Extensive research has illuminated the fact that the feed-to-meat ratio is remarkably superior when utilizing broken-grain corn as opposed to crushed corn in ruminant farming. The presence of excessive fine materials in crushed corn hampers effective rumination and nutrient absorption in animals, leading to slower fattening, increased risks of rumen accumulation, diarrhea, and even rumen acidosis. Our cutting-edge PL300 corn grain breaker, a flagship product of Nanjiang Intelligent Equipment (Shandong) Co., Ltd., masterfully regulates the roller gaps to achieve an optimal corn grain breakage. Through a sophisticated synergy of squeezing, shearing, and tearing actions, this machine achieves a perfect crushing result, significantly minimizes the production of powdery residues, and greatly enhances the feed conversion efficiency.
| technical parameters |
| machine model |
PL300/B/C/D |
Machine power |
3.0kw single-phase /4.0kw three-phase 4-pole motor |
| |
390 r/min |
production efficiency |
1000kg-1500kg/h |
| Crushing chamber width |
300mm |
Crushing roll size |
140*300 mm |
| Effective gap between two rollers |
1-3mm |
Feed size |
≤10mm |
| Maize moisture content |
<5% |
flour yield |
<5% |
Introducing the PL300 series corn crusher, an innovative small-scale feed processing marvel crafted by our company- Nanjiang Intelligent Equipment (Shandong) Co., Ltd. Boasting independent intellectual property rights, this machinery is a testament to our pioneering spirit, as it stands apart from conventional national standards. Ideal for small-scale sheep or chicken farmers, this equipment is not tailored for large-scale professional feed processing industries, but it is engineered to offer unmatched benefits for smaller operations.
Our machine's ingenuity lies in its two core components, both masterfully crafted from 45# carbon steel seamless pipes and enhanced with a frequency-modulated quenching heat treatment process. The dual rollers, designed to be interchangeable and reversible, showcase a distinct velocity difference between the main and auxiliary rollers. This ingenious design leads to reduced wear on the main roller compared to the auxiliary roller, whose toothed edge is crucial to grain breaking efficacy. When one side of the auxiliary roller's tooth edge becomes extensively worn, it can be reversed. However, the main roller remains fixed. Should both sides of the auxiliary roller's teeth face complete wear, a new roller is warranted while the main roller remains adjustable. This clever design ensures that the lifespan of a single main roller corresponds effectively with the utilization of two auxiliary rollers.
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