In November 2008 SeaShell Awnings USA completed extensive wind testing of the
SeaShell Radial Awning. The tests were completed to validate the wind speed at
which the MagnaLoc™ release mechanism would retract the SeaShell Awning.
The MagnaLoc™ system is designed to retract and stow the structure in a safe
position when wind speeds reach 35 mph. This happens in less than 4 seconds
which is in stark comparison with standard automatic retractable awnings which
take 40 seconds and are vulnerable to wind gusts.
Even when fitted with wind sensors and complex motors, it is recommended that
owners of standard retractable awnings leave them retracted when not in use or
as weather changes. This is due to the likelihood of micro-bursts of wind that
can tear an awning off the structure. Since SeaShell retractable awnings can
withstand the extreme stresses and close so quickly, you can leave your awning
up all year round and reclaim your outdoor living area rain or shine.
The wind tests completed in November 2008 included multiple speeds, including
sustained wind speeds of 95 mph. This was done with the central spars bolted
together and the MagnaLoc™ system disabled. After 20 minutes at 95 mph, the
maximum speed capable at the testing facility, the awning was left undamaged.
Eco-Friendly
SeaShell
Awnings™ are designed to improve sustainability and outdoor living for
residences and businesses. As members of the U.S. Green Building Council,
SeaShell Awnings USA has also been discovered by the sustainable design
community as a simple and effective way to earn LEED™ certification credits .
SeaShell Awnings™ create shaded outdoor living areas that reduce heating and cooling energy costs, peak demand, and greenhouse gas emissions for residences and businesses alike. The awnings’ unique 90-degree, 180-degree, 270-degree and 360-degree designs are made out of recycled aluminum and self-retracts when faced with 35-40mph winds. Their radial shape significantly reduces direct solar heat gain through windows which directly reduces HVAC and energy demand, which ultimately reduces energy costs.
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