Irrigation system 3D Models

Find the best Irrigation system 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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生成一个农业大棚，里面种辣椒，里面有补光灯，有风机，有灌溉的，有一个传感器(检查温度，湿度，光照强度的)，所有机械放到大棚内部

Anonymous1773132519

生成一个农业大棚，里面种茄子，里面有补光灯，有风机，有灌溉的，有一个传感器(检查温度，湿度，光照强度的)，所有机械放到大棚内部

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creame un sistema de riego para cesped de aproximadamente 20 metros para un colegio, que tenga arduino al detectar que el piso este seco y mas cosas, que todo esto este con un piso de cesped y el sistema de riego encima de esto, asi logrando lo deseado por mi

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Anonymous1751849299

Create a minimal industrial design presentation board for a product called “EcoGrower – Solar Powered Smart Irrigation System.”
The layout should look like a modern product design case study sheet with multiple panels showing components and working details.
Style should be clean, minimal, and professional similar to product design portfolios used in industrial design presentations.
The board should contain 4 sections arranged in a grid layout:
Section 1 – Soil Moisture Sensor
Show a small plant pot with soil and a soil moisture sensor inserted in the soil. Include clean labels explaining that it measures soil moisture levels.
Section 2 – Arduino Controller
Show a transparent case containing an Arduino microcontroller with wires connected. Label it as the controller that processes sensor data.
Section 3 – Relay Module
Show a relay module board with wires and arrows indicating signal control from the Arduino to the pump.
Section 4 – Water Pump System
Show a small water tank with a pump pushing water through a p

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A highly detailed 3D render of a smart irrigation system project model displayed on a wooden base platform with artificial grass. The setup includes a healthy green plant in a pot with a soil moisture sensor inserted into the soil, connected to an ESP32 microcontroller board. A relay module, LCD display (showing soil moisture percentage and pump status), and neatly organized wiring are visible.

A transparent water tank filled with water is placed on one side, connected via pipes to a small DC water pump controlled by the relay. Water flow tubing is clearly shown going to the plant pot.

A modern smartphone is placed on a stand displaying a clean web dashboard UI with soil moisture data, pump ON/OFF buttons, and system status.

All components are labeled with clean professional tags (ESP32, Soil Sensor, Relay Module, Pump, LCD, Power Supply). Soft studio lighting, realistic shadows, depth of field, photorealistic textures, ultra HD, 4K render, isometric view, clean background, engineering project showcase sty

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Create a 3D model with simple animation behavior of a solar-powered Arduino-based smart irrigation system in a compact single-unit design with a separate PIR sensor tower. The system should demonstrate functional logic and movement.

When the scheduled watering time is reached, the water pump activates and water flows through the pipe from the irrigation canal. If rain is detected by the rain sensor, the system cancels watering and the pump remains off. If the soil moisture level is below 40 percent, the system activates watering regardless of schedule. If the soil moisture is above 40 percent, the system does not water.

When the PIR motion sensor detects a bird or movement, the system triggers an alarm by activating a buzzer and LED light on the main unit.

Show clear visual feedback: water flow animation when pump is ON, no flow when OFF, LED lighting up during alerts, and a clean LCD display indicating system status such as “Watering”, “Soil OK”, “Rain Detected”, and “Motion Detected”.

Keep the design cl

Anonymous1773825071

A prototype model of Smart Irrigation Systems for Sustainable Water Conservation in Agriculture - To design and develop a cost-effective smart irrigation system using soil moisture and environmental sensors with a microcontroller to optimize water use based on real-time field conditions.

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