Multi-span GreenhouseIt Is A Model Of Modern Engineering Technology Empowering Agriculture. It Breaks The Traditional Dependence Of Agriculture On Nature And Achieves A Revolutionary Transformation Of Production Methods By Creating A Controllable Optimization Environment. Despite Facing Cost And Technological Challenges, With The Advancement Of Technology And The Emergence Of Economies Of Scale, Multi Span Greenhouses Will Play An Increasingly Important Role In Ensuring Food Safety, Improving The Quality And Efficiency Of Agricultural Products, And Will Be One Of The Core Directions For Future Agricultural Development.
Core Supporting System: The "five Organs And Six Viscera" Of The Greenhouse
A Modern Connected Greenhouse Relies On A Complex Set Of Subsystems Working Together For Its Powerful Functionality.
Ventilation System:
Top Opening Window System: Using A Rack And Pinion Push Rod Mechanism, The Top Window Is Electrically Opened, And Natural Ventilation Is Achieved Through Thermal Pressure Effect.
Side Window System: Auxiliary Ventilation.
Fan Wet Curtain System: A Combination Of Forced Cooling, Which Is The Main Force For Summer Cooling.
Sunshade And Insulation System:
Internal And External Shading Nets: External Shading Actively Reflects Sunlight To Cool Down, While Internal Shading Has Both Shading And Nighttime Insulation Functions.
Thermal Insulation Screen: Closed At Night In Winter, Effectively Reducing Heat Loss And Achieving An Energy-saving Rate Of 40% -60%.
Irrigation And Fertilization System:
The Widespread Use Of Integrated Water And Fertilizer Technology Achieves Precise And Efficient Fertilizer And Water Management Through Drip Irrigation, Sprinkler Irrigation, And Other Methods.
Supplementary Lighting System:
In Winter Or Rainy Days With Insufficient Light, LED Plant Supplementary Lights Or High-pressure Sodium Lamps Are Used To Supplement The Light For Crops And Ensure Their Normal Growth.
Intelligent Control System:
This Is The 'brain' Of The Greenhouse. Collecting Environmental Data Through Sensor Networks, Analyzing It Through Environmental Computers Or Cloud Platforms, And Automatically Controlling The Operation Of All Devices To Achieve Unmanned And Precise Management.
Main Application Scenarios
High End Vegetable Cultivation: Annual Production Of Off-season, High-value Fruits And Vegetables Such As Tomatoes, Cucumbers, Peppers, Strawberries, Etc.
Flower Production: Specialized Cultivation Of Fresh Cut Flowers Or Potted Flowers Such As Phalaenopsis, Roses, Lilies, Etc.
Seedling Breeding: Providing Neat And Robust Vegetable And Flower Seedlings For The Field.
Plant Factories And Scientific Research: Used For New Variety Testing, Agricultural Technology Research, Etc.
