Automatic Transplanters

Lillard’s vegetable transplanter is particularly good at fine vegetable planting:

1. Precision transplanting of leafy vegetables: In the planting of leafy vegetables such as lettuce, spinach, and Chinese cabbage, the self-propelled vegetable transplanter can accurately control the spacing and planting depth of seedlings. For example, for lettuce planting, the spacing can be accurately set at 15-30 cm and the depth can be controlled at 3-5 cm according to the growth characteristics of different varieties, ensuring that each lettuce can obtain sufficient growth space and nutrients. Compared with manual transplanting, it greatly improves the uniformity of planting and lays the foundation for the uniformity of growth and yield increase of leafy vegetables in the later stage.

2. Professional planting of special vegetables: for some special vegetables with high economic value and special planting requirements, such as kale and purple-backed amaranth. The self-propelled transplanter can be equipped with special seedling removal and planting components to achieve efficient transplanting without damaging the seedlings. For example, kale has a relatively fragile root system. The gentle seedling removal action of the transplanter can protect the root system to the greatest extent, improve the survival rate after transplanting, and meet the market demand for the cultivation of such high-quality special vegetables.
Facility agriculture scene

3. Efficient cultivation of greenhouse vegetables: In a greenhouse environment, space is limited and the planting stubble is tight. The self-propelled vegetable transplanter is small in size and flexible in operation, and can shuttle freely in the narrow greenhouse aisles. Taking cucumber planting as an example, the use of a transplanter in a greenhouse can quickly complete large-scale transplanting work. At the same time, according to environmental factors such as temperature and humidity inside the greenhouse, the planting parameters can be adjusted in real time to ensure that the cucumber seedlings take root and grow quickly in a suitable environment, thereby improving the planting efficiency and economic benefits of greenhouse vegetables.

4. Mountain and hilly vegetable planting: In areas with large terrain fluctuations such as mountains and hills, traditional large agricultural machinery is difficult to use. Self-propelled vegetable transplanters can operate in these complex terrains due to their good maneuverability and passability. Taking pepper planting as an example, in mountainous areas with a slope of no more than 25°, the rice transplanter can flexibly transplant pepper seedlings along the trend of the terraces, solving the problem of low mechanization of vegetable planting in mountainous areas, improving the production efficiency of vegetable planting in mountainous areas, and promoting the development of the vegetable industry in mountainous areas.

5. Flexible operation of small-scale land: for many small and irregularly shaped fields. The self-propelled vegetable transplanter has a small turning radius and is easy to operate, and can easily adapt to the boundaries and shapes of small fields. When planting vegetables such as eggplants and beans on these small fields, the rice transplanter can efficiently complete the transplanting task, avoiding the high-intensity labor of manual transplanting, and improving land utilization and planting benefits.

6. Rapid transplanting of large-scale vegetable planting: in large-scale vegetable planting bases, for large-scale planting of single varieties of vegetables, such as a 10,000-acre tomato planting base. Self-propelled vegetable transplanters can be grouped together for operation. Each machine can transplant 3,000 to 6,000 seedlings per hour, greatly shortening the transplanting cycle, ensuring large-scale transplanting within the best farming time, ensuring the consistency of vegetable growth, facilitating unified management and harvesting in the later stage, and improving the overall operational efficiency of the planting base.

7. Collaborative operation with other agricultural machinery: In large-scale planting bases, self-propelled vegetable transplanters can work in coordination with other agricultural machinery such as rotary tillers, fertilizer applicators, and sprinklers. After completing the land rotary tillage and fertilization, the transplanter immediately transplants the seedlings, and then the sprinkler irrigates in time, forming a complete set of mechanized planting processes, improving the mechanization and automation level of the entire planting base, reducing production costs, and enhancing the competitiveness of vegetable products in the market.