Direct Operated 2 Port Solenoid Valve For Water, Oil, Steam, Air Series VX21/22/23 1 Max. operating pressure differential (MPa) Weight (g) Max. operating pressure differential (MPa) Weight (g) Flow characteristics Flow characteristics Max. system Note) Max. system Note) Orifice Orifice size (mm) Model AC DC Port size Port size (mm) Model AC DC pressure pressure size (MPa) Av x 10-6 m2 Cv converted (MPa) Av x 10-6 m2 Cv converted 2 VX2110-01 VX2120-01 VX2130-01 VX2110-02 VX2120
Description Note M2: 0.17 Nm M3: 0.8 Nm M4: 1.4 Nm 1 4 3 8 SY5000-27-1 Rc: SY7000-27-1 Rc: SY7000-27-2 SY3000-27-1 Sub-plate Aluminum die-casted i Gasket o HNBR SY5000-11-15 SY7000-11-11 SY3000-11-25 Round head combination screw For valve mounting (Matt nickel plated) M3 x 30 M4 x 35 SX3000-22-2 (M2 x 24) 1-6-31 Base Mounted Series SX3000/5000/7000 Dimensions: Series SX5000 2 position single
Description Note M2: 0.17 Nm M3: 0.8 Nm M4: 1.4 Nm 1 4 3 8 SY5000-27-1 Rc: SY7000-27-1 Rc: SY7000-27-2 SY3000-27-1 Sub-plate Aluminum die-casted i Gasket o HNBR SY5000-11-15 SY7000-11-11 SY3000-11-25 Round head combination screw For valve mounting (Matt nickel plated) M3 x 30 M4 x 35 SX3000-22-2 (M2 x 24) 1-6-31 Base Mounted Series SX3000/5000/7000 Dimensions: Series SX3000 2 position single
M2 M2 L2 L2 Plug-in Reducer: KQG2R D Applicable tube O.D.
M2 M2 L2 L2 Plug-in Reducer: KQB2R Applicable tube O.D.
Dimensions 2 x M2 x 3 (Countersunk head Phillips screw for precision equipment) 2 x M2 x 3 (Round head Phillips screw for precision equipment) 2 x M2 x 3 (Round head Phillips screw for precision equipment) 2 x M3 x 8 (Bolt with hex. hole) 2 x M2 x 5 (Bolt with hex. hole) 2 x M2.5 x 6 (Bolt with hex. hole) MXP10, 12, 16 MXP8 MXP6 Applicable size Note Switch rail part no.
L2 L1 xStatic moment Examine M2. Since M1 & M3 are not generated, investigation is unnecessary. M2 = W L1 = 10 0.05 = 0.5 [Nm] 2 = M2/M2 max = 0.5/16 = 0.031 W = 1 [kg] = 10 [N] W M Find the value M2 max when Va = 300 mm/s from Graph (3).
Static moment M2 = m g (L1 + B) 103 m x g = 1 9.8 (50 + 48) 103 Review M2. Since M1 and 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 103m g U = 5 x 103 1 9.8 300 = 14.7 [N] Me3 = 1/3 We(L2 + A) 103 3.
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.
Static moment M2 = m g (L1 + B) 103 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.
Static moment M2 = m g (L1 + B) 103 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.
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.
(mm) a b Effective area (mm2) Weight (g) D L M2 Model 3.2 4 KJH02-23 KJH02-04 8.4 9.3 26.6 26.6 8.8 8.8 12.7 12.7 0.9 0.9 2.4 3.2 2 M1 M2 D D L Applicable tubing a Applicable tubing b Male elbow: KJL T H A Applicable tubing O.D.
Static moment M2 = m g (L1 + B) 103 m x g = 1 9.8 (50 + 48) 103 Review M2. Since M1 and 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 103m g U = 5 x 103 1 9.8 300 = 14.7 [N] Me3 = 1/3 We(L2 + A) 103 3.
Static moment M2 = m g (L1 + B) 103 m x g = 1 9.8 (50 + 48) 103 Review M2. Since M1 and 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 103m g U = 5 x 103 1 9.8 300 = 14.7 [N] Me3 = 1/3 We(L2 + A) 103 3.
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.
Static moment M2 = m g (L1 + B) 103 m x g = 1 9.8 (50 + 48) 103 Review M2. Since M1 and 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 103m g U = 5 x 103 1 9.8 300 = 14.7 [N] Me3 = 1/3 We(L2 + A) 103 3.
MHCM2-7S D8.3 205.2 2-M2 x 0.4 thread (Mounting thread) 2-M2 x 0.4 depth 4 (Mounting thread) 2.5 2 1.5 When open 20 When closed 7 10 6 4.5 15 11 7.7 1.8 16.5 6 100.05 (23) M3 x 0.5 (Finger closing port) 2-M2 x 0.4 thread (Attachment mounting thread) 4 0 0.03 3 12-8-23
Static moment M2 = WL1 = 100.05 = 0.5 [Nm] 2 = M2/M2max = 0.5/16 = 0.031 W = 1 [kg] =10 [N] Investigate M2. Since M1 & M3 are not generated, investigation is unnecessary. Find the value of M2max when Va = 300mm/s from
MHCM2-7S D8.3 205.2 2-M2 x 0.4 thread (Mounting thread) 2-M2 x 0.4 depth 4 (Mounting thread) 2.5 2 1.5 When open 20 When closed 7 10 6 4.5 15 11 7.7 1.8 16.5 6 100.05 (23) M3 x 0.5 (Finger closing port) 2-M2 x 0.4 thread (Attachment mounting thread) 4 0 0.03 3 12-8-23