Electro-Pneumatic Proportional Valve Series VEF/VEP AP100 P F P F 887 Series VEF/VEP Flow type: VEF Diagram of Working Principle Flow Characteristics: 3 Port The spool controls the sleeves opening through the balance between the proportional solenoids pulling force (F1) and the springs reaction force (F2).
D) DIN terminal U V E Cable 6 to 12 30 G1/2 (44) 31.5 T A B IN OUT M 2 x P Port size (D) L K I F J (mm) Electrical entry M Model Grommet Grommet (with surge C37, Port size P A B C E F I J K L D voltage suppressor) DIN terminal Aluminum body type Stainless steel body T U T T 1/4, 3/8 1/2 88 (93.5) 22.5 30 U U V 22 27 55.5 (61) 27 42 (47.5) 24 30 50 20 4.5 5 11 13 37.5 42.5 25 25 30 47.5 (53
4.6 9.5 14 56 38 2.5 depth 8.5 2.6 Approx. 70g LFE38 62 53 4.6 3.5 20 68 43 2.5 depth 8.5 2.6 Approx. 70g -71No.LV50***-OMQ0002-G Dimension of the cable with M12 connector lead wire (LFE-1-A3) 4 Black Blue 3 White 2 1 Brown -72No.LV50***-OMQ0002-G Revision A : Contents revised in several places.
Model A c o E F G H J K L M N 2F810105 26 53 54 22.5 12.5 24 17 -5 1 5 50 15.514.4 12.8 8,5 zFB101-07 242 17.7 114" zFB201-07 52 28 24.51 13.s1 27.21 19.71 t6 G1 17.5116.6115.21 1t4" 9.5 zFB301-11 30 70 27 14.5go.221.7 17 21.5 s 18.53A 11 zFuol-13 64.5 34 8?.
Model A c o E F G H J K L M N 2F810105 26 53 54 22.5 12.5 24 17 -5 1 5 50 15.514.4 12.8 8,5 zFB101-07 242 17.7 114" zFB201-07 52 28 24.51 13.s1 27.21 19.71 t6 G1 17.5116.6115.21 1t4" 9.5 zFB301-11 30 70 27 14.5go.221.7 17 21.5 s 18.53A 11 zFuol-13 64.5 34 8?.
When A port pressure is lower than P1 port pressure, F1 becomes larger than F2, and the pressure regulating piston moves downwards,opening the lower poppet valves.Thus air is supplied from P port to A port.(DRW(3)) When A port pressure rises enough to restore the balance, the regulator valve returns again to the DRW(2) condition.
SI . 49 10.1. . 49 10.2. . 51 10.3. . 53 10.4. I/O . 53 10.5. I/O . 54 10.6. . 54 10.7. . 59 10.8. Output status unit . 59 10.9. LED . 61 10.10. . 65 10.11. DIP . 65 2 No.EX##-OMY0006CN 10.12. . 68 11. EX245-DX1 . 70 11.1. . 70 11.2. . 71 11.3. . 72 11.4. . 72 11.5. LED . 73 11.6. . 74 12. EX245-DY1 . 75 12.1. . 75 12.2. . 76 12.3. . 77 12.4. . 77 12.5.
No.PF-OMM0004-D / / PF3W7## SMC 2 11 13 14 16 17 19 21 24 26 26 F1 OUT1 60 F2 OUT2 36 F3 42 F10 43 F20 47 F22 48 F30 50 F80 51 F81 52 F82 53 F90 54 F98 55 F99 56 57 61 61 65 65 71 79 81 88 -1No.PF-OMM0004-D (ISO/IEC) (JIS) 1 2 1) ISO 4414:Pneumatic fluid power -General rules relating to systems.
N L1 L2 Port B min. port size L3 L4 L5 L6 D P Q1 Q2 MA MB FA FB KRM11-06-10-10 KRM11-06-10-6 80 10 6 6 10 40 47 23.3 13 19.5 33.5 23.5 33 13.5 19 22 8.5 10 106 6 89 10 120 55 73 53 55 KRM11-08-12-10 KRM11-08-12-6 8 12 25.7 15.5 22.5 37.5 26 36.5 20.5 24 10 11.5 14.7 86 74 KRM12 Weight (g) Applicable tube O.D.(mm) Thread Rc(PT) H (Hex.) Port B min. port size Part No.
Cassette base I Valve Milsubsh Eeclrc Corpofalion: MELSECNET/I/IlN1 53 Data Link Sysrr. Supply/Exhaust block assembly specif ication SHARPCorooralon Sate rte /O Lnk nierna p oVBu ln srlencer External pi ot specilicaton Edefnalpiottsl] lt'n s lencer E port position .rrr'o slfa t is s n.ldes .d rxl-"r rlh I E eclric co Lld : T L nf. M I l,l.le 2) spe. lrsd r!!
L1 D L2 L3 L4 L5 L6 L8 Model Port size AS2000E-01 10 4.5 17 16 5 57 30 61.5 40 15.5 1/8 AS2000E-02 12 4.5 23 20 5 59 30 63.5 40 17 1/4 AS3000E-02, 03 5.5 25 26 5.25 69 45.5 76 56 20.6 13.25 1/4, 3/8 Note 1) Reference dimensions AS4000E 2 x 1/4 to 1/2 72 (Max. 80) (1) Effective thread depth 6 2 x M4 x 0.7 664
Cyl.Dia Mass (kg) T 60" 45' 30' e u 0.01 po.2 p 0.01 It 0.2 p 0.01 p 0.2 tr 0,01 It 0.2 25 100 50 25 12.5 51.8 (87.2) 80 40 20 1 0 32 180 90 45 22.5 54.9 (s5.6) 47.8 53 78.4 39.2 4 2.2 '| .
Cyl.Dia Mass (kg) T 60" 45' 30' e u 0.01 po.2 p 0.01 It 0.2 p 0.01 p 0.2 tr 0,01 It 0.2 25 100 50 25 12.5 51.8 (87.2) 80 40 20 1 0 32 180 90 45 22.5 54.9 (s5.6) 47.8 53 78.4 39.2 4 2.2 '| .
Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
Load weight (kg) m1 m2 m3 Moment (Nm) M3 = F3 x L3 F3 M1 = F1 x L1 F1 M2 = F2 x L2 F2 L1 L2 L3
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
F1 = X A1 X P . (1) F2 = X A2 X P . (2) 4 A1 = D2 . (3) 4 A2 = (D2 d2) . (4) F1 = Cylinder force generated on the extending side (N) F2 = Cylinder force generated on the retracting side (N) = Load rate A1 = Piston area on the extending side (mm2) A2 = Piston area on the retracting side (mm2) D = Tube bore size (mm) d = Piston rod diameter (mm) P = Operating pressure (MPa) While not
Porting No. of Ports DXT172-2-1 NPTF Y4" NPTF side ports DXfi72-2-2NPTF %" NPTF side Dorts 3 'lnclud6s gas*et and screws SERIES NVEF FLOW RATE TYPE FLOW CHARACTERISTICS % CurrcnvFlow Rate OPERATING PBINCIPLES The effective orifice size is controlled by lhe movement of the spool, which is balanced between the Solenoid Force (F1) and the Spring Force (F2).