透明气雾栽培植物作物罐网盆泵种植托盘 3D 模型

描述

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• - STL (.stl) – Exported mesh geometry; may be suitable for 3D printing with adjustments
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• - Rhino (.3dm) – Provided for Rhino users

Model Info
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• - Geometry uses real-world scale; model resolution varies depending on the product (high or low poly)
• • - Scene setup and mesh structure may vary depending on model complexity
• - Rendered using Luxion KeyShot
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More Information About 3D Model :
The "TRANSPARENT AEROPONIC PLANT CROP TANK NET POTS PUMP GROWING TRAY" defines a specialized, compact cultivation system utilized in controlled environment agriculture (CEA), often classified as a low-pressure aeroponic or a Deep Water Culture (DWC) hybrid system adapted for benchtop use. This apparatus is engineered to facilitate the soilless growth of small-to-medium sized plant crops, with a specific emphasis on visual accessibility of the root structure and nutrient solution dynamics.

### System Architecture and Components

The assembly integrates five principal components designed for high efficiency and observational study:

**1. Transparent Reservoir (Tank):** This serves as the primary storage vessel for the nutrient solution—a mixture of water and dissolved essential mineral salts. The tank is characteristically manufactured from durable, food-grade transparent polymers such as acrylic or UV-stabilized polycarbonate. The transparency is a critical feature, enabling non-invasive, continuous observation of the nutrient level, temperature, and the physical condition (health, color, and density) of the suspended root mass, minimizing the need for manual system disruption.

**2. Growing Tray (Lid/Deck):** This component fits securely over the transparent tank, effectively sealing the reservoir and maintaining a humid, light-excluded environment within the root zone. The tray acts as the structural platform for the plant collars and is perforated with apertures designed to receive the net pots.

**3. Net Pots:** These small, specialized containers are constructed from plastic mesh and are inserted into the growing tray apertures. They serve a dual purpose: physically supporting the plant's stem (collar) and providing containment for the inert starting medium (e.g., rockwool or foam plugs). The mesh structure allows the developing roots to penetrate freely into the air space below, facilitating direct access to the nutrient delivery mechanism.

**4. Submersible Pump System:** Integrated within the nutrient solution tank, the electric pump is the active mechanism for nutrient delivery. In pure aeroponic configuration, the pump forces solution through fine nozzles or misters, creating a fine aerosol that coats the roots with nutrient particles while ensuring maximal oxygen exposure. In simpler, hybrid aeroponic-DWC versions, the pump may cycle the solution or drive an air stone to bubble and oxygenate the water below the lowest roots.

**5. Plant Crops:** The system supports various fast-growing annual crops, including leafy greens, herbs (e.g., basil, mint), and small fruiting vegetables, optimizing resource delivery in a closed-loop environment.

### Operational Principles and Advantages

The system functions by providing roots with a high-oxygen environment while ensuring frequent, direct contact with essential minerals. The primary advantage of the transparent design is its utility in research and educational settings. Researchers can precisely track root development rates, monitor nutrient absorption kinetics, and promptly diagnose root diseases (e.g., pythium) or nutrient deficiencies by visual inspection without disturbing the plants. This observational capability allows for superior maintenance of ideal growing parameters, including pH, electrical conductivity (EC), and dissolved oxygen (DO) levels, resulting in optimized plant performance and resource conservation compared to traditional soil-based methods.

KEYWORDS: Aeroponics, Hydroponics, Transparent Tank, Reservoir, Net Pots, Plant Cultivation, Nutrient Solution, Root Zone, Growth Monitoring, Misting System, Submersible Pump, Growing Tray, Closed-Loop System, Controlled Environment Agriculture, CEA, Non-Soil Culture, Root Observation, Polycarbonate, Deep Water Culture (DWC), Benchtop System, Horticulture, Plant Physiology, Nutrient Delivery, Soilless, Visual Inspection, Oxygenation, Precision Agriculture, Home Growing, Food Grade Plastic, Root Health.