The linear vibrating screen uses a vibration motor to excite the vibration as the driving force, causing the raw materials to be thrown up on the stainless steel screen mesh. At the same time, they move forward in a uniform straight line. The raw materials are evenly fed from the vibrating feeder to the feeding port of the screening equipment. The linear vibrating screen creates various specifications and models of screened materials and undersized materials based on the double layer stainless steel screen mesh, and each is discharged from its respective inlet and outlet.
Linear vibration screens are classified into high-frequency linear vibration screens and mining linear vibration screens.
The high-frequency linear vibrating screen has the advantages of low energy consumption, high production capacity, simple structure, easy maintenance, fully enclosed structure, dust generation and scattering, fully automatic feeding, and is more suitable for assembly line production.
The mining linear vibration screening is driven by dual vibrators. When two vibrators rotate in the same step and opposite direction, the excitation force caused by their axial force blocks collides with each other in the direction parallel to the centerline of the motor, and is stacked together in the direction perpendicular to the motor axis. Therefore, the trajectory of the screening machine is a parallel line. The two motor shafts of the mine linear vibrating screen manufacturer's equipment have a tilt angle relative to the screen powder. Under the combined effect of the excitation force and the self force of raw materials, the raw materials are thrown up on the screen surface and jump forward to make a uniform linear movement, thus achieving the goal of selecting and grading raw materials.
The linear vibrating screen used in mining can be used to complete automation technology work in the production line. The linear vibrating screen used in mining has the characteristics of low energy consumption, high efficiency, simple structure, easy maintenance, and fully enclosed structure for dust generation and dispersion. The maximum screen mesh is 400 mesh, and 7 kinds of raw materials with different particle size distribution can be screened.
High frequency linear vibrating screen can also select and classify powdery and granular raw materials. High frequency linear vibrating screen is widely used in plastics, wear-resistant materials, chemical plants, pharmaceuticals, decorative building materials, cereals, carbon plants, Manure and other fields.
The linear vibrating screen uses a vibration motor to excite the vibration as the driving force, causing the raw materials to be thrown up on the stainless steel screen mesh. At the same time, they mo