The round stainless steel ultrasonic vibrating screen should be more widely used in the industry?
The screen surface of the circular stainless steel ultrasonic vibrating screen has both circular translation and swing vibration around the center of mass of the screen machine, that is, a spatial compound motion, with the help of the impact and shear force generated by the vibration of the screen surface, and the sliding down caused by the inclination of the screen surface A bouncing ball is placed on the force and the sieve plate, the sieve machine works, and the bouncing ball constantly rebounds the screen, thereby effectively overcoming the various bonding forces between the material and the material, and the material and the screen surface, realizing the powerful rolling of the material, and accelerating the material The loosening, separation and penetration of the sieve. Improve the processing capacity and screening efficiency of the screener. It is the unique feature of this screen which is different from conventional screening.
It is widely used in chemical industry, food industry, metallurgy and mining industry, pollution treatment and other industries. In other industries such as: carbon black, light calcium, additives, pearl powder is also very common. The stainless steel vibrating conveyor can be screened within a certain range of particles, powders and mucus. The minimum sieving is 500 mesh or 0.028mm, and the minimum filtering is 5 microns. Graded screening, one to five layers of screens can be screened, and two to six levels of sorting or filtering can be carried out at the same time
The screen surface of the circular stainless steel ultrasonic vibrating screen is a spatial compound movement, and the analysis of the movement state of the material on the screen surface is more complicated. This paper focuses on the analysis of the movement law and state of the single particle material on the screen surface of the rotary vibrating screen, and the computer simulation is used to provide a theoretical basis for the design of the rotary vibrating screen. Obtain the relative motion trajectory curve. At the same time, it introduces the experimental debugging method, adjusts the angle between the eccentric blocks, analyzes the movement state of the screen machine, observes the movement state and trajectory of the material on the screen surface, and obtains the main factors affecting the movement trajectory of the material, and how to test and debug to achieve The best working condition of the sieve machine.