Vortex Tube Cooler

  • Product EfficiencyExtremely cool air may decrease the temperature of cutters, avoid temperature of cutter too high which will become sinter then it will cause “cutter broken” and “damage on the surface of work piece.” The cool air may balance the temp. of cutting part, avoid deforming of work piece, and increase work accuracy. After testing, compared with general air, the extremely cool air may weaken the sudden friction obstruction, prolong cutter life, and make the surface of work piece more smooth. As everybody knows, oil mist may lubricate the cutting part, and it may protect cutters to make the surface flatter. Hence, extremely cool air plus oil mist make your work perfect.
  • It may improve the efficiency of heat insulation.
  • EnduranceIt may produce cool air rapidly; no consumption material; long tool life; low cost; endurable for usage .
  • LubricatorSpiral tube cooler with lubricator may improve the roughness of work piece then increase the fineness of surface; it may reach superior solution through cool air plus oil mist, and prolong tool life and working period.
  • Environmental protectionNo electric power and coolant needed; safe, clean, and no pollution. 
  • Temperature of cool airWith multi-layers of thermal tube which may decrease the influence of surrounding temperature to cool air.
  • Easy to operateEasy to use, it may produce very cool air through the driving of air compressor(recommended power: above 5HP)Any person may use it easily without training.
  • Easy to adjustThere is a valve at the entry which may avoid oily and you don’t need to set the volume of oil mist again next time, you  may adjust and select cool air or cool air plus oil mist easily.  
  • Temperature control separatelyFor divided series only.  It may cut off heat into proper place and keep the work room in a constant temperature.
  • ApplicationApply for electronic and 3D mold engraving industries, cutting PCB, plastic, acrylic, huge metal, woodwork, Cu, Al, cast iron, etc., also good at nano-grade-machinery working.  It may decrease the working temperatureand shake and promote the working quality.
  • Vortex Tube Cooler-Testing Statistics
STC-V1LD
Vertical Spiral Oil Mist Tube
Air temperature15°C
Pressure Air introduced in total
100%
Cold air in total
43%~100%
Temperature of cold air
(Air Volume43%)
cold air
temperature difference
4kgf/cm2 195L/min 65~180L/min -25.4°C 40.4°C
5kgf/cm2 225L/min 75~210 /min -28.3°C 43.3°C
6kgf/cm2 255L/min 85~240L/min -31.5°C 46.5°C
7kgf/cm2 285L/min 95~270L/min -34.1°C 49.1°C
8kgf/cm2 315L/min 105~300L/min -37.4°C 52.4°C
STC-BW2/BW1/BW1L
Testing Statistics (Vast Air)
Air temperature 28°C
Pressure Air introduced in total
100%
Cold air in total
65%~100%
Temperature of cold air
(Air Volume65%)
cold air
temperature difference
4 kgf/cm2 460L/min 315~460L/min -3.7°C 31.7°C
5 kgf/ cm2 510L/min 330~510 L/min -5.5°C 33.5°C
6 kgf/ cm2 560L/min 360~560 L/min -7.3°C 35.3°C
7 kgf/ cm2 610L/min 395~610 L/min -9.1°C 37.1°C
8kgf/ cm2 655L/min 425~655L/min -10.9°C 38.9°C
STC-BW2D Testing Statistics (Vast Air)
Air temperature 28°C
Pressure Air introduced in total
100%
Cold air in total
57%~100%
Temperature of cold air
(Air Volume65%)
cold air
temperature difference
4 kgf/cm2 510L/min 295~510L/min -4.2°C 32.2°C
5 kgf/ cm2 540L/min 310~540 L/min -6.3°C 34.3°C
6 kgf/ cm2 570L/min 325~570 L/min -8.4°C 36.4°C
7 kgf/ cm2 595L/min 345~595 L/min -10.5°C 38.5°C
8kgf/ cm2 625L/min 360~625L/min -12.6°C 40.6°C
  • Vortex Tube Cooler-Testing Statistics
STC-V1LD
Vertical Spiral Oil Mist Tube
Air temperature15°C
Pressure Air introduced in total
100%
Cold air in total
43%~100%
Temperature of cold air
(Air Volume43%)
cold air
temperature difference
4kgf/cm2 195L/min 65~180L/min -25.4°C 40.4°C
5kgf/cm2 225L/min 75~210 /min -28.3°C 43.3°C
6kgf/cm2 255L/min 85~240L/min -31.5°C 46.5°C
7kgf/cm2 285L/min 95~270L/min -34.1°C 49.1°C
8kgf/cm2 315L/min 105~300L/min -37.4°C 52.4°C
STC-BW2/BW1/BW1L
Testing Statistics (Vast Air)
Air temperature 28°C
Pressure Air introduced in total
100%
Cold air in total
65%~100%
Temperature of cold air
(Air Volume65%)
cold air
temperature difference
4 kgf/cm2 460L/min 315~460L/min -3.7°C 31.7°C
5 kgf/ cm2 510L/min 330~510 L/min -5.5°C 33.5°C
6 kgf/ cm2 560L/min 360~560 L/min -7.3°C 35.3°C
7 kgf/ cm2 610L/min 395~610 L/min -9.1°C 37.1°C
8kgf/ cm2 655L/min 425~655L/min -10.9°C 38.9°C
STC-BW2D Testing Statistics (Vast Air)
Air temperature 28°C
Pressure Air introduced in total
100%
Cold air in total
57%~100%
Temperature of cold air
(Air Volume65%)
cold air
temperature difference
4 kgf/cm2 510L/min 295~510L/min -4.2°C 32.2°C
5 kgf/ cm2 540L/min 310~540 L/min -6.3°C 34.3°C
6 kgf/ cm2 570L/min 325~570 L/min -8.4°C 36.4°C
7 kgf/ cm2 595L/min 345~595 L/min -10.5°C 38.5°C
8kgf/ cm2 625L/min 360~625L/min -12.6°C 40.6°C
STC-V1/STC-V2/STC-V1L/STC-V2D
Testing Statistics
Environment temperature 30 °C /Air temperature 27.5 °C
Pressure Air introduced in total
100%
Cold air in total
100%
Temperature
OfCold Air
(Air Volume45%)
(RoomTemper Ature)
cold air
temperature difference
cold air
temperature difference
4 kgf/cm 2 175L /min 80~ 175L /min - 5.8 °C 35.8°C 33.3°C
5 kgf/ cm 2 200L /min 90~ 200 L /min - 8.5°C 38.5°C 36°C
6 kgf/ cm 2 225L /min 100~ 225 L /min - 11.2 °C 41.2°C 38.7°C
7 kgf/ cm 2 250L /min 110~ 250 L /min - 13.8°C 43.8°C 41.3°C
8kgf/ cm 2 275L /min 120~ 275L /min - 16.4 °C 46.4°C 43.9°C

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