Working principle, advantages, and technical parameters of continuous hyperbolic double curvature mould bent glass tempering furnace

Continuous double curvature mould bent glass tempering furnace is an advanced glass deep treatment equipment that adopts a hyperbolic shape design and continuous production method, which can improve the strength and heat resistance of glass. This article will provide a detailed introduction to the working principle, advantages, and key technical parameters of the continuous double curvature mould bent glass tempering furnace in this article, aiming to help readers have a more comprehensive understanding of this modern glass processing equipment.

1. Working principle:

The working principle of a continuous double curvature mould bent glass tempering furnace is based on temperature control and glass quenching process, mainly including the following steps:

1.1. Glass heating:

Glass enters the tempering furnace through a conveying system and is first heated through a preheating zone to reach the tempering temperature.

1.2. Tempering process:

The heated glass enters the tempering zone, where the glass surface is rapidly cooled by high-pressure airflow, forming surface compressive stress and internal tensile stress, thereby improving the strength and heat resistance of the glass.

1.3. Cooling balance:

The tempered glass passes through the cooling balance zone, gradually reducing its temperature to room temperature, and is ready to be taken out of the furnace.

2. Advantages:

Compared to traditional glass processing equipment, the continuous double curvature mould bent glass tempering furnace has the following significant advantages:

2.1. High production efficiency:

The continuous production method enables the glass tempering furnace to achieve efficient production, greatly improving production efficiency and output. By continuously heating and cooling processes, the waiting time of the converter is saved, further enhancing production capacity.

2.2. Excellent tempering quality:

Due to the hyperbolic shape design, the continuous double curvature mould bent glass tempering furnace can more accurately control the deformation of glass during the tempering process, ensuring the consistency and stability of tempering quality. The surface compressive stress and internal tensile stress formed by it make tempered glass have high impact resistance, heat resistance, and wind pressure resistance.

2.3. Strong flexibility and adaptability:

The continuous double curvature mould bent glass tempering furnace has a large processing size range and can handle glass products of different thicknesses, shapes, and sizes. This flexibility makes the tempering furnace adaptable and able to meet the needs of different industries and customers.

2.4.Automation control system:

The continuous double curvature mould bent glass tempering furnace is equipped with advanced automation control system, which can achieve precise temperature control, airflow control, and production process monitoring. Operators can easily set and adjust parameters through touch screens and other interfaces, improving the reliability and stability of production.

3. Technical parameters:

The key technical parameters of the continuous double curvature mould bent glass tempering furnace include the following aspects:

3.1. Heating power:

Usually measured in kilowatts (kW), it represents the heating capacity of the tempering furnace.

3.2. Production capacity:

refers to the glass area or weight that a continuous tempering furnace can process per hour, often measured in square meters per hour or tons per hour.

3.3. Tempering size:

Refers to the large size range of glass products that can be processed by a continuous double curvature mould bent glass tempering furnace, usually measured in length, width, and thickness.

3.4. Tempering temperature range:

refers to the low and high tempering temperature range that can be achieved by the tempering furnace, generally determined by specific glass types and requirements.

3.5. Air flow control:

By adjusting parameters such as air flow speed and nozzle arrangement, a uniform glass cooling effect can be achieved.

The continuous double curvature mould bent glass tempering furnace plays an important role in the glass industry with its advanced working principle, significant advantages, and key technical parameters. The characteristics of high production efficiency, excellent tempering quality, strong flexibility and adaptability, and automated control system make the continuous double curvature mould bent glass tempering furnace a key equipment for glass deep treatment. In the future, with the continuous development of technology, the continuous double curvature mould bent glass tempering furnace will be further improved and innovated, bringing more opportunities and technological breakthroughs to the glass industry