ISO Cylinder ISO Standard (15552) C96 Series ø32, ø40, ø50, ø63, ø80, ø100, ø125 Lightweight 17% Up C85 An adjustable position trunnion has been added. to C85W Weight reduced C85-S/T C85K * Compared with the previous C96 series (ø40, 100 mm stroke) C TG1 FL l1 L l2 d1 CD MR d2 R1 E2 UB CB C85 C85W C85-S/T C75-S/T C85K-S/T C75K-S/T C85K C75K C75R CP96 CP96K C96 C96K C96Y C55 C85R C75 C75W Auto Switch Made to Order Related Products l2 32 D5032 32.5 22 5 12 5.5 30 10 9.5 6.6 6.5 48 45 26 40 D5040 38 25 5 15 5.5 35 12 12 6.6 6.5 56 52 28 50 D5050 46.5 27 5 15 6.5 40 12 12 9 8.5 64 60 32 63 D5063 56.5 32 5 20 6.5 45 16 16 9 8.5 75 70 40 80
Dimensions for installation n: number of solenoid valve stations n L 1 2 3 4 5 6 7 8 L1 120.7 136.7 152.7 168.7 184.7 200.7 216.7 L2 80 96 112 128 144 160 176 n L 9 10 11 12 13 14 15 16 L1 232.7 248.7 264.7 280.7 296.7 312.7 328.7 344.7 L2 192 208 224 240 256 272 288 304 (mm) The above table shows dimensions as an example for the SY5000 series solenoid valve manifold. -11No.EX-OMW0016-A Wiring
Symbol 46 42.5 Outside diameter Indicator light Max. display pressure Symbol 10 1.0 Unit: MPa Without indicator light Nil L2 Neon light (100 VAC/220 VAC) Attachment (Cover ring assembly) L5 LED/24 VDC Connection thread Without cover ring assembly Symbol Specifications Symbol Size Nil 01 R 1 8 Clear cover has no protrusion. (Clear cover is irremovable.)
Description Material 1 Body SCS14A (SUS 316) 2 Needle SUS316 L4 3 Lock nut SUS316 4 Valve SUS316 5 Valve guide SUS316, NBR for low temperature L2 L3 6 Spring SUS316 7 Bolt SUS316 8 O-ring NBR for low temperature L5 9 O-ring NBR for low temperature Model Port size D H L1 L2 L3 L4 Note) L5 Mass g MAX. MIN.
TG1 FL l1 L l2 d1 CD MR d2 R1 E2 UB CB C85 C85W C85-S/T C75-S/T C85K-S/T C75K-S/T C85K C75K C75R CP96 CP96K C96 C96K C96Y C55 C85R C75 C75W Auto Switch Made to Order Related Products l2 32 D5032 32.5 22 5 12 5.5 30 10 9.5 6.6 6.5 48 45 26 40 D5040 38 25 5 15 5.5 35 12 12 6.6 6.5 56 52 28 50 D5050 46.5 27 5 15 6.5 40 12 12 9 8.5 64 60 32 63 D5063 56.5 32 5 20 6.5 45 16 16 9 8.5 75 70 40 80
. 600 0.51000(0.4 + 0.4) 1000 LEC = T1: Acceleration time [s] Time until reaching the set speed LEC S = 0.2 [s] T1 = V/a1 [s] T3 = V/a2 [s] T4 = 0.3 [s] 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 LEC
Cylinder: MXP10-10 Mounting: Horizontal wall mounting Average speed: Va = 300 [mm/s] Allowable load: W = 0.2 [kg] L2 = 20 mm L3 = 30 mm Kinetic Energy Model to be used Mounting orientation Average speed Va (mm/s) W Load weight W (kg): Fig. (1) L3 + A3 Overhang Ln (mm): Fig. (2) L2 2 1 420 2 E = 0.2 () = 0.018 2 1000 V = 1.4 x 300 = 420 1 V 2 E = W () 2 1000 Find the kinetic energy
Yawing Mep m m : Transfer load (kg) a : Work piece acceleration (mm/s) Me: Dynamic moment L : Overhang to work piece center of gravity (mm) 50 L1 0 2 4 6 8 10 Transfer load m (kg) 150 L2 100 Mer m 50 L2 0 2 4 6 8 10 Mer Transfer load m (kg) m a = 500 150 a = 1000 100 a = 2000 L3 50 m Mey a 0 2 4 6 8 10 Transfer load m (kg) Refer to page 145 for deflection data. 90 Standard Motor/Horizontal
T4 = 0.2 [s] Calculation example) T1 to T4 can be calculated as follows. T1 = V/a1 = 200/3000 = 0.067 [s], T3 = V/a2 = 200/3000 = 0.067 [s] 40 0.5 200 (0.067 + 0.067) 200 T2 = = = 0.133 [s] L 0.5 V (T1 + T3) V T4 = 0.2 [s] Therefore, the cycle time can be obtained as follows.
