The SYJ Valve is an innovative combination of space efficiency and performance superiority which provides real value to the design solution. Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal
The SYJ Valve is an innovative combination of space efficiency and performance superiority which provides real value to the design solution. Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal
The SYJ Valve is an innovative combination of space efficiency and performance superiority which provides real value to the design solution. Whether designed in a manifold or used as a single valve, this small profile increases design flexibility and minimizes space requirements. The SYJ valve utilizes a low power (0.5 watts standard) pilot solenoid design, which dramatically reduces thermal
Series SY offers major advances in valve performance for cost-effective solutions to your requirements. The series offers high flow with low power consumption in a compact design. The SY is available in body ported or base mounted styles and can be used individually or manifold mounted.Fluid: air, Cv factor: 0.008 standard style; 0.012 large flow capacity style, Coil rated voltage: 3, 5,
1 SY7000 Round head combination screw SY3000-23-24A (M2 x 32) SY5000-221-1A (M3 x 32.5) SY7000-221-1A (M3 x 36.5) Part numbers shown on the left are for 10 valves (20 pcs.). (30 pcs. for the SY7000) Valve mounting screw q Hexagon socket head cap screw SY3000-222-1A (M2 x 32) SY5000-222-1A (M3 x 32.5) SY7000-222-1A (M3 x 36.5) Part numbers shown on the left are for 10 valves (10 pcs.).
max (from 3 of graph MY2H/M3) = 60 (Nm) MX M3 = m3 x g x X = 7.525 x 9.8 x 140.1 x 10-3 = 10.33 (Nm) m3 M3 MTS Load factor 3 = M3/M3 max = 10.33/60 = 0.17 MY 5.
9.5 MHS A C 32 M3 x 0.5 Finger opening port M3 x 0.5 Finger closing port MHC MHT 25 25 MHY 3-3 depth 6 +0.02 0 M3 x 0.5 Finger opening port M3 x 0.5 Finger closing port (A, B, C common view) MHW 6-M3 x 0.5 thread depth 6 (A, B, C common view) MRHQ Misc.
of graph MY1H/M3) = 38.7 (Nm) MY1B M3 = m3 x g x X = 6.525 x 9.8 x 138.5 x 103 = 8.86 (Nm) m3 M3 MY1M Load factor 3 = M3/M3 max = 8.86/38.7 = 0.23 MY1C 5.
Q1 M3 5.5 to 8 Y-1 10 15 X-3 7.5 to 14 M3 Y = M3, M4 7.5 to 9 Y-1.5 L2 = L1(3 x P) C2 = C 15 20 X-4 M3, M4 10 to 18 9 to 10 Y-1.5 M3, M4, M5 X = 20 30 12 to 20 X-4.5 M3, M4, M5 11 to 13 Y-2 M3, M4, M5, M6 L1 = Q2 = M 30 40 14 to 22 X-5 14 to 15 Y-4.5 M3, M4, M5, M6 M3, M4, M5, M6, M8 24 Simple Specials Series CRB2 Axial: Top (Long-shaft side) Axial: Bottom (Short-shaft side) Symbol: A10 Symbol
(mm) (mm) Q1 = M Q2 Y L2 max Size C1 = C L2-(3 x P) Q1 X L1 max Size 10 M3 5.5 to 8 Y 1 10 M3 X 3 7.5 to 14 Y = 15 M3, M4 7.5 to 9 Y 1.5 15 M3, M4 X 4 10 to 18 L2 = X = C2 = C 20 M3, M4, M5 9 to 10 Y 1.5 L1-(3 x P) 20 X 4.5 12 to 20 M3, M4, M5 30 11 to 13 Y 2 M3, M4, M5, M6 M3, M4, M5, M6 L1 = 30 Q2 = M X 5 14 to 22 M3, M4, M5, M6, M8 14 to 15 Y 4.5 40 11-2-28 28 Simple Specials
(mm) (mm) Q1 = M Q2 Y L2 max Size C1 = C L2-(3 x P) Q1 X L1 max Size 10 M3 5.5 to 8 Y 1 10 M3 X 3 7.5 to 14 Y = 15 M3, M4 7.5 to 9 Y 1.5 15 M3, M4 X 4 10 to 18 L2 = X = C2 = C 20 M3, M4, M5 9 to 10 Y 1.5 L1-(3 x P) 20 X 4.5 12 to 20 M3, M4, M5 30 11 to 13 Y 2 M3, M4, M5, M6 M3, M4, M5, M6 L1 = 30 Q2 = M X 5 14 to 22 M3, M4, M5, M6, M8 14 to 15 Y 4.5 40 11-2-28 28 Simple Specials
(mm) (mm) Q1 = M Q2 Y L2 max Size C1 = C L2-(3 x P) Q1 X L1 max Size 10 M3 5.5 to 8 Y 1 10 M3 X 3 7.5 to 14 Y = 15 M3, M4 7.5 to 9 Y 1.5 15 M3, M4 X 4 10 to 18 L2 = X = C2 = C 20 M3, M4, M5 9 to 10 Y 1.5 L1-(3 x P) 20 X 4.5 12 to 20 M3, M4, M5 30 11 to 13 Y 2 M3, M4, M5, M6 M3, M4, M5, M6 L1 = 30 Q2 = M X 5 14 to 22 M3, M4, M5, M6, M8 14 to 15 Y 4.5 40 11-2-28 28 Simple Specials
Corrected air flow capacity = Air flow rate (Correction factor A x B x C x D) 4 Corrected air flow capacity = 0.3 m3/min (0.82 x 0.96 x 1 x 0.88) = 0.43 m3/min Corrected air flow capacity = 0.4 m3/min (0.95 x 0.93 x 1 x 0.88) = 0.51 m3/min 5 Select the model.
