Low energy consumption aluminum alloy thermal insulation windows usually adopt a multi-cavity structure design. This design improves the thermal insulation performance by setting up multiple air cavities in the window frame. Air is an excellent insulator, and these air cavities can effectively slow down the transfer of heat, thereby reducing the heat loss caused by the temperature difference between indoor and outdoor.
2. High-performance thermal insulation materials
Thermal insulation strips: In the parts where the inside and outside of the aluminum alloy frame are separated, thermal insulation strips with different properties (such as polyurethane or other high-performance plastic materials) are often used to delay heat conduction. In this way, the heat exchange between the inner and outer frames can be greatly reduced.
Low thermal conductivity: The window frames and window sashes are made of materials with low thermal conductivity to further reduce the transfer of heat.
3. Use of insulating glass
Low-energy aluminum alloy windows are usually equipped with insulating glass. Insulating glass is composed of two or more pieces of glass with air (or argon) in the middle to form a certain cavity. Through this design, heat conduction and sound transmission can be effectively reduced. The insulation effect of this hollow structure is better than that of single-layer glass.
4. Air tightness and water tightness
Air tightness: Ensuring the sealing performance of the window can effectively prevent heat from being lost through the gap and reduce heat loss caused by air convection. Good sealing can also prevent external moisture from entering and avoid condensation around the window.
Water tightness: Through reasonable drainage design, ensure that the window will not affect the indoor environment when rainwater invades, and improve the durability and comfort of the window.
5. Coating technology
The glass surface of low-energy aluminum alloy windows often uses low-emissivity (Low-E) coating. This coating can effectively reflect long-wave thermal radiation while allowing a certain proportion of visible light to pass through. Through this mechanism, the loss or absorption of heat can be effectively controlled while keeping the room bright.
6. Inner opening and tilting design
Ease of use: The design of the inner opening and tilting window allows the window to face inward when it is opened, making it easier to clean, maintain and ventilate.
Controlled ventilation: This design makes ventilation more controlled, and you can choose to open the window at a small angle to achieve safe ventilation without directly affecting the heat loss in the room.
7. Energy saving and ecological benefits
Through the above design, the low energy consumption aluminum alloy thermal insulation window effectively reduces the indoor heat loss in winter and the cold air loss in summer, and improves the overall energy efficiency of the building. By reducing the dependence on air conditioning and heating, energy consumption is reduced, while improving the comfort and quality of the living environment.
Low Energy Consumption Aluminum Alloy Thermal Insulation Inner Opening And Tilting Window achieves effective insulation effect through a combination of multiple factors such as multi-cavity structure, high-performance insulation materials, hollow glass, good air tightness and water tightness, low-emissivity coating and humanized inner opening and tilting design. These designs not only improve the thermal insulation performance of the window, but also play an important role in energy saving, which meets the requirements of energy saving and environmental protection of modern buildings.
