Bore Size: 16mm, Port Thread: Rc (25-100 Bore, M Thread 16-20 Bore), Piping: Standard, Stroke: 100mm, Stroke Adjusting Unit: L (Low Load Shock Absorber+Adjust Bolt), Auto Switch: M9B--Solid State, Gen. Purpose, 2 Wire, Horizontal
Bore Size: 25mm, Port Thread: Rc (25-100 Bore, M Thread 16-20 Bore), Piping: Standard, Stroke: 100mm, Stroke Adjusting Unit: L (Low Load Shock Absorber+Adjust Bolt), Auto Switch: M9B--Solid State, Gen. Purpose, 2 Wire, Horizontal
Bore Size: 16mm, Port Thread: Rc (25-100 Bore, M Thread 16-20 Bore), Piping: G (Centralized Piping), Stroke: 100mm, Stroke Adjusting Unit: L (Low Load Shock Absorber+Adjust Bolt), Auto Switch: M9B--Solid State, Gen. Purpose, 2 Wire, Horizontal
Guide Suffix: Linear Guide, Single Axis, Bore Size: 25mm, Port Thread: Ø16 M Thread; Ø25 & 40 Rc, Stroke: 100mm, Stroke Adjusting Unit: L (Left Side Stroke Adj., w/Low Load Shock Absorber; Right Side Stroke Adj., w/Low Load Shock Absorber), Auto Switch: M9B--Solid State, Gen. Purpose, 2 Wire, Horizontal
Guide Suffix: T (Linear Guide, Double Axis), Bore Size: 25mm, Port Thread: Ø16 M Thread; Ø25 & 40 Rc, Stroke: 100mm, Stroke Adjusting Unit: L (Left Side Stroke Adj., w/Low Load Shock Absorber; Right Side Stroke Adj., w/Low Load Shock Absorber), Auto Switch: M9B--Solid State, Gen. Purpose, 2 Wire, Horizontal
Guide Type: M (Slide Bearing), Seal: K (Side Seal), Bore Size: 25mm, Port Thread: Rc (or M Thread for 16 & 20 Bore), Piping: Standard, Stroke: 100mm, Adjuster: L (Low Load Shock Absorber + Adjust Bolt), Suffix: Both Sides, Auto Switch: M9B--Solid State , Gen. Purpose, 2 Wire, Horizontal
Guide Type: M (Slide Bearing), Seal: None, Bore Size: 25mm, Port Thread: Rc (or M Thread for 16 & 20 Bore), Piping: Standard, Stroke: 100mm, Adjuster: L (Low Load Shock Absorber + Adjust Bolt), Suffix: Both Sides, Auto Switch: M9B--Solid State , Gen. Purpose, 2 Wire, Horizontal
[Aluminum] Aluminum Alloy, Rodless Cylinder Joint Type: Mechanically Jointed, Guide: [Rolling Guide] Linear guide 2 axis, Table Size Width W(mm): 176, Table Size Height H(mm): 37, Table Surface Treatment: [Anodize] Hard Anodize, Environment: General Purpose, Maximum Load(kg): 38, Piping Format: Centralized piping type, Port Screw Type: Rc, Specification: Magnet built-in, Auto Switches: M9B
Parallelism(µm): 120, Table Surface Treatment: [Anodize] Hard Anodize, Operating Pressure(MPa): 0.2 to 0.8, Environment: General Purpose, Maximum Load(kg): 18, Operating Speed(mm/s): 100~1500, Allowable Static Moment MA(N⋅m): 6, Allowable Static Moment MB(N⋅m): 3, Allowable Static Moment MC(N⋅m): 1, Connection Diameter: M5, Piping Format: Standard type, Port Screw Type: M screw, Auto Switches: M9B
Material: [Aluminum] Aluminum Alloy, Rodless Cylinder Joint Type: Mechanically Jointed, Guide: [Guideless] Prototype, Table Size Width W(mm): 41, Table Size Height H(mm): 27, Table Surface Treatment: Electroless Nickel Plating, Environment: General Purpose, Maximum Load(kg): 6, Types: Standard type, Port Screw Type: M5, Cushion: Air cushion, Specification: Magnet built-in, Auto Switches: M9B
Air-hydro unit, series CC, Converter size (mm): 63, 100, 160, Small and large flow available, High cylinder operation speed, Air port size: 3/8 (63), 1/2 (100), 3/4 (160), Oil port size: 1/2 (63S, 100S), 3/4 (100L, 160L), CYLINDER HARDWARE, ACTUATOR, (GT CODES)CYLINDER HARDWARE, 11, CYLINDER HARDWARE, 0.00462 lb
Air-hydro unit, series CC, Converter size (mm): 63, 100, 160, Small and large flow available, High cylinder operation speed, Air port size: 3/8 (63), 1/2 (100), 3/4 (160), Oil port size: 1/2 (63S, 100S), 3/4 (100L, 160L), BOLT, ACTUATOR, (GT CODES)CYLINDER HARDWARE, 11, CYLINDER HARDWARE, 0.00462 lb
Digital Flow Monitor 210 L/min -25 to 525 L/min -50 to 1050 L/min -100 to 2100 L/min -150 to 3150 L/min -300 to 6300 L/min -600 to 12600 L/min 0 to 999,999,999 ,999 L Accumulated flow 0 to 999,999,999,990 L 0 to 999,999,999,900 L Min. setting unit Instantaneous flow 1 L/min 2 L/min 5 L/min 10 L/min Flow Accumulated flow 1 L 10 L 100 L Accumulated volume per pulse (Pulse width = 50 msec.) 1 L/pulse 10 L/pulse 100L
) 10 m DC(-)() -7No.PF-OMN0009CN-F * ( ) () CE -8No.PF-OMN0009CN-F * 3 * -9No.PF-OMN0009CN-F * , *PVC PVC PVC () PVC PVC , -10No.PF-OMN0009CN-F PF3W5 48 () 3 A : 04 20 40 11 21 0.5~4 L/min 2~16 L/min 5~40 L/min 10~100 L/min 50~250 L/min 2 04 20 40 11 21 R 04 20 40 11 21 S 250L/min G L/min(gal/min) / : SI : G : 1[L/min]=0.2642[gal/min] 1[gal/min]=3.785[L/min] 1=9/5+32 L/min 100L
Sub screen 20L/min 100L/min 200L/min Press the or button to select the sensor to be connected. Press the button to confirm. Return to function selection mode. [F 0] Sensor selection is completed. -21No.LFE*-OMZ0013 [F 1] Setting of OUT1 Set the output mode of OUT1.
Also, it should be noted that the discharge rate will be less than the normal condition. 2) Air consumption Air consumption Caution Air consumption L/min[ANR] 0 5 10 15 20 25 30 35 40 45 L/min[ANR] -If the compressor output is selected based on air consumption, 0.75kW per 100L/min (ANR) is the guide. 1 2 3 4 5 6 7 8 9 10 Hz Cycle Hz 15 3) Viscosity characteristics With reference to the
Also, it should be noted that the discharge rate will be less than the normal condition. 2) Air consumption Air consumption Air consumption (L/min [ANR]) Caution 16 -If the compressor output is selected SUP=0.5MPa L/min[ANR] 14 SUP=0.35MPa based on air consumption, 0.75kW 12 10 per 100L/min(ANR) is the guide.
If required output of compressor is calculated from air consumption, consider the output is 0.75 kW per air consumption of 100L/min (ANR) for reference. 9 2) Viscosity characteristic With reference to viscosity characteristic graph (shown below), discharge amount of transported fluid with higher viscosity can be calculated.
If required output of compressor is calculated from air consumption, consider the output is 0.75 kW per air consumption of 100L/min (ANR) for reference. 8 2) Viscosity characteristic With reference to viscosity characteristic graph (shown below), discharge amount of transported fluid with higher viscosity can be calculated.
If required output of compressor is calculated from air consumption, consider the output is 0.75 kW per air consumption of 100L/min (ANR) for reference. 0.5 SUP=0.5MPa 0.4 Discharge pressure (MPa) 0.4MPa 0.3 0.3MPa 0.2 0.2MPa 0.1 0 0 10 20 30 40 50 Discharge rate (L/min) 7 - 2) Viscosity characteristic With reference to viscosity characteristic graph (shown below), discharge amount of transported