Rotary Actuator: Free Mount Type/Vane Style Series CRBU2 The maximum dimension L1 is, as a rule, twice the thread size. (Example) For M3: L1 = 6 mm Applicable shaft types: J, K, T The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M3: L2 = 6 mm However, for M5 with T shaft, the maximum dimension L2 is 1.5 times the thread size.
The maximum dimension L1 is, as a rule, twice the thread size. (Example) For M3: L1 = 6 Applicable shaft type: Y Machine female threads into the short shaft. The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M4: L2 = 8 Applicable shaft type: Y 1. Enter the dimensions within a range that allows for additional machining. 2.
L2 + (3 x P) L2 + (3 x P) K axis (T axis) J axis Q1 = M L1 = L1 + (3 x P) L2 = The maximum dimension L1 is, as a rule, twice the thread size. (Example) For M3: L1 = 6 mm The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M3: L2 = 6 mm However, for M5 with T shaft, the maximum dimension L2 is 1.5 times the thread size.
The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M4: L2 = 8 Applicable shaft type: Y Machine female threads into the long shaft. The maximum dimension L1 is, as a rule, twice the thread size. (Example) For M3: L1 = 6 Applicable shaft type: Y 1. Enter the dimensions within a range that allows for additional machining. 2.
A parallel key is used on the long shaft for size 40. Not available for size 10. The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M4: L2 max. = 8 mm Applicable shaft type: W Applicable to single vane type only A special end is machined onto the long shaft, and a through-hole is drilled into it.
The maximum dimension L2 is, as a rule, twice the thread size.
$The maximum dimension L1 is, as a rule, twice the thread size. $The maximum dimension L2 is, as a rule, twice the thread size.
_ _ Applicable Tube D1 D2 L1 M A L2 D3 D4 L3 D5 App.
A B C A B A B A B A B Application Same tubing size 1 2 1 2 1 2 3 1 2 1 2 1 2 Refer to the applicable tubing table.
output PNP open collector 1 output + Analog voltage output PNP open collector 1 output + Analog current output ZSE10 ISE10 ISE70 ZSE80 ISE80 Rated pressure range ISE30A 0.1 to 1 MPa Made to Order Made to Order (P.43) PS For positive pressure ISE30A 01 N M Symbol Specifications/Description X510 For M12 4-pin pre-wired connector ISA3 Available only for output specifications A, B, and option
Please consult SMC when considering the necessity of the regeneration option. 200 Horizontal/Lateral Horizontal/Lateral Lateral Horizontal a Mep L1 (mm) L2 (mm) L3 (mm) Pitching Rolling Yawing 100 m a=1000 a=2000 a=3000 L1 0 30 20 10 Transfer load m (kg) Maximum load L2 200 a=3000 Regeneration option model Driver type Mer a=2000 A1 A2 B1 B2 a=1000 Not required. Not required.
Mep 2000 a = 1000 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 2 4 6 8 10 Transfer load m (kg) 600 L2 400 Mer L2 (mm) Rolling Yawing m 200 L2 Mer 0 2 4 6 8 10 m Transfer load m (kg) 3000 a = 1000 L3 (mm) 2000 L3 1000 a = 2000 m a = 3000 Mey a 0 2 4 6 8 10 Transfer
The maximum dimension L2 is, as a rule, twice the thread size. (Example) For M4: L2 = 8 Applicable shaft type: W The maximum dimension L1 is, as a rule, twice the thread size.
Yawing 123 a=1000 2000 L1 (mm) L2 (mm) L3 (mm) Mep Pitching Rolling Yawing m : Transfer load (kg) a : Work piece acceleration m a=2000 1000 L1 a=3000 (mm/s2) Me : Dynamic moment L : Overhang to work piece 0 20 40 60 center of gravity (mm) Transfer load m (kg) 600 L2 Maximum load 400 Mer Regeneration option model Driver type m LEC-MR-RB-032 A1 A2 B1 B2 200 L2 Not required.
A B C A B A B A B A B 15A 20A 25A Note 1) For each piping diameter for each body size, the second and later numbers or symbols indicate reducing.
2 . ; A A LEFS40 : = B > > 8 @ A-A . ; 2 A A No.
Mep 2000 a = 1000 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) a = 2000 m 1000 L1 a = 3000 0 2 4 6 8 10 Transfer load m (kg) 600 L2 400 Mer L2 (mm) Rolling Yawing m 200 L2 Mer 0 2 4 6 8 10 m Transfer load m (kg) 3000 a = 1000 2000 L3 (mm) L3 1000 a = 2000 m a = 3000 Mey a 0 2 4 6 8 10 Transfer
M1E m x g FE M3E = 1/3 x FE x L2 (FE = 1.4/100 x a x g x m) = 0.05 x a x m x L2 = 0.05 x 300 x 0.5 x 0.04 = 0.3 [Nm] 3B = M3E/M3E max = 0.3/1.07 = 0.28 Investigate M3E. a From above, find the value of M3E max at 420 mm/s in Graph (3). DM3 M3E m x g -X FE L2 Individual -X From above, n = 1 + 2 + 3A + 3B = 0.1 + 0.082 + 0.35 + 0.28 = 0.812 From n = 0.812 1, it is applicable.
) a = 3000 2000 m L1 0 10 20 30 Transfer load m (kg) L2 600 400 L2 (mm) Mer Rolling Yawing m 200 L2 Mer 10 20 30 0 Transfer load m (kg) m a = 1000 4000 a = 2000 L3 (mm) L3 a = 3000 2000 m Mey a 10 20 30 0 Transfer load m (kg) Refer to page 183 for deflection data. 164
Pressure Range: ISE71 (0 to 1.6 MPa), Piping: N02 (NPT 1/4), Output Specification: AB (Switch Output 1 + Switch Output 2 [NPN or PNP Switching Type]), Unit Specification: Unit Selection Function, Switches w/Unit Selection not Permitted for Use in Japan, Lead Wire: S (Lead Wire with M12 Connector; Straight, 5 m), Bracket: A (Bracket A, Interchangeable with ISE70)