Vacuum ejector series ZA is compact and lightweight, making it ideal for pick and place operations, and suitable to all industries.? Due to the compact design of the ZA, it is possible to install on moving parts.? The shortened tube length to pad improves response time.? The ZA is available as a single unit or manifold type, with or without pressure sensors?and suction filters.? Compact
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VACUUM EJECTOR, COMPACT, VACUUM SERIES, ZA COMPACT VACUUM EJECTOR, AG, ZA NOZZLE SIZE 0.5, .00000 lb
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VACUUM EJECTOR, COMPACT, VACUUM SERIES, ZA COMPACT VACUUM EJECTOR, AG, ZA NOZZLE SIZE 0.5, .23148 lb
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VACUUM EJECTOR, COMPACT, VACUUM SERIES, ZA COMPACT VACUUM EJECTOR, AG, ZA NOZZLE SIZE 0.5, .23148 lb
Vacuum ejector series ZA is compact and lightweight, making it ideal for pick and place operations, and suitable to all industries.? Due to the compact design of the ZA, it is possible to install on moving parts.? The shortened tube length to pad improves response time.? The ZA is available as a single unit or manifold type, with or without pressure sensors?and suction filters.? Compact
Vacuum ejector series ZA is compact and lightweight, making it ideal for pick and place operations, and suitable to all industries.? Due to the compact design of the ZA, it is possible to install on moving parts.? The shortened tube length to pad improves response time.? The ZA is available as a single unit or manifold type, with or without pressure sensors?and suction filters.? Compact
Vacuum ejector series ZA is compact and lightweight, making it ideal for pick and place operations, and suitable to all industries.? Due to the compact design of the ZA, it is possible to install on moving parts.? The shortened tube length to pad improves response time.? The ZA is available as a single unit or manifold type, with or without pressure sensors?and suction filters.? Compact
Vacuum ejector series ZA is compact and lightweight, making it ideal for pick and place operations, and suitable to all industries.? Due to the compact design of the ZA, it is possible to install on moving parts.? The shortened tube length to pad improves response time.? The ZA is available as a single unit or manifold type, with or without pressure sensors?and suction filters.? Compact
Vacuum ejector series ZA is compact and lightweight, making it ideal for pick and place operations, and suitable to all industries.? Due to the compact design of the ZA, it is possible to install on moving parts.? The shortened tube length to pad improves response time.? The ZA is available as a single unit or manifold type, with or without pressure sensors?and suction filters.? Compact
CE )V E(J= m1 kg m2 kg V m/s 4. 4-1 CE1 4-2 A A B B C COM(OV) D COM(OV) E 12 24V F 0V G CEU5 CEU5 3 +12V +12V 1k A 680 COM +12V +12V 1k B 680 COM +12V DC12V60mA GND F.G. 4-3 (1)CEU5 CE1-R** (2) (3) (4) (5) *(CEU5**-D)EMC CEU5) 5. 5-1 () CE1 14.5mT CE1 15000 18cm 5-2 0.1mm 0.0 0.2 0.1 A B (1)0.8mm (2) sin cos 2 0.8mm (3)1/8 90,0.1mm/ (4)0.1mm 5-3
E = 1/2 x I x 2 EKinetic energy (J) IMoment of inertia (kg/m2) Angular speed (rad/s) (2) There is a threshold of kinetic energy that a rotary actuator allows. Therefore, by finding the moment of inertia, it is possible to find the threshold value of the rotation time. The basic formula for finding the moment of inertia is shown below.
B 2 r I = m2 2 b a I I = A B Number of teeth =b 5. Solid sphere Position of rotational axis: Through the center of diameter r 2 2 r I = m5 27 - Kinetic energy Table 9 shows the allowable kinetic energy of the rotary table.
B 2 r I = m2 2 b a I I = A B Number of teethb 5. Solid sphere Position of rotational axis: Through the center of diameter r 2 2 r I = m5 29 - Kinetic energy Table 10 shows the allowable kinetic energy of the rotary table. Here, the angular speed can be found from the formula below.
B 2 r I = m2 2 b a I I = A B Number of teeth = b 5. Solid sphere Position of rotational axis: Through the center of diameter r 2 2 r I = m5 -27- Kinetic energy Table shows the allowable kinetic energy of the rotary actuator.
Gasket Mounting screw (M2) For the manifold with pressure sensor/vacuum pressure switch, order the (a) (b) manifold base (a) for the required number (c) of stations.
Clean the emitters with the cleaning kit [IZS30-M2] or a cotton bud soaked in alcohol. Before cleaning the emitters, make sure that the power supply is OFF and confirm that the fan motor has stopped. Never perform cleaning or replace the emitters when the fan motor is rotating. The fan rotation may cause injury.
B 2 r I = m2 2 b a I I = A B Number of teeth=b 5. Solid sphere Position of rotational axis: Through the center of diameter 2 2 r I = m5 27 - Kinetic energy Table (9) shows the allowable kinetic energy of the rotary actuator. The end angular speed is obtained by: Table 9.
Thin shaft Position of rotational axis: Perpendicular to the shaft through one end I = m1 + m2 3 a1 I = m 2 r 3 a2 2. Thin shaft Position of rotational axis: Through the shaft's center of gravity 7. Solid sphere Position of rotational axis: Diameter I = m 12 a I = m 5 2r 3.
x 0.4 M2 x 0.4 2 4.6 1.6 4 1.6 6 2.5 7 12.5 Rod end nut part no.: NTJ-004 6 Series CUJ Dimensions for 6 Double Acting/Single Acting Without magnet/CUJB6 Note) The angular position of the width across flats is not fixed with respect to the tube. 2-M3 x 0.5 (bore size) 6 3.5 M2.5 x 0.45 effective depth 5 3 Element Width across flats 8 Width across flats 3.5 9 10 7 4 9h9 19 7 2.5 2-3.3 through
M3 M1 M2 1.25 1.68 Slide 12 3 0.53 0.70 Ball bushing 3.34 4.25 Slide 16 7 1.53 2.11 Ball bushing 11.4 17.1 Slide l l 20 12 5.60 7.28 Ball bushing Note) For the purpose of calculating the moment, the length of the arm is the distance that is measured from the guide shaft center ( mark).