Vacuum (Nr'min): o L o [ r 1 l Lr e_l r Q,Q , = Q r = S x 11.1 (N/min) o, mean suction flow of a an ejector (Ny'min) max suction flow spec for the ejector from the catalog (Nr'min), Vacuum Eiector System Circuit flow capacity tor the piping system (Nd/ min), Q, S the etfective cross-sectional area of tubing based on inside diameter and total lenoth (mm,). See graph below.
(Nr'min): o L o [ r 1 l Lr e_l r Q,Q , = Q r = S x 11.1 (N/min) o, mean suction flow of a an ejector (Ny'min max suction flow spec for the ejector from the catalog (Nr'min), Vacuum Eiector System Circuit flow capacity tor the piping system (Nd/ min), Q, S the etfective cross-sectional area of tubing based on inside diameter and total lenoth (mm,). See graph below.
1 q t i PF2D540 o !0 u !0 !2ywr e !
Q) ~ 0.3 1 '"' l' Q. Q) Q. Cautions on Use o ~ ~ 0 0.2 I:". When the primary pressure has been released, the residual pressure (secondary pressure) cannot be removed. If removal of residual pressure is needed, please contact SMC. ---... 0.1 O.l SiHI---t-t---t--t--t--+--t,., . 7 . r" " 1 I':.
Refer to POINT of section 3.6.1 for logic of MELSEC iQ-R series/MELSEC-Q series/MELSEC-L series/MELSEC-F series.
Stations 3 2 1 D D D D How to Order Valve 10-SV 1 1 0 0 F 5 Note) q w r e t y u i Air Preparation Equipment Pressure Control Equipment Flow Control Equipment Pressure Switches/ Pressure Sensors q Series r Back pressure check valve Note) Available with manifold block for station additions.
The display of the accumulated flow will be reset to zero. q r q w LCD display/Orange Displays the measured flow rate, each setting condition, and error code. e Output (OUT1) display/Orange Displays the output condition of OUT1. Illuminates when turned ON. i Displays the selected unit.
1/8 FGX-OM-L011 SMC FGG FGG 20A P23 P4 P5 P5 P5 P67 2/8 FGX-OM-L011 FGG Series/ (P) 0.02MPa V V () O O 1 (O ) ) 3/8 FGX-OM-L011 FGG Series/ IN/OUT 0.1MPa M12 , INLETOUTLET 67 O V O 40 4/8 FGX-OM-L011 1 1/8 Rc2 Rp1/4 Rp1/4 INLET DRAIN Rp3/4 OUTLET Rc2 1 AG-10S SUS304 JIS B2401-1A-P11 NBR O JIS B2401-4D-P11 FKM M101.5 11 SUS304 M10 SUS304 SUS304 AN-3S SUS316WPA
DC+ 1 Brown q N.C. 2 Not used w DC 3 Blue e IN: 1 to 5 V 4 White r Power supply/Output connector (8P) Power supply/Output connector (accessory) i u y t r e w q Pin No. Pin no. Terminal 7 Green CH4_OUT1 8 Yellow N.C.
1 A Q a q 0 0 1 0 2 STX DC2 2 B R b r 0 0 1 1 3 ETX DC3 # 3 C S c s 0 1 0 0 4 $ 4 D T d t 0 1 0 1 5 5 E U e u 0 1 1 0 6 & 6 F V f v 0 1 1 1 7 7 G W g w 1 0 0 0 8 ( 8 H X h x 1 0 0 1 9 ) 9 I Y i y 1 0 1 0 10 : J Z j z 1 0 1 1 11 ; K [ k { 1 1 0 0 12 , L l | 1 1 0 1 13 M ] m } 1 1 1 0 14 . N ^ n 1 1 1 1 15 / ?
