Direct Operated Pilot Operated 2-Port Solenoid Valve Refer to pages 7, 9, 11, 25, 35, and 39 for details. 2 A 2 A 24 VDC 0.63 A 1 A 1 A Temperature rise*5 25C 25C 25C 1 Leakage: The value at a differential pressure of 0.01 MPa or higher and an ambient temperature of 20C 2 This product has an IP67 enclosure, but if water enters the product, it may result in malfunction or breakage.
(Example) For M3: L1 = 6 mm Applicable shaft types: S, W, Y The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M4: L2 = 8 mm Applicable shaft types: S, W, Y Minimum machining diameter for d1 is 0.1 mm.
03(S)A 5/32" 8.2 AS221F-02-07(S)A 1/4" 11.2 23.4 32.7 (32.8) 19 (19) AS221F-02-09(S)A 5/16" 13.2 23.9 33.2 (33.3) 14.2 19 (20) AS221F-02-11(S)A 3/8" 15.5 26.4 35.7 (35.8) 15.6 20 (21) AS321F-02-07(S)A 1/4" 1/4 19 11.2 16.6 21.8 32.1 36.4 50 48.4 44.5 42.9 13.3 40 (40) AS321F-02-09(S)A 5/16" 13.2 22.7 33 14.2 41 (41) AS321F-02-11(S)A 3/8" 15.5 26.7 37 35.9 15.6 AS321F-03-07(S)A 1/4" 3/8 19
(mm/s) : Distance to the loads center of gravity (m) : Dynamic moment (Nm) : Gravitational acceleration (9.8m/s2) m FE ME L1 3 1.4 100 1 3 Note 4) a is a dimensionless coefficient for calculating impact force.
S) SMC C A B D SMC B A SMC (Max. T) U Z M N LVQ40, LVQ60 C B A D (Max.
-02-04(S)A 4 8.2 AS22l1FG-02-06(S)A 6 10.4 23.4 32.7 (32.8) AS22l1FG-02-08(S)A 8 13.2 23.9 33.2 (33.3) 14.2 18 (19) AS22l1FG-02-10(S)A 10 15.9 26.9 36.2 (36.3) 15.6 19 (20) AS32l1FG-02-06(S)A 6 1/4 17 (17.5) 13 13.3 40 (40) AS32l1FG-02-08(S)A 8 13.2 22.7 33 14.2 41 (41) AS32l1FG-02-10(S)A 10 15.9 26.7 37 35.7 15.6 42 (42) AS32l1FG-02-12(S)A 12 18.5 29.7 40 34.5 17 43 (43) AS32l1FG-03-06(S
(Example) For M3: L1 = 6 mm Applicable shaft types: S, W, Y The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M4: L2 = 8 mm Applicable shaft types: S, W, Y Minimum machining diameter for d1 is 0.1 mm.
N 9 T L A N 1 * S 1 9 T L A N ) a P M ( g i s p e r u s s e r p y l p p u s . x a M ) 5 . 1 ( 0 2 2 ) a P M ( g i s p e r u s s e r p g n i t a r e p o . x a M ) 0 . 1 ( 0 5 1 e g n a r . p m e t g n i t a r e p O ) C 0 6 ~ 5 ( F 0 4 1 ~ 3 2 t n a c i r b u l d e d n e m m o c e R ) 2 3 G V O S I ( 1 # l i O e n i b r u T y d o B C D A e r u s s e r p e n i l d n a k n a t n e e w t e
Mineral oil A C A A A A 18 Sodium hypochlorite (2%, Room temperature) A C A D D B 19 Sodium chloride A A A A B 20 Carbon dioxide A A A A A A 21 Natural gas A A A A A A 22 Boric acid A B A D A B 23 Unless noted otherwise, the solution concentration is in a saturated state.
