CY1F 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.
L2 [mm] L2 [mm] L2 [mm] L2 [mm] 120 120 120 120 Me m Y 80 80 80 80 40 40 40 40 0 0 0.2 0.4 0.6 0.8 1 0 0.0 0.4 0.8 1.2 1.6 2.0 0 0.0 0.4 0.8 1.2 1.6 2.0 0 0 0.2 0.4 0.6 0.8 1 Work load [kg] Work load [kg] Work load [kg] Work load [kg] 300 300 200 200 250 250 160 160 Me 200 200 L3 [mm] L3 [mm] L3 [mm] L3 [mm] 120 120 m L3 150 150 Z 80 80 100 100 40 40 50 50 0 0 0.2 0.4 0.6 0.8 1 0 0.0 0.4
) L1 = 50 [mm] L2 = 40 [mm] m L2 L1 Item Load factor an Note 1.
CY1F CY1F M1E m x g FE CYP 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 420 mm/s in Graph (3). M3 M3E m x g FE L2 DFrom above, n = 1 + 2 + 3A + 3B = 0.1 + 0.082 + 0.35 + 0.28 = 0.812 From n = 0.812 1, it is applicable.
) L1 = 50 [mm] L2 = 40 [mm] m L2 L1 Item Load factor an Note 1.
LECSB1: Single phase 100 to 120 VAC, 50/60 Hz Connection terminal: L1,L2 LECSB2: Single phase 200 to 230 VAC, 50/60 Hz Connection terminal: L1,L2 Three phase 200 to 230 VAC, 50/60 Hz Connection terminal: L1,L2,L3 Do not connect. L1 L2 L2 Main circuit power supply L3 L3 Regenerative converter N P1 P2 N DC reactor Connect between P1 and P2. (Connected at time of shipping.)
LECSB1/LECSC1/LECSS1: Single phase 100 to 120 VAC, 50/60 Hz Connection terminal: L1,L2 LECSB2/LECSC2/LECSS2: Single phase 200 to 230 VAC, 50/60 Hz Connection terminal: L1,L2 Three phase 200 to 230 VAC, 50/60 Hz Connection terminal: L1,L2,L3 Do not connect. L1 Main circuit power supply L2 L2 L3 L3 N P1 P2 N Connect between P1 and P2. (Connected at time of shipping.)
= 50 mm V = 200 mm/s (26) l2 = 100 mm V = 200 mm/s 50 50 100 CL 100 100 100 80 CL1 80 50, 63 80 80 MLGC 50, 63 50, 63 32, 40 50, 63 Load weight m (kg) Load weight m (kg) Load weight m (kg) 10 10 CNG 32, 40 32, 40 32, 40 MNB 25 25 CNA 20 20 CNS 25 CLS 20 25 CLQ 20 MLGP RLQ 1 10 50 51 100 300 200 1 10 50 51 100 300 200 MLU Stroke (mm) Stroke (mm) ML1C (27) l2 = 50 mm V = 400 mm/s (28) l2 =
MXP6 MXP8, 10, 12, 16 L2 L2 Shock absorber model RB0805 RB0805 RB0806 Applicable size MXP10 MXP12 MXP16 L2 Table 2 L2 (mm) 10 (one side only) 10 (one side only) 9 8 9 8 8 8 8 8 Model MXP6-5C MXP6-10C MXP8-10C MXP8-20C MXP10-10C MXP10-20C MXP12-15C MXP12-25C MXP16-20C MXP16-30C Stroke Adjustment Urethane bumper Lock nut Lock nut MXP6 MXP8, 10, 12, 16 Shock Absorber Loosen the lock nut, adjust
overhang L1, L2 [mm] Allowable overhang L1, L2 [mm] 11 Model Selection MXZ Series For Pressing (Clamping) (1) Confirm that the clamping jig weight and overhang are within the allowable range as shown in the graphs for transfer.
