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Sichuan BENO Energy Conservation and Environmental Protection Technology Co., Ltd.
Sichuan BENO Energy Conservation and Environmental Protection Technology Co., Ltd.
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150-350 TPH 3 Deck Vibrating Screens Large Throughput For Small Material Screening

Product Details

Place of Origin: Sichuan, China

Brand Name: BENO

Certification: CE, ISO9001

Model Number: XCYK2160

Payment & Shipping Terms

Minimum Order Quantity: 1 set

Price: USD 30,876.71-44,516.13 one set

Packaging Details: Simple Package

Delivery Time: 25 days

Payment Terms: L/C, T/T

Supply Ability: 800 sets / year

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Specifications
Highlight:

Vibrating Screens Large Throughput

,

350 TPH 3 deck vibrating screen

,

150 TPH triple deck vibrating screen

Output:
150-350 TPH
Screen Area (㎡):
12.6
Screen Specification (mm):
2100*6000
Maximum Feed Size:
150 Mm
Vibration Frequency:
740 R/min
Tilt Angle:
20°
Output:
150-350 TPH
Screen Area (㎡):
12.6
Screen Specification (mm):
2100*6000
Maximum Feed Size:
150 Mm
Vibration Frequency:
740 R/min
Tilt Angle:
20°
Description
150-350 TPH 3 Deck Vibrating Screens Large Throughput For Small Material Screening
 
150-350 TPH Output Vibrating Screens Large Throughput Small Material Screening
 
 
Equipment Description
This series of products is mainly used for the final product design of screening stone grading in the quarry, and can also be used for product grading in coal preparation, mineral processing, building materials, power and other parts.
This Vibrating Screens have the internationally advanced shaft block eccentric vibration exciter and the super welded frame structure box, which is solid and durable. The motor drives the vibration exciter and eccentric block to generate strong centrifugal force through the high-speed rotation of the tire coupling, making the screen body make a forced and continuous circular running track, so that the material on the screen surface can be thrown up and down quickly and continuously, and the loose and fine material will fall from the screen hole to the lower screen plate. At the same time, the material stuck on the screen hole can also jump out to avoid accumulation. The discharge end is obtuse angle, which slows down the material flow speed, Improve screening efficiency.

Vibrating screens are widely used in various industries for efficient material screening and separation. They are designed to handle large throughput capacities, typically ranging from 150 to 350 tons per hour (TPH). The primary purpose of a vibrating screen is to separate particles of different sizes and shapes based on their physical properties.

One of the key features of vibrating screens is their ability to handle a large volume of material. With the specified throughput range of 150 to 350 TPH, these screens can effectively process a significant amount of feed material within a given time frame. This high throughput capacity makes vibrating screens suitable for applications where large quantities of material need to be screened and classified efficiently.

Vibrating screens utilize mechanical vibrations to generate a continuous motion that causes the material to move across the screen surface. The screen is typically composed of multiple layers of mesh or perforated plates with different aperture sizes. These layers allow for the separation of material into different fractions based on their size.

Small material screening is a specific application of vibrating screens, where the focus is on efficiently screening smaller-sized particles. The vibrating motion of the screen helps to stratify the material, ensuring that smaller particles pass through the screen openings while larger particles are retained. This process allows for precise classification and separation of materials according to their size ranges.

The design of vibrating screens takes into consideration various factors to ensure optimal performance. These factors include the screen inclination angle, vibration frequency, amplitude, and the shape and size of the screen openings. These parameters can be adjusted to achieve the desired screening efficiency and throughput capacity for a particular application.

 
 
Techncial Reference Data
Model Number of layers Screen area (㎡) Screen specification (mm) Maximum feed size (mm) Production capacity (t/h) Vibration frequency (r/min) Dual amplitude (mm) Power (kw) Installation inclination (°) Weight (t)
XCYK1230 1 3.6 1200*3000 ≤150 8-80 960 8 5.5 20° 2.2
2 940 2.8
3 800 11 3.5
XCYK1548 2 7.2 1500*4800 ≤150 35-180 970 8 11 20° 5.2
3 15 6.2
4 6.8
XCYK1860 2 10.8 1800*6000 ≤150 100-255 800 8 18.5 20° 6.9
3 7.5
4 740 22 8.2
XCYK2160 2 12.6 2100*6000 ≤150 150-350 740 8 22 20° 9.8
3 30 10.8
4 37 12
XCYK2460 2 14.4 2400*6000 ≤150 150-450 740 8 37 20° 10.8
3 150-600 45 12.8
4 15.2

 
 

Working Principle

Vibrating screens operate based on a simple principle of mechanical vibration. The screens are designed with one or more layers of mesh or perforated plates that have different-sized openings. When the screen is subjected to vibration, either through a motor or an eccentric drive system, it causes the material to move and separate.

The mechanical vibration generates a continuous motion that allows the material to be stratified on the screen surface. As the material is fed onto the screen, smaller particles can pass through the openings in the mesh or plates, while larger particles are retained. This separation process is achieved by the combination of gravity and the vibrating motion of the screen.

The vibrating motion is typically generated by an electric motor with adjustable settings for vibration frequency and amplitude. The vibration frequency determines how quickly the material moves on the screen, while the amplitude controls the magnitude of the vibration. Adjusting these parameters allows for customization of the screen's performance based on the specific application requirements.

By employing this principle of mechanical vibration, vibrating screens efficiently separate particles of different sizes and shapes. They are widely used in various industries for material screening, grading, and classification. The screens play a crucial role in ensuring that the desired material size fractions are obtained, facilitating the efficient processing and handling of bulk materials.

 


Screening Site
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Our History
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