Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 320 ~ 370, Outlet Open Air Pressure Dew-Point(°C): 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 55, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection Type
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 320 ~ 370, Outlet Open Air Pressure Dew-Point(°C): 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 55, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection Type
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 320 ~ 370, Outlet Open Air Pressure Dew-Point(°C): 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 55, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection Type
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 320 ~ 370, Outlet Open Air Pressure Dew-Point(°C): 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 55, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection Type
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 320 ~ 370, Outlet Open Air Pressure Dew-Point(°C): 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 55, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection Type
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 320 ~ 370, Outlet Open Air Pressure Dew-Point(°C): 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 55, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection Type
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 320 ~ 370, Outlet Open Air Pressure Dew-Point(°C): 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 55, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection Type
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 283 ~ 333, Outlet Open Air Pressure Dew-Point(°C): 2.8 ~ 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 37.8, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 283 ~ 333, Outlet Open Air Pressure Dew-Point(°C): 2.8 ~ 10, Exit Flow Rate Class(l/min): Up to 400, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 37.8, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 3/8, Control Side Connection
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 400 ~ 567, Outlet Open Air Pressure Dew-Point(°C): 3 ~ 10, Exit Flow Rate Class(l/min): Up to 1000, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 35, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 1/2, Control Side Connection
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 400 ~ 567, Outlet Open Air Pressure Dew-Point(°C): 3 ~ 10, Exit Flow Rate Class(l/min): Up to 1000, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 35, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 1/2, Control Side Connection
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 400 ~ 567, Outlet Open Air Pressure Dew-Point(°C): 3 ~ 10, Exit Flow Rate Class(l/min): Up to 1000, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 35, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 1/2, Control Side Connection
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 400 ~ 567, Outlet Open Air Pressure Dew-Point(°C): 3 ~ 10, Exit Flow Rate Class(l/min): Up to 1000, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 35, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 1/2, Control Side Connection
Types: Dryers, Method: [Freezing] Refrigerating type (air-cooling specification), Shape: Standard, Outlet Flow Rate(l/min): 400 ~ 567, Outlet Open Air Pressure Dew-Point(°C): 3 ~ 10, Exit Flow Rate Class(l/min): Up to 1000, Supply Side Connection Type: [Rc (R)] Rc, Inlet Air Temperature(°C): 35, Inlet Air Pressure(MPa): 0.7, Supply Side Plumbing Thread Nominal: 1/2, Control Side Connection
Title not found Calculate the area of the cylinder piston Area = r2 where = 3.1416 r = 12 the bore diameter 2. Multiply the piston area by the air pressure to be used. Area x Pressure = Force Output Example: What is the theoretical force output of a 2 12 bore cylinder operating at 80 lbs. per square inch air pressure? Step 1.
Description No. 2 Common IN Individual IN Common IN Individual IN Bonnet Polyacetal Regulator NARM2500-A-N02 NARM2500-B-N02 NARM3000-A-N03 NARM3000-B-N03 9 Regulator 1 Component Parts 10 End plate R 1 No.
Calculate the area of the cylinder piston Area = r2 where = 3.1416 r = 12 the bore diameter 2. Multiply the piston area by the air pressure to be used. Area x Pressure = Force Output Example: What is the theoretical force output of a 2 12 bore cylinder operating at 80 lbs. per square inch air pressure? Step 1.
TU0425TU0604TU0805TU1065TU1208TIUB01TIUB05TIUB07TIUB11TIUB13 Color 100 m reel Black, White, Red, 200 m reel X3 Blue, Yellow, Green, 400 m reel Clear, Orange 500 m reel X4 Red, White, Yellow, Green, Clear, Orange 20 m roll X217 Black, White, Blue, Clear 20 m roll Note that the model number is not printed on the tube body. Refer to page 467 for details.
Type: Retainer Pin/Stopper Set, Cover: Available, Main Body Material 1: [Aluminum] Aluminum, Flow Coefficient (Cv)(mm2): 370, Silencing Effect(dB): 35, Pipe Connection Port Type: [R] R, Mounting Thread Nominal: [1 1/4] 1 1/4, Effective Sectional Area Class(mm2): Up to 400, Compatible Fluid: Air, Body size: 4, Bracket-compatible model: None, Option: None
Type: Retainer Pin/Stopper Set, Cover: Available, Main Body Material 1: [Aluminum] Aluminum, Flow Coefficient (Cv)(mm2): 370, Silencing Effect(dB): 35, Pipe Connection Port Type: [R] R, Mounting Thread Nominal: [1 1/2] 1 1/2, Effective Sectional Area Class(mm2): Up to 400, Compatible Fluid: Air, Body size: 4, Bracket-compatible model: None, Option: None