NanoSox

URR™ (Uniform air velocity, Reducer, Retention)-N series



URR™ is a uniform velocity air dispersion system with Internal Retention Ring. By perfectly integrating IRR™ (Internal retention ring system) with UR™ system (uniform velocity air dispersion system), URR™ system remains round and taut when deflated, absorbing all the advantages of both products, such as more even airflow system, better aesthetic, easier to produce, lighter weight, convenient for packaging and transportation, simple installation, washable, long service life, higher strength and economical.
  • Compared with transition system

  • More elegant and aesthetic than large-size

WHERE TO USE?

  • POST AIR SUPPLY AREAS Given high ambient temperature, large
    airflow and relatively long duct in
    such areas as machining workshop
    and automobile factory, URR air dispersion system
    maintains high and uniform inner air
    velocity by continuously changing conicity
    to achieve even air dispersion
    and significantly reduce temperature rising.
  • LARGE AND HIGH-ELEVATION FACILITY Given large airflow and high
    ambient temperature in high and large
    stadium and automobile workshop,
    UR air dispersion system is applied
    to obtain higher air velocity
    at each orifice and longer air
    throw distance with simple and
    aesthetic appearance.
  • HIGH DEMAND FOR PRECISE AIR THROWS AND EVEN AIR DISPERSION Given the high requirement of
    even air dispersion along the duct
    and strict control of terminal air
    velocity, the global leading design
    software Isox5.0 is used to
    calculate and generate continuously
    variable diameter UR system to
    identify as the best uniform velocity
    air dispersion system.
  • HIGH DEMAND FOR COST EFFICIENCY Given the high space and large
    airflow in such areas as pharmaceutical
    logistics warehouse and cold chain
    logistics, both effective air dispersion
    and cost efficiency shall be taken
    into consideration. UR air dispersion
    system can not only ensure even air
    dispersion but also reduce overall cost
    because of less fabric consumption,
    which improves cost efficiency.