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In the field of agricultural machinery, wheeled tractors are the "power center" of comprehensive field operations. Take the company's 120-horsepower smart wheel tractor as an example. This model is specially designed to meet the needs of large-scale farm operations. Traditional tractors mostly use mechanical control systems, with a traction force of about 12kN, while the new model is equipped with an electronically controlled high-pressure common rail diesel engine (National IV emission standards) and a 16+16 crawler gearbox, with a maximum traction force of 22kN and an operating speed range of 0.8-15km/h. In order to adapt to complex working conditions such as muddy fields and mountain slopes, the model is equipped with an automatic 2WD/4WD switching system and a hydraulic power steering device, which reduces the driver's operating intensity by 40%. At the intelligent level, the tractor integrates Beidou positioning (accuracy ±2cm) and remote monitoring terminal, which can realize automatic path planning and real-time transmission of operation data (such as fuel consumption, operating area, fault warning). This model has been widely used in the Northeast Plains. Compared with traditional tractors, it improves the overall operating efficiency of corn and soybean fields by 35%.
The field of intelligent weeding machines has extremely high requirements for accuracy and environmental protection. The company's multi-spectrum intelligent laser weeding machine is a representative product in the field of green planting. For organic vegetable bases, the weeding rate of traditional mechanical weeders is about 85%, and it is easy to damage the crop roots. The company's weeder uses a RGB camera + near-infrared sensor combination with an AI recognition accuracy of ≥98.5% (can distinguish crop seedlings from weeds such as barnyardgrass and crabgrass). The 1064nm fiber laser execution module can achieve "plant-level precision weeding" with a burst error of ≤3mm. Taking a 50-acre organic tomato base as an example, this weeder is equipped with a 60Ah lithium battery and can operate continuously for 6 hours. The daily weeding area is 20-25 acres, and the weeding rate is ≥95%. It completely replaces chemical herbicides, ensures zero pesticide residues in crops, and complies with organic agricultural product certification standards. At present, the product has been promoted in Shandong, Yunnan and other places, helping organic farms reduce weeding costs by 60%.
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In the field preparation and sowing process, rotary tillers and precision seeders are key equipment to ensure crop yields. The company's 2.5-meter-wide rotary tiller is suitable for 100-150 horsepower tractors and is used for large-area land preparation operations. The soil breaking rate of traditional rotary tillers is about 75%, and the plowing depth is 15-20cm. By optimizing the structure of the rotary tiller blades (made of 65Mn spring steel) and increasing the number of knives from 36 to 48, the soil breaking rate is increased to ≥90%, and the plowing depth adjustment range is extended to 12-25cm. In terms of precision seeders, the 2BMF-12 no-till seeder integrates the functions of sowing, fertilizing, and covering soil. It uses an air-suction seed metering device. The sowing accuracy is ≥97% (single grain rate), and the row spacing adjustment range is 30-70cm. Taking the wheat growing area in Henan as an example, this seeder can complete 15-20 acres of sowing operations per hour. Compared with traditional seeders, it saves 10% of the amount of seeds used and increases the crop emergence rate by 8-10%. The integrated rotary tillage and seeding operation shortens the land preparation cycle by 2-3 days, effectively avoiding the impact of bad weather on the farming season.
It can be seen from these product cases that the current agricultural machinery industry is developing in the direction of intelligence, environmental protection, and integration. Advances in material science, such as the application of high-strength alloy steel and wear-resistant ceramic coatings in key mechanical components, have significantly improved product durability; continuous innovation in manufacturing processes, and the gradual popularization of precision forging, laser cutting and other technologies have improved production efficiency and product consistency; digital technology has been integrated into the entire process of mechanical design, production, and after-sales, enabling intelligent monitoring and remote maintenance of equipment. In the future, with the continuous advancement of agricultural modernization and the growing demand for green agriculture, the agricultural machinery industry is expected to usher in a broader development space driven by technological innovation.
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