CYV Dynamic moment Va Calculation Example m Operating conditions Cylinder: CYV32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of the arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/m max = 1/5 = 0.20 L2 Review m. L1 2.
Orange Calculation of Connected Plug and Socket Dimension Overall length of connected plug and socket B = Plug (L1 L2) + Socket (L2) + 0.5 Plug Socket Example) Overall length of KK3P-01MS (plug) and KK3S-01MS (socket) when they are connected.
Cylinder: MXY8-100 Cushion: Rubber stopper Mounting: Horizontal wall mounting Average speed: Va = 300 [mm/s] Load weight: W = 0.2 [kg] L2 = 40 mm L3 = 50 mm Model to be used Type of cushion Mounting orientation Average speed Va (mm/s) Load weight W (kg) Overhang Ln (mm) W L3 + A3 L2 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650
Dynamic moment Va Calculation example m Operating conditions Cylinder: CYP32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/mmax = 1/5 = 0.20 L2 Review m. L1 M2 = m g (L1 + B) 103 2.
Dynamic moment Va Calculation example m Operating conditions Cylinder: CYP32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/mmax = 1/5 = 0.20 L2 Review m. L1 2.
Dynamic moment Va Calculation example m Operating conditions Cylinder: CYP32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/mmax = 1/5 = 0.20 L2 Review m. L1 2.
307 394 481 568 655 742 829 916 1003 L2 = 87 x n + 133 Model 2 257 3 344 4 431 5 518 6 605 7 692 8 779 9 866 10 953 L L1 VVPA450 L3 L4 356 464 572 680 788 896 1004 L4 = 108 x n + 140 L3 = 108 x n + 90 306 414 522 630 738 846 954 VVPA460 ( ) for VVPA460 5-3-30 1 4/5 Port Air Operated Valve Series VSA420 Model Flow characteristics P A/B A/B EA/EB Valve model Port size Rc Note) Weight
Dynamic moment Va Calculation Example m Operating conditions Cylinder: CYV32 Mounting: Horizontal wall mounting Maximum speed: U = 300 [mm/s] Load mass: m = 1 [kg] (excluding mass of the arm section) L1 = 50 [mm] L2 = 50 [mm] L2 L1 Item Load factor n Note 1. Maximum load mass m 1 = m/m max = 1/5 = 0.20 L2 Review m. L1 2.
N L1 L2 L3 L4 L5 L6 P Q1 Q2 M KRM12-06-02-10 KRM12-06-02-6 99 10 6 6 89 47 1 4 17 19.5 33.5 23.5 33 13.5 8.5 13 19 10 125 6 108 10 55 73 106 104 KRM12-08-03-10 KRM12-08-03-6 3 8 8 19 139 11.5 22.5 37.5 26 36.5 10 15.5 20.5 14.7 86 126 119
Orange Calculation of Connected Plug and Socket Dimension Overall length of connected plug and socket B = Plug (L1 L2) + Socket (L2) + 0.5 Plug Socket Example) Overall length of KK3P-01MS (plug) and KK3S-01MS (socket) when they are connected.
W W Mey Mep We We L3 A3 L2 A2 Note) Static moment : Moment by gravity Kinetic moment : Moment by stopper collision Max.allowable load:W max.
Dynamic moment U: Maximum speed U Calculation examples Operating conditions Cylinder: REBH15 Mounting: Horizontal wall mounting Maximum speed: U = 500 [mm/s ] Load weight: W = 1 [kg] (excluding weight of arm section) L1 = 200 [mm] L2 = 200 [mm] W L2 L1 Item Load factor n Note 1. Maximum load weight W 1 = W/Wmax = 1/3 = 0.111 = 0.333 Review W.
MAKER MADE IN IDF Series i-2 i-5 IDX-OM-W026 i i-3 HFC IDF Series i-3 i6 IDX-OM-W026 i i-4 / 1 1.5 () IDF Series i-4 / i7 IDX-OM-W026 1 1 1-1 OUT IDF22E75E IN (ONOFF ) (EVAPORATING TEMP) 5-2 IDF22E-20, IDF37E-20 IDF22E-30, IDF37E-30, IDF55E-30, AC200V IDF75E-30 AC200V L N PE L1 L2 L3 PE M3 M3 1.25-3 1.25-3 (6.5mm ) (6.5mm ) IDF Series 1-1 1 1 IDX-OM-W026 1 IDF22E75E OUT
A3 End plate mounting MX Mp Mr W My W W MTS W L3 A6 W L1 A2 L2 A4 MY K = 0.6 W Mey Mep CY L2 A4 MG Note) No need to consider this load factor in the case of using perpendicularly in a vertical position.
385 VV2CS3 L2 89 127.5 166 204.5 243 281.5 320 358.5 397 L3 101 139.5 178 216.5 255 293.5 332 370.5 409 L1 83 124.5 166 207.5 249 290.5 332 373.5 415 VV2CS4 L2 95 136.5 178 219.5 261 302.5 344 385.5 427 L3 107 148.5 190 231.5 273 314.5 356 397.5 439 Manifold composition Note) Manifold base is consisted of the junction of 2 and 3 station bases. 2 stns. x 1 3 stns. x 1 2 stns. x 2 2 stns.
L2 89 358.5 139.5 216.5 332 178 255 409 293.5 L3 101 370.5 124.5 207.5 332 166 249 415 290.5 L1 83 373.5 VV2CS4 136.5 219.5 344 178 261 427 302.5 L2 95 385.5 148.5 231.5 356 190 273 439 314.5 L3 107 397.5 Manifold composition 3 stns. x 1 2 stns. + 3 stns. 2 stns. + 3 stns. x 2 2 stns. x 2 3 stns. x 2 2 stns. x 2 + 3 stns. x 2 2 stns. x 2 + 3 stns. 2 stns. x 1 3 stns. x 3 Note) Manifold bases
San=a1+a2+a31 3.11-10 Air Slide Table Series MXS Allowable load: W (N) Fig.1 Overhang: Ln (mm), Correction value for moment center distance An (mm) Fig.2 Pitch moment Yaw moment Roll moment W My Mp Mr W W W Static moment Dynamic moment L1 A1 L3 A5 L2 A3 CL W Mp Mr My W W MLGC L3 A6 W L1 A2 L2 A4 CNA W Mey Mep CB L2 A4 CV/MVG A2 L3 Work mounting coefficient: K Fig.3 CXW Table mounting CXS
L1 Model T1 T2 D L1 L2 L3 XTO-2571-02 Rc1/4 52 52 21 57 XTO-2571-03 Rc3/8 XTO-1239-02 Rc1/4 84 80 37 79 XTO-1239-03 Rc3/8 Rc1/4 XTO-1239-04 Rc1/2 XTO-1719-06 Rc3/4 98 98 40 90 XTO-1719-10 Rc1 !
L3 L4 A Model d T Weight (g) H D1 D2 L1 L2 L3 L4 A Max.
X X D3 D1 Y L1 M1 M1 Applicable tubing O.D.: 3.2, 4, 6 1/8", 5/32" 2 x Applicable tubing O.D. d Front view Right side view Metric Size Model Applicable tubing O.D. d D1 Release button D2 D3 D4 D5 L1 L2 L3 L41 L5 L6 L7 L8 M1 W1 W2 X1 X2 Weight [g] X(X) Y Max.