PFxx-OMX0007 PLS1_L U8 0 Y 0: 100 (L/pulse) 1: 1000 (L/pulse) 1520 0x05F0 0 R/W 1530 0x05FA 0 R/W PLS1_Ft3 U8 0 Y 0: 1 (L/pulse) 1: 10 (L/pulse) 0: Add (Addition) 1: dEC1 AC (Setting of the accumulated flow output direction) Setting of the accumulated flow output direction 1600 0x0640 0 R/W U8 0 Y (Subtraction OUT1) 2: dEC2 (Subtraction OUT2) 0: 1.0 sec 1: 2.0 sec 2: 5.0 sec 1800 0x0708 0 R/W FiL (Digital
n.Al Cdu"' Rod Cross Section sl0 (3/8") 6 (5/81 Foot Type (L) r.rcizxL leo,e .I;]+L;G] @ Port location on Head Cover: In Llne T-TN rti \ =.1+@ L:_fr.,'t l l l L T r l I L H I f .
(Type DZ only) 67.5 59 32 17 2 2-4.5 (Mounting hole) P mPm P 19 35 Pg.7 2-Rc 1/8 1(P) port A A A 11 20 26 49 300 (lead wire length) 1 P = 19 13.5 L2 5.5 L1 47.5 11 5 n-Rc 1/8, M5 x 0.8 2(A) port 19 35 n-Rc 1/8 3(R) port 47.5 11 R R P = 19 19 L Dimension n: Stations n L 1 38 27 2 57 46 3 76 65 4 95 84 5 114 103 6 133 122 7 152 141 8 171 160 9 190 179 10 209 198 11 228 217 12 247 236 13 266
Calculation Pad W P S t : Lifting force (N) : Vacuum pressure (kPa) : Pad area (cm 2) : Safety factor Horizontal lifting: 4 or more Vertical lifting: 8 or more Horizontal lifting Vertical lifting W = P x S x 0.1 x 1 t This type of application should basically be avoided.
A Flow Rate Type (NVEfl which controls air flow by varying current through the solenoid. fi#fr $.E#E ,q Ff i l F l E K f:-J r r l tr-t NVEF2l2c) vEF2isO a t{YEF2l4O Flow Rate (NVEF:I) B -P{ Reasure ryp (l{vEP3t d | | vEP3r20 F'---r-. .l t EBrrO Index 2. 3 Port Electro-Pneumatic Proportional Valve NVEF, NVEP Specifications P O H o w t o O r d e r . . . . . . . .
Visible Visible Air suction side Filter Filter holder LED Indicators PWR Power supply indicator ION/HV Static neutralization operation/ Incorrect high voltage indicator ALM Error indicator NDL Maintenance indicator 4 Fan Type Ionizer IZF Series Models and Functions New New IZF21 IZF31 IZF10 IZF10R P.11 P.11 P.21 P.21 Size (Depth x Width x Height) (mm) 40 x 104 x 155 40 x 144 x 195 39 x 80
NFB MC CNP1 NFB MC L1 L1 Three phase 200 to 230 VAC Single phase 200 to 230 VAC CNP3 CNP3 L2 L2 U U U Motor U Motor L3 L3 V V V V M M N () N W W W W P1 P1 PE PE P2 P2 CNP2 CNP2 P (+) P Regeneration option Regeneration option C C D D Detector Detector CN2 CN2 L11 L11 L21 L21 Note) For single phase 200 to 230 VAC, power supply should be connected to L1 and L2 terminals, with nothing connected
With auto switch: CDS1C 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 ~ = Width across flats KA With rod boot ~ = ~ = S + Stroke Z + Stroke ZZ + Stroke ZZ1 + l + Stroke Z1 + l + Stroke Type Bore size (mm) Stroke range B C P A CDH10 CX G J K MM N AL KA RR L CT D
W L In case the product is installed on the ceiling, regard the mounting bolt pitch as L. W L Mounting hole W Intermediate support mounting hole L L Distance between Load and Supports Mounting hole 140 130 25 120 110 100 90 4. When a 25 mm adjustment bolt is selected, the mounting holes will be hidden behind it. Adjust the adjustment bolt after the cylinder is installed. According to 2.
