3 Port Solenoid Valve Connector block assembly Note) (For plug-in) V100-192-A-15 q (Metric size) C4: 4 one-touch fitting C6: 6 one-touch fitting L4: 4 elbow fitting (Upward entry) L6: 6 elbow fitting (Upward entry) B4: 4 elbow fitting (Downward entry) B6: 6 elbow fitting (Downward entry) (Inch size) N3: 5/32" one-touch fitting N7: 1/4" one-touch fitting
Note 7) When the SD0 (Without SI unit) is specified, -D, -Dl cannot be selected. 24 24 stations B4 In the case of the 16-output SI unit Symbol 02 Stations Note 2 stations B6 Double wiring Note 1) B5 LM MM Note2) M5 thread Elbow port, mixed sizes Mixed size for different types of piping, option installed 08 02 8 stations 2 stations Specified layout Note 2) (Available up to 16 solenoids) Note
Note 7) When the SD0 (Without SI unit) is specified, -D, -Dl cannot be selected. 24 24 stations B4 In the case of the 16-output SI unit Symbol 02 Stations Note 2 stations B6 Double wiring Note 1) B5 LM MM Note2) M5 thread Elbow port, mixed sizes Mixed size for different types of piping, option installed 08 02 8 stations 2 stations Specified layout Note 2) (Available up to 16 solenoids) Note
A5 A5 A6 A6 A7 A7 Internal Internal A8 A8 resistance resistance 10[k ] 10[k ] 24 VDC 24 VDC A9 A9 Main circuit Main circuit power supply power supply for the input for the input A10 A10 signals signals B1 B1 B2 B2 B3 B3 B4 B4 B5 B5 Maximum output Maximum output B6 B6 current: 10 mA current: 10 mA B7 B7 Pulse input internal circuit Note2) B8 Pulse input internal circuit Note2) B8 Pulse input
External pilot Nil R Internal pilot Elbow fitting assembly (downward) B4: 4 elbow fitting assembly B6: 6 elbow fitting assembly 5 (EA) 1 (P) 3 (EB) The 4 position dual 3 port valve is not available with external pilot specifications. 4 position dual 3 port valve: N.C./N.C.
2 One-touch fitting 1/8" One-touch fitting 3.2 One-touch fitting 5/32" One-touch fitting P P P P P P P P P P P P P P Straight Elbow Straight Elbow 4 One-touch fitting 1/4" One-touch fitting 6 One-touch fitting 5/16" One-touch fitting 8 One-touch fitting Straight port, mixed sizes LN3 LN7 LN9 BN3 BN7 BN9 Straight port, mixed sizes 5/32" One-touch fitting Upward Downward L4 L6 L8 B4 B6
D-B5, B6 D-G5, K5 BBA3 4 Auto switch mounting screws M4 x 0.7 x 22L 1 Besides the models listed in How to Order, the following auto switches are applicable. Refer to pages 431 to 490 for detailed auto switch specifications. Auto switch type Part no.
B01, N01 T01 P. 72 P. 73 ZP (20, 25, 32) U ZP (20, 25, 32) C ZP (20, 25, 32) B ZP25D ZP2-B25J ZP2-B30J ZP2-25UCL ZP2-32UCL ZPT3-A6, A8 ZPT3-B5, B6, B8 B01, N01 T01 P. 72 P. 73 ZP (40, 50) U ZP (40, 50) C ZP (40, 50) B ZP40D ZPT4-A6, A8 ZPT4-B6, B8 B01, N01 T01 ZP2-40UCL ZP2-50UCL P. 72 P. 73 Adapter Assembly Part No.
BBA1: D-A5/A6/F5/J5 BBA3: D-B5/B6/G5/K5 When a switch model D-F5BAL or G5BAL is mounted on the cylinder at the time of shipment, the above stainless steel screws are used. When the switch is shipped alone, BBA1 or BBA3 is attached. Series CDA2 models vary in the thickness of the cylinder tube wall.
BBA3: For D-B5/B6/G5/K5 BBA4: For D-C7/C8/H7 D-G5BA/H7BA switch is set on the cylinder with the stainless steel screws above when shipped. When the switches are shipped as individual parts, the BBA3 or BBA4 is included.
