Hydroponic 3D Models

Find the best Hydroponic 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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Anonymous1742432442

Anonymous1766809600

Create a precise 3D model of a vertical hydroponic NFT system with four wooden support posts, three stacked rectangular growing channels, and a central base reservoir with two small side reservoirs and visible water pumps and tubing.

Use millimeters for all dimensions.

Overall frame:

Total height: 1000 mm from floor to top of the highest channel.

Overall width (left to right): 1500 mm.

Overall depth (front to back): 400 mm.

Four vertical wooden posts, each 1400 mm tall, 40 mm × 40 mm in cross-section, arranged in a rectangle 1400 mm wide × 300 mm deep. The frame stands around and above the main reservoir.

Growing channels (three identical units):

Each channel is an extruded rectangular trough 1500 mm long, 120 mm outer width, 70 mm outer height.

Internal bottom is flat; wall thickness 3 mm.

On the top face, create six circular holes for net pots, each 50 mm diameter, centered along the length.

Spacing between hole centers: 200 mm, starting 150 mm from one end, then every 200 mm, leaving equal margi

Anonymous1766677947

this is hydroponics, make sure to detail the wirings and components are shown clearly, ignore the legend

Anonymous1766677947

Anonymous1765812831

Create a detailed 3D model of a smart plant pot system, based on the provided diagram. The model should clearly show all internal and external components, with precise spaces and mounting points for each electronic and mechanical part.

Overall Structure:

A two-part pot design: an "Outer Vase Shell" and an "Inner Plant Cup."

The inner plant cup should be removable and sit within the outer shell, allowing for a water reservoir below.

The outer shell should have an integrated compartment at the bottom for electronics, accessible from the exterior.

Internal Components (within the pot/reservoir):

Inner Plant Cup: Designed to hold soil and a plant, with drainage holes at the bottom leading to the reservoir.

Water Reservoir (Zone B): The space between the inner plant cup and the outer vase shell, designed to hold water.

Soil Moisture Sensor: A sensor inserted into the soil of the inner plant cup, with a cable running down into the electronics compartment.

Rim Nozzle: A small nozzle positioned at the rim of

Anonymous1765817715

Прямоугольный плантатор для выращивания микрозелени

Anonymous1765442382

Anonymous1764831396

Anonymous1764770248

Anonymous1753597070

Anonymous1764368962

Anonymous1764033819

“Create a simple 3D printable vertical tower module for a hydroponic system.
The module must be a hollow cylinder with: – Outer diameter: 110 mm
– Height: 200 mm
– Wall thickness: 4 mm

Make it stackable:
– On the top, add a male connector ring 10 mm tall with 110 mm outer diameter.
– On the bottom, add an internal female recess 10 mm tall to receive the male ring of the next module.

The model must be watertight, manifold, and suitable for FDM 3D printing in PETG. Exportable as STL.”

Anonymous1763922091

Can you make a 3D model just lik in the drawing

Anonymous1763646517

sürdürülebilir gıda üretimi ve su yönetimi için yenilikçi bir yaklaşım olan deniz suyu hidroponik sistemleri ile alg biyoreaktörlerinin entegrasyonunu detaylıca gösteren bir 3d model çiz. Sistem, deniz suyunun ön filtrasyon ve nanofiltrasyon ile tuzluluğu azaltılarak tuz toleranslı bitkilerin (halofitler) yetiştirilmesini amaçlasın. Hidroponik sistemden çıkan besin ve organik madde açısından zengin atık su, alg biyoreaktörüne yönlendirilerek mikroalgler tarafından arıtılsın. bu sayede suyun büyük bir kısmı kapalı döngüde yeniden kullanılsın

Anonymous1763547979