3 Position Cylinder Series RZQ PA+w x PC F=q x PA+(e-q) x PC F=-q x PA+r x PB+(w-e) x PC F=q x PA q, w and e are piston areas.
Fluid JIS Symbol OUT Option (1) Made to Order (2) Standard specifications Water (Standard) Turbine oil High temperature water (D, E, N, P) High temperature oil (D, N) Air X44 Vacuum (up to 1.3 x 102 Pa) X44 Note 1) Refer to page 17-3-9 Applicable Fluids Check List for details of special fluids outside of the standard options and specifications. Note 2) Please contact SMC for details.
Specifications Table. 9-1 EX245-EA2-1 specifications Item Description General Dimensions (W x L x H) in mm 28.6 x 120 x 61.5 Weight 200 g or less Housing material Nylon Table. 9-2 EX245-EA2-2 specifications Item Description General Dimensions (W x L x H) in mm 14 x 120 x 61.5 Weight 100 g or less Housing material Nylon NOTE EX245-EA2-2 can be used to have a special bracket which must be
Nil AS AT A BS Note 1) Without adjuster Extension end Retraction end Both ends Extension end Retraction end Both ends Extension end Retraction end Both ends Option combinations Rubber stopper Functional option Adjuster option Nil F R P FR FP Shock absorber BT Note 1) Nil B Note 1) Note 3) Note 3) Note 3) AS, CS CS CT C Metal stopper x x AT, CT x x Note 3) x x A, C x x Note 1) Series MXQ6
Wall x y x z x 2. Bottom 4. Vertical z y x y z Example 1. Operating conditions Model: LEKFS40 Size: 40 Mounting orientation: Horizontal Acceleration [mm/s2]: 3000 Work load [kg]: 20 Work load center position [mm]: Xc = 0, Yc = 50, Zc = 200 2. Select the graphs for horizontal of the LEKFS40 on page 7. 3. Lx = 400 mm, Ly = 250 mm, Lz = 1500 mm 4.
Load Load Switch 1 Blue [Black] Switch 1 + + Blue [Black] Brown [Red] Brown [Red] Switch 2 Switch 2 Blue [Black] Blue [Black] Load voltage at OFF = Leakage current x 2 pcs. x Load impedance = 1mA x 2pcs. = 3k = 6V Load voltage at ON = Power supply voltage Residual voltage x 2 pcs. = 24V 4V x 2 pcs. = 16V Example: Load impedance is 3k. Leakage current from switch is 1mA.
1 M3 x 0.5 x 32 VP300-2-1P (Rc 1/8) VP300-2-2P (Rc 1/4) VP500-2-1P (Rc 1/4) VP500-2-2P (Rc 3/8) VP700-2-1P (Rc 3/8) VP700-2-2P (Rc 1/2) VPA344 VP300-17-1 VP300-24-4 M4 x 0.7 x 41 VPA544 VP500-17-1 Series Thread type VP500-24-3 M5 x 0.8 x 50 3 5 7 P F N T VPA344 VPA544 VPA744 Rc G NPT NPTF VPA744 VP700-17-1 VP700-24-1 Caution Port size Mounting screw tightening torques VPA344 1/8 1/4 VPA544
Seal 7 Non-asbestos Seal 42047#1 (1 pc.) 8 Note) Consult with SMC when replacing parts since special tools are required for replacement. 17 Series HAW Dimensions HAW2/7 E F 2 x V Rc 2 x Y Rc Air outlet Air inlet Cooling water outlet Q 87 G K J H Cooling water inlet S L T 2 x 2 x U D W Rc N (M) Drain B C A HAW22 to 110 Air outlet Air inlet F E HAW110-30 P 2 x Y Rc 2 x V Screw-in (Z) (L) (ZA
25 to 750 25 to 600 70 40 17 23 14 72 52 30 32 23 78 25 15 21 11 37 117.5 102 55 26.5 36 189 13 M12 x 1.75 16.5 25 to 750 25 to 600 80 40 19 25 14 76 52 31 41 25 92 30 15 21 11 37 131.5 116 56.5 35.5 36 198 16 M12 x 1.75 16.5 Without rod boot With rod boot W S P NN MM N Bore size (mm) h f e ZZ H ZZ 40 50 63 80 100 59 11.2 43 280.5 51 8 218.5 1/4 161.5 288.5 27 M14 x 1.5 66 11.2 52 304.5
P Signals and terminal status can be monitored. P Parameters can be set.
amount: 800 x 1 / 10 x 100 = 8000[pulse] Travel speed: 800 x 1 / 10 x 100 = 8000 [pulse/sec] Acceleration / deceleration time: 100 / 3000 = 0.1 [s]
Technical Data 1139 JC Series Dimensions of Accessories Rod end nut (mm) d: Thread nominal size Model Order number M8 x 1 M8 x 1.25 M10 x 1 M10 x 1.25 M10 x 1.5 M12 x 1.25 M12 x 1.5 M12 x 1.75 M14 x 1.5 M16 x 1.5 M16 x 2 M18 x 1.5 H 5 5 6 6 6 7 7 7 8 10 10 11 B C 15 15 19.6 19.6 19.6 21.9 21.9 21.9 25.4 27.7 27.7 31.2 JC20-8-100 JC20-8-125 JC32-10-100 JC30-10-125 JC25-10-150 JC40-12-125 JC40
X Moving force Note1) The setting to define the maximum force during the positioning operation. (Setting per step data is not possible.) X Axis name Note1) Define the axis name of the actuator. X The order from 1 to 4 is assigned to axes for the return to origin operation when all axes are to return to origin. The axes return to origin from 1 according to the order assigned.
Refer to Fig. 4-1: Thrust force characteristics (P.9) and to Fig. 4-3: Allowable thrust force setting values (P.11) for details. Note 2) When mounted on a base with good heat dissipating capacity at 20oC ambient temperature. Note 3) The pushing force varies depending on the operating environment, pushing direction and table position. Refer to Fig. 4-1 Thrust force characteristics (P.9).
Alarm Sequence Setting range : On, Off Indicated content : Use of temp. upper/lower limit alarm U p p e r / L o w e r T e m p . A l a r m S e q u e n c e M O D E < O f f sequence(Ex. : Off) Function : Determines whether or not temp. upper/lower limit alarm is output when power is turned on.
X Moving force Note1) The setting to define the maximum force during the positioning operation. (Setting per step data is not possible.) X Axis name Note1) Define the axis name of the actuator. X The order from 1 to 4 is assigned to axes for the return to origin operation when all axes are to return to origin. The axes return to origin from 1 according to the order assigned.
Manual mode (M) Auto mode (A) Setting of stop position (step data) O X Setting of Speed and Acceleration O (Only in speed adjustment) *2) Setting of operation method O X Setting of parameters O X Controller operation using the button O X Operation from parallel I/O X O Positioning operation O O Pushing operation (Test function only) *1) O Output to parallel I/O (Test function only) *1)
50 40 40 100 100 300 300 200 400 500 200 400 500 D o e s t h e m o u n t e d l o a d / P i s t o n s p e e d ( /) e x c e e d t h e l o a d g i v e n i n P i s t o n s p e e d ( /) t h e d i a g r a m ? H o r i z o n t a l m o u n t i n g V e r t i c a l m o u n t i n g S e l e c t i o n ..
piLl lanp lighls wh6n hlo swilches a turned ON Eran0e P$s!