Irrigation 3D Models

Find the best Irrigation 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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Erick Daniel Huanca

Create a 3D model of a school outdoor environment with a strong focus on a realistic grassy terrain. The grass should be dense, green, and slightly uneven, with small variations in height and color to look natural. The terrain must be mostly flat but include minor imperfections like small bumps and patches of soil.

On top of the grass, add a simple automatic irrigation system using Arduino. Include small sprinklers evenly distributed, connected by thin pipes. Add a few soil moisture sensors partially inserted into the ground, connected to an Arduino control box placed at the side.

The design should clearly represent a smart irrigation system that waters the grass only when needed. Use a clean, semi-realistic style suitable for a school project, keeping all elements simple, visible, and well organized.

Anonymous1775705554

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

Anonymous1775705554

Anonymous1717196068

Generate a 3d model on sustainable agriculture , where rain water is harvested and collected in a tank is further used in field irrigation and hydroponics and vertical farming and solar energy is used to fulfill the energy requirements of drip ,and hydroponics

Anonymous1775216381

need support for 6 inches wide bowl base. I need support for 1 jar which will drip the water from the top , 3 bowls of 2.5 inches wide. Total of 4 supports. The top jar support should be 6.5 inches and it will drip water into the bowls and decrease the height accordingly for the bowls in ascending order.

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Anonymous1775272257

A realistic miniature smart irrigation system inside a transparent rectangular enclosure.
The base contains natural brown soil with small green plants arranged in rows.

On the left side, include:

A soil moisture sensor inserted vertically into the ground, with two probes clearly visible (like a fork shape).
A mini weather station mounted on a thin vertical pole, including small sensors (wind cups/anemometer and temperature/humidity module), matching a realistic agricultural setup.

At the center:

A compact IoT control box with visible electronic components, wires, LED indicators, and relay modules.

On the right side:

A small water reservoir (transparent container) connected to a water pump.
Flexible tubes running from the pump across the soil to create a drip irrigation system.

Behind the control unit:

A small solar panel, angled slightly upward.

👉 Additional feature:

A small autonomous robot moving between plant rows, equipped with a camera and sensors, designed to detect an

Anonymous1775253673

This is a small smart irrigation system model inside a transparent box.

It has soil with small plants, a sensor in the ground, and a central control box with lights and wires.
Water comes from a tank on the right, pushed by a pump through tubes to irrigate the plants.
There is also a solar panel powering the system.

👉 Added feature:
A small robot moves between the plant zones. It is equipped with a camera or sensors to detect trees/plants, check their condition, and send data to the control system.

So the system not only waters automatically, but also monitors plants using the robot.
add a station meteo like the photo ; le capteur humidité dans le sol like the photo ;

Follow the photo i ve added

Anonymous1775253673

This image shows a miniature smart irrigation system prototype inside a transparent rectangular enclosure.

The base is filled with soil and small green plants arranged in rows, representing a cultivated field.
On the left side, there is a soil moisture sensor inserted into the ground, along with a vertical pole holding a weather sensor (wind/temperature module).
At the center, there is an electronic control unit labeled “Controleur IoT”, containing a microcontroller board with visible wiring, LEDs, and connected modules.
Tubes run from this control unit across the soil, forming a drip irrigation system.
On the right side, a water pump is connected to a small transparent water reservoir, supplying water through the tubes.
A relay module (blue component with a red light) controls the activation of the pump or irrigation.
Behind the controller, there is a small solar panel, suggesting renewable power supply.
The front labels indicate sections: “Capteurs” (Sensors), “Electrovanne Irrig

Anonymous1775253673

3D MODEL: IRRIG AI Smart Field System
🧱 1. Base Environment (Ground Layer)
A rectangular الزراعي field
Split into zones (grids)
Each zone = different crop or irrigation need
Texture: soil + small plants 🌱

👉 In 3D: slightly uneven terrain for realism

📡 2. Sensor Nodes (Distributed Objects)

Place small devices across the field:

📍 Soil Moisture Sensors (inserted in ground)
🌡️ Temperature/Humidity Sensors (small poles)
☀️ Optional: light sensor

👉 In 3D:

Small black/green capsules
Half buried in soil
With tiny antenna
🚿 3. Smart Irrigation System
Pipes running underground (visible in cut view)
Sprinklers above ground OR drip lines

👉 In 3D:

Thin pipe network (grid-like)
Sprinklers = small rotating heads
Add water animation (if possible 💧)
🧠 4. Central AI Control Unit
A box near the field (like a mini محطة تحكم)

Inside:

Microcontroller (Arduino/Raspberry Pi style)
AI processing unit
Connectivity module (WiFi/4G)

👉 In 3D:

A small tech box with glowing LED
Label it: “IRR

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