PFxx-OMO0004CN IN(70) IN OUT IN OUT 8cm () Rc1/4NPT1/4 1214 Nm Rc1/4NPT1/4 17 mm G1/4 21 mm -19No.PF-OMO0004CN-E -20No.PF-OMO0004CN-E FG 1 DC(+) 2 OUT2// 3 OUT1 4 DC(-) -21No.PF-OMO0004CN-E NPN(2 ) PFMB7--ADC(+) OUT1 OUT2 DC(-) 28V 80 mA 1 V NPN(1 )(15 V) PFMB7--CNPN(1 )(420 mA) PFMB7--DDC(+) OUT1 DC(-) 28V 80 mA 1 V C15 V 1 k D420 mA 600 NPN(1 ) PFMB7--GDC(+) OUT1 DC(-) 28V 80 mA 1 V 0.4V ()
I Bracket (Mounting hole) K Warning: WARNING indicates a hazard with a medium level of risk which, if not avoided, could result in death or serious injury.
to 20 mA) Load impedance Impedance Output impedance Power supply voltage 12 V: 300 Power supply voltage 24 V: 600 Analogue output approx. 1 k Accuracy 5%F.S. max.
69420 mA 12 V300 24 V600 Max.30 V80 mA 1 V 2815 V 1 k 29420 mA 12 V300 24 V600 -40No.PF-OMO0007CN PF2A7--28--X560 PF2A7--68--X560 PF2A7--29--X560 PF2A7--69--X560 (15 V) (420 mA) 12 V 300 24 V 600 1 k 5F.S. 1 s A B 1 V 5 V 4 mA 20 mA 1 NL/min 10 NL/min PF2A710 3.5 CFM10 -2 35.0 CFM10 -2 5 NL/min 50 NL/min PF2A750 18 CFM10 -2 176 CFM10 -2 10 NL/min 100 NL/min PF2A711 3.5 CFM10
NPN (1 output) + Analogue (1 to 5 V) type PF2A7H--28NPN (1 output) + Analogue (4 to 20 mA) type PF2A7H--29Max. 30 V, 80 mA Internal voltage drop: 1 V or less 28: Analogue output: 1 to 5 V Output impedance: 1 k 29: Analogue output: 4 to 20 mA Max.
Internal voltage drop (Integrated display type) -21No.PF-OMW0004-B Terms Meaning K When an object is placed in a fluid stream, a vortex will be created in the fluid on the downstream side. This vortex is called a Karman vortex.
Analogue output 1 to 5 V Output impedance 1 K Max.28 V, 80 mA Internal voltage drop 1 V max.
OMY0008 NG IN 5 (5D)(68 ) 20 No.LFE*-OMY0008 FG 3 1 DC() 4 2 2 OUT2 3 DC() 1 4 OUT1 3 4 2 1 DC() 2 OUT2 3 DC() 1 4 OUT1 LFE M12 21 No.LFE*-OMY0008 NPN2 LFEA PNP2 LFEB DC() OUT1 OUT2 DC() OUT1 DC24V DC24V DC() DC() Max.28 V80 mA 1 V Max.80 mA 1.5 V NPN LFEC NPN LFED DC() OUT1 OUT2 DC() OUT1 OUT2 DC24V DC24V DC() DC() Max.28 V80 mA 1 V 420 mA 600 Max.28 V80 mA 1 V 15 V 1 k
M38 L(2))ZS-27-D ZS-27-01 -9No.IZ*-OMU0031 M3X5 L(2) 0.50.7 Nm M3X5L (ZS-28-B) M3X5L M3X8 L(2 ) M3X8L ( ZS-27-01) (ZS-27-C) 90 2 -10No.IZ*-OMU0031 ,FG 20mm () SMC 3M ZS-28-C 37104-3101-000FL 1-1473562-4 A 1 (DC+) 2 3 (DC-) 4 (IN15 V) A A (FG) -11No.IZ*-OMU0031 DC(+) 5 OUT1 4 OUT2 3 2 DC(-) 1 -12No.IZ*-OMU0031 ()(ZS-28-A) IZE110 DC(+) () NPN2 Max.30 V80 mA 1 V 15 V 1 k
Replacement parts PAB-OM-C006-B P2 FLUID IN FLUID OUT P1 IN FLUID PT F E diaphragm set K T PA 3 3 1 S w itching valve assembly set K T PA 3 3 6 FLUID OUT P2 P1 4 . Maintenance 3 . How to use C aution Quality of supply air Place filter w ith filtration 5 m.
Replacement parts PAB-OM-C007-B P2 FLUID FLUID OUT IN P1 PT F E diaphragm set K T PA 5 3 1 S w itching valve assembly set K T PA 5 3 6 FLUID IN FLUID OUT P2 P1 4 . Maintenance 3 . How to use E xternal leakage of transported fluid F luid might leak externally due to life of diaphragm, and this could result in human injury or equipment damage. T ake measures against leakage.
