LMU100/200 Series Mist Spray Unit 0Supply pressure gauge R3.5 R3.5 OIL, AIR OIL, AIR Rc1/4 Rc1/4 L L K K C C O O AIR BLOW SUP SUP !1Tank pressure gauge !1Tank pressure gauge 272 272 153 238 153 238 e e 189.5 153 2 189.5 2 u u w r i w r i o o Material Note Main Parts List Part no. Spare Parts/Replacement Parts Part No. No. Description No. Qty.
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Vacuum switch unit 20 ZR1 S 1 5 M Z E C K1 Ejector unit Supply valve self-holding Vacuum switch unit 5 M Z E C K2 1 20 L ZR1 Supply valve N.C.
This is the same concept representing the easy to run through as sonic conductance C (effective area). (3) Formula of flow rate When P2 + 0.1 0.5, choked flow P1 + 0.1 293 Q = 120 x S (P1 + 0.1) (3) 273 + t When P2 + 0.1 > 0.5, subsonic flow P1 + 0.1 293 Q = 240 x S (P2 + 0.1) (P1 P2) (4) 273 + t Conversion with sonic conductance C: S = 5.0 x C(5) Q :Air flow rate[dm3/min(ANR)], dm3 (
+ 0.1 > 0.5, subsonic flow P1 + 0.1 293 Q = 240 x S (P2 + 0.1) (P1 P2) (4) 273 + t Conversion with sonic conductance C: S = 5.0 x C(5) Q :Air flow rate[dm3/min(ANR)], dm3 (cubic decimeter) of SI unit is good to be described by l (liter), too. 1 dm3 = 1 l S : Effective area [mm2] P1 : Upstream pressure [MPa] P2 : Downstream pressure [MPa] t : Temperature [C] Note) Formula for subsonic flow
I/O LEC-CN5-* 1 1 PLC 3 DC24V CN5 CN4 CN3 1 2 LE-C*-*-* LE-C*-*-S 120.3 120.3 mm mm CN2 200 200 mm/s mm/s 100 500 100 500 1 1 200 1000 200 1000 2 2 CN1 50 200 50 200 3 3 <> AWG20 (0.5mm 2) 3 DC24V USB (A-miniB type) USB LEC-W2 3m :LEC-T1-3JG* 1 2 1.2 http://www.smcworld.com/ 3 UL,UL1310Class2 7 USB LAN 16 - 5. 1 2 CN4 5.1 3 ,5.2 4 LECPA 5.3(1) 5.3(2)
o trtvzgzto "' J 9 4l|_\lb, 4l/_t_\lF FrpFr-*--lF, Base mounted type I Nvz33m N\a23340 FF ^.1T2-hn* ""rrr-h--w @ l / n r r n r \ 1 s @ 1 / t , , , 1 , \ t E E -FjFF--"lFt\Nzy2l Nvz3440 ".rnun n "^rriiTrnv t r E { / , l l , l t . \ t E \ r E l h t 1 , l , \ 1 r u . . . i F n : _ * w wz352o r.rvzgslT qTniin-Th^ qrzrti\-nv ?
e r w t q w q t VSR8-2-FG-DVSS8-2-FG-De r e r w q t w q t VSS8-2-DFHG FIG FJG VSR8-2-DFHG FIG FJG e r e r w q t w q t VSR8-2-DFDAG FDBG FDCG e r w q t Replacement Parts VSR8-2-DFDAG FDBG FDCG VSR8-2-DFHG FIG FJG VSR8-2-FG-DVSR8-2-FG-SVSS8-2-DFHG FIG FJG VSS8-2-FG-DVSS8-2-FG-SDescription No.
Cooling water (l/min) 180C Inlet air temperature Correction factor Air flow (l/min (ANR)) Model 50C 70C 100C 41.5 43 45.5 37 43 49.5 37 43 45.5 37 42 43.5 40 44 46 39.5 43 44.5 41 43 45.5 A B C A B C A B C A B C A B C A B C A B C 35.5 36 36.5 33.5 36 38 33.5 36 36.5 33.5 35 36 34.5 36 37 34.5 35.5 36 34.5 35.5 36 38.5 40 42 36 40 45.5 36 40 42.5 36 40 41 38 40 42.5 38
Note 1) 1 1/4B 90 1 1/2B 120 Note 2) 2B 200 2 1/2B 315 3B 450 Description Part no.