SLD FG FG SLD (1) (1) DG DB DA (2)CC-Link Ver.1.10 2CC-Link Ver.1.10 1. 2. (4) (4) CC-Link(CN1) (a) (b) 10mm 10mm 3 (c) (d) CC-Link ( 10 mm ) ( 10 mm ) 3 5 3CC-Link (e) ( 0.30.4Nm) CC-Link CN1 CC-Link(CN1) 0.40.6mm 2.53.5mm 0.40.6mm 2.53.5mm , , / N6L TDK B-30 H3.5 X 73L Shiro Industry Co. 3 6 3CC-Link 3.2.3 0164 (1) (a) 164 (b) 112( 1) (c) 42 {(1a)(2)(3c)(4d
t0 I Recommended Circuits I q+"'"' A,.r rr.nv . . . 1 1 I I I Construction/Parts List .12 l J l / 18-20 I nuto Switch Specif ications . .21 I nuto Switch Circuit Diagrams. .22 I Ruto Switch Dimensions/Operating Range .23 I Ruto Switch Connection . .24 I Ruto Switch MountinS. . .25 r"-"--'-""' I Annaccnriac I Pranar riinne .26 r "-"-" tri*,t l x}$x:? xxxs !
or more since balance pressule set by regulator q) is to become releasing pressure. Both Sol A and Sol B can accept directoperated type or pilot operated type. Diagram 2. veriical upward mounting (Uae Spring look-uP) g Y ; As compared with Diagram 3, this circuit employs s-port valve instead ot Sol A laving the othe( unchanged.
O-
Bore size (mm) Hard anodized Aluminum alloy CUJB4-PS 4 q Cylinder tube Electroless nickel plated Copper alloy Set of nos. above !1, !2, !3 and an exclusive grease pack.
Inlet air temperature 35C Outlet air pressure dew point 10C Ambient temperature 35C Inlet air pressure 0.5MPa Air flow 1200 l/min (ANR) Inlet air temperature 55C Outlet air pressure dew point 10C Ambient temperature 35C Inlet air pressure 0.7MPa Air flow 350 l/min (ANR) Condition Condition A = 0.75 based on conditions q, w and e 1 B = 0.95 based on conditions q, w and e 1 C = 1.00 based on
2250Hz 2(No.PB45) ()150ms (1) 2 t t 2 2 2 2 7 17 7 (2) No.PB4522 [Hz] PB45 No.PB45 0 2 2 [Hz] [Hz] [Hz] 0 1 2 3 4 5 6 7 8 9 A B C D E F 40.0dB 24.1dB 18.1dB 14.5dB 12.0dB 10.1dB 00 01 02 03 2250 1125 20 21 22 23 24 25 26 27 28 29 2A 2B 2C 2D 2E 2F 30 31 32 33 34 35 36 37 38 39 3A 3B 3C 3D 3E 3F 70 66 62 59 56 53 51 48 46 45 43 41 40 38 37 36 40 41 42 43 44 45 46 47 48 49 4A 4B 4C 4D
M 109 6D m 14 0E SO 46 2E . 78 4E N 110 6E n 15 0F SI 47 2F / 79 4F O 111 6F o 16 10 DLE 48 30 0 80 50 P 112 70 p 17 11 DC1 49 31 1 81 51 Q 113 71 q 18 12 DC2 50 32 2 82 52 R 114 72 r 19 13 DC3 51 33 3 83 53 S 115 73 s 20 14 DC4 52 34 4 84 54 T 116 74 t 21 15 NAK 53 35 5 85 55 U 117 75 u 22 16 SYN 54 36 6 86 56 V 118 76 v 23 17 ETB 55 37 7 87 57 W 119 77 w 24 18 CAN 56 38 8 88 58 X 120 78
M 109 6D m 14 0E SO 46 2E . 78 4E N 110 6E n 15 0F SI 47 2F / 79 4F O 111 6F o 16 10 DLE 48 30 0 80 50 P 112 70 p 17 11 DC1 49 31 1 81 51 Q 113 71 q 18 12 DC2 50 32 2 82 52 R 114 72 r 19 13 DC3 51 33 3 83 53 S 115 73 s 20 14 DC4 52 34 4 84 54 T 116 74 t 21 15 NAK 53 35 5 85 55 U 117 75 u 22 16 SYN 54 36 6 86 56 V 118 76 v 23 17 ETB 55 37 7 87 57 W 119 77 w 24 18 CAN 56 38 8 88 58 X 120 78
Condition Condition Inlet air temperature 35 C Outlet air pressure dew point 10 C Ambient temperature 35 C Inlet air pressure 0.5MPa Air flow 1200 l/min (ANR) Inlet air temperature 55 C Outlet air pressure dew point 10 C Ambient temperature 35 C Inlet air pressure 0.7MPa Air flow 350 l/min (ANR) A = 0.75 based on conditions q, w and e 1 B = 0.95 based on conditions q, w and e 1 C = 1.00 based