HRS Series 3.5Circulating Fluid Supply 3-35 HRX-OM-S004 Chapter 3 Transport and Setting Up 3.5.3 For option K Fluid-fill port Confirm that the fluid level is between HIGH and LOW levels of the fluid level gauge. If it exceeds the specified level, the circulating fluid will overflow.
Dimensions E C D E E L (Width across flats) M (Width across flats) M8 (KF Flange) (K Flange) Fn Fd C Detail of (a) (a) M Rc1/8 J H K B A G A Model A B C D E Fn Fd XLGR-80*-1* 90 250 117 45.5 38.5 114 110 XLGR-100*-1* 108 270.5 154 55 38.5 130 102 XLGR-160*-1* 138 339 200 65 38.5 180 153 Model G H J K L M XLGR-80*-1* 83 105 44 9 13 4 XLGR-100*-1* 102 92 58 9 13 4 XLGR-160*-1* 153 124 62 12.5
(1) (2) (3) (4) (5) (6) OUT1 (1)OUT1OUT2 (2)+(3) (4)/ () (5)IP8000(2) (6)IP8100(3) 15 7-1 5 O K O O K K (1) 0% (4mAD (1) 0% (4mAD C) C) (2) 100%(20 (2) 100%(2 mADC) 0mADC) (3) 0%(1) (3) 0%(1) (4) (4) 16 7-2 / () mADC 17 18 18OUT1OUT2A 1718 ( 1/16-1 ) 11-1(/) 7-3 A 1M1/8OUT117 1/8 1/81/4 2A(17) SUPOUT1 A 17 8.
.=514[V] (1F.S.40.010.04[V]) F.S. ( 25[]ON-OFF (1K 1M A/D 5V A/D 5(V)1(M)/(1(k)+1(M))4.995(V)0.005V ) ripple -8No.PS-OMG0005CN-E 20 mm A PSE56 PSE56-28 1 (DC+) (LINE(+)) 2 3 (DC-) 4 (IN15 V) (LINE(-)) A A PSE200/PSE300 (ZS-28-C) 3M 37104-3101-000FL 1473562-4 XN2A-1430 PSE200 PSE300 -9No.PS-OMG0005CN-E DC+ OUT PSE5615V 1 k DCLINE+ PSE56--28 420 mA 500 (24 V ) 100 (12 V ) LINELINE
( ) f. g.( ) h. i. j. k. l. 4. 4. 4. 4. 5. 5. 5. 5. 6. 6. 6. 6. 7. 7. 7. 7. 2. 2. 2. 2. 8. 8. 8. 8. ,, 1. 1. 1. 1. 9. 9. 9. 9. 2. 2. 2. 2. - 10. 11. ( )70% ( )35% 1. 1. 1. 1. 1. 1. 1. 1. 2. 2. 2. 2. 3 1. 1. 1. 1. 0.10.8MPa 0.30.5MPa :560 3. 3. 3. 3. ( ( ( ( ) ) ) ) 2. 2. 2. 2. 35% ) 1. 1. 1. 1. 5 2. 2. 2. 2. - 1. 1. 1. 1. 1. 1. 1. 1. ( ( ( ( 6 6 6 6 ) ) ) ) 2. 2. 2. 2. 3. 3. 3. 3. 2
When the rotational axis and load center of Rectangular parallelepiped) Position of rotational axis: Perpendicular to the plate through the center of gravity gravity are not consistent I = K + mL K: Moment of inertia around 2 the load center of gravity 2 2 b a 2 r I = m 12 4.Round plate K = m2 9. Gear transmission 4.
When the rotational axis and load center of Rectangular parallelepiped) Position of rotational axis: Perpendicular to the plate through the center of gravity gravity are not consistent L r 2 I = K + mL K: Moment of inertia around a b the load center of gravity 2 2 b a I = m 12 2 r 4.Round plate K = m2 9. Gear transmission 4.
When the rotational axis and load center of Rectangular parallelepiped) Position of rotational axis: Perpendicular to the plate through the center of gravity gravity are not consistent L 2 r I = K + mL K: Moment of inertia around a b the load center of gravity 2 2 b a + 2 r I = m 12 4.Round plate K = m2 9. Gear transmission 4.
When the rotational axis and load center of Rectangular parallelepiped) Position of rotational axis: Perpendicular to the plate through the center of gravity gravity are not consistent L r 2 I = K + mL K: Moment of inertia around a b the load center of gravity 2 2 b a I = m 12 2 r 4.Round plate K = m2 9. Gear transmission 4.