Manifold Type: 41P (Base Mounted), Valve Stations: 8 Stations, A, B Port: N3T (5/32" One-touch Fitting)
Manifold Type: 42P (Base Mounted), Valve Stations: 6 Stations, A, B Port: N3T (5/32" One-touch Fitting)
Manifold Type: 42P (Base Mounted), Valve Stations: 11 Stations, A, B Port: N3T (5/32" One-touch Fitting)
Manifold Type: 41P (Base Mounted), Valve Stations: 5 Stations, A, B Port: N3T (5/32" One-touch Fitting)
Manifold Type: 41 (Base Mounted), Valve Stations: 20 Stations, A, B Port: N3T (5/32" One-touch Fitting NPTF)
Manifold Type: 42P (Base Mounted), Valve Stations: 5 Stations, A, B Port: N3T (5/32" One-touch Fitting)
Manifold Type: 42P (Base Mounted), Valve Stations: 12 Stations, A, B Port: N3T (5/32" One-touch Fitting)
Manifold Type: 42P (Base Mounted), Valve Stations: 7 Stations, A, B Port: N3T (5/32" One-touch Fitting)
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
Part Number Description: ADAPTOR 1/8NPT TO 10-32 Product Line: V Product Line Description: VALVE Family Code: 364 Family Description: SS5YJ3 MFLD SYJ3000 Class Code: 11 Part Code: 2 Reference Code: J Click here to report information errorImage shown may not match exact part number
Part Number Description: ELBOW 1/8NPT TO 10-32 Product Line: V Product Line Description: VALVE Family Code: 364 Family Description: SS5YJ3 MFLD SYJ3000 Class Code: 11 Part Code: 2 Reference Code: J Click here to report information errorImage shown may not match exact part number
Part Number Description: FITTING 10-32 BARB Product Line: V Product Line Description: VALVE Family Code: 364 Family Description: SS5YJ3 MFLD SYJ3000 Class Code: 11 Part Code: 2 Reference Code: J Click here to report information errorImage shown may not match exact part number
PSxx-OMS0006CN -A1 3X8L (2 ) B ZS-46-A2 3X8L (2 ) ZS-46-B + ZS-46-D ZS-46-3L 3 2m ZS-27-01 R1/8 ZS-46-N1 NPT1/8 ZS-46-N2 4mm ZS-46-C4H 6mm ZS-46-C6H 1/4 inch ZS-46-N7H 4mm ZS-46-C4L 6mm ZS-46-C6L 1/4 inch ZS-46-N7L -9No.PS-OMS0006CN-G LCD LCD 4 ON/OFF ON/OFF (kPaMPa) -10No.PS-OMS0006CN-G digit() 1 digit=1 kPa 1,2,3,,99,100 1 kPa -0.100 1.000[MPa]F.S.=1.000(-0.100)=1.100[MPa] (1F.S.=1.1000.01
Proximity switch (optional) depth 5 10 7.5 15 pin plug 5H9 +0.030 0 E-M5 x 0.8 thread depth10 Home position switch (optional) 6 Refer to page 100 for connection cables. 76 46 38 2-M2.5 x 0.45 thread depth 4 5H9 +0.030 0 10 3 depth5 J 27 J x K 25 8 Motor unit Refer to "Applicable Motor List" below for dimensions. (This drawing shows a Tamagawa Seiki, Co., Ltd. motor.)
Panel mount adapter ZS-46-B Panel mount adapter + Front protection cover ZS-46-D Lead wire with connector ZS-46-3L 3-core, 2 m, Non-waterproof (Without waterproof cover) Front protection cover ZS-27-01 D Panel mount adapter + Front protection cover ZS-46-D R1/8 piping adapter ZS-46-N1 NPT1/8 piping adapter ZS-46-N2 7
IDX-OM-W035-B / Series IDFB22E-11 IDFB22E-11 K,R,S,T,V IDFB22E-23 IDFB22E-23 K,R,T,V IDFB37E-23 IDFB37E-23 K,R,T,V IDFB55E-46 IDFB55E-46 L,R,T,V IDFB75E-46 IDFB75E-46 L,R,T,V URLhttps://www.smcworld.com/ English instruction manual can be downloaded from our URLhttps://www.smcworld.com/ SMC () * 1 ) JIS B8370 * 2 ) ISO4414 *1) ISO4414Pneumatic fluid power General rules and safety requirements
46 x n + 29 L2 = 46 x n + 14 10 489 474 9 443 428 8 397 382 7 351 336 6 305 290 5 259 244 4 213 198 3 167 152 2 121 106 L L1 L2 S070 With mounting adaptor: VV317-02-1-02-A VQ 4-7 mounting hole P = 46 VKF VQZ VZ Manual override (Non-locking) VS DIN terminal facing upward 141.6 VFN Applicable cable O.D. 6 to 12 L Dimension n: Stations Stations Formula L1 = 46 x n + 89 L2 = 46 x n + 59 2 181
Drop straight down to the p2 horizontal axis and note that p2 is approximately 46 psia. This confirms that a pressure drop ot (approximatelyl 46% produces maximum flow. There can be a greater drop in pressure but tlow wlll not Increase. Obsorve that use of Fig. 3.10 requites a known pressure drop.
Drop straight down to the p2 horizontal axis and note that p2 is approximately 46 psia. This confirms that a pressure drop ot (approximatelyl 46% produces maximum flow. There can be a greater drop in pressure but tlow wlll not Increase. Obsorve that use of Fig. 3.10 requites a known pressure drop.