Product Introduction

High-frequency vibrating fine screen, also known as high-frequency screen, is a type of grading equipment in a mineral processing plant. The materials are graded according to the particle size by using the different widths of the grate slits on the screen surface. Fine particles, i.e., the screened materials, can be discharged in time to avoid over-crushing caused by re-grinding. Screening out materials that meet the fineness requirements in time can increase the output of the mill, reduce energy consumption, and improve efficiency. Installing a high-frequency screen in the mineral processing circuit can screen out the coarse concentrate and send it to the mill for re-grinding, and select the screened fine particles for fine selection, which can improve the concentrate grade.

Product Performance

1.High screening efficiency: high screening efficiency, small amplitude and high screening frequency.

2.Reliable operation and beautiful appearance: The side panels of the screen box are formed by integrally bending steel plates, which not only improves the overall rigidity and working reliability of the screen machine, but also makes the appearance of the equipment more beautiful.

3.Reasonable structural design: The screen machine is designed with a new principle. It is a new structure with high efficiency and vibrating screening machine. Nylon or stainless steel sieve plates are generally used.

4.Can be flexibly equipped with different types of electric control cabinets: The screening machine can be equipped with different types of electric control cabinets according to the different needs of customers to achieve a variety of additional functions such as parameter setting, remote centralized control, historical records and fault alarms.

How it works

High-frequency vibrating fine screen, also known as high-frequency screen, is a type of grading equipment in a mineral processing plant. The materials are graded according to the particle size by using the different widths of the grate slits on the screen surface. In the grinding circuit, the grinding products are controlled and graded, and the coarse particles are screened out, that is, the overscreen material is returned to the mill for re-grinding. The fine particles, that is, the underscreen material, can be discharged in time to avoid over-crushing caused by re-grinding. Screening out materials that meet the fineness requirements in time can increase the output of the mill, reduce energy consumption, and improve efficiency. Installing a high-frequency screen in the mineral processing circuit can screen out the coarse concentrate and send it to the mill for re-grinding, and select the underscreen fine particles, which can improve the grade of the concentrate.