ISA2 With control unit Centralized wiring/Supply port left Individual wiring/Supply port right Centralized wiring air catch sensor ISA2-HE41P Terminal box Individual wiring air catch sensor 2 port solenoid valve 2 port solenoid valve ISA2-GE41 Regulator 3 0 3 0 3 0 3 0 3 0 3 0 Supply port Supply port P P P P P P T T T T T T U U U U U U E E E E E E L L L L L L S S S L L L S S S L L L 6 9 6 9 6
EZ VFS1320-E/EZ VFS1420-E/EZ VFS1520-E/EZ Lead wire O.D.
OUT IN OUT IN e q r r w w AR50, 60 AR30, 40 t q t q e e IN OUT IN OUT r w w r Parts list Material Color No.
AS 0 0.1 0.15 0.2 0.25 0.3 Return stroke pressure (MPa) ASP ASN v v w w a a o o l l v v l l F F e e AQ ASV u u r r e e s s v v s s a a e e l l v v r r P P e e AK ASS ASR ASF Working stroke Working stroke Return stroke Return stroke Pressure valve Flow valve 15-16-1 2 Cuts air consumption by operating the return stroke at a reduced pressure.
2 @2 @4 t e !0 CH2G Series !3 @3 r @5 !
F E E F B C Cross interface E: 4-Rc E A F: Without thread D Model Port size A B C D Applicable model Y14-M5 M5 23 16 14 25 AC10 Y24-01 1/8 40 40 22 40 AC20 Y24-02 1/4 Y34-01 1/8 49 43 28 48 AC25, AC30 Y34-02 1/4 Y44-02 1/4 60 48 36 54 AC40 Y44-03 3/8 Cautions in Mounting When mounting a cross interface directly on the IN side of the lubricator, be sure to use a series AKM check valve between
Refer to gauge guide (P.94,95). 2P 3P t r t Sample Order Number Port t AK1510S e q 4 4 4 4 w 4 4 4 4 r w w q q 2P 3P 4PL 5PC MPA MPA MPA 1 1 1 0 0 40 e e 4PL 5PC qIN wOUT eExtra bottom port (Outlet) rGauge port (Inlet) tGauge port (Outlet) Specifications AK1502 1 to 30 psig (0.007 to 0.2 MPa) AK1515 5 to 150 psig (0.034 to 1.0 MPa) Select compatible materials of construction for the gas AK1506
1 R 3 1 / 0 180 L 0 E T 2 R 3 3 / a 0 0 5 , bl 1) e e ot o N p er e g at n in ra g The figures show the origin position for each actuator.
. 25) 5.5 22 87 12 82 15 31 100 8 73.2 15 RB2015 4 57 22 74 970 Series MY1B Mechanically Jointed Rodless Cylinder Basic Type Side Support Side support A MY-SA 2 x G 2 x H F MY1B E C D A B MY1M Side support B MY-SB MY1C MY1H 2 x J MY1HT MY1W E A B C D MY2C (mm) MY2H B C D 21 E 3.6 F 1.8 G 6.5 H 3.4 J A 35 Model Applicable bore size MY1B 10 MY1B 16 MY1B 20 MY1B 25 MY1B 32 MY1B 40 MY1B 50 MY1B
M N C D 4-O T Q 2-P S U W E B K L AA A R X AB I AP Y + Stroke Z + Stroke J V 8-AF AC AD AE 100 piston rod end connection For standard strokes (mm) Bore size (mm) Stroke range (mm) AC G H AB AF AA AE AD F N M D L C K B J AP I A E 63 80 100 75, 100 125, 150 200, 250 300 15 20 depth 14.5 M16 x 2 depth 28 25 25 50 170 13.5 100 66 140 180 30 135 M12 x 1.75 depth 24 228 117 60 65 200 200 15 20
Posit io n e rr? ? or Posit io n e rr? ? or 3 La rg e friction Refere nc e sp ee d Refere nc e sp ee d Without friction compensation With friction compensation 5 5-62 5 Adjustments 5.8.3 Current Control Mode Selection Function This function reduces high-frequency noises while the servomotor is being stopped.
