Series 10-SV1000/2000/3000/4000 5 Port Solenoid Valve With external pilot specifications (Pitch) P = 10.5 13.5 46.9 18.3 11.8 14.1 8.4 8.6 A 4 A 4 A 4 A 4 A 4 A 4 A 4 A 4 A 4 A 4 10 19.7 24.6 23 5 3 E 5 3 E 3 5 E 3 5 E 43.2 43 56.5 B 2 B 2 B 2 B 2 B 2 B 2 B 2 B 2 B 2 B 2 C2 C2 1 P 1 P 1 P 1 P One-touch fitting [1(P), 3/5(E) port] Applicable tubing O.D.: 8 5/16" PE PE X X C1 C1 2 x M12 One-touch fitting [PE: Pilot EXH port] Applicable tubing
D-F9BAL Bore size (mm) D 18.5 16 -9 -6 -4 -3.5 B 2 9 12 14 14.5 C 0.5 10.5 16.5 24 25 34 A 18.5 28.5 34.5 42 43 52 6 10 15 20 25 32 A C Electrical entry direction: Inward Electrical entry direction: Outward Auto Switch Mounting Dimensions (mm) CXSJ6, 10 C3 Bore size 6, 10 0.4 0.4 7.2 4.8 7.2 4.8 B1 Symbol Auto switch model C2 D2 D1 A1 B1 C1 C2, C3 D1 D2 D-A9 D-F9, D-F9 W,D-M9 C1 A1 D-A9V
D-F9BAL Bore size (mm) D 18.5 16 -9 -6 -4 -3.5 B 2 9 12 14 14.5 C 0.5 10.5 16.5 24 25 34 A 18.5 28.5 34.5 42 43 52 6 10 15 20 25 32 A C Electrical entry direction: Inward Electrical entry direction: Outward Auto Switch Mounting Dimensions (mm) CXSJ6, 10 C3 Bore size 6, 10 0.4 0.4 7.2 4.8 7.2 4.8 B1 Symbol Auto switch model C2 D2 D1 A1 B1 C1 C2, C3 D1 D2 D-A9 D-F9, D-F9 W,D-M9 C1 A1 D-A9V
Table 3-10 Piping port size Description Port Recommended Recommended piping size tightening torque specifications Circulating fluid outlet port Rc1/2 28 to 30Nm 0.4MPa or more*2 Circulating fluid return port Rc1/2 28 to 30Nm 0.4MPa or more*2 Facility water inlet port *3 Rc3/8 22 to 24Nm 1.0MPa or more (Supply puressure: 0.3 to 0.5MPa) Facility water outlet port *3 Rc3/8 22 to 24Nm 1 For NPT
75 161 9 15 40 40 50 4 28 75 174 Use a thin wrench when tightening the piston rod.
24 24 9 18 21 21 43 43 28 28 17 26 44 44 54 23 23 39 3.6 LQ1T41-R12 6 12 12 29 26 54 39 3.6 LQ1T41-R22 10 6 12 6 24 20 24 9 18 21 21 43 38.5 43 28 23 28 3.6 LQ1T41-R23 6 6 12 7 20 29 14 28 17 26 44 44 54 23 39 3.6 LQ1T41-R26 12 3 12 6 24 15 24 9 18 21 14 21 43 33 43 28 16.5 28 1.8 LQ1T41-R32 6 12 6 15 24 15 14 21 14 33 43 33 16.5 28 16.5 3.6 LQ1T41-R34 3 12 3 1.8 LQ1T51-R2 19 10 19 7 29 20
29.5 27.8 40 37.5 65 37.5 66 AR25(K)-B 1/4, 3/8 1/8 53 71.9 28 27.5 M32 x 1.5 27.5 0 28 28.5 27.8 39 37.5 64 37.5 65 AR30(K)-B 1/4, 3/8 1/8 53 85.6 30.7 29.4 M38 x 1.5 29.4 3.5 28 30.4 27.8 40.9 37.5 65.9 37.5 66.9 AR40(K)-B 1/4, 3/8, 1/2 1/8 70 91.7 35.8 33.8 M42 x 1.5 33.8 3.5 28 34.8 27.8 45.3 42.5 71.3 42.5 71.3 AR40(K)-06-B 3/4 1/8 75 93.2 35.8 33.8 M42 x 1.5 33.8 3 28 34.8 27.8 45.3
120 180 16 (32) 24 (48) 32 (64) 40 (80) 3.5 17 14 14 28 28 40 40 130 210 Note) ( ): Long stroke Features 17 Controller/Driver Controller Driver Step data input type For step motor Programless type Pulse input type Step data input type For servo motor Series LECP1 Series LECPA Series LECP6 Series LECA6 Control motor Control motor Control motor Control motor Step motor (Servo/24 VDC) Servo
See page 18. 28 No.EX-OMS0014-A 1: EtherNet/IPTM QuickConnectTM function This GW unit can be used as an EtherNet/IPTM compliant node for networks with the QuickConnectTM function. To enable the QuickConnectTM function, it is necessary to perform the settings 1 to 2 to the GW unit as shown below.
