Slider Type/Ball Bushing Bearing 0.3 0.2 0.4 0.5 0.6 0.7 100, 200, 300, 400, 500, 600, 800 25 1200 10 15 23 78 31 39 54 46 100, 200, 300, 400, 500, 600, 800, 1000 25 2 axis 15 35 52 176 70 88 123 105 1500 32 20 62 94 314 125 157 219 188 Note) Strokes are manufacturable in 1 mm increments up to the maximum strokes.
Magnet: None, Mounting: Basic, Cushion: Rubber Bumper, Bore Size: 1 1/2", Stroke A: 12", +: +, Stroke B: 10", Stroke Adjustment: None, Auto Switch: No Switch, Lead Wire or Prewired Connector: 0.5m (Or None in the Case of No Switch), Number: 2 pcs. (Or None in the Case of No Switch), Stroke Options: Dual Stroke, Double Rod
530F 630F 330F 430F 530F 630F Manifold regulator 4-, 5-port solenoid valve VQ Directional control valves 0 1000 2000 4000 5000 1000 2000 3000 1000 2000 1000 3000 5000 7000 3000 5000 7000 3000 5000 7000 20, 30 100 100 200 300 100 300 500 300 500 700 1000 2000 2500 3000 4000 4000-06 5000 6000 1000 2000 3000 4000 4000-06 2550 3050 4050 4050-06 3050 4050 4050-06 2060 2560 3060 4060 4060-06 5060
FKM Water Bronze Conduit EPDM Oil Aluminum JSXD70 Series 1 1/4, 32A 35 M12 connector 1000 Refer to pages 47 to 50 for details.
SUP = 0.2 MPa 0.2 0.2 0.2 0.1 0.1 0.1 0 0 0 50 100 150 200 0 Discharge (mL/min) 0 Discharge (mL/min) 200 400 600 800 1000 0 Discharge (mL/min) 200 400 600 800 1000 Air Consumption: Built-in Solenoid Valve/Air Operated Calculation of Air Consumption Air Consumption 45 Find the air consumption for operation with a 5 Hz switching cycle and pilot air pressure of 0.35 MPa from the air consumption
Mr = 1 x 9.8 (30 + 10.5)/1000 = 0.39 A = 10.5 Examine My. My = 1 x 9.8 (10 + 30)/1000 = 0.39 A3 = 30 Find the static moment M (Nm). M = W x 9.8 (Ln + An)/1000 Corrected value of moment center position distance An: Table 3 Find the allowable static moment Ma (Nm).
SUP = 0.2 MPa 0.2 0.2 0.2 0.1 0.1 0.1 0 0 0 50 100 150 200 0 Discharge (mL/min) 0 Discharge (mL/min) 200 400 600 800 1000 0 Discharge (mL/min) 200 400 600 800 1000 Air Consumption: Built-in Solenoid Valve/Air Operated Calculation of Air Consumption Air Consumption 45 Find the air consumption for operation with a 5 Hz switching cycle and pilot air pressure of 0.35 MPa from the air consumption
Mr = 1 x 9.8 (30 + 10.5)/1000 = 0.39 A6 = 10.5 Mar = 36 Mrmax = 36 K = 1 = 1 '2 = 0.39/36 = 0.011 Examine My. My = 1 x 9.8 (10 + 30)/1000 = 0.39 A3 = 30 May = 1 x 1 x 18 = 18 Mymax = 18 K = 1 = 1 2 = 0.39/18 = 0.022 M = W x 9.8 (Ln + An)/1000 Correction value of moment center position distance An: Table (3) Find the static moment M (Nm).
Standard Strokes Bore size (mm) Standard strokes (mm) 40 50 63 80 100 125 160 25 to 800 25 to 800 25 to 800 25 to 1000 25 to 1000 Specifications with included auto switch are the same for Double Acting/Single Rod.
