Series VCL A Round head combination screw M3 2 1 + "+" mark "" mark A Round head combination screw M3 Conduit terminal View A-A (Internal connection diagram) There is polarity only when equipped with light. Note) Tighten the terminal cover mounting screws and terminal screws with a torque of 0.5N-m.
Class 3 Class 2 Symbol 01 02 03 04 06 1 2 3 4 36 100VAC 200VAC 110VAC 220VAC 230VAC Orifice size Class 3 Class 4 Class 2 Orifice diameter 2mm 3mm 4mm 5mm 7mm 10mm Symbol 2 3 4 5 7 10 Electrical entry CConduit GGrommet Refer to the table below for orifice and port size combinations.
A Round head combination screw M3 2 1 + "+" mark "" mark A Round head combination screw M3 Conduit terminal View A-A (Internal connection diagram) There is polarity only when equipped with light.
Thread type Note 2) Symbol Nil N F Type Rc NPT G Port size Symbol 06 Port size 3/4" Tube extension 0 PAF541 P19 Option Actuation Note 1) Applicable actuation Automatically operated Air operated Symbol 0 3 Actuation Symbol Option Automatically operated Air operated Nil N None With silencer For AIR EXH: AN20-02 (: Either Nil or N is entered as a thread symbol.)
A Round head combination screw M3 2 1 + "+" mark "" mark A Round head combination screw M3 Conduit terminal View A-A (Internal connection diagram) There is polarity only when equipped with light.
Thread size is M3. Note 21) Only M3 is available for PD port size. Use one-touch fitting (KJS series) or barb fitting (M series) for piping. Note 22) Select body for manifold. Select L for manifold type. When the common supply and individual supply are mixed, please contact SMC. Note 23) To prevent backflow of the manifold common exhaust, not for holding vacuum.
View A PFW31(-M) PFW3-B DIN rail type 8-M3 3 x 7.2 (= 21.6) 36 2-3.4 6.4 15 1 2 3 4 6.5 26 FLOW SWITCH SMC 35.5 30 56 (4.5) 44 UNIT RESET SET 5 6 7 8 29 38 15.2 26
Combinations of Blanking Plate Assembly and Manifold Base Blanking plate assembly: VK300-42-1A M3 x 8 Round head combination screw Blanking plate Manifold gasket for blanking plate Caution Mounting Screw Tightening Torques M3: 0.6 Nm Applicable base: In common for all types of VV3K3 models 4-5-4 5 3 Port Direct Operated Poppet Solenoid Valve Rubber Seal Series VK300 Dimensions: Body Ported
DXT170-176-2-01 DXT170-176-2-02 DXT170-176-2-03 DXT170-176-2-04 DXT170-176-2-07 DXT170-176-3-51 DXT170-176-3-06 DXT170-176-3-05 DXT170-176-3-53 For Series VZ300/500 With light/surge voltage suppressor With surge voltage suppressor 100 VAC 200 VAC 110 VAC 220 VAC 240 VAC 6 VDC 12 VDC 24 VDC 48 VDC S E For VZ120 Indicator light is not available for grommet type.
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
x 26 Round head combination screw M3 x 26 Round head combination screw Manifold gasket Manifold gasket Applicable base Applicable base VK300-45-1 Sub-plate VV3K3-40 (-Q) (S) 42 (-Q) VV5K3-40 (-Q) (S) 41 (-Q) (S) 42 (-Q) VV3K3-20 (-Q) 21 (-Q) VV5K3-20 (-Q) 21 (-Q) Manifold base Manifold base Caution Mounting Screw Tightening Torques M3: 0.6 Nm Body ported VK300-41-1A Base mounted VK300-41
(MPa) Pressure drop (MPa) Max. flow line Max. flow line HA AT ID Air flow rate (m3/min (ANR)) Air flow rate (m3/min (ANR)) Air flow rate (l /min (ANR)) AMG AFF220A 4 1 2 AFF11B B B AFF 0.1 MPa Max. flow line AM 0.3 MPa Misc.
(MPa) Pressure drop (MPa) 0.1 MPa 0.1 MPa Max. flow line Max. flow line Air flow rate (l /min (ANR)) Air flow rate (m3/min (ANR)) 1 2 AMD450 AMD850 1 2 1 B B 0.1 MPa 0.1 MPa Pressure drop (MPa) Pressure drop (MPa) Max. flow line 0.1 MPa 0.1 MPa Max. flow line Air flow rate (l /min (ANR)) Air flow rate (m3/min (ANR)) 14-20-24 4 Micro Mist Separator Series AMD Construction AMD150 to AMD650
As the circulating fluid temperature is within the set range of "AS.06", "AS.06" alarm monitoring starts. Status (2): The circulating fluid temperature becomes within the set range of "AS.04". "AS.04" alarm monitoring starts.
As the circulating fluid temperature is within the set range of "AS.06", "AS.06" alarm monitoring starts. Status (2): The circulating fluid temperature becomes within the set range of "AS.04". "AS.04" alarm monitoring starts.
As the circulating fluid temperature is within the set range of "AS.06", "AS.06" alarm monitoring starts. Status (2): The circulating fluid temperature becomes within the set range of "AS.04". "AS.04" alarm monitoring starts.
As the circulating fluid temperature is within the set range of "AS.06", "AS.06" alarm monitoring starts. Status (2): The circulating fluid temperature becomes within the set range of "AS.04". "AS.04" alarm monitoring starts.
As the circulating fluid temperature is within the set range of "AS.06", "AS.06" alarm monitoring starts. Status (2): The circulating fluid temperature becomes within the set range of "AS.04". "AS.04" alarm monitoring starts.
As the circulating fluid temperature is within the set range of "AS.06", "AS.06" alarm monitoring starts. Status (2): The circulating fluid temperature becomes within the set range of "AS.04". "AS.04" alarm monitoring starts.
As the circulating fluid temperature is within the set range of "AS.06", "AS.06" alarm monitoring starts. Status (2): The circulating fluid temperature becomes within the set range of "AS.04". "AS.04" alarm monitoring starts.