T4 = 0.2 [s] T1 = V/a1 = 200/3000 = 0.067 [s], T3 = V/a2 = 200/3000 = 0.067 [s] T2 = = = 0.133 [s] L 0.5 V (T1 + T3) V 40 0.5 200 (0.067 + 0.067) 200 T4 = 0.2 [s] Therefore, the cycle time can be obtained as follows.
MY3M Shock Absorber Specifications Piston Speed 10 16 to 100 Bore size (mm) RB 0806 RB 1007 RB 1412 RB 2015 RB 0805 Model Without stroke adjusting unit 100 to 500 mm/s 100 to 1000 mm/s 100 to 1500 mm/s (2) A unit 2.9 5.9 19.6 58.8 100 to 200 mm/s 100 to 1000 mm/s (1) Max. energy absorption (J) 1.0 Stroke adjusting unit L unit and H unit 6 7 12 15 100 to 1000 mm/s Stroke absorption (mm) 5
Note 4) Piston speed is ranged from 50 to 500 mm/s. Standard model no.
to the control panel,s protective earth (PE).
to the control panel,s protective earth (PE).
20 15 4(A) 4(A) 5 46 12.5 P=11 L plug connector (L) Dimensions n: Stations L n 19 226 218 20 237 229 13 160 152 15 182 174 17 204 196 5 72 64 6 83 75 7 94 86 9 116 108 11 138 130 L2 L1 2 39 31 3 50 42 4 61 53 16 193 185 18 215 207 10 127 119 12 149 141 14 171 163 8 105 97 601
D1 Y L1 M1 M1 Applicable tubing O.D.: 3.2, 4, 6 1/8", 5/32" Metric Size Model Applicable tubing O.D.d D1 Release button D2 D3 D4 D5 L1 L2 L3 L41 L5 L6 L7 L8 M1 Weight [g] X(X) Y Max.
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 420mm/s in Graph 3. M3 M3E m x g FE L2 From above, n = 1 + 2 + 3A + 3B = 0.1 + 0.082 + 0.35 + 0.28 = 0.812.
LECSB2-S 200 to 230 V V V C1 LECSC1-S 100 to 120 V V C2 LECSC2-S 200 to 230 V V V S1 LECSS1-S 100 to 120 V V S2 LECSS2-S 200 to 230 V V V Note 1) The motor and encoder cables are included.
speed mm/s Piston speed mm/s Piston speed mm/s 8-16-7 7 Series CY1F Vertical Actuation 1.
Find the value of m max at 300 mm/s in Graph (7) for m4. M1 = m x g x L1 = 3 x 9.8 x 0.05 = 1.47 [Nm] 2. Static moment Investigate M1. Find the value of M1 max at 300 mm/s in Graph (1). 2a =M1/M1 max =1.47/14 =0.105 M1 L1 M3 = m x g x L2 = 3 x 9.8 x 0.04 = 1.176 [Nm] m x g Investigate M3. M3 Find the value of M3 max at 300 mm/s in Graph (3). 2b = M3/M3 max = 1.176/14 = 0.084 L2 m x g 3.