水培 AEROPONICS DWC 生长克隆站 喷雾泵循环 3D 模型

描述

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Included File Formats
This model is provided in 14 widely supported formats, ensuring maximum compatibility:
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• - OBJ + MTL (.obj, .mtl) – Wavefront format, widely used and compatible
• - STL (.stl) – Exported mesh geometry; may be suitable for 3D printing with adjustments
• - STEP (.step, .stp) – CAD format using NURBS surfaces
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• - 3ds Max (.max) – Provided for 3ds Max users
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• - Rhino (.3dm) – Provided for Rhino users

Model Info
• - All files are checked and tested for integrity and correct content
• - 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
• - Affordable price with professional detailing

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More Information About 3D Model :
The title "HYDROPONICS AEROPONICS DWC GROWING CLONE STATION MIST PUMP CYCLE" describes a highly optimized, integrated system for plant cultivation utilizing advanced soilless agricultural techniques, specifically emphasizing the propagation phase through automated, high-pressure nutrient delivery. This configuration integrates multiple methodologies to maximize growth rate, nutrient absorption, and oxygen availability throughout the plant lifecycle, starting with asexual reproduction (cloning).

### Foundational Methodologies

**Hydroponics** serves as the overarching discipline, defined by the cultivation of plants utilizing mineral nutrient solutions in water, without the need for traditional soil media.

**Deep Water Culture (DWC):** This technique, often employed for the subsequent *GROWING* or vegetative phase, involves suspending the plant roots directly into an oxygenated nutrient reservoir. Oxygenation, typically provided by an air pump and air stones, is critical to prevent root suffocation and enhance nutrient uptake efficiency, distinguishing DWC from static water culture.

**Aeroponics:** Considered the most technologically advanced form of soilless culture, aeroponics is central to the **CLONE STATION** component. In true aeroponics, plant roots are suspended in air within an enclosed chamber and are periodically nourished by fine mist. This method maximizes root zone oxygen availability (near 100%), leading to highly accelerated rooting and developmental rates compared to other systems.

### The Aeroponic Clone Station

The **CLONE STATION** is a dedicated module designed for asexual plant propagation, utilizing cuttings to produce genetically identical plants. In this context, the station employs aeroponic principles to stimulate the rapid formation of adventitious roots. Cuttings are held securely in collars, allowing the basal stem portions to reside in the humid, dark environment of the root chamber, which is periodically charged with nutrient mist.

### Mechanical and Operational Precision

The operational efficacy of the system hinges on the specialized mechanical components:

1. **MIST PUMP:** This high-pressure pump (often operating at pressures exceeding 80 PSI) is essential for atomizing the nutrient solution. High pressure is required to generate ultra-fine aerosols (typically between 5 and 50 micrometers in diameter). These micro-droplets ensure thorough coating of the root surface while minimizing saturation, allowing roots to remain largely airborne.

2. **CYCLE:** The **MIST PUMP CYCLE** refers to the precisely timed intermittent activation of the pump. Continuous application of mist would deprive the roots of necessary oxygen (hypoxia), compromising health and hindering growth. The cycle is regulated by a digital timer, operating on a short "on" period (e.g., 3–5 seconds) followed by a significantly longer "off" period (e.g., 3–15 minutes). This intermittent pulsing ensures that the roots receive hydration and minerals during the "on" phase, while the "off" phase maximizes gaseous exchange and oxygen absorption from the humid air within the chamber.

### Integrated Advantages

The amalgamation of these techniques provides significant horticultural advantages. The **Aeroponics Clone Station** delivers unparalleled speed in root initiation and development, facilitating faster turnaround times. Subsequently, transferring the established clones into a **DWC GROWING** system allows for sustained, rapid vegetative development under controlled nutrient conditions. This integrated approach ensures efficient resource utilization, minimal water waste, and precise environmental control, characteristic of Controlled Environment Agriculture (CEA).

KEYWORDS: Soilless culture, Plant propagation, Aeroponics, Deep Water Culture (DWC), Hydroponics, Clone station, Asexual reproduction, Mist pump, High-pressure fogging, Nutrient delivery, Root zone management, Intermittent cycle, Automation, Root oxygenation, Hydroatomization, Vegetative growth, Cuttings, Adventitious roots, Reservoir, Nutrient solution, pH balance, EC monitoring, Closed-loop system, Resource efficiency, Controlled environment agriculture (CEA), Root desiccation, Hypoxia prevention, Timing mechanism, Aeroponic manifold, Accelerated rooting.