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English SYM-600, SYM-800, SYM-1000, SYM-1200
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SYM600 SYM800 SYM1000 SYM1200 SYM1500
High-frequency vibrating screen is a specialized piece of equipment used to separate particles based on their size and shape. It operates at a high frequency and is designed to efficiently screen small and fine particles. This type of vibrating screen is commonly used in industries such as mining, metallurgy, construction, and chemical processing.
Small Volume, Light, and Easy to Move: The screen has a compact design, making it easy to transport and relocate as needed. It is suitable for various working environments and setups.
High Precision Screening and Efficiency: The high-frequency vibration allows for accurate and efficient screening of various materials, including powders, granules, and serous substances.
No Blocked Mesh and No Powder Flying: The design of the screen prevents the mesh from getting blocked, ensuring smooth material flow. It also minimizes the risk of powder flying during the screening process.
High Vibration Frequency: The screen operates at a very high vibration frequency, typically up to 3,000 times per minute. This rapid vibration helps in efficient particle separation.
Convenient and Fast Installation: The special mesh structure simplifies the installation process, significantly reducing the time required for setup, taking only 3 to 5 minutes.
Easy Cleaning and No Residue: The design allows for easy cleaning of blind spaces, and it ensures that no residue is left on the screen surface after each operation.
Easy Operation and Maintenance: The screen is user-friendly and straightforward to operate. Additionally, it requires minimal maintenance, contributing to its overall efficiency and reliability.
Stainless Steel 304 Contact Parts: All material contact parts are made of stainless steel 304, which is corrosion-resistant and suitable for use with various materials, including food-grade and pharmaceutical applications.
| Model | Power Of Motor | Valid Diameter Of Screen | Material | Volume | Weight |
| SYT-600 | 0.35KW | 550mm | 100% SS304 | 610mm*610mm*660mm | 65kg |
| SYT-800 | 0.55KW | 760mm | 100% SS304 | 810mm*810mm*760mm | 78kg |
| SYT-1000 | 0.75KW | 930mm | 100% SS304 | 1010mm*1010mm*860mm | 130kg |
| SYT-1200 | 1.5KW | 1130mm | 100% SS304 | 1210mm*1210mm*960mm | 170kg |
The working principle of a high-frequency vibrating screen involves the use of a high-frequency vibration to separate and classify particles based on their size and shape. The screen operates on the principle of stratification and rapid vibration, which aids in efficient particle separation.
Here's how the working principle of a high-frequency vibrating screen typically operates:
Screen Structure: The high-frequency vibrating screen consists of a rectangular or circular screening surface with multiple decks or layers. Each deck is made of fine screen mesh with different opening sizes, allowing for the classification of particles based on their size.
Vibration Generator: The screen is mounted on a vibration generator, which is typically an electric motor. This motor generates a high-frequency vibration, causing the screen surface to vibrate rapidly.
Material Feeding: The material to be screened is fed onto the screen surface through a feed hopper or conveyor. The material spreads across the screen surface due to the vibration.
Stratification: As the material spreads across the screen, particles of different sizes settle into different layers. Larger particles move to the top, while smaller particles go deeper towards the bottom layers.
Particle Separation: The rapid vibration of the screen causes the smaller particles to pass through the fine openings in the screen mesh, while larger particles are retained on the surface or in upper layers. This separation process classifies the particles into different size fractions.
Discharge: The separated particles are discharged from different outlets or chutes, depending on their size and layer placement on the screen.
Screen Cleaning and Maintenance: To prevent clogging and ensure continuous operation, the screen is periodically cleaned. This can be done manually or through various automated mechanisms, depending on the design of the vibrating screen.
Chemical Processing: In chemical plants, high-frequency vibrating screens are used for various processes like classifying, dewatering, and separating solid materials from liquid streams. They help ensure product quality and reduce waste in chemical production.
Pharmaceuticals: In pharmaceutical manufacturing, high-frequency vibrating screens are used to separate and classify different pharmaceutical powders, ensuring consistent product quality.
Ceramic Industry: High-frequency screens are employed in the ceramic industry to separate and classify ceramic materials, ensuring uniform particle size distribution.
