Vertex Agriculture takes pride in being at the forefront of modern agricultural innovation, specializing in the advanced manufacture of cutting-edge equipment designed to enhance efficiency and productivity in the agricultural sector.
Our Glass Greenhouse serves as an exceptional environment for plant cultivation, leveraging the superior light transmission properties of glass to create the perfect illumination conditions for robust plant growth. With a remarkable glass transmittance level, typically exceeding 85%-90%, our greenhouse ensures that the majority of the sun's visible light penetrates, providing an optimal setting for photosynthesis to flourish. Additionally, it effectively retains indoor temperature, establishing a microclimate that remains largely unaffected by external environmental variations. During cold seasons, our glass greenhouse minimizes heat loss indoors, offering excellent insulation. Conversely, in warmer seasons, it moderates temperature through integrated ventilation, shading, and additional facilities to prevent heat stress on plants.
| A glass greenhouse is a building facility with a specific frame structure. Frames are usually made of metal (such as steel), including columns, beams, trusses and other parts, which are combined to form a solid spatial framework to provide support for the installation of glass. The design of the frame should take into account the weight of the bearing glass and the pressure of resisting natural external forces such as snow and snow to ensure the safety and stability of the greenhouse. |
1. Glass greenhouse is mainly used for plant cultivation. It uses the good light transmission of glass to create suitable lighting conditions for plant growth. The high transmittance of glass (generally more than 85%-90%) can make most of the visible light in the sun pass through, ensuring that plants can fully carry out photosynthesis. At the same time, it can effectively maintain the indoor temperature and form a microclimate that is relatively independent of the external natural environment. In the cold season, the glass greenhouse can reduce the loss of indoor heat and play a role in insulation; In the hot season, the temperature is adjusted through supporting ventilation, shading and other facilities to avoid excessive temperature damage to plants.
2. In addition to plant cultivation, glass greenhouses can also be used for agricultural production activities such as flower planting and vegetable seedling cultivation, and in some cases, it is also used to display rare plants and hold horticultural exhibitions, such as tropical plants in some botanical gardens, flower exhibition greenhouses, etc., to provide people with places of appreciation and popular science education. |
| A glasshouse is a semi-permanent or permanent building. Its construction needs to follow certain building codes and standards, and there are corresponding requirements in site selection, infrastructure construction, drainage, etc. Its appearance is usually more structured to adapt to the installation of glass and the use of internal space. And the scale of the glass greenhouse can be flexible according to actual needs, from small single-house greenhouse for home gardening, to large multi-house greenhouse for agricultural industrialization. |
Ventilation System
1. Natural Ventilation System: This system primarily relies on strategically placed side windows and top windows within the greenhouse to facilitate effective air circulation. The side windows, positioned on the lateral sides of the greenhouse, can be opened and closed manually or via electrical mechanisms. The top window, typically located at the very apex of the greenhouse, offers various opening methods, including rack and pinion systems. As the indoor temperature climbs, warm air naturally ascends and exits through the top window, while cooler external air is drawn in through the side windows. This process results in a balanced and natural ventilation cycle that efficiently regulates indoor temperature and humidity, ensuring an optimal growth environment.
2. Forced Ventilation System: This advanced system is outfitted with high-efficiency exhaust fans installed at either one or both ends of the greenhouse. In scenarios where natural ventilation is insufficient-especially during hot, oppressive summer conditions-the exhaust fans are activated to expel hot indoor air. Concurrently, fresh, cooler air is drawn from outside, achieving rapid cooling and ventilation to maintain a comfortable and conducive environment for plant growth.
Sunshade System
1. External Sunshade System: This system incorporates a sunshade net installed atop the external side of the greenhouse. It can be effortlessly controlled-either automatically or manually-based on light intensity and indoor temperature, using electric controls. The sunshade net effectively obstructs excessive sunlight, mitigating the intensity of light and heat entering the greenhouse. This function is crucial in preventing high indoor temperatures during scorching summer days and safeguarding plants from intense light exposure.
2. Internal Sunshade System: Situated within the greenhouse interior, this system not only provides shading and cooling effects during the day but also serves as a heat preservation mechanism at night. By reflecting portions of sunlight, it reduces heat absorption and optimizes light distribution within the greenhouse, thus enhancing the overall growing conditions for plants.
Irrigation System
1. Drip Irrigation System: Among the most prevalent irrigation techniques for glass greenhouses, this method involves delivering water via pipes to individual drip heads, strategically placed near plant roots. Water is gently released as droplets into the soil, enabling precise control over water quantity, minimizing evaporation and waste. Additionally, fertilizers can be dissolved in the water, allowing for targeted delivery to plant roots through this efficient system.
2. Micro-Sprinkler Irrigation System: This innovative system features sprinkler heads positioned atop the greenhouse or at a calculated height above plants, dispersing water in fine droplets. This method significantly boosts air humidity, catering to plants with higher humidity needs. Covering expansive areas, micro-sprinkler irrigation efficiently serves multiple plants simultaneously, ensuring uniform moisture distribution.
Heating System
1. Hot Water Heating System: This system utilizes boilers or similar equipment to heat water, which then circulates through pipes either embedded in the ground or suspended within the greenhouse. The emitted heat elevates the ambient temperature, offering uniform heating that is easily controllable. Furthermore, residual heat can be repurposed for auxiliary tasks such as hot water-based irrigation, maximizing energy efficiency.
2. Hot Air Heating System: Employing powerful hot air fans, this system introduces warm air directly into the greenhouse. It offers a rapid heating response and allows for flexible adjustments in air supply positioning and angles, ensuring a judicious distribution of warmth throughout the greenhouse.
Control System
At the heart of modern glass greenhouses lies the intelligent control system, a pivotal technology enabling the automatic monitoring and regulation of crucial environmental parameters such as temperature, humidity, light, and ventilation. Utilizing a network of sensors-temperature, humidity, and light-it continuously gathers real-time data. This information is relayed to a sophisticated controller, which, according to predefined parameters, instinctively modulates the operational states of ventilation, shading, irrigation, and heating systems. The result is precise environmental control, fostering optimal growth conditions for plants by creating a meticulously managed microclimate.
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