With the trend towards large-scale garlic cultivation, traditional planting, harvesting, and clove sorting rely on manual labor, which is not only inefficient and costly, but also prone to human error affecting garlic quality, thus hindering the industry's large-scale development. Leveraging its deep technological expertise in agricultural machinery, the company has launched a complete set of equipment including an integrated garlic clove sorting machine, garlic harvester, and garlic planter. This mechanized and standardized operation provides garlic growers and large-scale production bases with a comprehensive solution, achieving a leap in efficiency and quality improvement from planting to initial processing, becoming a core driver of high-quality development in the garlic industry.

Compared to traditional manual planting, the garlic planter can precisely control planting depth, plant spacing, and row spacing, avoiding the uneven density and depth problems of manual planting. This effectively improves garlic emergence rate and the consistency of later growth. One machine can replace 8-10 workers, significantly shortening the planting cycle, and is particularly suitable for large-scale planting bases of over 1,000 acres. In the harvesting stage, garlic harvesters eliminate the need for manual digging, efficiently completing processes such as garlic digging, conveying, and removing soil. This reduces garlic bulb damage and lowers the loss rate during harvesting, increasing efficiency by more than 15 times compared to manual labor. It completely solves the industry pain points of garlic harvesting being "time-consuming, labor-intensive, and resulting in high losses."

The integrated garlic clove sorting and screening machine addresses a key aspect of garlic initial processing, overcoming the limitations of manual clove sorting, which is time-consuming, easily damages cloves, and results in uneven screening. Through precise structural design, it achieves automatic clove sorting, size grading, and impurity screening in one integrated operation. This ensures the integrity of the cloves while accurately screening cloves of different sizes to meet the differentiated needs of subsequent planting or sales. In the long term, the investment in a complete garlic planting and processing system can quickly reduce labor costs. Combined with the equipment's 5-8 year lifespan, most large-scale bases can achieve a return on investment within 1-2 years. Simultaneously, standardized operating methods effectively improve garlic quality, helping growers increase product added value and promoting the transformation of garlic planting from "traditional extensive" to "precision and efficiency," adapting to the needs of modern large-scale and intensive agricultural development.

In major garlic producing areas and large-scale planting bases, this integrated equipment has gradually replaced the traditional manual labor method, and its adaptability and efficiency have been widely recognized. Whether it is small-scale planting in family farms or large-scale layout of agricultural cooperatives, the equipment can be flexibly matched according to the planting area and needs, which not only solves the problem of labor shortage, but also achieves the dual goals of cost reduction and efficiency improvement, quality improvement and income increase, injecting strong impetus into the large-scale upgrading of the garlic industry.