W L Mounting hole W Intermediate support mounting hole L L Distance between Load and Supports Mounting hole 140 130 25 120 110 100 90 4. When a 25 mm adjustment bolt is selected, the mounting holes will be hidden behind it. Adjust the adjustment bolt after the cylinder is installed. According to 2.
Power consumption P: 20 [kW] Q = P = 20 [kW] Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = V: Power supply voltage P 24 [kW] Power consumption e Derive the heat generation amount from the output. Output (shaft power, etc.) W: 13 [kW] w Derive the heat generation amount from the power supply output.
CE2 ML2B ML1C Mounting Position (Stroke End)/Reed Switch Mounting Position (Stroke End)/Solid State Switch D-E73A (L), D-E76A (L), D-E80A (L) D-M5B (L), D-M5N (L), D-M5P (L) D-M5BW (L), D-M5NW (L), D-M5PW (L) D-M5NTL, D-M5PTL REA REC RHC MTS CC Lead wire clamp/Lead wire cap (option) Series Lead wire clamp Lead wire cap ML1C LC-01 LP-01 Unit: mm Lead wire clamp/Lead wire cap (option) 25 32
= 300 W = 400 W = 500 LAT3m-10 120 250 W = 400 W = 500 300 100 5 LAT3m-20 Frequency [cpm] Frequency [cpm] Allowable thrust setting value 150 200 120 250 W = 300 LAT3m-30 4 200 150 200 150 W = 0 W = 100 W = 200 200 150 300 100 W = 0 W = 100 W = 200 3 300 100 600 50 600 50 2 0 0 0 5 10 15 20 25 30 Stroke(Positioning distance) St [mm] 0 5 10 15 20 25 30 Stroke(Positioning distance) St [mm] 1
M N 4-O T Q 2-P AH AG S K W U L B AL I 4-AK hole R AA AP J X AB A Y + Stroke V AI Z + Stroke AJ For 4-AO AG AN AI Cutout window 100 piston rod end connection AM Mounting dimensions For standard strokes (mm) Bore size (mm) Stroke range (mm) O N M L K J I B AP AO AN AM AL AK AJ AI AH AG AB AA P A 75, 100 125, 150 200, 250 300 63 80 100 M12 x 1.75 depth 23 100 66 180 135 117 65 228 60 M12 234
(A) L (B) P C D M Q Purge air for H dew point indicator J F K 37 N IN OUT (G) (E) (Maintenance space 100 mm or more) M5 female thread Drain P (A) IDG30AM2, 50AM2 IDG30HAM2, 50HAM2 IDG30LAM2, 50LAM2 (B) P D C Purge air for L Q H dew point indicator M J 37 F Drain Discharge N With float type auto-drain IN OUT OUT (R) K (E) N.O.: Black N.C.: Gray (G) Applicable tubing O.D.: 10 (NPT threads:
(Roller center position) Conveyor lower limit position V Y U CD T R Stroke A H B FT GA 2 x P D QA Head side pressure port (When piping on flange side) Rod side pressure port (When piping on flange side) 2 x P QB W WB E GB A (mm) Circumscribed circle O QA Stroke A B CD CT CZ D E FT FX FZ GA GB H L N 212.5 LANote 5) Model RS2H50 RS2H63 RS2H80 30 84.5 20 8 36 32 64 20 73 93 16 16 128 85 44
low particulate generating vacuum grease. p r Non-contact construction a w t i o o n L There is no particulate generation due to friction, since the construction does not allow contact between the cylinder tube's exterior surface and the slide table's internal surface. a t e l u g c Reduced initial particulate generation 3 e i t n r a e p r a w t i o o n L No contact Cleaned, assembled,