Actuating solenoid valve electric signal Valve opening O After a few seconds at 10-6Torr 90% 100% 90% Valve closing Operation time Responce time Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2+...1/Cn) when in series, and C=C1+C2+...Cn, when in parallel. 39 Series XL Technical Data 5 He leakage
Actuating solenoid valve electric signal Valve opening O After a few seconds at 10-6Torr 90% 100% 90% Valve closing Operation time Responce time Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2+...1/Cn) when in series, and C=C1+C2+...Cn, when in parallel. 39 Series XL Technical Data 5 He leakage
Applicable shaft types: J, X, Z d1 = d1 = d1 = d1 = L2 = Y = C2 J axis X axis D2 = C2 = C K axis T axis (mm) (mm) (mm) d1 Size 30 50 63 80 100 d1 Size 30 50 63 80 100 Y 3 to 25 1 to 36 1 to 41 1 to 50 1 to 60 L2 max Y 2 Y Y Y Y D2 5 to 7.9 5 to 14.9 5 to 16.9 8 to 19.9 8 to 24.9 Size 30 50 63 80 100 2.5 4 to 7.5 4 to 8 6.8 to 11 6.8 to 13 2.5 4 to 7.5 4 to 8 6.8 to 11 6.8 to 13 11-7
Applicable shaft types: J, X, Z d1 = d1 = d1 = d1 = Y = C2 J axis X axis K axis T axis D2 = C2 = C L2 = [mm] [mm] [mm] Size Y L2max D2 30 3 to 25 Y-2 5 to 7.9 50 1 to 36 Y 5 to 14.9 63 1 to 41 Y 5 to 16.9 80 1 to 50 Y 8 to 19.9 100 1 to 60 Y 8 to 24.9 Size d1 30 2.5 50 4 to 7.5 63 4 to 8 80 6.8 to 11 100 6.8 to 13 Size d1 30 2.5 50 4 to 7.5 63 4 to 8 80 6.8 to 11 100 6.8 to 13 218
Applicable shaft types: J, X, Z d1 = d1 = d1 = d1 = L2 = Y = C2 J axis X axis D2 = C2 = C K axis T axis (mm) (mm) (mm) d1 Size 30 50 63 80 100 d1 Size 30 50 63 80 100 L2 max Y 2 Y Y Y Y Y 3 to 25 1 to 36 1 to 41 1 to 50 1 to 60 D2 5 to 7.9 5 to 14.9 5 to 16.9 8 to 19.9 8 to 24.9 Size 30 50 63 80 100 2.5 4 to 7.5 4 to 8 6.8 to 11 6.8 to 13 2.5 4 to 7.5 4 to 8 6.8 to 11 6.8 to 13 11-7
(If not specifying dimension C2, indicate instead.)
L1 (3 x P) Q1 = M C2 = C Y = C1 = C C2 Y = L2 = L2 (3 x P) C2 = C L2 = Q2 = M L1 = X = DD2 = (mm) (mm) (mm) Y 1 to 9 1 to 10 D2 Q1 M3, M4 M3, M4, M5 Q2 M3, M4 M3, M4, M5 L2 max Y Y Y 6 to 9 7.5 to 10 X 8 to 18 9.5 to 20 L1 max X 2 X 2 L2 max Y Y Size 10 15 Size 10 15 Size 10 15 3.5 to 4.9 3.5 to 5.9 257 Series CRQ2 (Size: 10, 15, 20, 30, 40) Simple Specials: -XA1 to -XA24: Shaft Pattern
(If not specifying dimension C2, indicate instead.)
100 80 80 2 3 4 5 10 20 30 40 50 3 2 30 20 40 10 5 4 1 m2max m1max m3max m1max m2max m3max Load weight (kg) Load weight (kg) Air Cushion Stroke Unit: mm Horizontal collision: P = 0.5 MPa MY3B63 Maximum collision speed with fixed intermediate position Cushion stroke Bore size (mm) 2000 16 13 Collision speed (mm/s) 1000 20 16 Air cushion, L unit H unit 25 18 500 400 300 32 22 40 25 200 50 28
Controller side PLC side For 4 Axes JXC73/83 L JXC C2 (Terminal no.) (R1.25-4) 40 20 39 (7.5) 40 20 Cable length (L) [m] 50.8 1 1.5 3 3 5 5 2 21 1 21 1 Pin no. Wire color Pin no. Wire color Pin no. Wire color Pin no.
K V 1 10 XLA S P1P2 XL XL Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2++1/Cn) when in series, and C=C1+C2++Cn, when in parallel.