Linear Vibrating Screen

Linear Vibrating Screen 1
Linear Vibrating Screen 2
Linear Vibrating Screen 3
Linear Vibrating Screen 4

Linear Vibrating Screen

Driven by dual vibration motors, the linear vibrating screen utilizes centrifugal force to generate a linear reciprocating vibration of the screen body. The material jumps forward along the screen surface, making it highly suitable for non-sticky granular and powdery materials.

It can be configured with 1 to 5 layers of screen mesh, capable of separating materials into 2 to 7 different particle sizes. With a screening accuracy of over 96%, its fully enclosed structure effectively prevents dust leakage.

Widely used for particle size classification across various industries, such as quartz sand, chemical fertilizers, limestone, table salt, and traditional Chinese medicine (TCM) powder.

ADVANTAGES

1.High Efficiency & Energy Saving: Driven by dual motors, the equipment generates a strong exciting force, increasing processing capacity by 30%–50% while reducing energy consumption by 30%.

2.Optimized Structure: The modular design allows for quick screen mesh replacement. Equipped with a bouncing ball cleaning system to reduce screen blinding, it effectively extends the service life of the screen mesh.

3.Eco-friendly & Low Noise: The fully enclosed housing completely prevents dust leakage. Additionally, rubber springs provide excellent shock absorption, keeping the noise level at or below 75dB to significantly improve the working environment.

4.Flexible Adaptability: Both the screen deck inclination and vibration amplitude are adjustable to accommodate different material characteristics. It also seamlessly supports automated assembly line operations.

PRODUCT STRUCTURE

Linear Vibrating Screen 5

The equipment operates on the principle of two vibration motors rotating synchronously in opposite directions. The exciting forces generated by the eccentric blocks cancel each other out along the parallel axis of the motors, while they superimpose in the vertical direction to form a resultant force. This resultant force drives the screen body to vibrate periodically in a linear reciprocating motion.

Driven by the combined forces of vibration and gravity, the material moves forward in a parabolic jumping trajectory along the screen surface. Particles smaller than the screen apertures fall through the screen, while the coarse particles continue to move forward until they are discharged from the outlet. The material's movement speed and screening efficiency are precisely controlled by coordinating the screen deck inclination and the vibration frequency, thereby achieving accurate particle size classification.

TECHNICAL PARAMETERS

ModelNumber of layersScreen surface size (mm)Screen mesh numberFeeding size (mm)Processing capacity (t/h)Power (kw)Double amplitude (mm)Frequency (times/min)Screen surface inclination (degrees)
GDS-10301-51000X30002-120<20<21.1X26-101460/9600-10
GDS-12401-51200X40002-120<20<31.5X26-101460/9600-10
GDS-15301-51500X30002-120<20<52.2X26-101460/9600-10
GDS-15451-51500X45002-120<20<53X26-101460/9600-10
GDS-18401-51800X40002-120<20<74X26-101460/9600-10


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