58 38 48 38.5 (48) 26 24 n x 4.5 Vacuum port Rc1/8 48 120 F D x 120 (= E) B Dimensions [mm] Dimensions [mm] Model L A B n D E F 11-LEFG25-S-50 180 57 160 4 20 11-LEFG25-S-100 230 107 210 Model L A B n D E F 11-LEFG25-S-450 580 457 560 10 4 480 35 11-LEFG25-S-500 630 507 610 11-LEFG25-S-550 680 557 660 12 5 600 11-LEFG25-S-600 730 607 710 11-LEFG25-S-150 280 157 260 11-LEFG25-S-200 330 207
T1: Acceleration time [s] Time until reaching the set speed T2: Constant speed time [s] Time while the actuator is operating at a constant speed T3: Deceleration time [s] Time from the beginning of the constant speed operation to stop T4: Settling time [s] Time until positioning is completed Calculation example) T1 to T4 can be calculated as follows.
ON/OFF / / 2 3 3 2 1 2 / 3 4.3. [] LEC -20- LEC / P.38 6.3 <> NPNPNP LEY16B-100 NPN <> INPIN []INP ON ON INP ON OFF ,[] [] / P.41 7.2 -21- <> No.1 a b c d e f g h i j k No. 1 2 mm/s mm mm/s^2 mm/s^2 % % mm/s % mm mm mm 0 ABS 250 50.00 3000 3000 60 40 30 100 48.00 50.00 20.00 1 ABS 250 0.00 3000 3000 0 0 1 100 0.00 2.00 0.50 a <> ABSINC ABS()/ / INC()/ / b c d e f 0
length) (A, B port) 2-One-touch fittings (A, B port) Applicable tubing O.D.: 4 6 8 SV SZ (Mounting hole)s SY Manual override (Press and turn for the locking type.)
J 500 General purpose cylinder 50 mm/s 100 3000 mm/s 1000 mm/s 2000 mm/s D500 mm/s 400 Cushion chamber Relief valve Relief valve body -X 4. Finish cushioning Stroke [mm] 300 Transfer equipment 400 N, 1000 mm/s (For 32) Transferring to the opposite stroke, air passes through the cushion seal that functions as a check valve, and starts to push the piston. 2050 200 Data 100 50 mm/s 5.
Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) 31 Series MY1W Safety Instructions These safety instructions are intended to prevent a hazardous situation and/or equipment damage.
E R I E S (N)AS1000-4000 S Y M B O L S NAS 3 000 A R E A C O D E Japan, Asia, Australia, UK N Canada, USA P O R T T H R E A D P A N E L M O U N T V E R S I O N R(PT) N NPT B O D Y S I Z E P O R T S I Z E 1 M3, M5 2 1/8, 1/4 Standard 3 3/8 Standard 4 1/2 Standard M3 M3x0.5 M5 M5x0.8 01 1/8 (10-32Nom) 02 1/4 03 3/8 04 1/2 T E C H N I C A L SPECIFICATIONS D I M E N S I O N S S E R I E S (N)AS4000
RS H A R V Integral clevis style (E): CG5ENS RZQ ZZ + Stroke CD hole H10 Shaft d9 M GA GB L RR U CX LL 2-RcP H1 Width across flats B1 MI W S LY CEP1 CI D CE1 I MM LH AL A K LE KA 4-J CE2 LT C0.1 NA ML2B LF LP LG LV LX S + Stroke Z + Stroke LZ + Stroke H 4-LD C J G5-S Stroke range A Bore size (mm) CV AL B1 C CD(Hole) CI CX D GA GB H H1 I J K KA L M MM NA P RR S U + 0.058 0 0 0.2 0 0.2 0 0.2
RS H A R V Integral clevis style (E): CG5ENS RZQ ZZ + Stroke CD hole H10 Shaft d9 M GA GB L RR U CX LL 2-RcP H1 Width across flats B1 MI W S LY CEP1 CI D CE1 I MM LH AL A K LE KA 4-J CE2 LT C0.1 NA ML2B LP LG LF LV LX S + Stroke Z + Stroke LZ + Stroke H 4-LD C J G5-S Stroke range A Bore size (mm) CV AL B1 C CD(Hole) CI CX D GA GB H H1 I J K KA L M MM NA P RR S U + 0.058 0 0 0.2 0 0.2 0 0.2
When a load, such as a relay or solenoid valve, which generates surge is directly driven, use a type of switch with a built-in surge absorbing element. 8.