Drip irrigation is a full pipeline water delivery and local micro-irrigation to minimize water leakage and loss. At the same time, because the water required for the root zone of the crop can be supplied in a timely manner, there is no problem of loss of peripheral water, and the utilization efficiency of water is greatly improved. Irrigation can be easily combined with fertilization, that is, the fertilizer is dissolved and then poured into the irrigation system. Because the fertilizer is combined with the irrigation water, the fertilizer nutrient is directly and evenly applied to the root layer of the crop, realizing the synchronization of water and fertilizer, greatly improving the effective use of fertilizer. The rate is also due to small-scale local control, micro-irrigation, and less water and fertilizer leakage, which can save fertilizer application and reduce pollution. The use of fertigation techniques provides convenience for crops to replenish expensive trace elements in a timely manner and avoids waste. Greenhouse drip irrigation is only controlled manually or automatically by valves, and combined with fertilization, it can significantly save labor input and reduce production costs.
Sprinkler & Drip series
1. Water saving, fertilizer saving, and labor saving.
2、Control temperature and humidity.
In the greenhouse of traditional furrow irrigation, the amount of water is large at one time, and the surface is kept moist for a long time. Not only the shed temperature and ground temperature decrease too fast, but the temperature rises slowly, and the evaporation increases. The indoor humidity is too high, which may lead to vegetable or flower pests and diseases. Because drip irrigation is a local micro-irrigation, most of the soil surface is kept dry, and the dripper supplies water to the root soil layer evenly and slowly, which has obvious effects on maintaining and recovering the ground temperature, reducing water evaporation and reducing indoor humidity. Under the membrane drip irrigation, the drip irrigation tube (belt) is placed under the membrane, the effect is better. In addition, due to the convenient operation, greenhouse drip irrigation can implement high-frequency irrigation, and the outlet hole is small, the flow rate is slow, the time of each irrigation is long, and the soil moisture variation is small, so the soil in the root zone can be controlled to remain close to the long time. Most suitable for the growth of vegetables, flowers and other humidity. By controlling the indoor air humidity and soil moisture, the occurrence of pests and diseases can be significantly reduced, and the amount of pesticides can be reduced.
3. Maintain the soil structure.
Under the effect of the large irrigation volume of traditional gully irrigation, the soil of the facility is subject to more erosion, compaction and erosion. If the soil is not ploughed in time, it will lead to severe compaction, decreased ventilation and a certain degree of damage to the soil structure. The drip irrigation is a small amount of greenhouse irrigation, and the water slowly and evenly penetrates into the soil, which can maintain the soil structure and form a suitable soil water, fertilizer and heat environment.
4. Improve quality, increase production and increase efficiency.
Since the application of drip irrigation reduces the application of water and fertilizer, pesticides and the occurrence of pests and diseases, the quality of the products can be significantly improved.
In short, compared with traditional irrigation methods, greenhouses or greenhouses use greenhouse drip irrigation, which can greatly increase product output, increase morning market time, and reduce the cost of water and fertilizer, pesticide application and labor, so economic benefits and society The benefits are significant. Facility gardening drip irrigation technology adapts to the requirements of high-yield, high-efficiency and high-quality modern agriculture, which is the root cause of its existence and promotion.