5-Port Solenoid Valve 2(B) (A)4 1 (P) 2 (B) 3 (EB) 4 (A) 5 (EA) (EA)5 1 (P) 3(EB) 2-position double t e q w r 2-position double 1 (P) 2 (B) 3 (EB) 4 (A) 5 (EA) 2(B) (A)4 (EA)5 1 (P) 3(EB) 3-position closed center/exhaust center/pressure center t e q w r 3-position closed center 3-position exhaust center 2(B) (A)4 2(B) (A)4 (EA)5 1 (P) 3(EB) (EA)5 1 (P) 3(EB) 1 (P) 2 (B) 3 (EB) 4 (A) 5 (EA) 3-position pressure
VXF(A)2160 Tank 41l 6 x 10 pcs. VXF(A)2160 Tank 41l 6 x 6 pcs. 10 x 12 pcs. 10 x 12 pcs. Without tube (VXF2280) Without tube Without tube (VXF2280) Flow rate Q (Nl) 10 x 12 pcs. 10 x 8 pcs. 10 x 12 pcs. 10 x 8 pcs. VXF(A)2280 Tank 70l 10 x 8 pcs. VXF(A)2280 Tank 70l 10 x 8 pcs. 10 x 10 pcs. 10 x 10 pcs. 100 mm 100 mm 10 x 10 pcs. 10 x 10 pcs. 10 x 8 pcs. 10 x 8 pcs.
(With an approximately 5 C safety margin, the system should operate within a maximum 55 C limit.) The necessary cabinet heat dissipation area can be calculated by equation 10.1. P A = K T (10.1) A: Heat dissipation area [m2] P: Loss generated in the cabinet [W] T: Difference between internal and ambient temperatures [C] K: Heat dissipation coefficient [5 to 6] 10 3 10.
Thread type Piping port (P, A, B, EA, EB port) Nil Rc G F 06 10 1 3 4 N NPT NPTF T 3-5-95 96 Series VFR6000 Construction 2 position single 2 position double VFR620 VFR610 (B) (A) 4 2 (B) (A) 4 2 (EA)(P)(EB) 5 1 3 (EA) (P) (EB) 5 1 3 !1 u q t q e i e !1 i u !
A + Stroke 4-FD C J G5-S Rear flange style: MQQLG 10, 16, 20 25, 28 Bore size (mm) Stroke range (mm) A L 2-FD 4-FD CV 10 10 to 40 75 8 16 10 to 60 88.5 10 MVGQ 20 10 to 60 97 10 FV FV M 25 10 to 50, 75, 100 104.5 12 CC 28 10 to 50, 75, 100 124 12 L FT FX B + Stroke FZ FX (Dimensions except A and L are same as rod side flange style.)
Note) D: Max. diameter
ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3-T (10/13/16) UM:-A5 ZP3-T (10/13/16) B:-A5 ZP3-T (10/13/16) UM:-B5 ZP3-T (10/13/16) B:-B5 ZP3-T (10/13/16) UM:-A12-@ ZP3-T (10/13/16) B:-A12-@ ZP3-T (10/13/16) UM:-A12-04 ZP3-T (10/13/16) B:-A12-04 ZP3-T (10/13/16
1 85 90 35 Stroke + 334 2-T-slot 2 90 62 3-8H 10 depth 20 Stroke + 32 92 Body mounting reference plane 90 (T-slot pitch) 3.3 20 67 5.8 1.7 5.3 62 T-slot 1 dimensions (Switch groove) 8-6.6 92 58 10 10 Stroke + 216 11.5 The body mounting reference plane should be used as a standard when mounting onto equipment.
