Environmental control system

AI temperature control and shading: The AI temperature control system developed by leading enterprises can automatically adjust the transparency of glass according to the intensity of light, with an energy-saving rate of 42%. The sunroom of a villa in Shanghai utilizes temperature and humidity sensors and AI algorithms to dynamically adjust the angle of the sunshade and air conditioning supply, maintaining the indoor temperature within a comfortable range of 22-26 ℃.

Automatic response to wind and rain: the raindrop sensor is linked with the wind speed monitor. In case of a rainstorm, the roof of the sunlight room will be closed within 30 seconds, and the siphon drainage system will be started at the same time to drain 100 m2 of roof rainwater within 60 seconds. The sunroom of a homestay in Hangzhou also integrates human body sensing cameras and electronic fences to ensure safety during nighttime use.

Energy Management System

Integrated photovoltaic design has become a new trend, with cadmium telluride photovoltaic glass with a transmittance of 75% generating a daily electricity output of 1.2 kWh per square meter, which can meet 30% of the household's electricity needs. Coupled with lithium iron phosphate battery packs, it can achieve continuous power supply for 72 hours on rainy days. The "smart greenhouse conference room" in a shared office space in Beijing uses photovoltaic power supply and plant wall purification to keep the indoor PM2.5 concentration below 30 μ g/m ³, increasing conference efficiency by 27%.

Humid and hot regions

Heat insulation and ventilation: the combination of double insulated glass and electric sunshade is adopted. In summer, the hot air is discharged through the top ventilation skylight, and the indoor temperature can be reduced by 4-6 ℃ with the spray cooling system. The sunroom of a villa in Guangdong is designed with a curved dome and covered with climbing vines, which naturally lowers the indoor temperature and forms an ecological sunshade barrier.

Moisture prevention and drainage: EPDM rubber sealing strips are used at the joints between the frame and glass, combined with structural adhesive sealing to prevent rainwater leakage. The top surface is designed with a drainage slope of 3% -5%, paired with 304 stainless steel tracks and waterproof rubber strips to ensure structural stability in long-term humid environments.

Cold areas

Insulation and heating: Three layer insulated glass (heat transfer coefficient ≤ 1.0W/(m ² · K)) is used, and argon gas is filled inside to enhance the insulation performance. Laying carbon fiber underfloor heating on the ground, combined with glass embedded nano electric heating film, can raise the room temperature to 22 ℃ within 15 minutes.

Anti snow and anti wind pressure: The roof structure adopts a triangular truss design, with a snow load resistance of 0.5kN/m2. Combined with aviation grade aluminum alloy profiles, the wind resistance level can reach level 12.