Determination of kinetic energy of load (E) E > Es E Es Bore size determination Tentative determination of L type W V 2 E = () 2 1000 Note 2) E > Es Determination of pressure (P) when making intermediate stop P > Ps P Ps Consider made-to-order products, depending on an operating condition. Tentative determination of L type (For intermediate stops, refer to page 1515.)
250 600mm stroke L3 m 200 200 500mm or less 150 150 600mm stroke or less 100 100 50 50 0 0 0 1 2 3 4 5 0 1 2 3 4 5 Workload[kg] Workload[kg] 300 300 250 250 Overhang direction:L4[mm] L4 m Overhang direction:L4[mm] 600mm stroke 200 200 600mm stroke or less 500mm stroke or less 150 150 100 100 50 50 0 0 0 1 2 3 4 5 0 1 2 3 4 5 Workload[kg] Workload[kg] 500 500 600mm Wall Mounting 500mm or
E Es Note 3) Bore size determination NG Determination of allowable stroke (W + WB) V 2 E = x ( ) 2 1000 E Es Note 2) OK Determination of pressure (P) when making intermediate stop Review of order made products based on operating conditions P Ps Note 1) This cylinder cannot perform an intermediate stop using an air pressure circuit in vertical operation.
O F , < F , Q r '=r, @ r,> r, Pressure Raies (P1 =Primary Pressure) (P2=Secondary Pressure) NVEP3l2O-2 NVEP314O-'r -04 Primary Pressure P1 = 45 PSIG (3 KSI/cmr) E t2 I { t r S F g t o o E 28 (r. a ( 1 ) E a E a NVEHtl4O-1 E t ^ *t 6 S (0.15) (0.s) t . 5 ( 0 1 ) F 5 (0.05) NVEE NVEP CONSTRUCTION DETAIL Flow Raie'lvpo: VEF212O (2 Pdts) NVEF:112O (3 Porb) Pressuro llrp: NVEP3I2O (3 Porb) l l
E Es Note 3) Bore size determination NG Determination of allowable stroke (W + WB) V 2 E = x ( ) 2 1000 E Es Note 2) OK Determination of pressure (P) when making intermediate stop Review of order made products based on operating conditions P Ps Note 1) This cylinder cannot perform an intermediate stop using an air pressure circuit in vertical operation.
O F , < F , Q r '=r, @ r,> r, Pressure Raies (P1 =Primary Pressure) (P2=Secondary Pressure) NVEP3l2O-2 NVEP314O-'r -04 Primary Pressure P1 = 45 PSIG (3 KSI/cmr) E t2 I { t r S F g t o o E 28 (r. a ( 1 ) E a E a NVEHtl4O-1 E t ^ *t 6 S (0.15) (0.s) t . 5 ( 0 1 ) F 5 (0.05) NVEE NVEP CONSTRUCTION DETAIL Flow Raie'lvpo: VEF212O (2 Pdts) NVEF:112O (3 Porb) Pressuro llrp: NVEP3I2O (3 Porb) l
PF3W721-U30 30 250 Analogue output (Fluid temperature) A B C D Voltage output 0.6 V 1 V 5 V 5.4 V Current output 2.4 mA 4 mA 20 mA 21.6 mA -83No.PF-OMM0005-N Dimensions PF3W704/720/740/711 Basic type Symbol Piping port size A AA B D E F G H J K L N P Model PF3W704 3/8 70 50 30 66 40.6 15.2 24 14 35 26 18 13.6 2.7 depth 14 PF3W720 3/8, 1/2 78 54 30 66 40.6 15.2 27 18 39 30 18 13.6 2.7 depth
o 0.62 322 1.28 14 oaa {4) 250 u-24 0.50 .621 .621 0.25 0.93 0.38 1t-1E .251 .250 0.75 0.25 0.34 0.75 o.75 o.1a cts16 0.75 120 o.62 3.19 3.8:t 343 t06 {17-l _312 6t-21 0.50 .621 .621 0.38 1 . 1 2 0.38 5t-i E .25r .250 0.75 0.25 o.3a 3.97 o.8a o_aao.24 qi-14 o.75 1.30 0.62 334 1.25 125 t 2 5 t 1 k ) 375 \-24 o.aE .749 .749 o.11 r.32 0.50 .251 o.25 0.41 rt.4 1.06 r.06 0.25 sa-l6 0.46 r.62 0.78