2 lbs Volume* gallon (US gallon) liter (l) 1 US Gal = 3.71 l Temperature degrees Fahrenheit (F) degrees Celsius (C) C = 5/9 (F-32) Torque pounds (f) inches (lbs (f) in.) Newton-meters (Nm) 1 Nm = 8.88 lb(f)-in.
Note 1) TUS0425 4 2.5 8 TUS0604 6 4 15 TUS0805 8 5 15 TUS1065 10 6.5 22 TUS1208 12 8 29 Model O.D. mm I.D. mm Min. bending radius mm Length 20m 100m Roll Reel Specifications Operating fluid Max. operating pressure Burst pressure Applicable fitting Operating temperature Material Air 87psi (0.6MPa) at 68F (20C) Refer to burst pressure characteristics curve One-touch fitting, insert fittings
The flow rate characteristics correspond to the standard supply pressure (0.5MPa). -90 -80 -70 Vacuum pressure [kPa] -60 -50 -40 -30 -20 -10 0 0 5 10 15 20 25 Suction flow [L/min(ANR)] Flow rate characteristics Exhaust characteristics * The actual suction flow at the point of suction varies depending on the piping conditions to the vacuum port.
The flow rate characteristics correspond to the standard supply pressure (0.5MPa). -90 -80 -70 Vacuum pressure [kPa] -60 -50 -40 -30 -20 -10 0 0 5 10 15 20 25 Suction flow [L/min(ANR)] Flow rate characteristics Exhaust characteristics * The actual suction flow at the point of suction varies depending on the piping conditions to the vacuum port.
Net weight Part No. 5g GR-L-005 10g GR-L-010 150g GR-L-150 C a u t i o n 1 When replacing mounting brackets, use socket wrench. Using other tools would cause deformation of nuts and inferior workability. Refer to the following table for sockets used.
min) 0.45/0.65 (at 20 l/min) 0.65/0.95 (at 30 l/min) 0.40/0.60 (at 20 l/min) Rated flow Note 6) ( l/min) Main tank capacity Note 7) (l) Sub-tank capacity Note 8) (l) Port size Wetted parts material Temperature range (C) Pressure range (MPa) 20 Approx. 12 Approx. 15 Rc 3/4 Stainless steel, EPDM, Copper brazing (Heat exchanger), PPS, Silicone, Fluororesin 10 to 25 0.3 to 0.7 30 Approx. 22 Approx
2 ) A(ZS-38-A1) M35 L B(ZS-38-A2) A M35 L M35 L B M35 L -14No.PS-OML0002CN-G C(ZS-38-A3) M35 L C M35 L A/B/C4 -15No.PS-OML0002CN-G M38 L(2) (ZS-27-C) +(ZS-27-D) M3X8L ( ) (ZS-27-C/D) 90 2 -16No.PS-OML0002CN-G 1. 2. 1)0.1 mm 2)0.1 mm 3)+0.15 mm -0.2 mm -17No.PS-OML0002CN-G ,FG () () DC(+) 5 OUT1 4 OUT2 3 (FUNC) 2 DC(-) 1 -18No.PS-OML0002CN-G Z/ISE30A(F)--DC(+) OUT -N NPN 1 Max
Dimensions for installation n: number of solenoid valve stations n L 1 2 3 4 5 6 7 8 L1 120.7 136.7 152.7 168.7 184.7 200.7 216.7 L2 80 96 112 128 144 160 176 n L 9 10 11 12 13 14 15 16 L1 232.7 248.7 264.7 280.7 296.7 312.7 328.7 344.7 L2 192 208 224 240 256 272 288 304 (mm) The above table shows dimensions as an example for the SY5000 series solenoid valve manifold. -11No.EX-OMW0016-A Wiring
Voltage 2 2 4 4 15 10 250 VAC 1.5 1.5 3 3 15 10 8 VDC 1.5 2.5 3 5 15 15 14 VDC 1.5 2.5 3 5 15 10 30 VDC 1.5 2.5 3 5 6 5 125 VDC 0.3 0.05 0.3 0.05 0.5 0.05 250 VDC 0.2 0.03 0.2 0.03 0.25 125 VAC 15 15 15 15 6 0.5 0.25 0.03 10 10 15 10 5 0.05 0.03 JIS Symbol How to Order 01 VR320 0 01 Port size Precautions Rc 1 8 NPT N01 1 8 Be sure to read before handling.
