SMC Basic Pneumatics They are as tollows: r_.013) C = 4 0 0 ' C v ' Q=21.94'kv Q = 2 2 . 2 ' s ' t-=---:-=-;;-| LtJ .t(Dz + ruJ.s,| . Ap.1l;;-v s ' . ' \ t n !
D 6 D1 mm, 6 < D 25 D2 mm, D > 25 D4 mm 3. In the case of double rod type and single acting retraction type, enter the dimensions when the rod is retracted.
Substitute the measurement results in formula (8) to calculate Kv.
Controller Mounting: D (DIN Rail Mouting), Cable Length: 1 (1 m), Inlet Port Silencer: B (ANB1-01, 55 dB), Digital Pressure Switch: P (ISE20A-Y-01-J-X603), Exhaust Check Valve: K (AKH06-00, for 6mm tubing), Exhaust Solenoid Valve: V (V124-5LU-M5)
Controller Mounting: D (DIN Rail Mouting), Cable Length: 1 (1 m), Inlet Port Silencer: (None 75 dB), Digital Pressure Switch: P (ISE20A-Y-01-J-X603), Exhaust Check Valve: K (AKH06-00, for 6mm tubing), Exhaust Solenoid Valve: V (V124-5LU-M5)
Controller Mounting: DIN Rail Mouting, Cable Length: 1 m, Inlet Port Silencer: ANB1-01, 55 dB, Digital Pressure Switch: ISE20A-Y-01-J-X603, Exhaust Check Valve: AKH06-00, for 6mm tubing, Exhaust Solenoid Valve: V124-5LU-M5
Substitute the measurement results in formula (8) to calculate Kv.
1.0 kV 25 to 90C Connector Ambient temperature 5 to 80C Operating Cable 40 to 80C Fixed Protection class IP67 (Only with screw tightened) 200 Allowable repeated insertion/withdrawal Cable retaining force 150 N/15 sec. 250 N/15 sec.
Substitute the measurement results in formula (8) to calculate Kv.
D1. Confirm that the connector is appropriately tightened. If tightened insufficiently, the waterproof performance will deteriorate. 2. Refer to page 8-30-55 for the details.
= 24 x 106 Cv (11) Here, Kv factor : Value of the clean water flow rate represented by m3/h which runs through a valve at 5 to 40C, when the pressure differential is 1 bar.
= 24 x 106 Cv (11) Here, Kv factor : Value of the clean water flow rate (represented by m3/h) which runs through a valve at 5 to 40C when the pressure difference is 1 bar.
Applicable Connection Model H (Width D1 D2 L1 L2 A M Effective Tube Thread Across Flats) Orifice Applicable Connection Model H (Width D1 D2 L1 L2 A M Minimum Tube Thread Across Flats) Hole OD mm Uni Thread (mm2) Nylon OD Inch Uni Thread Diameter 4 18 KQW04-U01 10 10.4 10 18 34.5 35.5 16 4 1/8 1/8 KQW01-U01 11.11 9.6 10 17.5 35 35.5 15.5 2.5 4 14 KQW04-U02 14 10.4 10 18 37 38.5 16 4 1/8 1/
= 24 x 106Cv (11) Here, Kv factor: Value of the clean water flow rate represented by m3/h which runs through a valve at 5 to 40C, when the pressure difference is 1 bar.
= 24 x 106Cv (11) Here, Kv factor: Value of the clean water flow rate represented by the m3/h which runs through the valve at 5 to 40C, when the pressure difference is 1 bar.
= 24 x 106Cv (11) Here, Kv factor: Value of the clean water flow rate represented by the m3/h which runs through the valve at 5 to 40C, when the pressure difference is 1 bar.
= 24 x 106 Cv (11) Here, Kv factor : Value of the clean water flow rate represented by m3/h which runs through a valve at 5 to 40C, when the pressure difference is 1 bar.
= 24 x 106Cv (11) Here, Kv factor: Value of the clean water flow rate represented by the m3/h which runs through the valve at 5 to 40C, when the pressure difference is 1 bar.
= 24 x 106 Cv (11) Here, Kv factor : Value of the clean water flow rate represented by m3/h which runs through a valve at 5 to 40C, when the pressure difference is 1 bar.
= 24 x 106Cv (11) Here, Kv factor: Value of the clean water flow rate represented by the m3/h which runs through the valve at 5 to 40C, when the pressure difference is 1 bar.