Kedar Rubber offers a High-Quality Grate Plate / Grate Discharge Diaphragm for Ball Mills.
At Kedar Rubber Products Private Limited, we deliver high-quality rubber products including Grate Plate/ Grate Discharge Diaphragm which are widely used in several industries for efficient milling processes. The grate plate works in cycle with discharge mechanisms and other mill liners to ensure the ground material flows in the mill perfectly and protects the ball mill structure from wear. .
All About Grate Plate/Grate Discharge Diaphragm
A Grate Plate needs to be installed at the discharge end of the ball mill. Its key function is to allow ground materials to go through the holes of the grate plate and hold back ungrounded large particles.
Thus, the grate plate liners work as a filter and a protective layer that controls the distribution of particle size in the discharge stream. Hence, only desired size particles pass through the grate holes. Thus, the grate plate helps protect the ball mill’s inner surfaces from wear and damage from the grinding media and materials.
The prime feature of the Grate Discharge Diaphragm is its perforation. These precision-made holes are specially designed to pass fine particles through them. Besides, the pattern, size, and shape of the perforations depend on the required particle size of distribution based on the need of specific application. Thus, the shape and size of the grate plate liners are important design factors that impact the efficiency of the overall grinding process. Moreover, the thickness of grate plates is a significant factor to withstand the continuous abrasion and impact from the grinding material and media. Thicker grate plates are highly durable and deliver desirable performance.
You can also attach raised profiles or lifters useful for disturbing the material and preventing blockages in the onset of the grate, normally, helpful for milling operations using wet or sticky materials.
Thus, the Grate Plate/Grate Discharge Diaphragm is an essential component of ball mills that maintains optimal mill performance, controls the discharge flow, minimizes grinding, and makes milling processes efficient.