Screen plates, also known as sieve plates or mesh panels, are essential components in various screening and filtration systems. These plates consist of a perforated surface or mesh made from materials such as stainless steel, polyurethane, or rubber. Dewatering Screen primary function is to separate particles of different sizes by allowing smaller particles to pass through while retaining larger ones. Screen plates play a crucial role in industries such as mining, wastewater treatment, and agriculture, where precise particle separation is necessary for efficient operations. They are available in a range of sizes, configurations, and materials to suit specific application requirements.

Screen plates serve a diverse range of applications across various industries. They are commonly used in screening and filtration processes to separate particles of different sizes from a fluid or solid mixture. In mining operations, screen plates are employed to classify and separate minerals based on size, facilitating ore processing and recovery. In wastewater treatment plants, they help remove solids from liquid waste streams, ensuring environmental compliance and water quality. In agriculture, screen plates are utilized in irrigation systems to filter out debris and sediment from water sources, protecting irrigation equipment and improving crop yields. Additionally, Dewatering Screen plates find applications in food processing, pharmaceuticals, and manufacturing, where precise particle separation is essential for product quality and consistency. Overall, screen plates play a critical role in enhancing efficiency, productivity, and quality across various industrial processes.

Choosing screen plates with dewatering functionality involves considering several factors. Firstly, look for materials known for their dewatering capabilities, such as polyurethane or rubber, which can efficiently remove moisture from solids. Additionally, consider the design of the screen plate, including its perforation size and pattern, to ensure effective drainage while retaining desired particles. Look for features like reinforced edges or drainage channels to enhance de–watering performance.

The working principle of dewatering screen plates involves separating solids from liquids by applying mechanical force. As the mixture passes over the screen plate surface, the liquid component drains through the perforations or mesh openings, leaving behind the solids. The inclination angle of the screen plate, along with vibration or agitation, helps accelerate the dewatering process by promoting fluid movement and drainage. This allows for efficient removal of moisture from the solids, resulting in a drier product output. Overall, dewatering screen plates operate on the principle of mechanical separation to achieve desired moisture content in the processed material.

Tianjin Taishouxing International Trade Co., Ltd., established in 2011, is a professional manufacturer and exporter specializing in the production of steel deep processing products and other building materials. With 12 years of development history, the company’s main products include scaffolding, steel props, formwork, and pedal.Located in the Huayuan High-tech Industrial Park in Tianjin, the company’s production facilities are situated near Guo Tianjin Daqiu Zhuang, close to the 205 National Road, 70 kilometers from Tianjin Xingang Port, and 50 kilometers from Tianjin Airport, making transportation by water, land, and air extremely convenient. Covering an area of 100,000 square meters, the company currently employs 130 people and has an annual production capacity of approximately 400,000 tons of construction-related products.

The company’s products target both domestic and international markets, providing various types of vibrating screens, tension screens, circular vibrating screens, arc screens, centrifuges, and other washing equipment required for mud removal, dewatering, and classification in the bulk materials industry. Additionally, the company offers spare parts processing for imported coal selection equipment to major domestic coal conglomerates, including replacement of key components and equipment overhaul services.

Our company produces dewatering screen plates, which include:

High Frequency Vibrating Screen: Designed for dewatering purposes. The screen plate features polyurethane frame with stainless steel strip seams or full polyurethane strip seams. The vibrator selection includes ZDQ series vibrators or vibrating motors. It is suitable for a feed particle size of 0-5mm and is used for dewatering froth coal and coal slurry in coal mines, as well as dewatering fine sand in non-coal applications.

Also Read: What is Vibrating Screen Centrifuges?

Sieve Bends:

Available in vibrating and non-vibrating variants, both designed for dewatering purposes. The vibrating variants come equipped with vibrating motors, while the non-vibrating variants do not include motors. The screen plate features curved screen plates. Vibrator selection includes vibrating motors. It is suitable for a feed particle size of 0-5mm and is used for dewatering froth coal and coal slurry during transportation in coal mines, as well as dewatering fine sand in non-coal applications.

Our company’s advanced manufacturing technology for screen plates ensures that our products possess characteristics such as low noise, low energy consumption, high efficiency, large processing capacity, long service life, and maintenance-free operation, which are highly favored by our customers. Our company places great emphasis on product quality, employing advanced testing methods and comprehensive equipment. We have a stringent quality assurance system in place and have obtained ISO9001:2000 international quality management system certification.

Additionally, we have a comprehensive after-sales service team consisting of professional technical personnel with years of experience in coal preparation plant management, operation, and equipment maintenance. They are responsible for providing users with comprehensive services, including equipment installation guidance, on-site debugging, on-site testing, on-site training, regular follow-ups, and 24-hour response.