Intelligent Greenhouse Irrigation Robot

greenhouse irrigation robot

automatic irrigation robot

intelligent nursery irrigation equipment

multi-span greenhouse irrigation system

Description

In large-scale greenhouse seedling cultivation scenarios, the "precision" and "efficiency" of irrigation directly determine the survival rate and growth quality of seedlings. Traditional manual irrigation is prone to problems such as missed watering, repeated watering, and uneven water and fertilizer distribution. Fixed irrigation equipment, on the other hand, is limited by spatial layout and difficult to adapt to the complex environment of multi-span greenhouses. The intelligent greenhouse irrigation robot, specially developed for greenhouse seedling cultivation, focuses on "autonomous cruising, precise identification, and cross-span operation", completely solving the pain points of traditional irrigation and becoming an efficient management tool for modern seedling bases.

Core Advantages: Redefine "Precision and Efficiency" in Greenhouse Irrigation

1. Intelligent Path Planning, Automatic Corridor Avoidance to Avoid Waste

The robot adopts the "endpoint activation + full-process autonomous cruising" mode. It only needs to complete initialization at one end of the greenhouse, and then it can automatically move at a constant speed from one end to the other along the preset path to achieve full-area coverage irrigation. Equipped with high-sensitivity environmental recognition sensors, when it moves to the middle corridor of the greenhouse, it can instantly and accurately identify the seedling-free area and stop the sprinkling action immediately; after crossing the corridor and reaching the nursery bench area, it will automatically resume sprinkling. This fundamentally avoids the ineffective consumption of water resources and water-fertilizer, with a water and fertilizer saving rate of more than 30%.

2. Automatic Cross-Span Operation, Seamless Connection for Multi-Span Greenhouses

Aiming at the multi-span layout of connected greenhouses, the robot is equipped with a high-performance drive motor and an intelligent positioning system. After completing the irrigation task of a single span, it can automatically move to the inter-span connection channel without manual intervention, and smoothly switch to the next span to continue operation. The entire cross-span process has fast response and accurate positioning, which effectively avoids the cumbersomeness and time-consuming of manual equipment transfer. It is especially suitable for standardized greenhouses with a span of 8-10 meters, enabling the irrigation management of multi-span seedling areas to achieve "one-click activation and worry-free whole process".

3. Customizable Sprinkling Mode, Adapting to Diverse Seedling Needs

Considering the differences in water demand of different crop seedlings and different seedling stages, the robot supports flexible adjustment of sprinkling parameters - it can accurately set the sprinkling pressure (adjustable from 0.1 to 0.3MPa), water flow and irrigation duration according to the seedling condition. It not only meets the "gentle water supplement" needs of delicate seedlings such as succulents and flowering plants, but also adapts to the "deep irrigation" requirements of robust seedlings such as vegetables and nursery stocks. At the same time, the sprinkler head adopts a 360° rotating design with uniform atomization effect, and the water drop diameter is controlled at 0.5-1mm, avoiding root and leaf damage of seedlings caused by water flow impact.

4. Low-Consumption and Stable Operation, Adapting to Complex Greenhouse Environment

The robot body adopts IP67 waterproof and dustproof design, which can withstand the high humidity, foggy and slightly fertilizer-corrosive environment in the greenhouse, and the service life of core components is more than 5 years. Equipped with a large-capacity lithium battery, it can work continuously for 8-12 hours on a single charge, meeting the daily irrigation needs of 1000-1500㎡ greenhouses; it supports automatic recharging function, and can automatically return to the charging base when the power is lower than 20%, ensuring uninterrupted operation. The operation terminal supports dual connection of mobile APP and greenhouse central control system, realizing remote start-stop, parameter setting and real-time monitoring of operation status.

Core Technical Parameters

Parameter Category	Specific Specifications	Application Description
Working Efficiency	300-500 ㎡/hour	Suitable for single-span/multi-span seedling greenhouses
Recognition Accuracy	±5cm (corridor/nursery bench distinction)	Ensure no invalid sprinkling
Cross-Span Moving Speed	0.8m/s	Quick connection for multi-span operation
Sprinkling Pressure	0.1-0.3MPa (adjustable)	Adapts to water needs of different seedlings
Battery Life	8-12 hours	Meet daily heavy workload needs
Control Method	Mobile APP/Central Control System/Local Operation	Flexible management for multiple scenarios

Application Scenarios: Irrigation Necessity for Full-Category Greenhouse Seedling Cultivation

Large-Scale Seedling Bases: Suitable for plug seedling cultivation of vegetables and flowers such as tomatoes, cucumbers and strawberries, realizing standardized water and fertilizer supply and improving seedling uniformity;
Connected Intelligent Greenhouses: Seamless connection for multi-span greenhouses with 8-10m span, reducing manual inspection and operation costs, especially suitable for large-scale bases over 10,000 square meters;
Scientific Research Seedling Laboratories: Precisely control irrigation volume and range, providing stable water and fertilizer conditions for variety experiments and growth environment research.

Why Choose Our Irrigation Robot?

Compared with traditional irrigation equipment, our intelligent irrigation robot is not only a "watering tool", but also a "seedling management assistant" - it combines precise recognition technology with automated operation, which not only solves the efficiency bottleneck of manual irrigation, but also avoids the spatial limitation of fixed equipment. By saving water and fertilizer, reducing labor and improving seedling condition, it helps seedling bases achieve the core goal of "cost reduction and efficiency increase".