Pulp and Paper Industry: High-frequency vibrating screens are used for screening and separating pulp and paper fibers during the papermaking process.
High-frequency vibrating screen is a specialized piece of equipment used to separate particles based on their size and shape. It operates at a high frequency and is designed to efficiently screen small and fine particles. This type of vibrating screen is commonly used in industries such as mining, metallurgy, construction, and chemical processing.
Small Volume, Light, and Easy to Move: The screen has a compact design, making it easy to transport and relocate as needed. It is suitable for various working environments and setups.
High Precision Screening and Efficiency: The high-frequency vibration allows for accurate and efficient screening of various materials, including powders, granules, and serous substances.
No Blocked Mesh and No Powder Flying: The design of the screen prevents the mesh from getting blocked, ensuring smooth material flow. It also minimizes the risk of powder flying during the screening process.
High Vibration Frequency: The screen operates at a very high vibration frequency, typically up to 3,000 times per minute. This rapid vibration helps in efficient particle separation.
Convenient and Fast Installation: The special mesh structure simplifies the installation process, significantly reducing the time required for setup, taking only 3 to 5 minutes.
Easy Cleaning and No Residue: The design allows for easy cleaning of blind spaces, and it ensures that no residue is left on the screen surface after each operation.
Easy Operation and Maintenance: The screen is user-friendly and straightforward to operate. Additionally, it requires minimal maintenance, contributing to its overall efficiency and reliability.
Stainless Steel 304 Contact Parts: All material contact parts are made of stainless steel 304, which is corrosion-resistant and suitable for use with various materials, including food-grade and pharmaceutical applications.
| Model | Power Of Motor | Valid Diameter Of Screen | Material | Volume | Weight |
| SYT-600 | 0.35KW | 550mm | 100% SS304 | 610mm*610mm*660mm | 65kg |
| SYT-800 | 0.55KW | 760mm | 100% SS304 | 810mm*810mm*760mm | 78kg |
| SYT-1000 | 0.75KW | 930mm | 100% SS304 | 1010mm*1010mm*860mm | 130kg |
| SYT-1200 | 1.5KW | 1130mm | 100% SS304 | 1210mm*1210mm*960mm | 170kg |
The working principle of a high-frequency vibrating screen involves the use of a high-frequency vibration to separate and classify particles based on their size and shape. The screen operates on the principle of stratification and rapid vibration, which aids in efficient particle separation.
Here's how the working principle of a high-frequency vibrating screen typically operates:
Screen Structure: The high-frequency vibrating screen consists of a rectangular or circular screening surface with multiple decks or layers. Each deck is made of fine screen mesh with different opening sizes, allowing for the classification of particles based on their size.
Vibration Generator: The screen is mounted on a vibration generator, which is typically an electric motor. This motor generates a high-frequency vibration, causing the screen surface to vibrate rapidly.
Material Feeding: The material to be screened is fed onto the screen surface through a feed hopper or conveyor. The material spreads across the screen surface due to the vibration.
Stratification: As the material spreads across the screen, particles of different sizes settle into different layers. Larger particles move to the top, while smaller particles go deeper towards the bottom layers.
Particle Separation: The rapid vibration of the screen causes the smaller particles to pass through the fine openings in the screen mesh, while larger particles are retained on the surface or in upper layers. This separation process classifies the particles into different size fractions.
Discharge: The separated particles are discharged from different outlets or chutes, depending on their size and layer placement on the screen.
Screen Cleaning and Maintenance: To prevent clogging and ensure continuous operation, the screen is periodically cleaned. This can be done manually or through various automated mechanisms, depending on the design of the vibrating screen.
Chemical Processing: In chemical plants, high-frequency vibrating screens are used for various processes like classifying, dewatering, and separating solid materials from liquid streams. They help ensure product quality and reduce waste in chemical production.
Pharmaceuticals: In pharmaceutical manufacturing, high-frequency vibrating screens are used to separate and classify different pharmaceutical powders, ensuring consistent product quality.
Ceramic Industry: High-frequency screens are employed in the ceramic industry to separate and classify ceramic materials, ensuring uniform particle size distribution.
Pulp and Paper Industry: High-frequency vibrating screens are used for screening and separating pulp and paper fibers during the papermaking process.
