The ultrasonic vibrating screen frame is the core component of ultrasonic vibrating screens. Manufactured from 304/316L stainless steel, it consists of screen mesh, resonance ring, outer mesh ring and adhesive fixing structure. It supports the screen mesh and transmits ultrasonic vibration energy to ensure efficient sieving under high-frequncy vibration. Its special design accommodates 1-5 layers of screen mesh, enabling multi-stage particle separation with 2-6 different size outputs.
Working Principle:
The ultrasonic resonant power supply converts electrical energy into 38kHz high-frequency mechanical vibration, which is transmitted to the frame through the transducer. This drives the screen mesh to resonate, generating low-amplitude (micron-level) and high-frequency (20-40kHz) vibration waves. Material particles overcome adhesion and electrostatic agglomeration under ultrasonic vibration, becoming loose and passing through the screen apertures for classification. The resonance effect breaks the adssorption between particles and the screen mesh to prevent clogging. The built-in resonance ring and outer mesh ring work together to automatically clear screen hole residues through high-frequency vibration, eliminating the need for traditional rubber ball cleaning devices and avoiding secondary contamination.
Key Features:
1. Improves sieving accuracy by 1-70% and increases output by 0.5-10 times. Capable of processing 25μm powders and 10μm liquids.
2. Adhesive fixing structure with no deed corners ensures uniform stress distribution on the screen mesh. High-frequency vibration suppresses material clogging, suitable for highly adsorptive and low-specific-gravity materials.
3. Stainless steel construction provides corrosion resistance, extending screen mesh service life by over 30%. Quick-release screw connections facilitate easy cleaning and screen and screen replacement.
Applications:
1. Precision Sieving: Classification of high-precision materials such as graphite powder, metal powder and fluorescent powder.
2. Special Material Handling: Processing of easily agglomerated nanomaterials, electrostatic plastic powders and hygroscopic chemical raw materials.
If you are struggling with screen clogging and low efficiency in fine powder sieving operations, Gaozhuo's ultrasonic vibrating screen frames provide a reliable solution. We offer customized frame designs to match your existing ultrasonic vibrating screen models and specific material requirements. Contact us today to discuss your application needs and receive a detailed quotation.