Introduction to Hollow Glass Inflation Line

The operation process of the hollow glass inflation line generally includes the following main steps:

1. Glass preparation: First, prepare the two glass panels that need to be made of insulating glass, ensure that the glass surface is clean, and conduct size and quality inspections as required.

2. Aluminum frame installation: Place the aluminum frame between the glass panels, ensuring that there are no gaps between the frame and the glass panels.

3. Sealing preparation: Apply sealant around the aluminum frame to ensure even and secure sealing.

4. Inflation treatment: Place the sealed insulated glass on the inflation line, and inject an appropriate amount of gas (usually dry air or nitrogen) into the cavity of the insulated glass through the gas injection system of the inflation line to improve insulation and sound insulation performance.

5. Pressure control: Set an appropriate gas pressure and ensure the stability and equilibrium of the gas inside the hollow glass.

6. Testing and inspection: Conduct airtightness and quality testing on the inflated hollow glass to ensure that the product meets the standard requirements.

7. Completed product: After inflation treatment and passing inspection, the hollow glass product can be taken offline, ready for packaging and transportation.

Hollow glass inflation line plays an important role in the production process of hollow glass. The following are some applications of insulated glass inflation lines:

1. Improving thermal insulation performance: By injecting gas into the cavity of the insulating glass, the thermal insulation performance of the insulating glass can be effectively improved. The commonly used inflating gases include dry air and diluted nitrogen, which can reduce heat conduction and improve the insulation effect of insulating glass.

2. Improving sound insulation performance: By filling the cavity of the insulating glass with gas, vibration conduction can be effectively reduced, thereby improving the sound insulation performance of the insulating glass. Inflated insulating glass can better isolate external noise.

3. Improve airtightness: The inflation line can ensure the stability and pressure balance of the gas inside the insulating glass, thereby ensuring the airtightness of the insulating glass. This helps to prevent water vapor infiltration and reduce the pressure difference inside the glass caused by temperature changes.

4. Production efficiency improvement: The hollow glass inflation line equipment can achieve automated production, accelerate production speed, and improve production efficiency. The application of inflation lines can increase the production yield and quality of insulating glass, and reduce production costs.

Overall, the application of hollow glass inflation line in the production of hollow glass is of great significance, as it can improve the performance and quality of hollow glass, while also improving production efficiency.