Aerogel Solid Material Vacuum Packaging Machine
Specifications
Product details
Aerogel is a new type of low-density porous nanomaterial with a unique nano-porous three-dimensional network structure. It features extremely low density, high specific surface area, and high porosity (porosity up to 80-99.8%, pore size typically 1-100 nm).
During the packaging process of nano aerogel, issues such as large air volume, heavy dust, low specific gravity causing floating, and difficulty in compact packaging are common. This packaging machine completely solves these problems, replacing manual packaging which suffers from low efficiency, poor accuracy, heavy dust, and difficulty in handling. It is a new-generation equipment with high weighing accuracy and simple operation, widely applicable for packaging ultrafine powder materials.
Working Principle:
Utilizing the pressure difference between the vacuum chamber and the feeding device, the powder is sucked into the packaging bag inside the vacuum chamber. Weighing is controlled by a vacuum ratio control valve, enabling powder packaging in a sealed vacuum state. It effectively solves issues of weighing, sealing, dust, gas, and labor intensity. The packaging bag can be completely gas-free, and the packaging process is carried out in a closed environment without dust.
Features:
- Uses vacuum negative pressure suction for material feeding, manual bagging, fully automatic quantitative packaging
- Automatic weighing and quantitative packaging of powder, weight parameters adjustable
- Large, medium, and small valve feeding modes to improve working speed and ensure accuracy
- Adjustable packaging speed, weighing accuracy, and height of the weighing bag support plate according to production needs
- Automatic protection functions for inverter, sensor, instrument, etc.
- Full dust-sealing technology, overall appearance adopts fully enclosed dust-proof structure
- Independent air extraction system to solve gas issues in powder packaging
- Dust removal system ensures no dust at the packaging site, reducing material waste and environmental pollution
