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

Anonymous1773132519

Anonymous1767686571

make this a 3D including the kampot peppercorn farm. rainwater harvesting system 3d model with tubes and water drip

Anonymous1763353272

A 17mm plastic drip irrigation hose connector, approximately 60mm long.
It has two green barbed ends for attaching flexible hoses, and two yellow tightening rings around the center area.
Each barbed end is about 15mm in outer diameter with 3 to 4 small ridges to grip the hose.
The yellow rings are about 20mm in diameter and slightly thicker than the tube.
The central part is cylindrical and hollow for water flow, with an inner hole running through the entire connector.
Both ends are symmetrical.
The overall shape should be clean, solid, and functional for a garden drip irrigation system, ready for 3D printing as a single solid piece.

Anonymous1762779979

Anonymous1769275240

这个系统的核心使命是：在生产的源头，近乎完美地消除浪费。
农场拥有一个基于数字孪生技术的“大脑”。它通过在物理农场部署无数传感器，在虚拟世界中构建一个完全一致的数字镜像。
全流程监控：从土壤墒情、作物长势到畜禽健康，所有数据都被实时采集与映射。
生长预测与干预：借助人工智能和作物生长模型，系统能预测病虫害、模拟不同水肥策略的结果，并自主发出最优决策指令，例如精准灌溉或变量施肥。
多层垂直农场：在建筑内，采用雾培（气雾栽培）等无土栽培技术，为根系创造最佳的水气环境，并易于实现自动化立体种植。
可移动温室：对于大棚种植，未来温室可能是轨道式可移动的。这能根据不同作物、不同生长周期的需求，灵活调整温室的物理位置和内部环境，最大化利用光热资源，避免重复建设的浪费。
农场的日常劳作由机器人、无人机组成的集群完成。
地面机器人：与无人机协同的，是地面的无人拖拉机、收割机等，它们共同构成一个全天候、全地形的无人化作业体系。农场内部构建起高效的物质循环，几乎没有“废物”。
种养结合：模仿自然的“农场+牧场”模式。畜禽粪污通过固液分离后，液体部分发酵制成液肥，固体部分可生产商品有机肥或炭基肥。
精准还田：这些有机肥通过水肥一体化系统或智能农机，精准施回农田，替代化肥，提升地力，形成“畜禽-肥料-农田-饲料-畜禽”的闭环。
这座农场不仅是食物生产基地，更是城市生态系统的一个“器官”。
消费数据驱动：系统直接连接城市家庭的智能厨房、社区膳食数据库，基于居民的健康数据与营养需求，利用大数据进行产量精细化控制，实现 “以销定产” 。
消灭库存浪费：这种需求驱动的生产模式，可以从根本上解决因产销不对称、农产品滞销带来的巨大浪费。
农产品采收后，通过无人驾驶车辆，直接配送到城市社区的分布式保鲜前哨站。
农场消纳城市的厨余垃圾，将其作为昆虫饲料（如黑水虻）或堆肥原料，昆虫蛋白再反哺养殖场。

Anonymous1761977909

Anonymous1755437105

Anonymous1760181111

Anonymous1776279944

Anonymous1776138717

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

Anonymous1775272257

Anonymous1774971128

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

Anonymous1774590703

Anonymous1767481361

Anonymous1774674280

Anonymous1774537765