Series AK1000 (17.5) 2.00 (50.8) 20 0.14 10 0.07 0.88 (22.4) 2 x 10-32 UNF depth 0.25 (6.3) (Mounting hole) 0 0.00 0 20 40 60 80 Flow rate (slpm, N2) AK1000HF 100 psig (0.69 MPa) 30 psig (0.21 MPa) Inlet pressure: 50 psig (0.34 MPa) 60 0.41 50 0.34 Delivery pressure (psig) Dlivery pressure (MPa) 40 0.28 30 0.21 20 0.14 10 0.07 0 0.00 0 20 40 60 80 100 120 140 160 180 200 Flow rate (slpm, N2) Hastelloy
I-MU02 I-MU03 I-MU04 I-MU05 CNS E1 16 18 20 28 A1 10.5 12 14 18 MM M10 x 1.25 M12 x 1.25 M14 x 1.5 M18 x 1.5 A1 10.5 12 14 18 L1 27 31 36 46 E1 14 18 20 28 L1 27 31 36 46 MM M10 x 1.25 M12 x 1.25 M14 x 1.5 M18 x 1.5 NDH10 8 10 10 14 Size 25 32 40 50 Size 25 32 40 50 +0.058 0 +0.058 0 +0.058 0 +0.070 0 CLS CLQ Applicable pin no.
50 SUP=0.5MPa SUP=0.5MPa Total lifting range m Total lifting range m 40 40 Air consumption 100l/min (ANR) 30 Air consumption 200l/min ANR) 30 Air consumption 100l/min (ANR) Air consumption 50l/min (ANR) 20 20 SUP=0.2MPa SUP=0.2MPa 10 10 0 0 10 30 40 50 20 60 10 20 Discharge rate l/min Discharge rate l/min 1m = 3.28ft 1l/min = 0.035SCFM Selection from flow rate characteristic graphs (PA3000
50 SUP=0.5MPa SUP=0.5MPa Total lifting range m Total lifting range m 40 40 Air consumption 100l/min (ANR) 30 Air consumption 200l/min ANR) 30 Air consumption 100l/min (ANR) Air consumption 50l/min (ANR) 20 20 SUP=0.2MPa SUP=0.2MPa 10 10 0 0 10 30 40 50 20 60 10 20 Discharge rate l/min Discharge rate l/min Selection from flow rate characteristic graphs (PA3000) Required specification example
(Max. 20 stations) SUP/EXH block assembly mounting position Valve stations Series 3 5 7 02 2 stations SY3000 SY5000 SY7000 20 20 stations Symbol Mounting position U side D side Both sides Special specifications Applicable stations U D B M 2 to 10 stations 2 to 20 stations In case of special specifications, indicate separately on a manifold specification sheet.
to 50 kPa. 16-3-34 3 Series PSE550 Low Differential Pressure Sensor Analog Output 1 to 5 VDC 4 to 20 mADC 5 20 Analog output [mA] Analog output [V] ZSE ISE 1 4 PSE 0 2 0 2 Differential pressure [kPa] Differential pressure [kPa] Z I SE3 Internal Circuit PS Z I SE1 2 PSE550 Voltage output type 1 to 5 V Output impedance Approx. 1 k PSE550-28 Current output type 4 to 20 mA Allowable load impedance
Maximum stations are 18. 16 4 17 5 18 6 19 7 20 8 21 1.
mm/s Piston speed mm/s Piston speed mm/s (4) CY1F/m1 (5) CY1F/m2 (6) CY1F/m3 (7) CY1F/m4 30 30 30 30 20 20 20 20 CY1F25 CY1F25 CY1F25 CY1F25 10 10 10 10 CY1F15 CY1F15 CY1F15 5 5 5 5 Load mass kg Load mass kg Load mass kg Load mass kg 4 4 4 4 3 3 3 3 CY1F15 CY1F10 CY1F10 CY1F10 2 2 2 2 CY1F10 1 1 1 1 0.5 500 300 100 50 0.5 500 300 100 50 0.5 500 300 100 50 0.5 500 300 100 50 Piston speed mm
Nm Moment Nm Moment Nm 4 4 4 CX CY1F15 3 3 3 DCY1F10 2 2 2 -X CY1F15 CY1F15 20CY1F10 CY1F10 1 1 1 Data 0.5 0.5 0.5 500 100 300 50 500 100 300 50 500 100 300 50 Piston speed mm/s Piston speed mm/s Piston speed mm/s (4) CY1F/m1 (5) CY1F/m2 (6) CY1F/m3 (7) CY1F/m4 30 30 30 30 20 20 20 20 CY1F25 CY1F25 CY1F25 CY1F25 10 10 10 10 CY1F15 CY1F15 CY1F15 5 5 5 5 Load mass kg Load mass kg Load mass
Set the unit with the or button. : kPa or MPa : kgf/cm2 : bar : psi : inHg : mmHg Note 1) Note 1) Note 1) Calibration is available with series ZSE50 and ZSE60. 16-2-43 20 Series ZSE F/ISE Pressure Switch Precautions Be sure to read before handling. 50 60 50 60 Pressure Source Handling Warning Warning 1. Do not drop, or apply excessive impact (980 m/s2) while handing.
50 Nil Without option H 20 24 30 to to B With lock A 12 16 20 1200 1200 B 6 8 10 *Refet to Applicable Stroke Table.
A Graph 1 Graph 2 120 60 110 B 100 50 C P1 63 63 90 80 40 70 Regulator Circuit C Load weight (kg) Load weight (kg) P2 60 30 50 50 A 50 Regulator valve 40 20 40 40 30 B 32 32 20 10 C P1 10 0 0 0.4 0.3 0.3 0.5 0.6 0.7 Operating pressure (MPa) 0.4 0.5 0.6 0.7 Operating pressure (MPa) Selection example Confirmation of allowable kinetic energy Selection conditions: Transfer direction: Vertical
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter