Cylinder (Tube) Inner Diameter(φ): 16, Stroke(mm): 125, Cylinder Operation Method: [Double Acting] Double Acting, Rod Operation Method: Single Rods, Main Body Shape: Guided, Additional Function: High rigidity / high precision high class guide, Environment, Applications: Standard, Operating Temperature(°C): -10~60, End Locking: No, Valves: -, Cushion: Shock absorber, Operating Pressure(MPa
Magnet: Built-in, Mounting: B [Through Hole (Standard)], Type: Standard, Bore Size: 25mm, Port Thread Type: Rc: 32-100 Bore; M Thread 12 to 25 Bore, Stroke: 25mm, Body Option: Standard (Rod End Female Thread), Auto Switch Groove: None (for 12-25 Bore w/o Magnet), Mounting Bolt: -, Rod End Bracket: -, Auto Switch: F7P--Solid State, Gen. Purpose, 3 Wire PNP, Lead Wire, Horizontal, Lead Wire
Magnet: Built-in, Mounting: Both Ends Tapped, Type: Standard, Bore Size: 50mm, Port Thread Type: Rc: 32-100 Bore; M Thread 12 to 25 Bore, Stroke: 300mm, Body Option: Rubber Bumper, Auto Switch Groove: Auto Switch Mounting Grooves, Mounting Bolt: -, Rod End Bracket: -, Auto Switch: F7P--Solid State, Gen. Purpose, 3 Wire PNP, Lead Wire, Horizontal, Lead Wire or Prewired Connector: 3m, Number
Magnet: Built-in, Mounting: B [Through Hole (Standard)], Type: Standard, Bore Size: 25mm, Port Thread Type: Rc: 32-100 Bore; M Thread 12 to 25 Bore, Stroke: 25mm, Body Option: Standard (Rod End Female Thread), Auto Switch Groove: Auto Switch Mounting Grooves, Mounting Bolt: -, Rod End Bracket: -, Auto Switch: F7P--Solid State, Gen. Purpose, 3 Wire PNP, Lead Wire, Horizontal, Lead Wire or
Digital Flow Switch ( compatible) ) Pr = a (PD) + b = 0.25 2500 + 0 = 625 [L/min] (2) Conversion from the flow measurement value to the process data (For PF2MC7 series, unit L/min, flow range 1000 L and Pr = 800 [L/min]) (PD) = (Pr b) / a = [800 0] / 0.25 = 3200 -79No.PF-OMZ0002-A IO-Link parameter setting IODD file IODD (I/O Device Description) is a definition file which provides all properties and parameters required
) Pr = a (PD) + b = 0.25 2500 + 0 = 625 [L/min] (2) Conversion from the flow measurement value to the process data (For PFMC7 series, unit L/min, flow range 1000 L and Pr = 800 [L/min]) (PD) = (Pr b) / a = [800 0] / 0.25 = 3200 -75No.PF-OMY0002 IO-Link parameter setting IODD file IODD (I/O Device Description) is a definition file which provides all properties and parameters required for
HRS 018 A 20 R Cooling capacity Environmentally resistant 018 1700/1900W(50/60Hz) 030 2500/2900W(50/60Hz) Option Cooling method Null None A Air-cooled refrigerated type B Earth leakage breaker J Automatic water filling L Large capacity tank Piping thread type T High pressure pump Null Rc V Stainless steel enclosure F G (Rc-G conversion fitting included) W Fixed SI unit N NPT (Rc-NPT conversion
2500 2000 2000 25 32 40 25 32 40 1500 1500 1000 1000 500 500 0 0 0 10 20 30 40 50 0 10 20 30 40 50 Circulating fluid temperature Circulating fluid temperature 50Hz 60Hz The cooling capacity will be reduced by 300W when option: T and MT are selected.
supply or keep the transient overvoltage of the power supply to 2500 V or less by using a varistor, etc. 3.3 Installation HRS Series 3-12 HRX-OM-S004 Chapter 3 Transport and Setting Up 3.3.3 Preparation and wiring of power supply cable The electrical facilities should be installed and wired in accordance with local laws and regulations of each country and by a person who has knowledge and
as mounting an isolation transformer between the product and the power supply or keep the transient overvoltage of the power supply to 2500 V or less by using a varistor, etc.
When using a power supply in the overvoltage category 3, take measures such as mounting an isolation transformer between the product and the power supply or keep the transient overvoltage of the power supply to 2500 V or less by using a varistor, etc.
Installation/operation in accordance with the UL standard For the product operation in the UL compliant conditions, the conditions shown below must be satisfied: Use power supply of overvoltage category 2 (transient overvoltage 2500 V or less) 1 Bending radius of the power supply cable must be 38.1 mm or more. 1 When using a power supply in the overvoltage category 3, take measures such
[oC] (2) Cooling capacity correction coefficient Less than 1000 m 45 1.00 1000 m or more Less than 1500 m 42 0.85 1500 m or more Less than 2000 m 38 0.80 2000 m or more Less than 2500 m 35 0.75 2500 m or more Less than 3000 m 32 0.70 3.2.2 Location Install the product only in a location that may be subject to any of the conditions in "3.2.1 Environment".
V or less) 1 1 When using a power supply in the overvoltage category 3, take measures such as mounting an isolation transformer between the product and the power supply or keep the transient overvoltage of the power supply to 2500 V or less by using a varistor, etc.
V or less) 1 1 When using a power supply in the overvoltage category 3, take measures such as mounting an isolation transformer between the product and the power supply or keep the transient overvoltage of the power supply to 2500 V or less by using a varistor, etc.
Cooling capacity W 2000 Fluid: Water 1500 1000 Fluid: Fluorinert FC-77 500 0 0 10 20 30 40 50 60 70 Recirculating fluid temp. oC Fig. 6-5 Cooling capacity of HEC012 2) Heating capacity Radiating Water Temp.20 oC Radiating Water flowrate10L/min 3000 2500 Heating capacity W Fluid: Water 2000 1500 1000 Fluid: Fluorinert FC-77 500 0 0 10 20 30 40 50 60 70 Recirculating fluid temp. oC Fig. 6-
STC(50) MOV(7500) STOP Acceleration/deceleration time constant Absolute move command Program end 50[ms] 7500[10STMm] Move command 2 Program No. 2 Description SPN(1000) STC(100) MOV(2500) Speed (Motor speed) Acceleration/deceleration time constant Absolute move command 1000[r/min] 100[ms] 2500[10STMm] Move command 3 SYNC(1) Step is suspended until program input (PI1) turns ON.
Fig. 8.4-4 Cooling capacity(HRSE018-A-20/23) 8.4.5 HRSE024-A-20/23-(T) Ambient 3000 3000 Ambient Temperature Temperature 2500 2500 25 35 40 25 35 40 Cooling capacity[W] Cooling capacity[W] 2000 2000 1500 1500 1000 1000 500 500 0 0 0 10 20 30 40 0 10 20 30 40 Circurating fluid temperature[] Circurating fluid temperature[] 50Hz 60Hz The cooling capacity will be reduced by 100W when option:
LEMB / LEMC LEMH / LEMHT Speed [mm/s] Acceleration Speed [mm/s] Acceleration [mm/s2] [mm/s2] 0 48 250 48 250 1 75 500 75 500 2 100 1000 100 1000 3 150 1500 150 1500 4 200 2000 200 2000 5 250 2500 300 2500 6 300 3000 400 3000 7 350 4000 500 4000 8 400 5000 600 5000 9 450 6000 800 6000 10 500 7500 1000 7500 11 600 10 1200 10 12 700 12500 1400 12500 13 800 15000 1600 15000 14 900 17500 1800
Initial value Recommended value Electronic gear numerator *3 PA06 1 32768 Electronic gear denominator *3 PA07 1 3000 2000 1000 3750 2500 1250 3375 5250 Feel length multiplication (STM) (Multiplier) PA05 0 0(Less than stroke 1000)/ 0001(Stroke 1000 or more) Home position return type PC02 0 3Stopper type *4 Home position return direction PC03 0001 1 (Motor side) Home position return Speed (