Ultrasonic vibratory screen is an advanced powder classification equipment that uses high-frequency vibration and ultrasonic technology to achieve rapid and efficient classification and separation. Unlike traditional mechanical vibrating screens, ultrasonic vibrating screens can generate powerful vibration energy, thereby greatly improving classification accuracy and efficiency.
With excellent classification performance and wide applicability, ultrasonic vibrating screens have been widely used in many advanced manufacturing fields such as chemical industry, new materials, food, and pharmaceuticals. It can not only meet the production needs of high-purity, highly-dispersible powders, but also plays an important role in improving product quality and production efficiency. Overall, this innovative powder classification technology provides an efficient and reliable solution for the fine processing of various types of fine powders.

Features & Advantages

The feature and advantages of Ultrasonic vibratory screen

1. High classification accuracy:
It can accurately separate micron or even sub-micron ultra-fine powder particles. The classification effect is far better than that of traditional mechanical vibrating screens.
2. Good separation efficiency:
The powerful ultrasonic vibration enables small particles to pass through the screen quickly. It has high processing capacity and the classification efficiency can reach more than 90%.
3. Low energy consumption:
The power consumption of the ultrasonic vibration drive system is lower than that of traditional vibrating screens. The overall energy consumption is lower, more energy-saving and environmentally friendly.
4. Compact structure:
The equipment is compact in size and occupies a low area. Easy to integrate into the production line to improve space utilization.
The operation is simple and does not require professional control.

Application

Ultrasonic vibratory screens can be used for screening and classifying a variety of materials, including but not limited to the following materials:

1. Chemical industry:
Fractionation and separation of inorganic salt micropowders such as alumina, calcium carbonate, and silica fume. Screening of fine chemical products such as catalysts and adsorbents
2. New materials field:
Classification of various advanced ceramic powders and metal powders. Screening of new carbon materials such as graphene and carbon nanotubes
3.Pharmaceutical industry:
Fine classification of pharmaceutical powders such as raw materials and excipients. Separation and purification of traditional Chinese medicine extracts and biological products
4. Food industry:
Classification of food additives, spices, pigments and other edible powders. Screening of food raw materials such as grains, starches, and dairy products.

Product picture

Buying guide

1.Choose appropriate screening specifications:
According to the type and particle size range of materials to be classified, select the appropriate mesh size and screen material.
Ensure that the screening performance can meet the requirements of product quality and production efficiency.
2. Evaluate equipment capacity:
According to the material handling capacity of the production line, select the appropriate screening processing capacity. Consider future capacity expansion needs and leave appropriate expansion space.
3. Pay attention to energy consumption indicators:
Choose ultrasonic vibration motors with energy-saving technology to reduce equipment operating costs. If continuous operation is required, it is also necessary to evaluate whether the power supply is stable.
4. Evaluate the usage environment:
Select appropriate dimensions based on material characteristics and production site conditions. Ensure that the equipment can adapt to temperature, humidity, dust and other process environments.