Cushioning nearly equal to a shock absorber is achieved with a unique cushion ring configuration and cushion seal design. 3.5 80 25 to 1300 25 to 1000 25 to 1500 100 50 to 1000 50 to 1300 125 50 to 1200 50 to 1500 160 CHAW CHA Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com
Monitoring of TEMP READY alarm (AL12) does not start since Start Time is set at 1000 sec. Status (6): Monitoring of TEMP READY alarm (AL12) starts at this point where 1000 sec of Start Time has elapsed. Status (7): TEMP READY signal output continues since the temperature is now back within the Out Time range of 200 sec even though it was temporarily outside the Low range.
Monitoring of TEMP READY alarm (AL12) does not start since Start Time is set at 1000 sec. Status (6): Monitoring of TEMP READY alarm (AL12) starts at this point where 1000 sec of Start Time has elapsed. Status (7): TEMP READY signal output continues since the temperature is now back within the Out Time range of 200 sec even though it was temporarily outside the Low range.
Monitoring of TEMP READY alarm (AL12) does not start since Start Time is set at 1000 sec. Status (6): Monitoring of TEMP READY alarm (AL12) starts at this point where 1000 sec of Start Time has elapsed. Status (7): TEMP READY signal output continues since the temperature is now back within the Out Time range of 200 sec even though it was temporarily outside the Low range.
Description Material AMF150 AMF250 AMF350 AMF550 AMF650 AMF850 Glass fiber NBR Element assembly 4 AMF-EL150 AMF-EL250 AMF-EL350 AMF-EL550 AMF-EL650 AMF-EL850 AMF-EL450 With gasket and O ring AMF800 to 1000 HAl AT IDl Component Parts Part No. AMF800/900/1000 SGP-E: SS400 SGP-E: SS400 AMG No.
Description Material AMF250 AMF350 AMF550 AMF650 AMF850 AMF150 Glass fiber, Others Element assembly AMF-EL250 AMF-EL350 AMF-EL450 AMF-EL550 AMF-EL650 AMF-EL850 AMF-EL150 r Element assembly: With gasket and O-ring AMF800 to 1000 HA AT ID Component Parts AMG Model AMF800/900/1000 SGP-E: SS400 SGP-E: SS400 AMF801/901 Note No.
1200 Outlet air flow rate (L/min (ANR)) 0 500 1000 1500 2000 Outlet air flow rate (L/min (ANR)) Pressure Characteristics Pressure Characteristics Pressure Characteristics Inlet pressure: 0.7 MPa Outlet pressure: 1.0 MPa Flow rate: 20 L/min (ANR) Inlet pressure: 0.7 MPa Outlet pressure: 1.0 MPa Flow rate: 20 L/min (ANR) Inlet pressure: 0.7 MPa Outlet pressure: 1.0 MPa Flow rate: 20 L/min
Symbol Specifications 6, 10 15, 20, 25, 32, 40 -X116 -X132 -X160 -X168 -X206 -X210 -X322 -X324 -X1468 Hydro specifications 1200 Axial ports 100 40 40 1100 High speed specifications 90 1000 900 Bore size 10 Bore size 10 Helical insert thread specifications Theoretical thrust (N) Theoretical thrust (N) 80 Bore size Bore size Added mounting tap positions for slider 70 800 700 32 32 Non-lubricated
Standard equipped with shock absorber -X 75 100 125 150 200 250 300 20 25 32 40 50 63 80 100 20 25 32 40 50 20Series MGC P . 8-21-6 Data Series MGG V V V V V V V V V V V V V V Guide Cylinder Guide Table Cylinder with Turntable Series MGC Long stroke Bore size (mm) Standard stroke (mm) Compact type of series MGG Lightweight, space-saving 250 300 350 400 450 500 600 700 800 900 1000 1100 1200
m or higher Because of lower air density, the heat radiation efficiencies of the devices in the product will be lower in the location at an altitude of 1000 m or higher.