The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
C95Series Weight Table/Aluminum Tube (1 00) I Bore size (mm) 32 40 50 6a .80 100 Bask: 1.23 1.85 3.06 4.20 7.08 9.33 Fool 1.58 2.29 3.89 5.21 9.04 11.73 Theoretical Output Table Basic weight Flange 1.67 2.35 4.09 5.46 9.94 13.31 OUT side IS identical 1 0 double acUng single rod. Single clevis 1.58 2.35 3.87 5.52 9.44 13. 13 Refer to table below lor IN side.
(Tightening torque: 0.25 to 0.35 Nm) Station 5 (+) () SOL.B 5B The quantity of terminal blocks used depends on the number of manifold stations: SOL.A (+) () 6A Station 6 SOL.B (+) () 6B Manifold Terminal block SOL.A (+) () 7A 2 to 8 stations 2 rows Station 7 SOL.B (+) () 7B 9 to 12 stations 3 rows SOL.A (+) () 8A Station 8 SOL.B (+) () 8B As the standard electrical wiring specifications,
Dd9 Knuckle 40, 50, 63 80 100 3 x 18l 3 x 18l 4 x 25l 4 x 25l 4 x 30l 4 x 36l CDP-2A CDP-3A CDP-4A CDP-5A CDP-6A CDP-7A 10 0.046 0.076 12 0.050 0.093 16 0.050 0.093 18 0.050 0.093 20 0.065 0.117 25 0.065 0.117 46 55.5 71 76.5 83 88 4 4 5 5 5 6 3 3 4 4 4 4 38 47.5 61 66.5 73 78 Material: Rolled steel Applicable bore size (mm) 40 50, 63 80 100 d D H B C Part no.
Station 4 SOL.B 4B SZ Cover SOL.A 5A Station 5 SOL.B 5B SOL.A VF 6A Station 6 SOL.B 6B SOL.A 7A VP4 Station 7 SOL.B 7B SOL.A As the standard electrical wiring specifications, double wiring (connected to SOL. A and SOL. B) is adopted for the internal wiring of each station for 10 stations or less, regardless of valve and option types.
Dd9 Knuckle 40, 50, 63 80 100 3 x 18l 3 x 18l 4 x 25l 4 x 25l 4 x 30l 4 x 36l CDP-2A CDP-3A CDP-4A CDP-5A CDP-6A CDP-7A 10 0.046 0.076 12 0.050 0.093 16 0.050 0.093 18 0.050 0.093 20 0.065 0.117 25 0.065 0.117 46 55.5 71 76.5 83 88 4 4 5 5 5 6 3 3 4 4 4 4 38 47.5 61 66.5 73 78 Material: Rolled steel Applicable bore size (mm) 40 50, 63 80 100 d D H B C Part no.
Dd9 L Clevis Knuckle CDP-2A 40 10 0.040 0.076 4 Polished round 10 3 46 3 x 18l 38 C76 CDP-3A 40, 50, 63 50 12 0.050 0.093 4 Polished round 12 3 55.5 3 x 18l 47.5 C85 CDP-4A 63 16 0.050 0.093 5 Polished round 16 4 71 4 x 25l 61 l CDP-5A 80 18 0.050 0.093 5 Polished round 18 4 76.5 4 x 25l 66.5 C95 CDP-6A 100 80 20 0.065 0.117 5 Polished round 20 4 83 4 x 30l 73 CDP-7A 100 25 0.065 0.117
Length 3 3 x 1 6 600 mm 10 1000 mm 3A 1/8" x 1/16" 4 4 x 2 4A 5/32" x 1/32" 6 6 x 4 6A 1/4" x 1/8" 100 mm Specifications Model LPV21 LPV22 Valve type N.C. N.O.
(Tightening torque: 0.25 to 0.35 Nm) Station 5 (+) () SOL.B 5B The quantity of terminal blocks used depends on the number of manifold stations: SOL.A (+) () 6A Station 6 SOL.B (+) () 6B Manifold Terminal block SOL.A (+) () 7A 2 to 8 stations 2 rows Station 7 SOL.B (+) () 7B 9 to 12 stations 3 rows SOL.A (+) () 8A Station 8 SOL.B (+) () 8B As the standard electrical wiring specifications,
ModelMax. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Note)Weight (g) COM.Av x 10-6m2Cv converted1/8 (6A)1/8 (6A)1.5VX3114-010.71.90.081.0380
ModelMax. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Note)Weight (g) COM.Av x 10-6m2Cv converted1/8 (6A)1/8 (6A)1.5VX3114-010.71.90.081.0380
ModelMax. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Note)Weight (g) COM.Av x 10-6m2Cv converted1/8 (6A)1/8 (6A)2.2VX3124-010.43.80.161.0380
ModelMax. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Note)Weight (g) COM.Av x 10-6m2Cv converted1/8 (6A)1/8 (6A)2.2VX3124-010.43.80.161.0380
Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS221/8 ( 6A)1/4 ( 8A)21.03.80.161.01/8: 0.211/4: 0.24
Max. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Mass (kg) Av x 10-6 (m2)Cv convertedVCS221/8 ( 6A)1/4 ( 8A)21.03.80.161.01/8: 0.211/4: 0.24
SI SI SMC PROFINET IO EX245 IO-Link SI IP65 2 2 PROFINET IO EX245-SPN1A(24 V)2(SCRJ)2 EX245-SPN2A(24 V)2(RJ45)2 EX245-SPN3A7/8 (5 )2M12(4 ,,D code)2 32 128 64 IO-Link 32 8 (FSU) C (IRT ) MRP(Media Redundancy Protocol)MRPD(Media Redundancy for Planned Duplication) System redundancy S2 Shared device (PROFIenergy) 1 (EX245-SPN1A) 16A(EX245-SPN1A/EX245-SPN2A)6A(EX245-
ModelMax. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Note)Weight (g) COM.Av x 10-6m2Cv converted1/8 (6A)1/8 (6A)1.5VX3114-010.71.90.081.0380
ModelMax. operating pressure differential (MPa)Flow characteristicsMax. system pressure (MPa)Note)Weight (g) COM.Av x 10-6m2Cv converted1/8 (6A)1/8 (6A)1.5VX3114-010.71.90.081.0380