1.Product Description
Senyou high efficient ultrasonic vibrating sieve for superfine particle converts 220V, 50Hz or 110V, 60Hz electrical energy into 38kHz high-frequency energy, which is then fed into an ultrasonic transducer, generating 38kHz mechanical vibrations for efficient screening and screen cleaning. This system, based on a traditional vibrating screen, introduces a low-amplitude, high-frequency ultrasonic vibration wave (mechanical wave) onto the screen. A high-frequency, low-amplitude ultrasonic vibrator is superimposed on the screen. Ultrafine powders are subjected to tremendous ultrasonic acceleration, keeping them suspended on the screen surface, thereby suppressing factors such as adhesion, friction, and flattening, which can cause screen clogging. This system solves the screening challenges of strong adsorption, easy agglomeration, high static electricity, high fineness, high density, and low specific gravity, making ultrafine powder screening a simple task. It is particularly suitable for users of high-quality, fine powders.
2.Features:
1)Decomposes adherent matter, reduces oversize, and increases screen penetration by 5-20 times compared to conventional vibrating screens.
2)Accelerates the separation of agglomerated, high-static, high-fine, high-density, light-weight, and adsorbed materials, thereby increasing screening capacity.
3)Unique screening system eliminates the need for any additional screen cleaning devices.
4)Improves screening accuracy by 70%, increasing output by 1-15 times, and is suitable for screening fine particles larger than 400 mesh.
5)Does not alter the properties of the screened material, making it particularly suitable for new materials.
3.Specifications:
Senyou high efficient ultrasonic vibrating sieve for superfine particle
4.Working Principle
Senyou high efficient ultrasonic vibrating sieve for superfine particle an ultrasonic screening system added to a conventional vibrating screen. It inputs 220V, 50Hz or 110V, 60Hz electrical energy into an ultrasonic transducer, which converts it into 36kHz mechanical vibrations. The generated ultrasonic waves cause the screen to vibrate at a high frequency, reaching up to 36,000 times per second. This creates a micro-suspension of fine powders on the screen, allowing them to pass through more quickly without generating static electricity or sticking to the screen, achieving both screening and cleaning effects.
