The role of filling hollow glass with argon
The main function of hollow glass windows is heat insulation, and filling with argon can play a vital role, because argon has very good heat preservation performance, and can also increase the stability and durability of glass windows.
Common argon filling methods
- Injection of one-way valve argon method
This method injects argon into the glass to make the glass hollow, and then injects more argon into the hollow part to fill it. The advantage of using this method is that the filling gas is sufficient, and the flow rate of argon is slow, which can maintain the filling effect for a long time. - Injection on both sides method
This method uses both sides of the glass to inject argon at the same time. This method seems to be effective, but it requires professional equipment and technology, the injection speed is slow, and the requirements for glass are very high. Once the operation is improper, the glass is easy to break. - Side punching method
This method realizes argon filling of hollow glass windows by punching holes on the side of the hollow glass and injecting argon into the hole. Save costs, but have high requirements for equipment.
Advantages and disadvantages of argon filling
- Advantages
After the hollow glass window is filled with argon, its thermal insulation performance can be greatly improved, achieving better thermal insulation effect. - Disadvantages
Filling argon requires professional equipment and technology, and the cost is relatively high; if the operation is improper, it is easy to cause problems such as glass breakage.
Filling hollow glass windows with argon is a common method of thermal insulation. Different filling methods also bring different effects. Therefore, when choosing a filling method, you need to choose a suitable method according to your actual situation to achieve the desired effect.
