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

One-touch Fittings

L2 L2 M2 M2 Release button dimensions X X Y Applicable tubing O.D.: 4, 6 Male Run Tee: KQ2Y-G (Gasket seal) Connection thread M Model H (Width across flats) 2 x Applicable tubing Effective area [mm2] Min. port size Release button dimensions D2 L1 L2 L3 A M Applicable tubing O.D.

Microprocessor-Controlled Electro-Pneumatic Regulator ITV2000 EASY PROGRAMMING GUIDE

Maximum load current: 30mA The NPN and PNP digital monitor outputs can be set to function in one of three different ways: comparator mode hysteresis mode self-diagnostic mode when P1P1>=P2 when P1=P2=0 The output is on whenever the outlet pressure is greater than P1 but less than P2. The output comes on once the outlet pressure reaches P1.

JXCx-OMT0001CN

LED LED OFF IP NS EtherNet/IP IP OFF MS EtherNet/IP LED 10Mbps P2-100 EtherNet/IP 100Mbps / P2-L/A / / / 10Mbps P1-100 EtherNet/IP 100Mbps / P1-L/A / / / -29No.JXC-OMT0001CN-C 4.4. 1 2DIN -30No.JXC-OMT0001CN-C 4.5 (1) DIN (A) (M5 4 ) (M5)X4 () (b) DIN (DIN ) DIN M5X8DIN 2 4 (:3.0[Nm]) M5X8 (M5X14)1 DIN 2 2 :3.0[Nm] DIN () A DIN B M5X14 M5X14) DIN (:

A

How to Find the Flow Rate (at air temperature of 20C) Choke flow: when (P2 + 0.1)/(P1 + 0.1) 0.5 293 273 + t Q = 120 x S x (P1 + 0.1) x Subsonic flow: when (P2 + 0.1)/(P1 + 0.1) > 0.5 Q = 240 x S x (P1 P2)(P2 + 0.1) x 293 273 + t Q : Air flow rate [l/min (ANR)] S : Effective area (mm) P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] t : Air temperature Note) Formulas above apply

A

demand = 1000 n/min (N)VBA2, (N)VBA4 C H A R G E C H A R A C T E R I S T I C S NVBA1 C H A R G E C H A R A C T E R I S T I C S Charging time for 10l t(s) Charging time for 10l t(s) Pressure increase ratio (P2/P1) Pressure increase ratio (P2/P1) These graphs illustrate the time required to inrease pressure in a closed tank e.g.

Soft Start-up Valve AV2000/3000/4000/5000 1

How to Find the Flow Rate (At air temperature of 20C) Choke flow: (P2 + 0.1)/(P1 + 0.1) ) 0.5 293 273 + t Q = 120 x S x (P1 + 0.1) x Subsonic flow: when (P2 + 0.1)/(P1 + 0.1) > 0.5 Q = 240 x S x (P1 P2)(P2 + 0.1) x 293 273 + t Q: Air flow rate [ /min (ANR)] S: Effective area (mm2) P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] t: Air temperature [C] Note 1) Formulas above are

VER2000/4000

Subsonic flow at P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P (P2 + 0.1013) Sonic flow of P1 + 0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) VER2000 Q: Air flow rate [/min (ANR)] S: Effective area [mm2] P: Amount of pressure drop P1 P2 [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Cylinder stroke (st/mm) Correction for varying air temperatures: Square the coefficient



Tighten the orifice again and connect the pilot piping to port P1 using an M5 fitting.

Series DXT474

Q=226S P(P2+0.1013) Sonic flow : P1+0.10131.89(P2+0.1013) Q=113S(P1+0.1013) Q : Flow rate [ /min(ANR)] S : Effective area (mm2) P : Pressure differential (P1-P2) [MPa] P1 : Upstream pressure [MPa] P2 : Downstream pressure [MPa] When the air temperature is different, multiply the flow rate calculated with the above formula by the following coefficient for compensation. -20 1.08 -10 0 10 30

SZ3000

How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 +0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min(ANR)] S: Effective sectional area (mm) P: Differential pressure (P1-P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Correction for different air temperatures

VKF300

How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 +0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min(ANR)] S: Effective area (mm) P: Pressure drop (P1-P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Maintenance Correction for different air temperatures

VQ7-6/7-8

How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 + 0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min (ANR)] S: Effective area (mm) P: Differential pressure (P1-P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Correction for different air temperatures

Microprocessor-Controlled Electro-Pneumatic Regulator ITV2000 EASY PROGRAMMING GUIDE

Maximum load current: 30mA The NPN and PNP digital monitor outputs can be set to function in one of three different ways: comparator mode hysteresis mode self-diagnostic mode when P1P1>=P2 when P1=P2=0 The output is on whenever the outlet pressure is greater than P1 but less than P2. The output comes on once the outlet pressure reaches P1.

MY1

Y g: Gravitational acceleration, a: Average speed 24 Series MY1W Maximum Allowable Moment/Maximum Load Weight Maximum allowable moment Maximum load weight (kg) m1 Maximum allowable moment (Nm) M1 Bore size (mm) Model M2 M3 m2 m3 Select the moment from within the range of operating limits shown in the graphs.

Magnetically Coupled Rodless Cylinder Series CY3 B R /CY1 1

CY1H15 CY1HT32 CY1HT25 CY1H25 64 56 (Nm) 50 40 30 50 40 30 20 28 26 M1 M2 M3 M2 M3 M1 Model Model 20 CY1H20 CY1H15 16 Moment (Nm) Moment (Nm) CY1H10 CY1H25 1.5 2.5 1.5 28 26 28 13 10 10 CY1H15 CY1HT25 10 16 10 56 85 56 2 2.5 3 4 5 2 3 4 5 CY1H20 CY1HT32 13 16 13 64 96 64 CY1H10 CY1H10 1.5 1 M3 1 0.5 0.5 70 100 300 500 1000 70 100 300 500 1000 Piston speed (mm/s) Piston speed (mm/s) M1 M2