Air-hydro unit, series CC, Converter size (mm): 63, 100, 160, Small and large flow available, High cylinder operation speed, Air port size: 3/8 (63), 1/2 (100), 3/4 (160), Oil port size: 1/2 (63S, 100S), 3/4 (100L, 160L), CYLINDER HARDWARE, ACTUATOR, (GT CODES)CYLINDER HARDWARE, 11, CYLINDER HARDWARE, 0.00462 lb
Air-hydro unit, series CC, Converter size (mm): 63, 100, 160, Small and large flow available, High cylinder operation speed, Air port size: 3/8 (63), 1/2 (100), 3/4 (160), Oil port size: 1/2 (63S, 100S), 3/4 (100L, 160L), BOLT, ACTUATOR, (GT CODES)CYLINDER HARDWARE, 11, CYLINDER HARDWARE, 0.00462 lb
210 L/min -25 to 525 L/min -50 to 1050 L/min -100 to 2100 L/min -150 to 3150 L/min -300 to 6300 L/min -600 to 12600 L/min 0 to 999,999,999 ,999 L Accumulated flow 0 to 999,999,999,990 L 0 to 999,999,999,900 L Min. setting unit Instantaneous flow 1 L/min 2 L/min 5 L/min 10 L/min Flow Accumulated flow 1 L 10 L 100 L Accumulated volume per pulse (Pulse width = 50 msec.) 1 L/pulse 10 L/pulse 100L
) 10 m DC(-)() -7No.PF-OMN0009CN-F * ( ) () CE -8No.PF-OMN0009CN-F * 3 * -9No.PF-OMN0009CN-F * , *PVC PVC PVC () PVC PVC , -10No.PF-OMN0009CN-F PF3W5 48 () 3 A : 04 20 40 11 21 0.5~4 L/min 2~16 L/min 5~40 L/min 10~100 L/min 50~250 L/min 2 04 20 40 11 21 R 04 20 40 11 21 S 250L/min G L/min(gal/min) / : SI : G : 1[L/min]=0.2642[gal/min] 1[gal/min]=3.785[L/min] 1=9/5+32 L/min 100L
Sub screen 20L/min 100L/min 200L/min Press the or button to select the sensor to be connected. Press the button to confirm. Return to function selection mode. [F 0] Sensor selection is completed. -21No.LFE*-OMZ0013 [F 1] Setting of OUT1 Set the output mode of OUT1.
Also, it should be noted that the discharge rate will be less than the normal condition. 2) Air consumption Air consumption Caution Air consumption L/min[ANR] 0 5 10 15 20 25 30 35 40 45 L/min[ANR] -If the compressor output is selected based on air consumption, 0.75kW per 100L/min (ANR) is the guide. 1 2 3 4 5 6 7 8 9 10 Hz Cycle Hz 15 3) Viscosity characteristics With reference to the
Also, it should be noted that the discharge rate will be less than the normal condition. 2) Air consumption Air consumption Air consumption (L/min [ANR]) Caution 16 -If the compressor output is selected SUP=0.5MPa L/min[ANR] 14 SUP=0.35MPa based on air consumption, 0.75kW 12 10 per 100L/min(ANR) is the guide.
If required output of compressor is calculated from air consumption, consider the output is 0.75 kW per air consumption of 100L/min (ANR) for reference. 9 2) Viscosity characteristic With reference to viscosity characteristic graph (shown below), discharge amount of transported fluid with higher viscosity can be calculated.
If required output of compressor is calculated from air consumption, consider the output is 0.75 kW per air consumption of 100L/min (ANR) for reference. 8 2) Viscosity characteristic With reference to viscosity characteristic graph (shown below), discharge amount of transported fluid with higher viscosity can be calculated.
If required output of compressor is calculated from air consumption, consider the output is 0.75 kW per air consumption of 100L/min (ANR) for reference. 0.5 SUP=0.5MPa 0.4 Discharge pressure (MPa) 0.4MPa 0.3 0.3MPa 0.2 0.2MPa 0.1 0 0 10 20 30 40 50 Discharge rate (L/min) 7 - 2) Viscosity characteristic With reference to viscosity characteristic graph (shown below), discharge amount of transported