In insightful research, it has been unveiled that utilizing broken-grain corn presents a significantly more favorable feed-to-meat ratio in the realm of ruminant farming compared to traditional crushed corn. The challenge with crushed corn lies in its abundance of fine materials, which hinder the essential rumination and absorption processes in animals, slowing fat growth and heightening the likelihood of rumen accumulation and diarrhea. Alarmingly, it may even escalate the risk of rumen acidosis. Fortunately, our innovative PL300 corn grain breaker, crafted with precision by Nanjiang Intelligent Equipment (Shandong) Co., Ltd., masterfully manages the roller gaps to achieve the optimal corn grain breaking effect. Through the sophisticated interplay of squeezing, shearing, and tearing mechanisms, the corn grains are crushed to perfection, minimizing powdery by-products and significantly enhancing the feed conversion rate.
| 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, a groundbreaking small feed processing equipment developed by our company, boasting independent intellectual property rights. Uniquely crafted without reliance on any national standards, this remarkable crusher is tailored for small-scale sheep or chicken farmers rather than the professional feed processing industry. It opens new horizons for these users, offering them a bespoke solution that aligns perfectly with their scale and needs.
At the heart of this cutting-edge machine lie two core components, meticulously constructed from 45# carbon steel seamless pipes and subjected to an advanced frequency-modulated quenching heat treatment process. These innovative rollers are designed for interchangeability and reversibility, ensuring prolonged durability. The design takes into account the speed differential between the main and auxiliary rollers, resulting in significantly reduced wear on the main roller. The auxiliary roller, with its essential tooth edge, plays a pivotal role in determining the grain breaking efficacy. Ingeniously, when one side of the auxiliary roller's teeth wears out, the roller can be flipped, while the main roller remains untouched. Once both sides are exhausted, a new auxiliary roller is introduced, with the main roller enduring for double the lifespan of any auxiliary roller.
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