HRX-OM-Y098 Table 7.1-1 Quality criteria for clean water (tap water) Item Unit Criterion Circulating fluid Facility water pH (at 25 oC) 6.0 to 8.0 6.5 to 8.2 Electric conductance (at 25 oC) [S/cm] 100 to 300 100 to 800 Chloride ion [mg/L] 50 or less 200 or less Standard Sulphate ion [mg/L] 50 or less 200 or less item Acid consumption (at pH 4.8) [mg/L] 50 or less 100 or less Total hardness [mg/L] 70
13 7 stations 7 stations (+) () () (+) 14 14 J.S.T.
JIS symbol 5 Port 4 Port Fluid Specifications Air 22~100 (0.15~0.7) 15~100 (0.1~0.7) 22~100 (0.15~0.7) 2 Position single 2 Position single 2 Position single 2 Position double 3 Position 2 Position single 2 Position double 3 Position A B A B Operating pressure range PSI (MPa) P R R P R Operating pressure to 100 (Operating pressure to 0.7) 15~100 (0.1 to 0.7) 22~100 (0.15 to 0.7) Max.140 Not
13 17 19 CI 17 22 27 32 38 DF 4 7 10 12 14 CH 11 13 13 17 19 DE 3.5 3.5 3.5 5.5 6 CF 4 7 10 12 14 DB 23 27 31 37 48 CE 3.5 3.5 3.5 5.5 6 DA 53 67 85 103 122 CB 23 27 31 37 48 CA 53 67 85 103 122 Size 25 32 40 50 63 Size 25 32 40 50 63 Part No.
385.7 406.2 426.7 447.2 467.7 488.2 508.7 139.7 12.5 15 17 13 15.5 17.5 13.5 16 12 14 16.5 12.5 14.5 17 13 15 17.5 13.5 16.5 117.5 138 158.5 179 199.5 220 240.5 261 281.5 302 322.5 343 363.5 384 404.5 425 445.5 466 97 223 Directional Control Valves Air Grippers Modular F.
20 0.01 CY1H 100 400 250 0 200 400 600 800 1000 1200 1400 1600 Stroke [mm] Piston speed [mm/s] CY1F M2 M1, M3 [Graph 13] Allowable moment [Graph 11] Allowable moment CYP 200 200 100 100 Moment M1, M3 [Nm] Moment M2 [Nm] D CY1S25-Z CY1S25-Z E F D10 10 -X 5 5 100 400 250 100 400 350 Technical Data Piston speed [mm/s] Piston speed [mm/s] 1495 CY1S Series Calculation of Guide Load Factor Calculation
mm) Cylinder stroke . 500 (mm) 13.3 1 + 311 x 500/100 = 28.86 (kg) 13 ~srv'C Series CS2W Construction Component Parts Component Parts No.
D-G5NTL 75 + 50 (n-2) 15 75 30.5 38 43 50 A B 0 (1) 0.5 2 2 D-A3 D-G3, D-K3 100 + 100 (n-2) 35 + 30 (n-2) 35 100 D-B5, D-B6 33.5 23.5 25 25 Approx. Hs 25.5 (28.5) 38 43.5 50.5 D-A4 35 + 30 (n-2) 50 + 50 (n-2) 35 55 A B 0 2 3.5 3.5 D-G5NTL 27 25 26.5 26.5 Approx. Hs 33.5 38 43.5 50.5 A B 0 1.5 1.5 D-A3 D-G3, D-K3 23 24.5 24.5 Approx.
D-G5NTL 75 + 50 (n-2) 15 75 30.5 38 43 50 A B 0 (1) 0.5 2 2 D-A3 D-G3, D-K3 100 + 100 (n-2) 35 + 30 (n-2) 35 100 D-B5, D-B6 33.5 23.5 25 25 Approx. Hs 25.5 (28.5) 38 43.5 50.5 D-A4 35 + 30 (n-2) 50 + 50 (n-2) 35 55 A B 0 2 3.5 3.5 D-G5NTL 27 25 26.5 26.5 Approx. Hs 33.5 38 43.5 50.5 A B 0 1.5 1.5 D-A3 D-G3, D-K3 23 24.5 24.5 Approx.
