The vibrating screen is mainly divided into a linear vibrating screen and a circular vibrating screen.
Linear vibrating screen : material moves linearly forward on the screen surface
Circular motion vibrating screen : material circular motion on the screen surface
- All components are easily accessible and removable for ease of disassembly and cleaning.
- No vertical vibration, longer life span of mesh (6 – 12 months).
- Every layer is installed an anti-blocking and cleaning facility and able to clean mesh while sieving.
- Exterior is designed for easy cleaning. Exterior permanent joints are either welded continuously, or strip welded and filled with epoxy.
- Lower headroom permits operation in confined areas, reducing cost of building and maintenance.
- Less conveying equipment is required for elevating material to the feed point.
- Greater product yields at higher production rates.
- Low energy consumption.
- High screening efficiency.
- Create low noise pollution.
- Adopt tire coupling and soft connection makes operation smooth.
- Simple structure, easy to repair.
- High durability.
- Rigid and vibrating resistance screen body.
- High capacity and reliability.
- Easy maintenance.
- Stronger Screen Box:YKR Circular vibrating screen is made up of a whole Q345 steel plate with bending processing. This guarantees the stability of the machine under its working enviornment.
- Rivet Structure:The sieve deck and the screen box are connected by rivets instead of traditional welding structure. This structure is much more stable and endurable.
- Thin Oil Lubrication:With the application of thin oil lubrication technology, YKR Circular vibrating screen has low noise. Moreover, this applicance has increased 25% of the screen capacity and enhanced 30% endurablity.
- Larger Shaft, Larger Power:YKR Circular vibrating screen has larger amplitude as installed with larger eccentric shaft. This process has effectively enhanced the working efficiency and production quality.
- With a new vibrating motor.
- Simple structure, firm and reliable.
- Less maintenance and convenient installation.
- High efficiency and low power consumption.
- Screen media: rubber, polyurethane, woven wire or perforated
- Drive: cardan shaft, V-belt drive or variable speed gear.
- Suspension: steel coil springs or molded rubber buffers
- The amplitude can be varied by adjusting the out of balance weights on the vibrating motors.
Linear vibrating screen
The linear vibrating screen is driven by a double exciter. When the two exciters are synchronized and reversely rotated, the exciting force generated by the eccentric block cancels each other in a direction parallel to the motor axis, in a direction perpendicular to the motor shaft. The stack is a combined force, so the movement of the sieve machine is a straight line.
The two motor shafts have an inclination angle with respect to the screen surface. Under the combined force of the excitation force and the material self-gravity, the material is thrown up and jumped forward in a linear motion on the screen surface, thereby achieving the purpose of screening and classifying the materials.
Circular motion vibrating screen
The circular vibrating screen mainly comprises a sieve box, a screen mesh, a vibrator, a vibration-damping spring device and a chassis.
The side plate of the circular vibrating screen is made of high-quality steel plate. The side plate is connected with the beam and the vibration stirrer base by high-strength bolts or ring groove rivets. The cylindrical eccentric shaft exciter and the partial block are used to adjust the amplitude.
The vibrator is mounted on the side plate of the circular vibrating screen box, and is driven by the motor through the V-belt to generate high-speed rotation of the exciter eccentric block, which generates a large centrifugal inertial force, and stimulates the screen box to generate a circular motion of a certain amplitude. The material is subjected to a continuous throwing motion by the impulse transmitted from the screen box on the inclined screen surface, and the particles smaller than the sieve holes are sieved in the process of meeting the screen surface, thereby achieving classification.
The vibrating screen generally consists of a vibrator, a screen box, a support or suspension device, a transmission device and the like.
The vibrators of the single-axis vibrating screen and the two-axis vibrating screen are generally classified into two types according to the eccentricity reconfiguration. The configuration of the eccentricity is better in the block eccentric type.
The screen box is composed of a screen frame, a screen surface and a pressing device. The screen frame is made up of side panels and beams. The screen frame must be rigid enough.
The support device of the vibrating screen has two types: a hanging type and a seat type. The seat type installation is relatively simple and the installation height is low, and it is generally preferred. The support device of the vibrating screen is mainly composed of elastic members, and coil springs, leaf springs and rubber springs are commonly used.
The vibrating screen usually adopts a V-belt transmission device. The structure of the vibrating screen is simple, and the number of revolutions of the vibrator can be arbitrarily selected, but the belt is easy to slip during operation, which may cause the screen hole to be blocked.The vibrating screen is also directly driven by a coupling. The coupling can maintain the stable number of revolutions of the vibrator, and the service life is long, but the number of revolutions of the vibrator is difficult to adjust.