MXH G 28 58 5H9 +0.030 0 depth 5 (5.5) 10 D-M4 x 0.7 (for work piece mounting) 10.5 12 2-M3 thread depth 5 (3.5) 6 4-8 50 18.5 10 20 17.5 22 25 35 (5) 62 72 12 (6) 8 (15) 1 0.2 31 5H9 +0.030 0 depth 5 Photo micro sensor wire (300mm) 10 13 1.5 [5.5] 6 25 (4) 30.5 10 (39.5) E Motor wire (300mm) Stroke + 135 The dimension inside [ ] shows the location at which the home position switch operates
Note) Fixed unit: For vacuum/Low pressure: kPA For positive pressure: MPa Lead wire with connector Lead wire length: 2 m With mounting screws (M3 x 5L: 2 pcs.) With M3 x 8L (2 pcs.)
Av = Q (8) P Av : Flow coefficient [m2] Q : Flow rate [m3/s] P : Pressure difference [Pa] : Fluid density [kg/m3] (3) Formula of flow rate It is described by the practical units. Also, the flow-rate characteristics are shown in Graph (2).
O.D. of sheath 1.7mm Note ) For details on the V100 series, refer to the Operation Manual for that series. 31 - Doc. No.
Av = Q .(8) $P Av : Flow coefficient [m2] Q : Flow rate [m3/s] $P : Pressure differential [Pa] : Fluid density [kg/m3] (3) Formula for flow rate Described by the practical units. Also, the flow-rate characteristics are shown in Graph (2).
This produuct Your system Circulating fluid temperature 31 Serial communication Discharge temperature 31 Circulating fluid display temperature Heat 31 radiation 1 Circulating fluid set temperature 30 Offset temperature 30 1 Example of MODE 2 When the offset temperature is -1oC, circulating fluid display temperature and the communication data is 29oC (circulating fluid discharge temperature
How to Order Needle Valve/Flow Rate Characteristics 0 2 F A 1 AS 1 M3 X790 06 AS1201F-M350 45 40 35 30 25 20 15 10 5 0 0.5 0 1 1.5 2 2.5 3 3.5 4 4.5 5 6 7 8 Inlet pressure: 0.5 MPa Port size Push-lock type Body size Flow rate [L/min (ANR)] 1 M3 x 0.5 M3 M3 x 0.5 Applicable tubing O.D.
Example of the conventional measurement units (Reference) Unknown 6.0C 20C 26C 1.2 m3/h Fluorinated fluid Density : 1.80 x 103 kg/m3 : Unknown : 6.0C (6.0 K) : 20C (293.15 K) : 26C (299.15 K) : 20 l/min : Fluorinated fluid Density : 1.80 x 103 kg/m3 Heat generation amount Q Circulating fluid temperature difference T (= T2 T1) Circulating fluid outlet temperature T1 Circulating fluid return
Dimensions (mm) 1in = 25.4mm MSUA1 MSUA1-S, SE Scale: 70% C 8-M3 x 0.5 depth 5 51 31 38 23.5 B 25 4-M4 x 0.7 depth 4 22.5 4.5 +0.025 0 2.5H9 A Long groove depth 4 (positioning pin hole) 35h9 0 0.062 22.5 +0.025 0 +0.043 0 3-3H9 depth 3 ( A , B , C ) 17 H9 27 2.5 2 2-4.5 through 3-R1.5 12.5 37 8 6.5 10.3 6.5 36h9 0 0.062 31 4.2 2 31.5 2 27 16 9 5 Angle adjustment bolt 4.5 2-4.5 through 3-R1.5
16 stations) AS-i, 8 in/out, 31 slave modes, 1 power supply systems 1 to 4 stations (8 stations) (16 stations) Serial kit for PROFIBUS-DP Serial kit for DeviceNet/PROFIBUS-DP/CC-LINK AS-i, 4 in/out, 31 slave modes, 1 power supply systems 1 to 2 stations (4 stations) 2-2-19 Base Mounted Series VQC4000 How to Order Valves VQC 4 1 0 5 0 Manual override Series Nil: Non-locking push type (Slotted
Body Size 21 31, 41 Description Metal Bowl Metal Bowl With Sight Glass Residual Pressure Relief Valve Symbol Nil V NPT Threads Applicable Model Combo All All Description Without Valve With Downstream Valve Port Size Symbol 02 03 04 Applicable Body Size 21 31 41 Port Size 1/4 3/8 1/2 Accessories Symbol Nil C D Applicable Body Size All 31, 41 31, 41 Description None Float Auto Drain (N.C.)
