5 Port Air Operated Valve Series SYA3000/5000/7000 1 (For details, refer Best Pneumatics Vol. 1.) 5-2-4 3 5 Port Air Operated Valve Series SYA3000/5000/7000 Flow Characteristics/Weight Model/Series SYA320 (Body ported) Port size Flow characteristics Weight (g) Pilot port size (Nominal size) Valve model Type of actuation C (dm3/(sbar)) b Cv C (dm3/(sbar)) b 1 4/2 (P A/B) 4/2 5/3 (A/B EA/EB) Cv P, EA, EB A, B 35 37 Single Double 2 position
B side traveling parallelism to A side Refer to Graph (1).
(except for 50 and 63) b C CY1B6 -SCY1B, #1 CY1B10 -SCY1B, #2 CY1B15 -SCY1B, #3 CY1B20 -SCY1B20, #1 CY1B25 -SCY1B, #4 CY1B32 -SCY1B, #5 CY1B40 -SCY1B, #6 CY1B50 -SCY1B, #7 CY1B63 -SCY1B, #8 H B d M10 x 1.0 M20 x 1.5 M26 x 1.5 M32 x 2.0 H 4 8 8 10 B 14 26 32 41 C 16.2 30 37 47.3 Part No.
A B A B A B A B A B A B A B A B 40 50 63 80 100 6 4 3.5 1.5 0 0.5 6.5 2 4 11.5 10 0 0 4.5 0 2 9.5 8 ML2B 3.5 1.5 0 0.5 6.5 2 4 11.5 10 0 0 4.5 0 2 9.5 8 8.5 7.5 6 5 2.5 3 9 4.5 6.5 14 12.5 1.5 2 8 3.5 5.5 13 11.5 12 10 9.5 7.5 6 6.5 4.5 8 10 17.5 16 4 4.5 12.5 6 8 15.5 14 13.5 12.5 11 10 7.5 8 14 9.5 11.5 19 17.5 6.5 7 13 8.5 10.5 18 16.5 D-A9 and D-A9V cannot be mounted on 50.
MGC MGF CY1 q B MY1 Normally ON w * Adjust the switch position according to load and speed.
When sum of load rate does not exceed 1, it is possible to use. n=1+2+3 1 < = < = 47 MXS Series Air Slide Table How To Select Allowable load: W(N) Fig.1 Overhung: 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 Kinetic moment L1 A1 L3 A5 L2 A3 W Mp Mr My W W L3 A6 W L1 A2 L2 A4 W Mey Mep L2 A4 A2 L3 Work
2 (A) 4 (B) 2 (A) 4 Flow Rate Characteristics/Weight 5 (R1) 1 (P) 3 (R2) 1 (P) 3 (R) Flow rate characteristics Operating pressure range (MPa) Weight (g) 4/2 5/3 (A/B R1/R2) Port size 1 4/2 (P A/B) Mounting with VK300 Valve model C [dm3/ (sbar)] b Cv C [dm3/ (sbar)] b Cv Grommet VV061 The VK300 series can be mounted on the same manifold base VV5K3 of VK3000 series.
V IDF100F V IDF125F V IDF150F B 1-3 IDF100150F 1 4 IDX-OM-U021 1 3.6 5.2 (IDF100F, 125F) R OFF 5.2 L1 L2 L3 M5 9.5mm 3.5mm 2 1,2 3,4 5,6 L1,L2,L3 PE: L1 L2 L3 PE 1 2 3 4 5 6 M4 9.5mm 5.5mm 2 M3 6.5mm 1.25mm 2 1-3 IDF100150F 1 5 IDX-OM-U021 1 3.6 5.2 5.2 (IDF150F) R OFF L1 L2 L3 M5 9.5mm 3.5mm 2 1,2 3,4 5,6 L1,L2,L3 PE: L1 L2 L3 PE 1 2 3 4 5 6 M4 9.5mm 5.5mm
Model C [dm3/(sbar)] C [dm3/(sbar)] Av x 10-6 m2 Cv converted Cv converted b Cv b Cv N.O. N.C. 0.12 0.03 0.35 0.03 0.72 1 M5 1/8 (6A) 0.04 0.13 0.96 VDW200 0.52 0.04 1 0.31 0.08 0.45 0.09 1.9 1.6 0.52 0.16 0.52 0.16 3.8 2 1.8 1/8 (6A) 1/4 (8A) VDW300 0.13 0.38 1.0 3.1 0.28 0.52 0.30 0.50 0.12 6.7 3 1.5 0.44 0.49 0.46 11 4 17-2-75 16 Series VDW200/300 Construction VDW250 VDW350 i o !0 i !