S41 Type/Side Ported [ ] for AC VS SS3YJ3-S41Station -M3 L plug connector (L) M plug connector (M) 48.6(GZ, GS: 49.3) [50.3] 41.5 [48] P R P R 11 22 28 29.1 2-3.5 (Lead wire length) (Mounting holes) 300 52.6 [59.1] 300 (Lead wire length) 41.5 [48] L2 4-M5 X 0.8 L1 48.9 [50.2] (P, R port) 58.5 44.9 41.5 [48] 13 4.5 13 4.5 29.1 22.5 A A 13 10 5 5 4-M5 X 0.8 P=10.5 13.5 (P, R port) n-M3 X 0.5
F.S. = 100[kPa] 0[kPa] = 100[kPa] 3[%F.S.] = 100[kPa] X 0.03 = 3[kPa] Example: Time Failure predict output 1 ON OFF Time The display error induced by the temperature change can be as much as 3[kPa].
E E H J K L1 L1 L2 L2 M Min. port size t W1 W2 LQ3P1A 1/8" 10 9 11 6 14.5 23.5 22.5 58 56 14 2 8 16 17 LQ3P2A 1/4" 17 16 16 7 20.5 28 27 69 67 20 4 8 21 24 LQ3P3A 3/8" 22.5 19.5 21 7 24.5 39 36 89 83 25 6.4 8 26 28 LQ3P4A 1/2" 24.5 22.5 24 9 30.5 44.5 42.5 100 96 29 9.5 8 32 36 LQ3P5A 3/4" 26.5 24 32 9 36.5 50.5 48 117 112 37 16 13 41 43 LQ3P6A 1" 30 26 41 10 48.5 60 56 136 127.5 49 22 13
Cylinder port is located at U side of body. 1(P) SUP port 2n-C3, C4, C6, M5 C3: One-touch fitting for 3.2 C4: One-touch fitting for 4 C6: One-touch fitting for 6 M5: M5 thread P = 11 2-C6 3(R) EXH port Dimensions 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Formula L1 = 11n + 15.5, L2 = 11n + 60 n: Station (Maximum 16 stations) L n L1 L2 (L3) (L4) 26.5 71 100 110.5 37.5 82 100 110.5 48.5 93 112.5
.: 120C [248F]) Uniform baking temperature Excellent thermal conductivity results in a uniform temperature for the entire valve body and a marked decrease in the condensation of gases inside the valve. 3, 4, 5 3 120 120 Comparison with KF25 flange 100 100 Body 1 4 Temperature (C) Body 2 80 5 2 Temperature (C) Body 3 1 1, 2 Bellows 60 30 0 60 30 0 Time (minutes) Time (minutes) Valve F=(1.8xC
.: 120C [248F]) Uniform baking temperature Excellent thermal conductivity results in a uniform temperature for the entire valve body and a marked decrease in the condensation of gases inside the valve. 3, 4, 5 3 120 120 Comparison with KF25 flange 100 100 Body 1 4 Temperature (C) Body 2 80 5 2 Temperature (C) Body 3 1 1, 2 Bellows 60 30 0 60 30 0 Time (minutes) Time (minutes) Valve F=(1.8xC
QA Tubing O.D. 6 J QB Q F Built-in One-touch Fittings Stroke 13 20 Stroke 8 Applicable tubing O.D.
Table 7.1-1 Quality criteria for clean water (tap water) Item Unit Criterion Circulating fluid Facility water pH (at 25 oC) 6.0 to 8.0 6.5 to 8.2 Electric conductance (at 25 oC) [S/cm] 100 to 300 100 to 800 Chloride ion [mg/L] 50 or less 200 or less Standard Sulphate ion [mg/L] 50 or less 200 or less item Acid consumption (at pH 4.8) [mg/L] 50 or less 100 or less Total hardness [mg/L] 70
First find the ratio of the discharge rate for fresh water when viscosity is 100 mPas from the graph below. It is determined to be 45%. 2. Next, in the required specification example, the viscosity is 100 mPas and the discharge rate is 2.7 L/min.
20.00 1000 1000 0 0 0 100 18.00 22.50 0.5 1 ABS 50 10.00 1000 1000 70 60 5 100 6.0 12.0 1.5 63 ABS 20 5.00 500 500 0 0 0 100 3.0 8.0 1.2 28 - TB No.
3/8 187 334 31 M18 x 1.5 stroke 80 12.5 65 372 71 0 284 1/2 205 37 381 M22 x 1.5 81 14 65 389 72 0 300 1/2 214 398 40 M26 x 1.5 Foot style LS + Stroke ZZ + Stroke LD ZZ Y X LX LS LH B Bore size (mm) 40 50 63 80 100 9 309.5 13 27 42 272.5 40 58.5 9 333.5 13 27 50 289.5 45 68.5 11.5 362 16 34 59 322 50 83 13.5 415 16 44 76 372 65 100 13.5 432 17 43 92 386 75 114 10-12-50 8 Stroke Reading Cylinder