(Example) For M3: L1 = 6 mm Applicable shaft types: S, W, Y Q1 = M L1 + (3 x P) L1 = (mm) Q1 M3 M4, M5, M6 M4, M5, M6 M4, M5, M6, M8 M5, M6, M8, M10 Size 30 50 63 80 100 100 Symbol: A2 Machine female threads into the short shaft.
(Example) For M3: L1 = 6 mm Applicable shaft types: X, Z The maximum dimension L2 is, as a rule, twice the thread size.
Power supply connector . 31 5.1 Connector specifications . 31 (1) Main control power supply connector: C PWR . 31 (2) Motor drive power connector: M PWR . 31 (3) Motor control power supply connector: CI . 32 5.2 Wiring . 33 (1) Wiring of the power supply connector . 33 (2) Wiring of the stop switch . 34 6.
Body through hole MI W S CEP1 CE1 Max. tightening torque (Nm) Model MIW8 MIS8 MIW12 MIS12 MIW20 MIS20 MIW25 MIS25 MIW32 MIS32 Bolt CE2 M2.5 x 0.45 0.5 ML2B M3 x 0.5 0.88 C J G5-S M5 x 0.8 4.3 CV M6 x 1 7.3 MVGQ M8 x 1.25 17.5 Max. tightening torque (Nm) Bolt Model MIW8 MIS8 MIW12 MIS12 MIW20 MIS20 MIW25 MIS25 MIW32 MIS32 CC M3 x 0.5 0.88 Caution RB M3 x 0.5 0.88 1.
Body through hole Max tightening torque (Nm) Model MIW8 MIS8 MIW12 MIS12 MIW20 MIS20 MIW25 MIS25 MIW32 MIS32 Bolt M2.5 x 0.45 0.5 M3 x 0.5 0.88 M5 x 0.8 4.3 M6 x 1 7.3 M8 x 1.25 17.5 Max tightening torque (Nm) Bolt Model MIW8 MIS8 MIW12 MIS12 MIW20 MIS20 MIW25 MIS25 MIW32 MIS32 M3 x 0.5 0.88 Caution M3 x 0.5 0.88 1.
Body through hole MI W S CEP1 CE1 Max. tightening torque (Nm) Model MIW8 MIS8 MIW12 MIS12 MIW20 MIS20 MIW25 MIS25 MIW32 MIS32 Bolt CE2 M2.5 x 0.45 0.5 ML2B M3 x 0.5 0.88 C J G5-S M5 x 0.8 4.3 CV M6 x 1 7.3 MVGQ M8 x 1.25 17.5 Max. tightening torque (Nm) Bolt Model MIW8 MIS8 MIW12 MIS12 MIW20 MIS20 MIW25 MIS25 MIW32 MIS32 CC M3 x 0.5 0.88 Caution RB M3 x 0.5 0.88 1.
Note 1) Sampling air flow rate: Number of particles contained in 75l of air Note 2) Actuator: 1 million cycles Solenoid valve: 2 million cycles Particle generation characteristics of CM2 Particle generation characteristics of CXSL Particle generation characteristics of CY1B 106 106 106 Particle concentration (particles/m3) Particle concentration (particles/m3) Particle concentration (particles
Note 1) Sampling air flow rate: Number of particles contained in 75l of air Note 2) Actuator: 1 million cycles Solenoid valve: 2 million cycles Particle generation characteristics of CM2 Particle generation characteristics of CXSL Particle generation characteristics of CY1B 106 106 106 Particle concentration (particles/m3) Particle concentration (particles/m3) Particle concentration (particles