ModelFlow-rate characteristicsMaximum operating pressure differential (MPa)Note)Weight(g) AV (x 10 6 m2)Conversion Cv11/8, 1/42VX2125.50.231300
ZVB20_E_ Ionizer emitter cleaning kit: The emitter is cleaned with IZS30-M2. 3. Insert the emitter assembly back to the port using caution not to damage the end of the emitter, and screw it in. Note) 4.1.2 Replacement of Emitter 1. Rotate the handle of the emitter assembly by hand and remove it. 2. Replace it with a new emitter assembly. 3.
Ionizer emitter cleaning kit: The emitter is cleaned with IZS30-M2. 3. Insert the emitter assembly back to the port using caution not to damage the end of the emitter, and screw it in. Note) 4.1.2 Replacement of Emitter 1. Rotate the handle of the emitter assembly by hand and remove it. 2. Replace it with a new emitter assembly. 3.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Viscosity and dynamic viscosity are obtained by the formulas below. Dynamic viscosity [cSt] Viscosity [mPas] Density [g/cm3] 1 [mPas1 [cP] 13 Working Principle 1. When air is supplied, it passes through the switching valve and enters drive chamber B. 2.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Viscosity and dynamic viscosity are obtained by the formulas below. Dynamic viscosity [cSt] Viscosity [mPas] Density [g/cm3] 1 [mPas1 [cP] 14 Working Principle 1. When air is supplied to P1 port, it enters drive chamber A. 2. Diaphragm A moves to the left, and at the same time diaphragm B also moves to the left. 3.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s 13 Working Principle 1. When air is supplied, it passes through the switching valve and enters drive chamber B. 2.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s 14 Working Principle 1. When air is supplied to P1 port, it enters drive chamber A. 2. Diaphragm A moves to the left, and at the same time diaphragm B also moves to the left. 3.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s Pulsation Attenuating Capacity The process pump generates pulsation because it discharges a liquid using two diaphragms.
HANDLE LOCK NUT SETTING SPRING RELIEF VALVE EXH&BLEED PILOT VALVE DIAPHRAGM SUP OUT ELEMENT DRAIN COCK DRAIN SUP 1 Setting Main Composite Displacement Pressure MPa +/-Force Displacement OUT Spring Valve spring m m N/m MPa/m m/N Diaphragm Force N m2 Block Diagram -5- 3.
Nm N M1 M M3 W W2 W W4 ML2B25 10.0 1.2 3.0 200.0 58.0 65.0 100.0 ML2B32 20.0 2.4 6.0 300.0 80.0 96.0 150.0 ML2B40 40.0 4.8 12.0 500.0 106.0 140.0 250.0 ML2B25 ML2B32 ML2B40 J 0.43 0.68 1.21 18 ML2B/M1 ML2B/W1 ML2B/W1 0 0 0 Nm 0 0 0 N N 0 m/s m/s m/s ML2B/M2 ML2B/W2 ML2B/W2 N m N N m/s ML2B/M3 m/s m/s 20 ML2B/W3 ML2B/W3 10 Nm 5 3 2 1 N N m/s m/s m/s ML2B/W4 500 N 00 N
Please refer below for calculation of kinetic energy. 2 I 2 1 E = E : Kinetic energy J : Angular speed rad/s I: Inertia moment kg/m2 Allowable kinetic energy for the rotary actuator is limited. The limit of rotation time is obtained by calculating inertia moment. Please refer following for obtaining inertia moment.
Please refer below for calculation of kinetic energy. 2 I 2 1 E E : Kinetic energy J I: Inertia moment kg/m2 : Angular speed rad/s Allowable kinetic energy for the rotary actuator is limited. The limit of rotation time is obtained by calculating inertia moment. Please refer following for obtaining inertia moment.
Please refer below for calculation of kinetic energy. 2 I 2 1 E = E : Kinetic energy J : Angular speed rad/s I: Inertia moment kg/m2 Allowable kinetic energy for the rotary actuator is limited. The limit of rotation time is obtained by calculating inertia moment. Please refer following for obtaining inertia moment.
E : Kinetic energy J 2 I 2 1 E = : Angular speed rad/s I: Inertia moment kg/m2 Allowable kinetic energy for the rotary actuator is limited. The limit of rotation time is obtained by calculating inertia moment. Please refer following for obtaining inertia moment. Basic inertia moment 2 r m I = m : Weight of load (kg) r : Load center of gravity and distance of rotation axis.
(C) m2 Daiph.(A) m 2 Force N -6- 3. How to order (Note 1) In the standard mounting position, the product name plate is attached to the front and the bracket is mounted to the back when viewed with the SUP side on the left and OUT side on the right. (Note 2) Accuracy: 3%F.S.
(C) m2 Daiph.(A) m 2 Force N -6- 3. How to order (Note 1) In the standard mounting position, the product name plate is attached to the front and the bracket is mounted to the back when viewed with the SUP side on the left and OUT side on the right. (Note 2) Accuracy: 3%F.S.
Model Thread size Tightening torque SX3000 M2 0.17 Nm SX5000 M3 0.8 Nm SX7000 M4 1.4 Nm 11 SX3000-OMM0002-B -12-SX3000-OMM0002-B -13SX3000-OMM0002-B TROUBLESHOOTING Should any trouble be found during operation, trace the source of the trouble in the following order and take corrective action.
(C) m2 Daiph.(A) m 2 Force N -6- 3. How to order (Note 1) In the standard mounting position, the product name plate is attached to the front and the bracket is mounted to the back when viewed with the SUP side on the left and OUT side on the right. (Note 2) Accuracy: 3%F.S.
HANDLE SET SPRING SUCTION VALVE VACUUM CHAMBER DIAPHRAGM MAIN VALVE VAC 1 Vacuum pressure Displacement + Suction valve Force Displacement Setting spring spring Compb. m kPa N/m m N (B) m kPa (S) m/N Force Diaphragm m2 N Block Diagram 5 - .How to Order Standard connections C Body size 10 The maximum flowing quantity 140l/min(ANR) Accessories2 Accessory is included in the same container
The solenoid valve can be removed by removing the screws. size size torque XLAV-16 M2 0.2 -25 -40 -50 -63 M3 0.8 -80 17 XL-OMV0016 Revision history 1st printing: VZ 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021 JAPAN Tel: + 81 3 5207 8249 Fax: +81 3 5298 5362 URL http://www.smcworld.com Note: Specifications are subject to change without prior notice and any obligation on the part of the manufacturer