The energy-saving effect of broken bridge aluminum doors and windows is mainly reflected in the following aspects:

1、 Thermal insulation performance

Broken bridge aluminum doors and windows adopt broken bridge technology, and the insulation strip in the middle effectively prevents the conduction of indoor and outdoor heat. In summer, it can prevent high temperatures from entering indoors and reduce the frequency and duration of air conditioning usage; In winter, it prevents indoor heat loss and reduces the energy consumption of heating.

For example, in a room with the same area and temperature difference between indoor and outdoor, the energy consumption of air conditioning or heating required to maintain a comfortable temperature in a room with broken bridge aluminum doors and windows is significantly lower than that in a room with ordinary doors and windows.

2、 Sealing performance

Good sealing performance can reduce air infiltration. Broken bridge aluminum doors and windows are usually equipped with high-quality sealing strips and sealing wool strips, which can effectively prevent air circulation when closed. This means that indoor air conditioning or heat will not easily leak outside, thereby reducing energy consumption.

For example, in windy weather, aluminum doors and windows with good sealing performance can clearly feel that the indoor temperature is more stable and will not experience temperature fluctuations due to air leakage.

3、 Selection of Glass

Broken bridge aluminum doors and windows can be paired with energy-saving glass such as insulated glass and Low-E glass. Hollow glass has good insulation and sound insulation effects, which can reduce indoor and outdoor heat exchange. Low-E glass can reflect infrared and ultraviolet rays, further improving energy efficiency.

Assuming that on a sunny day, using Low-E glass for broken bridge aluminum doors and windows can effectively block a large amount of heat from entering the room, * the burden of air conditioning.

4、 Block solar radiation

The surface treatment of some broken bridge aluminum doors and windows has low emissivity, which can reduce the heat caused by solar radiation. This helps to reduce the rise in indoor temperature and decrease the demand for cooling.

For example, installing such doors and windows in the direction of direct sunlight will result in a relatively slow increase in indoor temperature.

In summary, through its unique structural design, high-quality sealing performance, suitable glass selection, and surface treatment, the broken bridge aluminum doors and windows significantly improve the energy-saving effect of doors and windows, saving energy expenses for households and buildings, while also helping to reduce the impact on the environment.