In an organic fertilizer production line, the granulation process is crucial in determining product quality. The new type organic fertilizer granulator, thanks to technological breakthroughs, has become a core piece of equipment driving the upgrading of the fertilizer industry. With its high efficiency, intelligence, and durability, it provides strong support for converting organic waste into high-quality fertilizer.
High-efficiency granulation builds core competitiveness. The equipment adopts advanced dual-mold granulation technology, innovatively integrating extrusion and rolling composite processes, completely breaking through the pelletizing rate bottleneck of traditional granulators. The pelletizing effect far exceeds that of conventional equipment. The processing capacity of a single unit is significantly improved, adapting to both mainstream production needs and large-scale processing scenarios, perfectly matching the production plans of enterprises of different sizes. The produced granules are uniformly spherical, with adjustable diameter, excellent compressive strength, and are not easily broken or clump, greatly optimizing the storage, transportation, and application experience. Furthermore, it breaks through the limitations of conventional processes; raw material moisture content can be within a wide range without pre-drying, allowing for direct batching and granulation, significantly saving energy consumption and pre-processing time.
Intelligent control achieves precise granulation. The equipment is equipped with a PLC digital control system that can monitor key parameters such as raw material moisture, granulation temperature, and spindle speed in real time. It automatically adjusts pressure, mixing frequency, and feeding speed for various raw materials, including livestock and poultry manure, composted straw, mushroom residue, and municipal sludge. When processing high-moisture manure, the system automatically reduces the feeding rate and optimizes pressure; when dealing with high-fiber straw, it adjusts the mixing frequency to enhance material embedding, truly achieving "one machine for multiple uses." This eliminates the need for frequent manual adjustments and significantly lowers the operational threshold.
Durable structure reduces long-term costs. Core components are made of composite materials such as high-manganese steel and wear-resistant ceramics, significantly enhancing wear resistance and resisting friction from hard impurities and corrosive components in the raw materials. The service life of core wear parts is significantly extended compared to traditional equipment. The equipment adopts a modular design, making it easy to disassemble and replace components such as granulation rollers and mixing paddles, greatly saving maintenance time and reducing downtime losses. The machine boasts a robust and compact structure, with the transmission components fixed to the same frame, ensuring smooth operation and convenient installation. This further reduces site adaptation and debugging costs for businesses. Optimized mold and pressure roller design also prevents uneven wear.
This new type organic fertilizer granulator overcomes the traditional granulation problems of low efficiency, poor quality, and high maintenance costs, becoming a key link between the resource utilization of organic waste and the development of green agriculture, injecting new momentum into the high-quality development of ecological agriculture.