CE2 Bore size (mm) 80 NLP-80A PDU-25Z PSD-33 x 25 P75 DSM-30 CA80-1609 CA80-1604 P5 No.
Compact Guide Cylinder 12, 16, 20, 25, 32, 40, 50, 63, 80, 100 RoHS Bore sizes 80, 100 added. Port thread types NPT, G added.
RS Q G Theoretical Output Rotary Angle (N) RS H A Operating pressure (MPa) Piston area (cm2) Bore size (mm) Rod size (mm) Operating direction 1.0 0.7 0.5 0.3 RZQ Release (Extended stroke end) 80 to 100 (90 10) Counterclockwise (L) Release (Extended stroke end) 80 to 100 (90 10) Clockwise (R) 80 56 40 24 0.8 R 12 6 110 77 55 33 1.1 H MI W S 150 105 75 45 1.5 R 16 8 200 140 100 60 2 H CEP1
50 MXQ20-50 MXQ20-30 MXQ20-100 MXQ20-150 0.08 MXQ20-125 0.04 0.04 MXQ20-20 MXQ20-100 MXQ20-20 MXQ20-10 0.04 0.02 MXQ20-10 0.02 0 0 400 500 600 100 200 300 0 100 200 300 100 200 300 (1N = Approx. 0.102kgf) Load N Load N (1N = Approx. 0.102kgf) Load N (1N = Approx. 0.102kgf) 25 25 25 Lr = 200mm 0.08 MXQ25-50 MXQ25-75 MXQ25-10 MXQ25-20 MXQ25-30 MXQ25-40 MXQ25-150 MXQ25-40 0.12 0.10 MXQ25-75
Beginning 100 200 200 NO Is the cylinder's kinetic energy within the allowable range? Load weight (kgf) Load weight (kgf) 100 80 YES 100 100 80 NO 63 Is the speed within the given range in the diagram? And, within specifications? 63 50 50 40 40 YES YES Does the mounted load exceed the load given in the diagram?
63 mm Nil TN TF Rc 80 mm NPT Nil S 2 pcs.
900 0.3 MK(2) 63 80 Load weight m [kg] Load weight m [kg] Load weight m [kg] Load weight m [kg] 0.2 800 800 50 0.1 700 700 RS Q G 600 600 0 500 100 200 300 400 RS H A 63 Lateral load F [N] 500 500 50 400 400 RZQ RS1H50, 63, 80 300 300 1.0 RS1H80 MI W S RS1H50 200 200 RS1H63 0.9 Operating pressure P [MPa] 0.8 100 100 CEP1 0.7 10 20 30 40 10 20 30 40 0 0 0.6 CE1 Transfer speed [m/min] =
load F [N] 500 500 50 400 400 RZQ RS1H50, 63, 80 300 300 1.0 RS1H80 MI W S RS1H50 200 200 RS1H63 0.9 Operating pressure P [MPa] 0.8 100 100 CEP1 0.7 10 20 30 40 10 20 30 40 0 0 0.6 CE1 Transfer speed [m/min] = 0 Transfer speed [m/min] = 0.1 0.5 0.4 CE2 Graph (3) Graph (4) Bore size 20, 32/ = 0 Bore size 20, 32/ = 0.1 0.3 ML2B 0.2 0.1 C J G5-S 80 80 1000 2000 3000 4000 0 5000 Lateral
degrees 3 turns 200 degrees 3 turns 200 degrees 200 degrees 17mA or less (when 24VDC is ON) 25mA or less (when 24VDC is ON) 17mA or less (when 24VDC is ON) Current consumption 0.2MPa {2.1kgf/cm} Max. operating pressure Note 1) When using an ejector, there is no problem if pressure of 0.5MPa {5.1kgf/cm} is applied for 1 second or less.
