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- BrandWING
WING is a new generation of the equipment created on the basis of the union of ease of forms and elegance which are characteristic of a glider wing. The compact small-sized case with a streamline shape of a wing, apparently, floats by air. Case elements in the form of sides of diamond hide magnificent contents in the innovative equipment, stanavlivy new standards for air veils. WING combines unique design and excellent efficiency, completely changing habitual ideas of traditional air veils.
Wing veil with the electric motor of the EU - Higher efficiency of EC engines, in comparison with AC, allows to reduce electricity consumption. It is especially noticeable in case of operation of the engine at the minimum speed because of less considerable decrease in efficiency at regulation of speed of rotation of the engine.
THE MOST SILENT VEIL IN THE MARKET
- The design of a veil is characterized by a uniform stream of air and low noise level which is transferred to surrounding space.
LOW AIR RESISTANCE ON THE ENTRANCE
- The increased area of an airintaking lattice allows to use heat exchanger power fully.
OPTIMUM CONSUMPTION OF AIR
- The special design of shovels of the fan provides increase in length of a current of air by 20% in comparison with traditional decisions.
ADAPTED TO SPECIFICS OF THE OBJECT
- Electronic regulation of a consumption of air allows to adjust easily a veil for protection of a doorway and to acoustic requirements of an object.
ELECTRIC HEATER
- The low-temperature heating element of big power ensures safe functioning of the device without damage of the fan.
COMBINATION OF FUNCTIONALITY AND STYLE
- Case elements in the form of sides of diamond hide openings for an entrance of the air stream cooling the electric motor.
Technical parameters
WATER HEATER | ELECTRIC HEATER | WITHOUT HEATER |
RANGE OF THERMAL POWER:
4 - 47 kW |
RANGE OF THERMAL POWER:
2 - 15 kW |
MAXIMUM RANGE OF THE STREAM:
4 m |
AIR CONSUMPTION:
1850-4400 m3/h |
AIR CONSUMPTION:
1850-4500 m3/h |
AIR CONSUMPTION:
1950-4600 m3/h |