10 0 10 20 30 0 20 40 60 Work load (W) kg Work load (W) kg Work load (W) kg 600 600 600 L2 M2 400 400 400 L2 mm L2 mm L2 mm Rolling Yawing W 200 200 200 L2 M2 0 10 20 30 0 20 40 60 0 2 4 6 8 10 Work load (W) kg Work load (W) kg Work load (W) kg W 3000 2000 2000 a=1000 a=1000 a=1000 2000 L3 mm L3 mm L3 mm L3 1000 1000 1000 a=2000 a=2000 W a=2000 a=3000 a=3000 a=3000 M3 a 0 20 40 60 0 2 4
L2 [mm] L2 [mm] L2 [mm] L2 [mm] 600 600 600 600 LER Y 400 400 400 400 Mer m LEH 200 200 200 200 LEY -X5 0 0 0 0 0 10 20 30 40 50 0 10 20 30 40 50 60 0 2 4 6 8 10 12 14 16 0 4 8 12 16 20 24 Work load [kg] Work load [kg] Work load [kg] Work load [kg] 11LEFS 2000 2000 2000 2000 11LEJS Mep 1500 1500 1500 1500 L3 [mm] L3 [mm] L3 [mm] L3 [mm] m 1000 1000 1000 1000 25AL3 Z 500 500 500 500 LEC 0
25 25 CNA 20 20 CNS 25 CLS 20 25 CLQ 20 MLGP RLQ 1 10 50 51 100 300 200 1 10 50 51 100 300 200 MLU Stroke (mm) Stroke (mm) ML1C (27) l2 = 50 mm V = 400 mm/s (28) l2 = 100 mm V = 400 mm/s D50 50 -X 100 100 100 100 80 80 80 2063 80 63 63 Data 63 50 50 50 50 10 10 Load weight m (kg) 40 40 40 40 32 32 32 32 25 25 25 25 20 20 20 20 1 1 0.5 10 50 51 100 300 200 0.5 10 50 51 100 300 200 Stroke
B L2 1 = W/Wmax = 1/7 = 0.14 L3 C 2. Static moment Mr = W x 9.8 (L3 + C) Examine Mr. (Mp, My values do not apply to this example.)
B L2 1 = W/Wmax = 1/7 = 0.14 L3 C Static moment Mr = W x 9.8 (L3 + C) W Examine Mr.
=50 {mm} L2 {B L3 Item Load factors n Note (1) Max. movable load W B L2 Examine W.
L1 With coil scraper: C(D)Q2D-XC26C35 Spatter resistant specification for arc welding: CDQ2D-XC26C88/C89/C91 Th9 L2 (L) (A + Stroke) [mm] Bore size Stroke range XC35/XC91 XC88/XC89 A L L1 L2 Th9 A L L1 L2 Th9 Without magnet for auto switch Built-in magnet for auto switch Built-in magnet for auto switch 32 50 or less 116 126 51 33.5 5 23 0 0.052 131 56 38.5 10 23 0 0.052 75, 100 126 40 50
Valve side exhaust 482 Stainless steel High Vacuum Angle/In-line Valve XMA, XYA Series Dimensions XMA/Angle type C D L2 (KF flange) Fn Fd Fc C (Fc) L1 (K flange) (CF flange) H B G A A (mm) Model A 103 113 158 170 196 235 B 38 48 66 79 100 117 C 1 1 2 2 3 3 D 30 40 55 75 87 114 Fn Fd 34 Fc 17 26 41 52 70 83 G 40 39 63 68 69 96 H P.C.D L1 6 x 4.4 L2 XMA-16 XMA-25 XMA-40 XMA-50 XMA-63 XMA-
F1 -X L2 L1 50 50 50 L3 2040 40 40 30 30 30 Data 20 20 20
Direct Operated Poppet Series VKF300 Dimensions/Manifolds Body Ported Type Common SUP, Common EXH/Top Ported Type 20 Manifold Grommet: G DIN terminal: D 4-Rc(PT) 1/8 (ports P, R) Manual override (non-locking) Applicable cord O.D. 4 to 6.5 Max .10 71.5 78.5 71 Light (DZ type only) 2-4.5 (mounting holes) 67.5 59 19 17 2 R P P R 34 2.3 7 20 Pg.7 4-Rc(PT) 1/8 (ports P, R) A A A P = 19 13.5 L2