ZP

Note 3) ZP3B-T2B(JB/K)20-B5 ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-T(04/06/08)UM;(J/K)3-@ ZP3-T(04/06/08)B;(J/K)3-@ ZP3-T(04/06/08)UM;(J/K)6-@ ZP3-T(04/06/08)B;(J/K)6-@ ZP3-T(04/06/08)UM;(J/K)10-@ ZP3-T(04/06/08)B;(J/K)10-@ ZP3-T(04/06/08)UM;(JB/K)15-

ZP

Note 3) ZP3B-T2B(JB/K)20-B5 ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-T(04/06/08)UM;(J/K)3-@ ZP3-T(04/06/08)B;(J/K)3-@ ZP3-T(04/06/08)UM;(J/K)6-@ ZP3-T(04/06/08)B;(J/K)6-@ ZP3-T(04/06/08)UM;(J/K)10-@ ZP3-T(04/06/08)B;(J/K)10-@ ZP3-T(04/06/08)UM;(JB/K)15-

ZP

D 02 1.2 M4 x 0.7 4 04 1.6 06 08 2.5 28.4 N S U F GN GS B4 M5 x 0.8 19.5 04 06 ZP R U 02 1.2 M5 x 0.8 5 04 1.6 06 08 2.5 B5 A2 Dimensions Per Vacuum Inlet Construction p. 115 Model Adapter Assembly p. 122 D E F Fitting part min. hole size Vacuum inlet direction q Pad dia.

ZP

Note 3) ZP3B-T2B(JB/K)20-B5 ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-T(04/06/08)UM;(J/K)3-@ ZP3-T(04/06/08)B;(J/K)3-@ ZP3-T(04/06/08)UM;(J/K)6-@ ZP3-T(04/06/08)B;(J/K)6-@ ZP3-T(04/06/08)UM;(J/K)10-@ ZP3-T(04/06/08)B;(J/K)10-@ ZP3-T(04/06/08)UM;(JB/K)15-

Vacuum Pad

Note 3) ZP3B-T2B(JB/K)20-B5 ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-(04/06/08)UM; ZP3-(04/06/08)B; ZP3-T(04/06/08)UM;(J/K)3-@ ZP3-T(04/06/08)B;(J/K)3-@ ZP3-T(04/06/08)UM;(J/K)6-@ ZP3-T(04/06/08)B;(J/K)6-@ ZP3-T(04/06/08)UM;(J/K)10-@ ZP3-T(04/06/08)B;(J/K)10-@ ZP3-T(04/06/08)UM;(JB/K)15-

KJ

(Option ) Multi-connector Socket side only Plug side only DMK6-23 DMK6S-23 DMK6P-23 6 DMK-C-6 DMK6-04 DMK6S-04 DMK6P-04 DMK12-23 DMK12S-23 DMK12P-23 12 DMK-C-12 DMK12-04 DMK12S-04 DMK12P-04 Specifications Applicable tubing materials Nylon, Soft nylon, Polyurethane Applicable tubing O.D.

ZP3

Form w 1 Material e r Vacuum inlet Connection thread N S U F GN GS HS 04 06 08 UM 02 10.8 7 2 1.4 KQ2H02-M5N C2 04 14.7 8 4 2.5 KQ2H04-M5N ZP3 Y B3 02 10.8 7 2 1.4 KQ2H02-M5N 04 14.7 8 4 2.5 KQ2H04-M5N 06 10 6 KQ2H06-M5N Vacuum inlet: One-touch fitting 10 13 16 Applicable tubing O.D.

C95Series

" SO, "63 a.5 25, 50, 75, 100,125, 150, 175, 200, 250.300, 350. 400. 450, 500 40 " !

Power Clamp Cylinder

North America For Europe For France Special Maximum clamping force (lbf) Maximum clamping force (N) 8000 2000 7000 6000 1500 80 80 5000 4000 1000 63 63 3000 40 50 2000 500 50 1000 40 0 0 5 10 15 20 0 450 400 350 300 250 200 150 100 50 0 Arm length L (mm) Arm length L (in) Allowable load for clamp arm end Refer to the graph on pages 190 and 191 for parts weight of the arm.

Series CM2-Z 10-/11- ø20, ø25, ø32, ø40 21-/22- Air Cylinder

Stroke length tolerance 10-/11-: 30 to 400 mm/s, 21-/22-: 50 to 400 mm/s Piston speed +1.4 0 Mounting Basic/Axial foot/Flange 10-/11-: Fluorine grease 21-/22-: Lithium soap based grease 10-: Class 4, 21-: Class 5 11-/22-: Class 3 Grease Refer to page 889 for the applicable auto switch list.

Series 12-CY3B ø6, ø10, ø15, ø20, ø25, ø32, ø40 ø50, ø63 Magnetically Coupled Rodless Cylinder

350, 400, 450, 500, 600, 700, 800 1300 12-CY3R40 40 Rc1/4 NPT1/4 G1/4 12-CY3R50 12-CY3R63 50 63 100, 150, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, 1000 Note 1) Stroke exceeding the standard stroke but below the maximum manufacturable stroke is available as special order.

