Overview of Vibrating Screens:
Mainly divided into linear vibrating screens and circular vibrating screens.
Another name for vibrating screens is: three-dimensional vibrating sieve separator - vibrating powder sifter - rotary vibrating screener - oscillating sieve - oscillatory sieve - vibrating screener - round sieve - circular vibrating sieve.
The motion trajectory of the circular vibrating screen is circular. The rotary vibration sieve makes a circular motion, and it is a multi-layered, high-efficiency new type of vibrating screen. The circular vibrating screen uses a cylindrical eccentric shaft vibrator and adjustable amplitude counterweights; the material screening line is long, with multiple screening specifications. It is specially designed for quarries to screen stones but can also be used in mining, coal selection, mineral processing, construction materials, electric power, and chemical industries for product grading. It has features such as reliable structure, strong excitation force, high screening efficiency, low vibration noise, sturdiness, durability, easy maintenance, and safe use.
The ZSG and YZS series of circular vibrating screens are highly efficient vibrating screens suitable for sand and gravel screening at quarries and can also be used for product grading in coal selection, mineral processing, construction materials, electric power, and chemical industries.
Classification of vibrating screens:
What types of vibrating screening equipment are there and how are they specifically classified?
Vibrating screening equipment can be classified by weight and purpose into: mining vibrating screens, lightweight fine vibrating screens, and laboratory vibrating sieves.
Mining vibrating screens can be further divided into: high-efficiency heavy-duty screens, self-centering vibrating screens, elliptical vibrating screens, dewatering screens, circular vibrating screens, banana screens, and linear vibrating screens.
Lightweight fine vibrating screens can be divided into: rotary vibrating screens, linear screens, straight discharge screens, ultrasonic vibrating screens, filter screens, etc., which can be referenced in the vibrating screen series.
Laboratory vibrating screens include: tapping screens, top-impact vibrating sieves, standard inspection sieves, electric vibrating sieves, etc., please refer to laboratory equipment.
Of course, such classification is not entirely scientific, and some people suggest classifying according to the material's motion trajectory on the vibrating screen. Here's a simple breakdown for reference only:
Classified by linear motion trajectory: Linear vibrating screen (the material moves forward in a straight line on the screen surface).
Classified by circular motion trajectory: Circular vibrating screen (the material moves in a circular motion on the screen surface).
I always think that if we classify based on motion trajectories, each trajectory would have only one or two types of vibrating screens, leading to too many classifications.