E C E E (KF flange) Fd (K flange) Fn D H B A G A Unit: mm Model A B C D E Fn Fd G H XLA-16-2 40 108 38 20 30 17 44 XLA-25-2 50 121 48 27 12 40 26 44 XLA-40-2 65 171 66 39 11 55 41 67 XLA-50-2 70 185 79 46 11 75 52 72 XLA-63-2 88 212 100 55 11 87 95 70 76 XLA-80-2 90 257 117 65 11 114 110 83 104 12 XL-OMS0001-B 6.
Heat exchanger Ventilation Circulating fluid Expansion E circuit valve A Expansion Inverter pump valve B Pump E Temp. sensor (Ref. discharge Ball tap Fluid level gauge TS Press. sensor Over flow port (Ref. low press.)
C [dm3/(sbar)] b Cv C [dm3/(sbar)] b Cv VP517Y G3/8 8.8 0.14 2 8.2 0.15 1.8 VP717Y G1/2 13.8 0.11 2.9 12.9 0.18 2.9 2 VP500/700 Series Spacer Center of F.R.L. body D C B Model A B C D Y300-A 4.2 43.4 21.7 57.9 Y400-A 5.2 53 26.5 68.5 A (Spacer width) Seal Y400-A Spacer with Bracket D K Center of F.R.L. body J H F G E E C B Seal A (Spacer width) Y400T-A Model A B C D E F G H J K Y300T-A 4.2
AMD AMH Data A: Inlet Air Temperature Data B: Ambient Temperature Data C: Inlet Air Pressure AME Inlet air temperature Ambient temperature Inlet air pressure MPa psi Correction factor F C Correction factor AMF Correction factor IDFB3E to 37E IDFB55E, 75E 1.31 F C 77 90 95 100 104 25 32 35 37.8 40 75 100 110 120 125 150 175 200 232 0.53 0.70 0.76 0.83 0.86 1.03 1.21 1.38 1.60 1.24 0.95 ZFC
NA C NA D E E AL A H S + Stroke ZZ + Stroke F NA C NA C MM 4 x JA 4 x JB Female thread MM Depth A1 H ZZ + Stroke Female rod end Female Rod End [mm] [mm] Bore size A AL B1 C D E F H H1 JA JB KA MM NA Bore size A1 H MM 20 14.5 12 13 15.5 8 14 0 0.1 2 21 5 M4 x 0.7 depth 7 M4 x 0.7 depth 5.5 Width across flats 6 length 3.5 M8 x 1.25 24 20 8 6.5 M4 x 0.7 25 17.5 15 17 16.5 10 14 0 0.1 2 24 6
Construction q t e r w IN Description No.
L1 L2 + A5 L3 2 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 V 1000 1 2 420 1000 1 2 E = W (-) 2 E = 1 (-) 2= 0.088 Find the kinetic energy E (J) of the load. Find the allowable kinetic energy Ea (J).
C B H E F A B H Applicable bore size (mm) Applicable bore size (mm) Part no.
rate: 50% Stroke 500 mm Series CM2 Pressure 0.5 MPa Load rate: 50% Stroke 300 mm Average speed (mm/s) Series 800 700 600 500 400 300 200 100 0 Perpendicular, upward actuation SY3140-01 Horizontal actuation 800 700 600 500 400 300 200 100 0 SY5140-02 800 700 600 500 400 300 200 100 0 SY7140-03 800 700 600 500 400 300 200 100 0 SY9140-04 Cylinder is in extending.
(Values at the initial period) VG JIS Symbol VP S070 VQ Model Valve model VKF VS3145 VS3135 P A C [dm3(s
Legend: A Two Hand Control B Shuttle Valve C Air Pilot Spring Return 4 Way Control Valve D Three Way Normally Open Push Button E Stroke completion Sensor Operation: 1) A (2 Hand Control Unit) is activated, sending a signal through shuttle valve. 2) The signal shifts the C (4-way, single pilot), extending the cylinder.