ALB900 Flange JIS B 2 3 inch Mounting orientation is upward. To booster lube From booster lube To booster lube From booster lube A B 63 63 80 85 90 100 C Port size Rc INA-11-402 INA-11-403 INA-11-404 INA-11-405 INA-11-406 INA-11-407 Model 1 4 3 8 15 15 15 20 22 22 141 164.5 170 180 230 251 , , 1 4 3 8 1 2 B C D E F Port size Rc Part no.
pilot port) 44 62 9 9 91 44 62 Station number 50.5 59 2-Rc 1/8 (External pilot port) R4.5 R4.5 50.5 9 9 U side entry (LU) U side D side D side U side n 15 X X n X 12 12 12 12 8 B 2 A 4 B 2 A 4 8 Manual override 7 B 2 A 4 SMC SMC SMC SMC SMC SMC SMC B 2 A 4 7 A B A B A B A B A B A A A B A B A B A B A B A A SMC SMC SMC SMC SMC SMC SMC B B B A A A A A A A B A B 2 A 4 6 B 2 A 4 6 B B A A A A
Set pressure range [MPa] 0.1 to 1.7 Ambient and fluid temperature [C] 5 to 60 (with no freezing) Applicable Model Applicable Model Model AR25-B AR30-B AR40-B AR40-06-B AR50-B AR60-B Model AR20-B AR25-B AR30-B AR40-B AR40-06-B AR50-B AR60-B Port size 1/4, 3/8 1/4, 3/8 1/4, 3/8, 1/2 3/4 3/4, 1 1 Port size 1/8, 1/4 1/4, 3/8 1/4, 3/8 1/4, 3/8, 1/2 3/4 3/4, 1 1 r BG AR B B X430 30 03 BG q 30 AR
A B 2-P C L L C A B A B LVA10 2-F B B K LVA60 LVA20 With flow rate adjustment With indicator (Max.
L3 (1) Model Port size Max. 1 4 1 2 120 150 AS800 AS900 74 93 204 262 192 250 80 94 1 1 , 2 Note 1) L3: Reference dimensions Note 1) L3: Reference dimensions 531 Speed Controller: Standard Type In-line Push Locking Type Series AS RoHS Model/Specifications Lock speed setting, with the touch of a button It can be locked only by pushing the handle after adjustment.
4 O-ring Body B NBR Stainless steel 303 r !5 O-ring Body B NBR Stainless steel 303 t !6 Needle O-ring NBR Stainless steel 303 y !7 O-ring Seat ring NBR Stainless steel 303 u !8 O-ring Needle guide NBR Stainless steel 303 i !9 Gasket Lock nut M5 type only NBR, Steel Stainless steel 303 o @0 Lock nut Spacer PBT Note) Stainless steel 303 !
hole F Applicable screw M5 hexagon socket head cap screw M6 hexagon socket head cap screw M8 hexagon socket head cap screw Model AMP220 AMP320 AMP420 E OUT Maintenance space (mm) C B Bracket related dimensions Element service indicator related dimensions Port size (nominal size B) Model A D E I 66 80 90 J K L M N O P Q R S F 80 120 180 G 123 169 237 H AMP220 AMP320 AMP420 76 90 106 76 90
2 1 2 3 1 2 1 2 A B C A B A B A B LVA B B B B LVH LVD LVQ Note) For each body class, the second and later numbers or symbols indicate reducing.
150 0400 N 0200 R XC10 CA2 Auto switch Stroke B Dual operation Double rod Mounting Bore size CS1 Stroke A C76 Cushion Both ends N W/o cushions H Head end R Rod end Dimensions C85 C95 CP95 P + stroke A 4-EE (NPTF) P + stroke B 4-DD NCM D across flats D across flats NCA D-X Stroke A Stroke B SN + Stroke (A + B) 4-NT Depth ND 20LD + Stroke (A + B) Data ZZ + Stroke (A + B) Bore size (in) MM
Auto switch capable How to Order NC D A1 B 150 0400 + 0200 H XC11 R Mounting Bore size Auto switch Stroke B-A Dual operationSingle rod Stroke A Cushion Both ends N W/o cushions H Head end R Rod end Dimensions PA + Stroke B PB + Stroke A 4-EE (NPTF) 4-DD D across flats Stroke A Stroke B 4-NT Depth ND SN + Stroke A + Stroke B LF + Stroke A + Stroke B ZB + Stroke A + Stroke B Bore size (in)
LEFT RIGHT 35.5 A : B : C : D : t : 10 sec or more required 80 4 56 DOWN 2.5 sec or more required SEL.
Manual override (Non-locking) Bracket B (Standard accessory) (Mounting hole) Bracket B (Standard accessory) (Mounting hole) Supply valve Release valve Release valve Supply valve N.O.
Recommended Parameter Values [LEF] LEFS25 LEFS32 LEFS40 Lead symbol H A B H A B H A B Series Lead 20 12 6 24 16 8 30 20 10 Parameter *1,*2 Para. Initial value Recommended value No.
1 IO-Link master Number of ports and connector Symbol Number of ports Connector Port specifications B 4 ports M12 connector Symbol Content A Port Class A B Port Class B Summary of Product parts EX600-L#B1 No.
1 ) 0 . 1 ( 1 2 . 2 ) 5 1 . 1 ( 4 5 . 2 ) 5 8 . 1 ( 8 0 . 4 ) 9 . 1 ( 9 1 . 4 ) d r a d n a t s ( d r a u g l w o B t e k c a r B P 4 4 B P 1 4 4 B P 1 5 4 B P 2 5 4 B P 6 4 B F 8 6 e r u t a r e p m e T , 2 3 G V 1 # l i o e n i b r u t e s u , n i m / s p o r d 5 e t a r p i r d l i o g i s p 3 7 f o e r u s s e r p y l p p u s h t i W * s e i r e S T L A N k n a T d e e F o t u A l
Next, measure this flow rate at 80%, 60%, 40%, 20% and the upstream and downstream pressure. And then, obtain the sonic conductance C from this maximum flow rate. Besides that, substitute each data of others for the formula of subsonic flow in order to find b, then obtain the critical pressure ratio b from that average.