Slider Type/Ball Bushing Bearing

, 500 15 750 1 axis Operating pressure (MPa) Piston area (mm2) 100, 200, 300, 400, 500, 600 20 Bore size (mm) 1000 0.3 0.2 0.4 0.5 0.6 0.7 100, 200, 300, 400, 500, 600, 800 25 1200 10 15 23 78 31 39 54 46 100, 200, 300, 400, 500, 600, 800, 1000 25 2 axis 15 35 52 176 70 88 123 105 1500 32 20 62 94 314 125 157 219 188 Note) Strokes are manufacturable in 1 mm increments up to the maximum strokes

AC Servo Motor Driver (Pulse input type/Positioning type)

The highest value in the past 15 seconds is displayed relative to the rated torque of 100%. 0 to 400 % 9 Instantaneous torque Torque that occurred instantaneously is displayed. The value of the torque that occurred is displayed in real time relative to the rated torque of 100%. 0 to 400 % 10 Within one-revolution position Position within one revolution is displayed in encoder pulses.

MGP

MGP(kg) MGPM12100 (mm) (mm) 10 20 25 30 40 50 75 100 125 150 175 200 250 300 350 400 12 MGPM12 0.24 0.28 0.31 0.35 0.39 0.50 0.59 0.70 0.79 0.89 0.98 1.17 16 MGPM16 0.33 0.38 0.43 0.48 0.53 0.68 0.80 0.97 1.09 1.22 1.35 1.60 20 MGPM20 0.67 0.75 0.83 0.91 1.17 1.37 1.57 1.76 1.96 2.16 2.63 3.03 3.42 3.82 25 MGPM25 0.95 1.05 1.16 1.27 1.65 1.92 2.19 2.47 2.74 3.01 3.67 4.21 4.76 5.30 32 MGPM32

LEF-OM007xx

S4 40 400 S4 100 to 120VAC 100 to 120VAC LECSB1 LECSB1 B1 B1 25 100 S6 25 100 S6 Motor option 32 200 S7 AC servo motor (Absolute encoder 32 200 S7 AC servo motor (Absolute encoder LECSB2 LECSB2 200 to 230VAC B2 200 to 230VAC B2 B1,B2 B1,B2 Without lock Nil Without lock Nil 400 400 40 40 S8 S8 Cable length With lock B With lock B Without cable Without cable Nil Nil Ball screw lead Stroke

LEY-OM007

30 50 100 150 200 250 300 350 400 450 500 (kg) 0.580.62 0.73 0.87 0.98 1.09 1.20 1.181.25 1.42 1.68 1.86 2.03 2.21 2.382.56 2.09 2.20 2.49 2.77 3.17 3.46 3.74 4.03 4.32 4.60 4.89 LEY 16 D LEY 25 D LEY 32 D [mm] 1) 30 50 100 150 200 250 300 30 50 100 150 200 250 300 350 400 30 50 100 150 200 250 300 350 400 450 500 (kg) 0.580.62 0.73 0.87 0.98 1.09 1.20 1.17 1.24 1.41 1.67 1.85 2.02 2.20

AC Servo Motor Driver (CC-Link Type)

The highest value in the past 15 seconds is displayed relative to the rated torque of 100%. 0 to 400 % 14 Instantaneous torque Torque that occurred instantaneously is displayed. The value of the torque that occurred is displayed in real time relative to the rated torque of 100%. 0 to 400 % 15 Within one-revolution position Position within one-revolution is displayed in encoder pulses.

25

Since 45% of the amount of clear water discharge is equivalent to 180 mL/min in the required specifications, 180 mL/min 0.45 = approximately 400 mL/min, indicating that a discharge rate of 400 mL/min is required for clear water. 3. Finally, find the pilot air pressure and pilot air consumption based on the flow rate characteristic graphs.

Air Preparation Equipment Degrees of quality Max. particle diameter ( µ m) Min. pressure dew point ( ° C) Max. oil density (mg/m 3 ) International Standard ISO 8573-1: 1991 Degrees of Quality Japanese Industrial Standard JIS B 8392-1: 2000 Degrees of Qual

-03 AMD150-03 1.5 0.2 HAA7-06 HAW2-04 AT6C-04 AFF2B-03 IDF2D-1 AM150-03 AMD150-03 2.2 0.3 HAA7-06 HAW7-06 AT6C-04 AFF2B-03 IDF3DAM150-03 AMD250-03 3.7 0.5 HAA7-06 HAW7-06 AT6C-04 AFF4B-03 IDF4DAM250-03 AMD250-03 5.5 0.7 HAA7-06 HAW7-06 AT6C-04 AFF4B-04 IDF6DAM250-04 AMD350-04 7.5 1.0 HAA15-10 HAW22-14 AT11C-06 AFF8B-04 IDF8DAM350-04 AMD350-04 11 1.5 HAA15-10 HAW22-14 AT11C-06 AFF8B-06 IDF11CAM350

ZP

3 Y a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8 C Y Model 04 06 04 06 04 06 04 06 Model 04 06 04 06 04 06 04 06 ZP2-T4020WK ZP2-T5020WK ZP2-T6020WK ZP2-T8020WK ZP2-T3507WK ZP2-T4010WK ZP2-T5010WK ZP2-T6010WK 2 x 1.5 0.5 0.5 10 11 2.5 0.8 04 06 ZP2-T 30 WK H Width across flat J (Hexagon) (G) (F) Width across flat 8 (Hexagon) M5 x 0.8 Width across flat 14 (Hexagon) E 13 3 3 M10 x 1 D M5 x 0.8 6 8 Y A