What it does
A piece of grain turning vehicle, in order to solve the problems of high risk of traditional grain storage, manual turning laborious, low efficiency of mechanized operation,
Your inspiration
Observed the troubles in traditional grain drying: high - risk spontaneous combustion during storage, farmers’ heavy physical labor in manual drying, and mechanized methods’ inability to adapt to complex needs. Hoped to combine intelligence with agricultural machinery, so drew on smart device interaction logic and agricultural equipment structure, aiming to create an all - in - one solution for grain drying.
How it works
1. Sensing & Control: Smart UI and sensors monitor grain status. 2. Mechanical Action: The drum, rotating seat, etc., work together for drying. UV sterilization lamps ensure safety, electric wheels enable movement, and exhaust fans regulate air. 3. Process Integration: Classifies, monitors, transports, dries, and zones grains through coordinated operation of components like the roller and support bearings, achieving automated and intelligent drying.
Design process
1. Concept: Identified grain drying pain points and decided to develop an intelligent vehicle. 2. Design: Sketched structures (drum, rotating parts), designed UI for operation. 3. Prototyping: Made 3D models, tested mechanical movements. Improved based on feedback: optimized UI interaction, strengthened component stability. 4. Finalization: Integrated all functions, completed the display board with details like structure, UI, and operation effects.
How it is different
1. Integration: Combines multiple functions (classification, monitoring, etc.) in one vehicle, unlike single - function traditional equipment. 2. Intelligence: Smart UI and AI control enable real - time monitoring and automated adjustment. 3. Design Details: Unique drum structure and UV sterilization lamps enhance drying effect and safety, standing out from common models.
Future plans
1. Testing & Optimization: Conduct field tests to optimize performance based on actual farming needs. 2. Popularization: Promote in rural areas, provide training for farmers. 3. Upgrading: Add more IoT functions, connect to agricultural management platforms, and evolve towards smarter agricultural machinery
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