A A F F A F L L L 6 6 6 L = 80 mm L = 80 mm L = 80 mm MXP6-5 MXPJ6-5 MXP6-10 MXPJ6-10 MXP6-5 MXPJ6-5 MXP6-10 MXPJ6-10 MXP6-5 MXPJ6-5 MXP6-10 MXPJ6-10 0.05 0.05 0.06 Table displacement amount (mm) Table displacement amount (mm) Table displacement amount (mm) 0.04 0.04 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local
Station L1 L2 L3 L4 Station 20 341 328 304 296 3 69 56 32 24 6 117 104 80 72 8 149 136 112 104 10 181 168 144 136 Station 2 53 40 16 8 4 85 72 48 40 5 101 88 64 56 7 133 120 96 88 9 165 152 128 120 11 197 184 160 152 12 213 200 176 168 13 229 216 192 184 14 245 232 208 200 15 261 248 224 216 16 277 264 240 232 17 293 280 256 248 18 309 296 272 264 19 325 312 288 280 623 3 Port Pilot Solenoid
: 20ms 2ms; 200 million cycles VQC4100: 17ms 3ms; 100 million cycles (Based on IEC529) (For kits S and T) Connector Compact and high flow Flow characteristics Note) Metal seal Applicable cylinder size (mm) Type (Series) Manifold pitch (mm) Rubber seal b C[dm3/(sbar)] Cv b C[dm3/(sbar)] Cv VQC1000 to 50 10.5 0.30 1.0 0.25 0.25 0.72 0.18 VQC2000 to 80 16 0.30 3.2 0.80 0.15 2.6 0.60 VQC4000
(Pending for UL Standards) 1000/1100 200/200 Watercooled refrigeration Anti-quake bracket4 Single-phase 100 VAC (50/60 Hz)/ 115 VAC (60 Hz) Single-phase 200 to 230 VAC (50/60 Hz) Concentration meter HRR012 1000/1200 400/500 (100 V type) 450/500 (200 V type) Air-cooled refrigeration With electric conductivity control function, Applicable to DI water piping HRR018 1600/1800
Table 4-1 Cooling water system Items Circulating type Non circulating type Circulating fluid Make-up water Non circulating water pH [25oC] 6.5~8.2 6.5~8.0 6.8~8.0 Conductivity (mS/) [25oC] 80 or less 30 or less 40 or less Standard items Chloride ion (mg/L) 200 or less 50 or less 50 or less Sulphate ion (mg/L) 200 or less 50 or less 50 or less Acid consumption [pH4.8](mgCaCO3/L) 100 or less
Example 1:How many sctm will flow through a valve with a C, of 1 .0 given a supply pressure ot 80 psig and a 20 psi pressure drop? From the chart Fig. 3.10 find 80 psig on the criticalflow line. Next, lind 60 psig (80 psig minus a 20 psi pre*sure drop) on the horizontral axis at the bottom.
Example 1:How many sctm will flow through a valve with a C, of 1 .0 given a supply pressure ot 80 psig and a 20 psi pressure drop? From the chart Fig. 3.10 find 80 psig on the criticalflow line. Next, lind 60 psig (80 psig minus a 20 psi pre*sure drop) on the horizontral axis at the bottom.
The RQ series new air cushion construction allows this series to retain the merits of a compact cylinder. The unique air cushion construction eliminates the cushion ring used in conventional type air cushions, which reduces the overall length of the cylinder. The RQ series meets the demands for reduced shock, noise reduction and improved repeatability at the stroke end. Unique air cushion
106 110 110 115 201 to 300 131 135 135 140 301 to 400 156 160 160 165 401 to 500 185 185 190 20 25 32 40 24 24 24 25 36 36 36 46 With rod boot (mm) ZZ Symbol Z 1 to 50 143 147 149 181 l 1 to 50 63 67 67 71.5 Stroke 1 to 50 12.5 12.5 12.5 12.5 Bore 51 to 100 25 25 25 25 101 to 150 37.5 37.5 37.5 37.5 151 to 200 50 50 50 50 201 to 300 75 75 75 75 51 to 100 76 80 80 84.5 101 to 150 88 92 92
XL-25 XL-40 XL-50 XL-63 AC90240V Ass'y XLA25-60S-1 XLA25-60S-1 XLA25-60S-2 Ass'y 1 1 1 H4 AC100V 200/40 200/50 400/100 / AC200V 800/40 800/50 800/100 Ass'y XLA25-60S-1 XLA25-60S-2 XLA25-60S-2 XLA25-60S-3 Ass'y 1 1 1 1 H5 AC100V 200/40 400/70 400/80 600/130 / AC200V 800/40 1600/80 1600/80 2400/130 XL-80 XL-100 XL-160 AC90240V Ass'y XLA25-60S-3 XLA25-60S-2 XLA25-60S-2 Ass'y
CXSM CXSL 1 1 0.5 Weight m (kg) Weight m (kg) 32 32 25 0.1 25 20 0.05 20 15 15 10 0 0.01 0 0.1 10 20 40 60 80 100 20 40 60 80 100 Overhang l (mm) Overhang l (mm) Graph (15) V = Over 400 mm/s; Up to 50 st Graph (16) V = Over 400 mm/s; Up to 75 st 2 2 CXSM CXSL CXSM CXSL 1 1 0.5 Weight m (kg) Weight m (kg) 32 32 0.1 0.1 25 25 0.05 20 20 15 15 10 0.01 0 0.01 10 20 40 60 80 100 0 20 40 60 80