The flow rate characteristics correspond to the standard supply pressure (0.5MPa). -90 -80 -70 Vacuum pressure [kPa] -60 -50 -40 -30 -20 -10 0 0 5 10 15 20 25 Suction flow [L/min(ANR)] Flow rate characteristics Exhaust characteristics * The actual suction flow at the point of suction varies depending on the piping conditions to the vacuum port.
-7A-X2 25 27 16 28 29.5 34 ZPG32B-7A-X2 32 34 18.9 37 34.5 39 14 13 15 10.5 -37No.
43.5 30 15 27.6 0 0 70.6 141.3 212 Flow (SCFM) 00 70.6 141.3 212 Flow (SCFM) 0 30 43.5 58 72.5 87 101.5 116130.5 145 Supply pressure (psig) NPT 1 NPT 1 NPT 1 NAR625 NAR635 NAR625/635 101.5 30.5 87 30 Secondary pressure (psig) Secondary pressure (psig) Secondary pressure (psig) 72.5 58 29 15 43.5 30 27.6 15 0 0 70.6 141.3 212 282.5 353 Flow (SCFM) 00 70.6 141.3 212 282.5 353 Flow (SCFM) 0
Connection Female Thread: G Uni thread size Wrench tightening angle after hand-tightening [deg] Tightening torque [Nm] 1/8 30 to 45 3 to 4 1/4 15 to 30 4 to 5 3/8 15 to 30 8 to 9 1/2 15 to 30 14 to 15 Winding direction Sealant tape Expose approx. 1 thread 2. The gasket can be reused up to 6 to 10 times.
30 40 13 XL-OMY0002 8 X L D 25 M9N A A ( X A N1 A ) 25 40 B A 50 63 80 C P11 160 100 FKM() P8 KF (NW) D K (DN) () A / A F G A J B K C L M M9N D-M9N M9P D-M9P / 560 M9B D-M9B A90 D-A90 H0 H4 H5 5150 100 A93 D-A93 120 M9// 25H4 14 XL-OMY0002 9. 200 2580 100 100,160 [] 1 1.5 1 XLD-25,XLD-40,XLD-50,XLD-63,XLD-80 200 XLD-100,XLD-160 100 : FKM 110 Pa <> 15 XL-OMY0002
Refer to pages 12-15-3 to 12-15-4 for Safety Instructions and Common Precautions on the product mentioned in this catalog, and refer to pages 12-1-4 to 12-1-6 for Precautions on every series.
Refer to pages 12-15-3 to 12-15-4 for Safety Instructions and Common Precautions on the product mentioned in this catalog, and refer to pages 12-1-4 to 12-1-6 for Precautions on every series.
Refer to the above drawing for other dimensions. n L 1 38 28 2 57 47 3 76 66 4 95 85 5 114 104 6 133 123 7 152 142 8 171 161 9 190 180 10 209 199 11 228 218 12 247 237 13 266 256 14 285 275 15 304 294 16 323 313 17 342 332 18 361 351 19 380 370 20 399 389 L1 L2 4-5-9 10 Series VK300 Precautions Be sure to read before handling.
L = 100 mm Gripping force (N) Pressure 0.6 MPa L Gripping point distance (mm) Opening/Closing angle (Both sides) L = 120 mm Gripping force (N) Indication of effective gripping force The effective gripping force shown in the graphs to the right is expressed as F, which is the thrust of one finger, when both fingers and attachments are in full contact with the workpiece as shown in the figure