Modular F.R.L. Units AD17-A AD27-A AD37-A AD47-A Spacer Y100-A Y200-A Y300-A Y400-A Y500-A Y600-A Spacer with bracket Y100T-A Y200T-A Y300T-A Y400T-A Y500T-A Y600T-A Check valve 5 6 AKM2000-01-A (02)-A AKM3000-(01)-A 02-A AKM4000-(02)-A 03-A Pressure switch 6 IS10M-20-A IS10M-30-A IS10M-40-A IS10M-50-A IS10M-60-A T-spacer 5 6 Y110-M5-A Y210-01-A (02)-A Y310-(01)-A 02-A Y410-(02)-A 03-A Y510-(02)-A 03-A Y610
With External Pilot Specifications (Pitch) 11 25 P = 24 24 20 13.7 E 3/5 E 3/5 E 3 E 3 4 A 4 A 4 A 4 A 4 A 4 A A 4 A 4 A 4 A 4 14.5 35.8 35 61.8 58.3 74.8 P 1 B 2 B 2 B 2 B 2 B 2 P 1 B 2 B 2 B 2 B 2 B 2 P 1 P 1 One-touch fitting [1(P), 3/5(E) port] Applicable tubing O.D.: 12 3/8" One-touch fitting [4(A), 2(B) port] Applicable tubing O.D.: 8, 5/16" 10, 3/8" 12 X PE X PE Rc 1/4, 3/8 [4(A),
Q CE-compliant : : Nil 20 20 stations + + + + + + + P, R port thread type Single solenoid pilot valve is on same side as the A, B port.
Install an air filter (AF series) as a pre-filter on the inlet side of the mist separator to prevent premature clogging. 2. Install a mist separator (AFM series) as a pre-filter on the inlet side of the micro mist separator to prevent premature clogging. 3.
x 4 2 x 0.1 With a representing the extra margin, F is determined by the following formula: = 10 x mg = 20 x mg mg F = x a 2 x 10 x Workpiece weight 20 x Workpiece weight Note) Even in cases where the coefficient of friction is greater than = 0.2, for reasons of safety, select a gripping force which is at least 10 to 20 times greater than the workpiece weight, as recommended by SMC.
x 4 2 x 0.1 With a representing the extra margin, F is determined by the following formula: = 10 x mg = 20 x mg mg F = x a 2 x 10 x Workpiece weight 20 x Workpiece weight Note) Even in cases where the coefficient of friction is greater than = 0.2, for reasons of safety, select a gripping force which is at least 10 to 20 times greater than the workpiece weight, as recommended by SMC.
/D1/L1 series product, use a conversion cable (P5062-5) as a relay.
This value is not measured by a flow meter. It should be used as a reference value (rough indication).
When using as a stopper, select a model with 50 stroke or less.
back flow mechanism as a standard feature.
back flow mechanism as a standard feature.
0.31 8.5 All load weight (kg) 50 40 30 20 25 0.53 8.4 32 1.0 10.5 20 25 20 25 40 1.9 10.5 10 50 3.2 11.5 63 5.2 11.5 16 16 5 4 3 2 80 10.9 16.5 100 16.4 16.5 1 Air cushion Utilizes the compression force of air to absorb the large kinetic energy that is created by a large load and a high speed, as the piston comes to a stop at the stroke end.
. 9-9 9.4.3 HRR010-A -20. 9-10 9.4.4 HRR010-W-20. 9-10 9.5 Heating capacity . 9-11 9.5.1 HRR010-A-10. 9-11 9.5.2 HRR010-W-10. 9-11 9.5.3 HRR010-A-20. 9-12 9.5.4 HRR010-W-20. 9-12 9.6 Pump capacity. 9-13 9.6.1 HRR010-A/W-10 . 9-13 9.6.2 HRR010-A/W-10-T1 . 9-13 9.7 Required facility water flow (for water-cooled type) . 9-14 9.7.1 HRR010-W-10/20. 9-14 9.8 Types of Hazard Labels . 9-15 9.8.1
Mep a = 1000 2000 L1 (mm) Pitching m : Transfer load (kg) a : Work piece acceleration (mm/s) Me: Dynamic moment L : Overhang to work piece center of gravity (mm) m a = 2000 1000 L1 a = 3000 0 10 20 30 Transfer load m (kg) 600 L2 400 Mer L2 (mm) L3 (mm) m Rolling Yawing 200 L2 Mer 0 10 20 30 m Transfer load m (kg) 2000 a = 1000 L3 1000 a = 2000 m a = 3000 Mey a 0 10 20 30 Transfer load m (
capacity . 9-11 9.4.1 HRR050-A-20. 9-11 9.4.2 HRR050-W-20. 9-11 9.4.3 HRR050-A-40. 9-12 9.4.4 HRR050-W-40. 9-12 9.5 Heating capacity . 9-13 9.5.1 HRR050-A/W-20. 9-13 9.5.2 HRR050-A/W-40. 9-13 9.6 Pump capacity. 9-14 9.6.1 HRR050-A/W-20. 9-14 9.6.2 HRR050-A/W-40. 9-14 9.7 Required facility water flow (for water-cooled type) . 9-15 9.7.1 HRR050-W-20. 9-15 9.7.2 HRR050-W-40. 9-15 9.8 Types
When using as a stopper, select a model with a stroke of 30mm or less for bore sizes 20 and 25, and 50mm or less for bore sizes 32 to 100.
When using as a stopper, select a model with a stroke of 30mm or less for bore sizes 20 and 25, and 50mm or less for bore sizes 32 to 100.