VHK C D E F G J K 2(A) 1(P) 1 8 1 4 3 8 1 2 1 8 1 4 3 8 1 2 VHK-B1A 44.5 14.5 1 27 22 16.5 26 VHK-B1A 44.5 14.5 1 27 22 16.5 26 VHK-B2A 49 17 1 30 25 21.5 31 VHK-B2A 49 17 1 30 25 21.5 31 VHKlR-01S-01S 13 13 17 19 22 VHKlR-02S-02S 17 VHKlR-03S-03S 19 3.6-5 VHKlR-04S-04S 22
Note 3) K (High pressure) and Y (Low wattage) are not available. Electrical entry: L/M plug connector only. With (1) Without (1) Coil voltage 100V AC (50/60Hz) 200V AC (50/60Hz) 110V AC (50/60Hz) 220V AC (50/60Hz) 24V DC 12V DC Others (1) With With (Without light) 1 (1) 2 Note 1) DIN is applicable to VQZ 200 and 300.
Note 2) K(High pressure style) and Y(Low wattage style) are not available. L Latcing double Wiring Electrical Circuit VQ Lead wires are connected to the valve as shown below. Connect them with the power supply.
Symbol Specification DC (1.0W) AC With light and surge voltage suppressor. (3) Standard (1) High pressure (Metal seal only) (1.0W) K (0.5W) Y Low wattage (2) R External pilot Note 1) Option Note 2) Refer to p.2.10-38 for details about external pilot specification. Note 3) Refer to p.2.10-26 for power consumption of AC type.
L Long leads uountng B Front Nose Mount C -Rear Pivot E -Double End K -Non-Rotating Rod R -Block Mount W-Double Rod Auto.Switch 853. D-853 Gsg D-G59 B54. D-854 K59 D-K59 864 .
These vortexes are stable under certain conditions, and their frequency is proportional to the flow velocity, resulting the following formula. f = k x v f: Frequency of vortex v: Flow velocity k: Proportional constant (determined by the vortex generator's dimensions and shape). Therefore, the flow rate can be measured by detecting this frequency.
Load Load Load Load Load 1.2 k N.C. 7.3 k Auto shift input (Yellow) DC (+) Sensor input: +1 to 5 VDC DC () CH1_OUT1 (Black) Pressure is applied to a pressure sensor during the reset operation (a zero point adjustment) as follows: When compound pressure is used: 2.5% F.S. or more. When pressure other than compound pressure is used: 5% F.S. or more.
MM KK A B D E F GA GB K L 075 (3/4") 0.250 1/4-28 0.50 0.624 0.86 0.38 0.250 0.75 0.34 106 (1 1/16") 0.312 5/16-24 0.50 0.624 0.25 1.12 0.38 0.250 0.75 0.12 0.34 150 (1 1/2") 0.437 7/16-20 0.75 0.749 0.38 1.56 0.62 0.375 1.00 0.25 0.50 200 (2") 0.625 1/2-20 0.88 1.374 0.50 2.06 0.75 0.38 0.56 Note) The clevis pin for NCMC200 is not included.
MXH Order Made Rod Boot Materials Standard Stroke Made to Order Specifications Max. ambient temp Symbol J K Materials MXS Bore (mm) Refer to p.5.4-1 for made to order specifications of series CBA1.
C D E F G J K VHK R-01S-01S 13 1 8 1 4 3 8 1 2 1 8 1 4 3 8 1 2 13 17 19 22 VHK R-02S-02S 17 VHK R-03S-03S 19 VHK R-04S-04S 22 5-8-5
Example) AW30-03C-2R-X2622A y t r e w q Stainless steel 316 specification Symbol Description K q Body size 30 40 IP K w Thread type Nil Rc N NPT F G + IW 02 1/4 03 3/8 04 1/2 06 3/4 + 1301 K e Port size AW AW IL1 K r Option i a Float type auto drain Nil Without option C Note 1) Float type auto drain (N.C.
Load voltage at OFF = Leakage current x 2 pcs. x Load impedance = 1 mA x 2 pcs. x 3 k = 6 V Example: Load impedance is 3 k. Leakage current from auto switch is 1 mA. = 24 V 4 V x 2 pcs. = 16 V Example: Power supply is 24 VDC.
Load Switch 1 Load Switch 1 Blue Blue Brown Brown Switch 2 Switch 2 Blue Blue Load voltage at OFF = Leakage current x 2 pcs. x Load impedance = 1 mA x 2 pcs. x 3 k = 6 V Example: Load impedance is 3 k. Leakage current from switch is 1 mA. Power supply Residual Load voltage at ON = voltage voltage x 2 pcs. = 24 V 4 V x 2 pcs. = 16 V Example: Power supply is 24 VDC.
(example: If the flow switch with output impedance of 1 k is connected to the A/D converter to detect the analogue output of 5 V, the detected voltage by the A/D converter becomes 5(V) x1(M)/(1(k) + 1(M)) 4.995(V), and there is an error of approximate 0.005 V).
Q Cv = (7) P (P2 + Pa) 114.5 T1 P : Pressure drop between the static pressure tapping ports [bar] P1 : Pressure of the upstream tapping port [bar gauge] P2 : Pressure of the downstream tapping port [bar gauge]:P2 = P1 P Q : Flow rate [dm3/s standard condition] Pa : Atmospheric pressure [bar absolute] T1 : Test conditions of the upstream absolute temperature [K] is < P1 + Pa = 6.5 0.2
As this product is a 2-wire type, TXD and RXD are written together as "SD" 4.3 Communication Circuit Exterior Controller's interior 5 [V] RS-485 Driver 47 [k] CN3 680[] SD+ SD680[] GND 47 [k] Note 1) There is no terminating resistor built into the controller communication circuit. 9 - 4.4 Wiring Examples A wiring example of one controller connected to an upper level device is shown below.
Auto drain Parts Product number Product name QTY IDF-S0002 Auto drain strainer 1 C42FP-260S Bowl packing 1 10-2 Specifications 102 IDFA6E-20 Air Dryer 11 Specification for Option K Specification for Option K 11 11-1 Safety instructions When handling the product, take care to the following precautions. Warning Do not remove the auto drain with the air pressure remaining internally.
When the IDFA100F-40 is provided with options C, R and V the part number will be IDFA100F-40-CRV. 100 F 40 NIL IDFA C K Size R Air compressor size Note) 100kW 125kW 150kW Note) The value is referential. Confirm the capability of the compressor used.
) LCD 4 ON/OFF ON/OFF (kPaMPa) -10No.PS-OML0002CN-G 2 ON/OFF 2 7 "8"7 "-"()7 digit() 1digit=1 kPa 1,2,3,,99,100 1 kPa 1 5[V]F.S.=514[V] 1F.S.40.010.04[V] F.S. () NPN()() NPN PNP()() PNP R.D. 1.000 5R.D.1.000 50.05 0.800 5R.D.0.800 50.04 ON OFF (29 ) ON OFF Hysteresis ON-OFF /, () () 25[]ON-OFF (copy function) () NPN () () ()()( ) () -11No.PS-OML0002CN-G ON ON 0 (1 k
Output impedance approx. 1 k OUT2 Output current (rated pressure range) 4 to 20 mA 2.5%F.S. Current output 3 Linearity 1.5%F.S. 1%F.S.