SQ1000/2000 How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 + 0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min (ANR)] S: Effective area (mm) P: Differential pressure (P1P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Correction for different air temperatures
= 1 MPa P1 = 0.8 MPa P1 = 0.6 MPa 30 30 Example 2 20 20 P1 = 0.5 MPa P1 = 0.4 MPa Example 1 10 10 P1 = 0.3 MPa P1 = 0.2 MPa 4 5 5 4 P1 = 0.1 MPa 3 3 2 2 1 1 0.001 0.01 0.1 0.002 0.003 0.02 0.03 0.04 0.004 Pressure differential P [MPa] Graph (2) Flow rate characteristics Example 1) Obtain the pressure difference when water [15 L/min] runs through the solenoid valve with a Kv = 1.5 m3/h.
How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 + 0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min (ANR)] S: Effective area (mm) P: Differential pressure (P1P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Correction for different air temperatures
) 10 (P2) 12 (P1) Allowable voltage fluctuation SGC 50C or less (When rated voltage is applied.)
IFW550 0.10 P1 = 0.6 MPa P1 = 0.5 MPa P1 = 0.4 MPa P1 = 0.3 MPa 0.08 Pressure drop (MPa) P1 = 0.2 MPa 0.06 P1 = 0.1 MPa Component Parts 0.04 No. Description Material Description Material No.
Supply pressure verification Leak test P2(n1) > P1(n2) P2(n2) P1(n1) 10.0 to 101.0kPa CH Increases the set value 1 2 3 4 PRESSURE For normally closed P2(n1) > P1(n2) P2(n2) P1(n1) 0.1 to 1000.0MPa Decreases the set value SET P3(n3) and P4(n4) are the same as P1(n1) and P2(n2).
Supply pressure verification Leak test P2(n1) > P1(n2) P2(n2) P1(n1) 10.0 to 101.0kPa CH Increases the set value 1 2 3 4 PRESSURE For normally closed P2(n1) > P1(n2) P2(n2) P1(n1) 0.1 to 1000.0MPa Decreases the set value SET P3(n3) and P4(n4) are the same as P1(n1) and P2(n2).
Normal primary pressure Drop of primary pressure Increase of primary pressure Pressure P1 P2 Time Switch output 1, 2 ON OFF 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 The correction value is not stored on the EEPROM.
Type PA3000 115 68 85 105 4-7 7.5 FLUID OUT Rc 3/8 5.5 AIR SUP (P1) Rc 1/4 FLUID OUT PROCESS PUMP P1 2 90 74.5 FLUID I N P2 44.5 3 AIR SUP (P2) 32 Rc 1/4 100 130 FLUID IN Rc 3/8 PA5000 179 4-9 90 90 FLUID OUT Rc 1/2, 3/4 AIR SUP (P1) Rc 1/4 112 56 165 56 RESET PROCESS PUMP FLUID OUT 167 P1 132.5 FLUID I N 125.5 103.5 P2 58.5 48.5 202 114 3.5 3 AIR SUP (P2) FLUID IN Rc 1/2, 3/4 Rc 1/4 10
Type PA3000 115 68 85 105 4-7 7.5 FLUID OUT Rc 3/8 5.5 AIR SUP (P1) Rc 1/4 FLUID OUT PROCESS PUMP P1 2 90 74.5 FLUID I N P2 44.5 3 AIR SUP (P2) 32 Rc 1/4 100 130 FLUID IN Rc 3/8 PA5000 179 4-9 90 90 FLUID OUT Rc 1/2, 3/4 AIR SUP (P1) Rc 1/4 112 56 165 56 RESET PROCESS PUMP FLUID OUT 167 P1 132.5 FLUID I N 125.5 103.5 P2 58.5 48.5 202 114 3.5 3 AIR SUP (P2) FLUID IN Rc 1/2, 3/4 Rc 1/4 10
Type) Dimensions: Air Operated Type PA3000 115 68 85 VC VDW 105 4-7 7.5 VQ FLUID OUT Rc 3/8 5.5 VX2 AIR SUP(P1) Rc 1/4 VX 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 FLUID OUT PROCESS PUMP VX3 P1 2 VXA 90 74.5 FLUID I N VN P2 44.5 3 32 Rc 1/4 AIR SUP(P2) LVC
) 12 (P1) 10 (P2) PB Power consumption DC Holding Inrush Apparent power AC Air operated 2 (B) 1 (A) 2 (B) 1 (A) 2 (B) 1 (A) 10 (P2) Manual override VNA11 VNA12 12 (P1) 12 (P1) External pilot solenoid 1 (A) 2 (B) 2 (B) 1 (A) 17-4-7 4 Series VNA Port size 6A, 8A, 10A Applicable cable O.D. 6 to 8 (D.T) 125 (Conduit terminal: T DIN terminal: D) 108.2 (Grommet terminal: E) 106.7 (Grommet: G) 63
UPDOWN PRG STEP P1 " 1000.0 " " " 1 READ " " P1 " UP DOWN P1 P2 P3 P4 P5 P6 P7 P8 48 11-2 11-2-1 PROGRAM STEP 0 End PRG 1 UPDOWN No.
(P1 P2) : Upstream pressure (MPa) : Downstream pressure (MPa) : Effective area (mm) : Cv factor Q P P1 P2 S Cv 9
(P1 P2) : Upstream pressure (MPa) : Downstream pressure (MPa) : Effective area (mm) : Cv factor Q P P1 P2 S Cv 9 10 Series VCW Safety Instructions These safety instructions are intended to prevent a hazardous situation and/or equipment damage.
SY3000-55-1B SY5000-55-1B SY7000-55-1B Applicable series 10-SY3000 10-SY5000 10-SY7000 10-SY3000 10-SY5000 10-SY7000 One-touch fitting (Inch size) One-touch fitting (Inch size) Port size One-touch fitting for 5 / 16" One-touch fitting for 3 / 8" One-touch fitting for 3 / 8" Assembly part No.
tubing 6/4 Y C Q V BB W K H IN OUT IN OUT Z P2 (Pressure gauge port size) Pressure gauge (Option) 2 x P1 (Port size) Plate thickness 10-/21-AW30K-B: Max. 3.5 10-/21-AW40K-B: Max. 5 B Hexagon width across flats 17 Clearance for maintenance G 1/4 Drain E CC A AW60K-B 1021S N T D J J M U Applicable tubing 6/4 R C Q BB K H IN OUT P2 Pressure gauge (Option) 2 x P1 (Port size) (Pressure gauge
Pmax Vacuum pressure P1 Qmax Q1 How to Read the Time to Reach Vacuum Suction flow rate The graph indicates the time required to reach a vacuum pressure determined by adsorption conditions for workpieces, etc., starting from atmospheric pressure in a 1 L sealed tank.
)No LinkNo Activity BUS IN (P1) LinkNo Activity BUS IN (P1) Link Activity L/A2 BUS OUT (P2)No LinkNo Activity BUS OUT (P2) LinkNo Activity BUS OUT (P2) Link Activity 7.2 LED LED LED PWR ALM MS NS EtherNet/IP EEPROM : LED EEPROM (PWR()) * () -30- 8 8.1 No.
Dimensions . 46 47 48 50 52 52 53 54 54 55 55 56 57 58 60 60 60 61 62 63 65 65 65 66 66 67 67 68 69 69 70 70 71 72 73 75 75 75 77 77 78 78 78 79 80 82 84 84 84 85 86 87 87 88 89 90 Series AS * 2 * 0-D Speed Controller Adjustable by Flat Head Screwdriver: Standard Type Elbow Type \(Metal Body\) . Specifications. How to Order . Construction. Dimensions .