Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
Series VQZ Body Ported Solenoid Valves combine flexibility with high performance and long life in an inline body style.
M agnet Gripper Unit for Collaborative Robots Install an air filter. Install an air filter upstream near the valve. Select an air filter with a filtration size of 5 m or smaller. 3. Take measures to ensure air quality, such as by installing an aftercooler, air dryer, or water separator. Compressed air that contains a large amount of drainage can cause the malfunction of pneumatic equipment, such as air grippers.
41 .5 7.50 3.8, 255 Deep type (mm) ZPT16g 16 18 12.5 17.5 20 38.5 25 43.5 3.5 ,.2 ! ! Model A .9 0 H:M6. x ' H :M8 xl y 40 43 29 35.5 3 25 6t 4.5 15 1 51 '7 E Deep type (mm) 'kClir F: , G C f F I G '1 ZPT40D y ZPT100 10 12 15 20 20 41 25 46 6 .
T Y P E F L AT W I T H R I B I: M6X1 I: M5X0.8 Y Model A B C D E F G H H Flat Flat with rib G ZPR10 U C 10 12 12 21 29.9 46 20 67 72 3 1.7 25 ZPR13 U C 13 15 12 21 29.9 46 20 67 72 3 1.8 25 ZPR16 U C 16 18 12.5 21.5 30.4 46.5 20 67.5 72 3.5 1.2 25 D E E P T Y P E I: M6X1 I: M5X0.8 Model A B C D E F Y G H H G ZPR10D 10 12 15 24 32.9 49 20 70 75 6 25 ZPR16D 16 18 16 25 33.9 50 20 71 76 7 25
Use flexible tubing in between to avoid such an effect. VEA VY1 VBA VBAT AP100 711
Use flexible tubing in between to avoid such an effect. VBA VBAT AP100 769
/m3. ( ) Therefore, with an air flow rate of 3m3/min (22kW equivalent compressor), the amount of condensed water per unit of time is 15.2 x 3 x 60 = 2736g/h. 6 7 8 3 1 2 3 4 5 Dew Point Conversion Chart 60 50 40 30 Pressure dew point C 20 10 1.5MPa 1.3MPa 1.1MPa 0.9MPa 0.7MPa 0.5MPa 0.3MPa 0.1MPa Atmospheric pressure 0 -40 -30 -20 -10 -60 -50 -60 -50 -40 -30 -20 -10 0 10 20 30 Atmospheric
Model Power source Frequency (Hz) 50 25 12 60 20 8 50 45 20 60 40 15 50 60 25 60 50 20 AC VXD21 DC AC VXD22 DC AC VXD23 DC Operating Fluid and Ambient Temperature Operating fluid temperature (C ) High temperature oil (3) Ambient temperature (C ) Temperature conditions Power source Water (Standard) Air (Standard) Oil (Standard) (D, E, N, P) High temperature water (3) (D, N) 99(4) 100(4) AC