Ultrasonic vibrating screen

The ultrasonic vibrating screen is a high-precision screening device designed to address the screening challenges of fine and micro-powder materials. By combining the ultrasonic system with traditional vibrating screens, it generates high-frequency, low-amplitude ultrasonic vibrations on the screen surface, effectively solving the problem of screen blockage caused by adhesion and agglomeration of fine powder materials, and achieving efficient and precise screening. The core components of the device include a vibrating screen and an ultrasonic system (ultrasonic generator, transducer, high-frequency connecting cable). The ultrasonic transducer converts electrical energy into mechanical vibrations and transmits them to the screen, with a vibration frequency of up to 20-40kHz. Coupled with the three-dimensional vibrations generated by dual vibrating motors, this creates a complex motion trajectory for the materials on the screen, ensuring both screening efficiency and improving classification accuracy. It is widely used in industries such as chemical, pharmaceutical, food, new materials, and metallurgy, especially for the classification, impurity removal, and purification of easily agglomerating and high-precision materials such as talcum powder, graphite powder, traditional Chinese medicine powder, lithium battery materials, and metal powders. It is an efficient screening device that balances precision and efficiency in the fine processing of fine powder materials.
Product Features
1. High screening efficiency: During the screening process, ultrasonic vibrating screens can subject materials to high-speed vibration and ultrasonic impact, thereby reducing screen hole blockage and enhancing screening efficiency. 2. Ultrasonic vibrating screens feature a refined screening structure, enabling effective separation and classification of minute particles. Furthermore, due to the special properties of ultrasonic vibration, it can remove static electricity and adherents on the surface of materials, thus improving screening accuracy.
3. Low energy consumption: Due to the improved screening efficiency of ultrasonic vibrating screens, the energy consumption required is correspondingly reduced.
4. Low noise and low energy consumption: Compared to traditional vibrating screens, ultrasonic vibrating screens operate with lower noise levels. Additionally, as they do not require an external excitation source, they are compact in size and consume less energy.
5. Easy to clean: The screen mesh of the ultrasonic vibrating screen is made of special materials and adopts a modular design, making it convenient for disassembly and cleaning.