01 ZPB-T1J75-01 18 28 With three M3 bolts Applicable pad part no.
SY11 A 3 4 M3 x 0.5 M3 x 0.5 100 kPA to 0 0.22 100 kPA to 0.6 Large flow 0 to 0.7 N.C. SY13(A): 15 SY14(A): 26 (14) SY13(A): 13 SY14(A): 24 (12) (1) SY12 3 4 M3 x 0.5 M3 x 0.5 100 kPA to 0.6 0.14 100 kPA to 0 Standard 0 to 0.7 N.O. (1) SY12 A 3 4 M3 x 0.5 M3 x 0.5 100 kPA to 0.6 100 kPA to 0 0.22 Large flow 0 to 0.7 N.O.
01 ZPB-T1J75-01 18 28 With three M3 bolts Applicable pad part no.
(mm) L2 (3 x P) L2 max Q2 Y Size Q1 = M 10 5.5 to 8 M3 Y 1 (mm) C1 = C Y = X Q1 L1 max 15 7.5 to 9 Size M3, M4 Y 1.5 L2 = C2 = C 10 20 5.5 to 14 M3 X 1 9.5 to 10 Y 1.5 M3, M4, M5 L1 (3 x P) 15 7.5 to 18 M3, M4 X 1.5 M3, M4, M5, M6 30 11 to 13 Y 2 Q2 = M X = L1 = 20 9 to 20 X 1.5 M3, M4, M5 M3, M4, M5, M6, M8 M3, M4, M5, M6 40 14 to 15 30 Y 4.5 11 to 22 X 2 11-3-24 Simple Specials
: Yawing M1: Pitching y x M2: Rolling Static moment Ceiling mounting Horizontal mounting Wall mounting M1 M2 M2 M1 M2 M3 y X x Y y z X x Y X x Z m1 x g m2 x g m3 x g Vertical mounting Mounting orientation Horizontal Ceiling Wall Vertical m1 m2 m3 m4 Static load m M3 M1 m1 x g x X m2 x g x X m4 x g x Z Static moment M1 m1 x g x Y m2 x g x Y m3 x g x Z y z M2 z Y m3 x g x X m4 x g x Y M3 m4
= 38.7 (Nm) M3 = m3 x g x X = 6.525 x 9.8 x 138.5 x 103 = 8.86 (Nm) MTS m3 M3 Load factor 3 = M3/M3max = 8.86/38.7 = 0.23 MY 5.
x 27 l M3 x 29 l M3 x 31 l M3 x 33 l M3 x 38 l M3 x 43 l M3 x 48 l M3 x 53 l M3 x 27 l M3 x 29 l M3 x 31 l M3 x 33 l M3 x 38 l M3 x 43 l M3 x 48 l M3 x 53 l M3 x 27 l M3 x 29 l M3 x 31 l M3 x 33 l M3 x 38 l M3 x 43 l M3 x 48 l M3 x 53 l 5 5 18 M3 x 18 l 5 5 18 M3 x 18 l 5 5 18 M3 x 18 l 3 Mini Free Mount Cylinder Series CUJ Clean Series How to Order Double acting 10 6 8 D C D UJB F8N Number