(Pad diameter: 20 mm or less only) ZP T 10 F N B5 A8 With adapter From p. 62 p. 119 From p. 127 ZP T 10 F N J 10 B5 A10 With buffer From p. 65 p. 120 From p. 129 q w e r t y u Ball joint type w Pad diameter t Buffer stroke q Vacuum inlet direction T Vertical R Lateral (With One-touch fitting) 10 10 13 13 16 16 20 20 25 25 32 32 40 40 50 50 Stroke [mm] Pad diameter [mm] 10 to 16 20 to 50 10
ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3(10/13/16) UM: ZP3(10/13/16) B: ZP3-T (10/13/16) UM:-A5 ZP3-T (10/13/16) B:-A5 ZP3-T (10/13/16) UM:-B5 ZP3-T (10/13/16) B:-B5 ZP3-T (10/13/16) UM:-A12-@ ZP3-T (10/13/16) B:-A12-@ ZP3-T (10/13/16) UM:-A12-04 ZP3-T (10/13/16) B:-A12-04 ZP3-T (10/13/16
Driver Molded-case circuit breaker (240 V AC) (Note 2) Fuse (300 V) (Note 1) LECSS2-T5/ LECSS2-T7/ LECSS2-T8/ LECSS2-T9 (T) NF50-SVFU-5A (50 A frame 5 A) 10 A LECSS2-T9 (S) NF50-SVFU-10A (50 A frame 10 A) 15 A Note 1. (S) means 1-phase 200 V AC power input and (T) means 3-phase 200 V AC power input in the table. Note 2. MFG.
Note) For wear ring A of 10, please consult with SMC. Seal kit includes a grease pack (10: 5 g and 10 g, 15: 10 g). Order with the following part number when only the grease pack is needed.
0 o @0 i A A MX MTS MY CY !4 !3 y e !2 q r t o !6 @0 !4 !1 q !6 i t y e !5 r u !
Single vane type Double vane type 0 -5 +4 0 a r n n R e o 9 g o g t 0 0 n a i e 9 +4 0 a t t 0 i a o r 0 1 e t 1 n n o 8 g o R 0 e n r i a g a +4 0 t a n n r t g a n o e r o R n i 2 t o a 7 t i 0 t o a R t o +4 0 R For size 40 actuators, a parallel keyway will be used instead of chamfer.
Single vane type Double vane type +4 0 9 0 a a r r n n e n n g g g o o e e n i i t t 1 2 a a a 8 7 r t t 0 -5 +4 0 o o 0 0 n R R +4 0 +4 0 o 0 i 0 0 t a 9 1 t o e e R g g n n a a r r n n o o i i t t a a Chamfer Chamfer t t o o Chamfer A port B port Chamfer A port Chamfer R R A port B port B port A port B port A port B port For size 40 actuators, a parallel keyway will be used instead
10-10 0 5 10 t i o o n L DTime [min] Operation cycles -X e e a a l l k k a t e l u w w g a a c 2 e i o o g g 1 O-ring seals separate vacuum and atmosphere. t Employs a magnetically coupled rodless cylinder with no air leakage from moving parts. n 1 r a L L e e e Particulate generation from the linear guide unit has been reduced with the use of a stainless steel linear guide and low particulate
Single vane type Double vane type +4 0 9 0 a a r r n n e n n g g g o o e e n i i t t 1 2 a a a 8 7 r t t 0 -5 +4 0 o o 0 0 n R R +4 0 +4 0 o 0 i 0 0 t a 9 1 t o e e R g g n n a a r r n n o o i i t t a a Chamfer Chamfer t t o o Chamfer A port B port Chamfer A port Chamfer R R A port B port B port A port B port A port B port For size 40 actuators, a parallel keyway will be used instead
Single vane type Double vane type +4 0 9 0 a a r r n n e n n g g g o o e e n i i t t 1 2 a a a 8 7 r t t 0 -5 +4 0 o o 0 0 n R R +4 0 +4 0 o 0 i 0 0 t a 9 1 t o e e R g g n n a a r r n n o o i i t t a a Chamfer Chamfer t t o o Chamfer A port B port Chamfer A port Chamfer R R A port B port B port A port B port A port B port For size 40 actuators, a parallel keyway will be used instead
4 u t t q t u y !3 u e !3 !8 t y e !2 !1 !3 !6 r A A A A !4 i u q i !4 r y t y !2 o !5 r u t q !5 e i o !2 r Component Parts No. Description Material Note No. Description Material Note Body A O-ring PBT NBR q !3 Elbow body O-ring PBT NBR w !4 Body B O-ring Electroless nickel plated Brass NBR e !5 Body B O-ring Electroless nickel plated Brass NBR r !