VDW 2 0 1 B 1 Series Lead wire length OUT (2) 1 2 3 10 20, 200 30, 300 300mm 600mm Nil L1 Note) Note) Type L1 is optional. (1) IN 2 port valve Voltage Type Note 1) Maximum operating pressure differential MPa (psi) 1 2 3 4 5 6 100VAC 200VAC 110VAC 220VAC 24VDC 12VDC Orifice size mm B C1 C2 20, 200 10, 30 300 Model Pressure port 2 Note 1) Pressure port 1 1 0.4 (58) 0.9 (130.5) VDW10 1.6 0.2
B 4 x Counterbore depth.
Dynamic moment Me3 We W L2 = 1/3 14.7 (50 + 27) 103 Review Me3. = 0.38 [Nm] 3 = Me3/Me3 max = 0.38/3 = 0.13 Guide central axis A Me1 W We Me1 = 1/3 We (L1 + B) 103 = 1/3 14.7 (50 + 48) 103 L1 B = 0.48 [Nm] 4 = Me1 /Me1 max = 0.48/3 = 0.16 Review Me1.
Dynamic moment Me3 We W L2 = 1/3 14.7 (50 + 27) 103 Review Me3. = 0.38 [Nm] 3 = Me3/Me3 max = 0.38/3 = 0.13 Guide central axis A Me1 W We Me1 = 1/3 We (L1 + B) 103 = 1/3 14.7 (50 + 48) 103 L1 B = 0.48 [Nm] 4 = Me1 /Me1 max = 0.48/3 = 0.16 Review Me1.
Lead Series Lead (Including Pn20E Pn210 symbol pulley ratio) A 12 65536 750 LEY25/LEYG25 B 6 375 LEY25D/LEYG25D C 3 131072 375 A 20 65536 1250 LEY32/LEYG32 B 10 625 LEY63D C 5 131072 625 A 16 1000 LEY B 8 500 LEY32D/LEYG32D C 4 250 65536 A 20 1250 B 10 625 C 5 131072 625 LEY63 5(2.86) L 229376 625 (Pulley ratio 4/7) H 20 1250 LEFS25 A 12 750 B 6 375 H 24 1500 LEFS32 A 16 1000 B 8 500 LEF
Dynamic moment Me3 L2 We W = 1/3 14.7 (50 + 27) 103 Review Me3. = 0.38 [Nm] 3 = Me3/Me3 max = 0.38/3 = 0.13 Guide central axis A Me1 W We Me1 = 1/3 We (L1 + B) 103 = 1/3 14.7 (50 + 48) 103 L1 B = 0.48 [Nm] 4 = Me1 /Me1 max = 0.48/3 = 0.16 Review Me1.
Plug that A port to avoid mistaking B port for the A port.
L2 [mm] L2 [mm] L2 [mm] 600 600 600 Y 400 400 400 Mer m 200 200 200 0 0 0 0 5 10 15 20 25 30 35 0 10 20 30 40 50 0 10 20 30 40 50 60 70 Work load [kg] Work load [kg] Work load [kg] 1000 1000 1000 800 800 800 Mep L3 [mm] L3 [mm] L3 [mm] m 600 600 600 L3 Z 400 400 400 200 200 200 0 0 0 0 10 20 30 40 50 60 70 0 10 20 30 40 50 0 5 10 15 20 25 30 35 Work load [kg] Work load [kg] Work load [kg
-LD Piping port P Operating direction A 7 Piping port P Operating direction B W K G With switch rail Q + Stroke Z + Stroke Piping port P (plug) Operating direction B HS CR HR Plug 22 8 Piping port P Operating direction B Piping port P (plug) Operating direction B 8 Piping port P Operating direction A 16 19.5 16 Plug REBR15 REBR15 (mm) A B C CB CR D F G GP GW H HA HB HC HP HR HS HT Model REBR15
Maximum load mass m 1 = m/mmax = 1/5 = 0.20 L2 Review m. L1 M2 = m g (L1 + B) 103 2. Static moment m x g = 1 9.8 (50 + 48) 103 Review M2. Since M1 & M3 are not generated, review is unnecessary. = 0.96 [Nm] 2 = M2/M2 max = 0.96/4 = 0.24 M Guide shaft mounting surface L1 B We = 5 x 103 m g U = 5 x 103 1 9.8 300 = 14.7 [N] Me3 = 1/3 We (L2 + A) 103 3.