Silage Harvester for Corn Harving RXMC-80S RXMC 90 Twin

Silage Harvesters for Corn Harving RXMC-80S RXMC 90 Twin

A tractor mounted PTO driven silage harvester is an agricultural implement designed to efficiently harvest and chop corn and other forage crops for silage. This device attaches to a tractor and utilizes the tractor's power take-off (PTO) shaft to drive its cutting and processing mechanisms.

The harvester features a robust cutting head that effectively slices through corn stalks, pulling them into the machine. Inside, high-speed rotating blades chop the material into smaller pieces suitable for silage. The chopped material is then blown through a chute into a trailer or container pulled alongside, allowing for continuous operation without frequent stops.

The PTO-driven system ensures that the harvester is powered directly by the tractor, providing consistent power and reducing the need for separate engines. This setup not only improves fuel efficiency but also minimizes maintenance requirements. The harvester is designed for durability, often featuring reinforced steel components to withstand the rigors of heavy use in agricultural fields. Its adjustable settings allow farmers to customize the chop length according to their specific silage requirements, making it a versatile and essential tool for modern farming.

Specifications of Silage Harvester RXMC-80S/RXMC 90 Twin

Benefits of Using the Single Row Maize Choppers for Corn Harving

Single row maize choppers offer several benefits when it comes to corn harvesting, particularly for small to medium-scale farms. Some key advantages of using single row maize choppers include:

1. Precision Harvesting: Single row choppers offer greater control over the harvesting process, allowing for precise cutting of crops. This precision reduces waste and ensures a higher quality of chopped material. Farmers can adjust settings to achieve the ideal chop length for silage, optimizing the feed quality for livestock and enhancing overall farm productivity.
2. Reduced Soil Compaction: With a smaller footprint, these choppers exert less pressure on the soil compared to larger machines. Reduced soil compaction is crucial for maintaining soil health and fertility, as it allows for better water infiltration and root growth. This benefit ensures sustainable farming practices and can lead to improved crop yields in subsequent planting seasons.
3. Ease of Maintenance: Single row maize choppers have fewer complex components, making them easier and less costly to maintain. Farmers can perform routine maintenance and repairs with straightforward tools and minimal downtime. This simplicity not only extends the machine's lifespan but also ensures that it remains reliable throughout the harvesting season.
4. Versatility: These choppers can be used for various types of forage crops, not just maize, making them a versatile addition to any farm. Their adaptability allows farmers to switch between different crops without the need for multiple specialized machines. This versatility maximizes the utility of the equipment and supports diverse farming operations.
5. Improved Crop Utilization: By efficiently chopping and collecting forage, single row maize choppers help in maximizing the utilization of the entire crop. The chopped material can be used immediately for silage, reducing losses due to spoilage or inefficiencies in crop management. This capability ensures that farmers can make the most of their harvest, enhancing both yield and profitability.

Typical Applications of Silage Harvester

Silage harvesters are versatile machines commonly used in agriculture for various applications related to harvesting and processing forage crops. Here are some of the common applications of silage harvesters:

• Corn Silage Harvesting: Silage harvesters are crucial for efficiently chopping and collecting corn, a staple in livestock feed. The process involves cutting the entire corn plant and chopping it into small pieces to be stored as silage. This method preserves the nutritional value, providing a high-energy feed that supports animal growth and milk production.
• Grass Silage Harvesting: Grass silage harvesting involves using silage harvesters to cut and chop various grasses into a fermentable product. This process captures essential nutrients and moisture, creating a balanced feed source. Harvesting grass at the right stage ensures maximum nutritional value, which is vital for maintaining healthy livestock and optimizing milk yield.
• Ryegrass Harvesting: Ryegrass, known for its high digestibility and protein content, is efficiently harvested using silage harvesters. These machines chop ryegrass into uniform pieces, aiding in effective fermentation. The resulting silage serves as an excellent feed, particularly during winter months, ensuring that livestock receive adequate nutrition when pasture availability is limited.
• Clover Harvesting: Clover, rich in protein and minerals, is ideal for silage production. Harvesters effectively chop clover, preserving its nutritional content. This process prevents leaf loss and ensures a high-quality feed. Clover silage supports improved animal health and productivity, making it a valuable component of a diversified forage diet for dairy and beef cattle.
• Alfalfa Harvesting: Alfalfa is a nutrient-dense forage crop, and silage harvesters are essential for processing it into silage. The machinery chops alfalfa efficiently, preventing leaf shatter and nutrient loss. Properly harvested alfalfa silage provides high levels of protein and energy, enhancing the diet of dairy cows and promoting optimal milk production and growth.

Working Principle of Tractor PTO Driven Silage Harvester for Harving Corn

The working principle of a tractor-mounted PTO-driven silage harvester for harvesting corn involves several key steps that efficiently process the corn plants into silage. Here is an overview of how these machines typically operate:

1. Attachment to Tractor: The silage harvester is attached to the tractor via a three-point linkage system. The tractor’s Power Take-Off (PTO) shaft provides the necessary mechanical power to drive the harvester’s cutting and processing mechanisms. This direct power transfer ensures efficient operation, leveraging the tractor’s engine to perform the heavy-duty tasks of harvesting.
2. Cutting Mechanism: The harvester is equipped with a cutting head designed to slice through corn stalks at their base. As the tractor moves forward, the rotating blades or discs efficiently cut the entire plant. This ensures a clean cut, preventing damage to the corn and allowing for optimal material collection and processing.
3. Feeding System: Once cut, the corn plants are fed into the harvester through a series of rollers or conveyors. This feeding system ensures a steady flow of material into the machine, minimizing blockages and allowing for continuous operation. The consistent feed rate is crucial for maintaining efficiency and maximizing throughput.
4. Chopping Unit: Inside the harvester, high-speed rotating blades or drums chop the corn into smaller, uniform pieces suitable for silage. The chopping unit's design allows for adjustable chop lengths, enabling farmers to tailor the output to specific silage requirements. This flexibility ensures that the nutritional value of the silage is preserved.
5. Blowing and Collection: After chopping, the silage material is blown through a discharge chute into a trailer or container. This powerful blowing mechanism ensures efficient transfer of the chopped material, reducing losses and keeping operations smooth. The ability to direct the chute allows for precise placement of the silage in the collection vehicle.
6. Adjustable Settings: The harvester includes various adjustable settings, such as cutting height and chop length, allowing it to be customized for different field conditions and silage specifications. These adjustments enable farmers to optimize the machine’s performance according to crop type and desired silage quality, enhancing overall efficiency and product value.

Operation Tips:

Operating a tractor-mounted silage harvester for harvesting corn efficiently and effectively requires attention to detail and adherence to best practices. Here are some operation tips to ensure a successful corn harvesting process using a tractor-mounted silage harvester:

• Pre-Operation Inspection: Before starting, conduct a thorough inspection of the harvester and tractor. Check for any worn or damaged parts, ensuring blades are sharp and all moving components are lubricated. Verify that the PTO shaft and linkage are securely attached. This pre-operation check helps prevent breakdowns and ensures smooth functioning.
• Adjust Cutting Height: Set the cutting height according to the corn's growth stage and field conditions. Adjusting the height ensures that the stalks are cut cleanly at the optimal point, maximizing yield and reducing residue. Proper cutting height also minimizes soil disturbance, maintaining field conditions for future planting.
• Optimize PTO Speed: Ensure that the PTO speed is set to the manufacturer’s recommended level. This speed optimization is crucial for the efficient operation of the cutting and chopping mechanisms. Running at the correct speed prevents clogging and ensures that the corn is processed into uniform silage, maintaining quality and reducing wear on the machine.
• Monitor Feeding System: Continuously observe the feeding system to ensure a steady flow of corn into the harvester. Avoid overloading the machine, as this can cause blockages and reduce efficiency. If a blockage occurs, stop the machine immediately and clear it safely to prevent damage to the harvester and maintain smooth operation.
• Adjust Chop Length: Set the chop length based on the desired silage quality and nutritional requirements. Adjusting the chop length allows for better fermentation and preservation of the silage. This customization ensures that the feed is suitable for the specific needs of livestock, optimizing their health and productivity.
• Maintain Proper Tractor Speed: Operate the tractor at a consistent speed that matches the harvester’s capacity. Avoiding sudden accelerations or decelerations helps maintain a steady flow of material into the machine. Consistent speed ensures efficient cutting and chopping, maximizing the harvester’s performance and the quality of the silage produced.
• Post-Operation Maintenance: After harvesting, clean the harvester thoroughly to remove any plant residue. Inspect for wear or damage and perform necessary maintenance tasks, such as sharpening blades and lubricating parts. Regular post-operation care extends the lifespan of the equipment and ensures it is ready for future use, minimizing downtime and repair costs.

Why Choose AGKNX's Silage Harvester?

AGKNX is a leading manufacturer and supplier specializing in the production and sale of silage harvesters. Our company boasts a substantial scale, cutting-edge technology, and a dedicated team of experts, positioning us at the forefront of the agricultural machinery industry. Our silage harvesters are perfect replacements for renowned brands such as John Deere, Claas, New Holland, Case IH, Krone, Fendt, Massey Ferguson, Kuhn, Kubota, Gomselmash, Lely, Rostselmash, Kemper, Hesston, Mengele, Agco, and other famous brands of balers.

Our silage harvesters are designed with precision and advanced engineering, offering superior performance, durability, and efficiency. They are ideal for harvesting various forage crops, ensuring high-quality silage with minimal wastage. The robust construction and innovative features of our harvesters make them suitable for diverse agricultural applications, from small family farms to large commercial operations.

AGKNX's expertise and influence in the silage harvester domain are unmatched. We pride ourselves on our professional approach, adherence to international certifications, and the ability to provide customized solutions tailored to our clients' needs. Our state-of-the-art production facilities, coupled with exceptional after-sales service, underscore our commitment to excellence and customer satisfaction.

In addition to silage harvesters, we offer an extensive range of agricultural equipment, including PTO shafts, agricultural gearboxes, large round balers, mini round balers, PTO wood chippers, diesel wood chippers, corn seeders, drum mowers, rotary hay rakes, flail mowers, lawn mowers, sickle bar mowers, rotary mowers, rotary tillers, land levelers, fertilizer spreaders, furrow ploughs, disc harrows, disc blades, disc ridgers, disc ploughs, potato planters, potato harvesters, wheat seeders, vegetable seeders, post hole diggers, boom sprayers, agricultural subsoilers, agricultural trailers, disc mowers, finger wheel rakes, snow blowers, road sweepers, and more.

Author: Yjx