Vertex Agriculture stands at the forefront as a trailblazer in the realm of cutting-edge agricultural innovations and solutions production. Our relentless pursuit of excellence propels us to continuously revolutionize the agricultural landscape with our state-of-the-art technologies and practices.
Introducing our glass greenhouse: a stellar innovation that perfectly marries engineering brilliance with exquisite design, specifically crafted for the cultivation of thriving plants. Utilizing the remarkable light transmission capabilities of glass, this greenhouse creates an unparalleled environment for fostering vigorous plant growth. With a phenomenal transmittance level of over 85%-90%, the glass allows an abundance of the sun's radiant visible light to drench the plants, invigorating robust photosynthesis. Masterfully designed, this greenhouse maintains optimal indoor temperatures, establishing an exclusive microclimate largely immune to external natural fluctuations. During the chilly seasons, it expertly curtails heat loss, acting as a vital insulated haven. In warmer periods, it ingeniously modulates temperatures through meticulous ventilation, shading, and other innovative methods, shielding plants from intense heat and nurturing a year-round oasis for growth.
| 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 innovative system operates primarily with side and top windows that are strategically positioned for maximum efficacy. The side windows, located along the greenhouse sides, can be operated manually or via electric mechanisms, ensuring convenience and flexibility. The top window, positioned at the pinnacle of the greenhouse, boasts versatile opening mechanisms such as rack and pinion systems. As indoor temperatures rise, warm air naturally ascends and escapes through the top window, while cooler external air is drawn in through the side windows. This intelligent design not only guarantees effective natural ventilation but also meticulously maintains an optimal indoor climate by balancing temperature and humidity levels, resulting in a thriving environment for plant growth.
2. Forced Ventilation System: Enhanced with strategically deployed exhaust fans located at one or both ends of the greenhouse, this system becomes indispensable when natural ventilation is insufficient, particularly during the intense heat waves of summer. These fans activate to expel hot air from within while drawing in refreshing external air. This dynamic process ensures rapid cooling and thorough ventilation, maintaining ideal conditions that support the health and vigor of plants within the greenhouse.
Sunshade System
1. External Sunshade System: An innovative sunshade net is installed atop the greenhouse exterior, capable of extending or retracting based on the ambient light and temperature, controlled effortlessly by electric systems. This sunshade acts as a formidable barrier against excessive sunlight, reducing light penetration, controlling heat influx, and safeguarding plants from the risk of sunburn during peak summer heat. By regulating these elements, it creates a nurturing environment that supports plant vitality.
2. Internal Sunshade System: Installed within the greenhouse, this system not only provides critical shading and cooling during daylight hours but also serves as efficient insulation after dark. By reflecting a portion of sunlight and minimizing heat absorption, it skillfully manages internal light distribution, creating an enhanced greenhouse environment that fosters robust plant growth.
Irrigation System
1. Drip Irrigation System: This is a pivotal method of greenhouse irrigation, directing water precisely to the plant roots through expertly placed drip heads. This approach significantly decreases evaporation and water wastage, delivering water and even fertilizers directly to the roots with unmatched accuracy, ensuring plants receive precise nourishment to thrive.
2. Micro-Sprinkler Irrigation System: Mounted either on the greenhouse structure or elevated above the plants, these micro-sprinklers release water as a fine mist, effectively increasing air humidity, which is ideal for humidity-loving plants. Its comprehensive coverage ensures that multiple plants are efficiently hydrated simultaneously, optimizing irrigation practices for the greenhouse.
Heating System
1. Hot Water Heating System: Utilizing boiler-heated water circulated through pipes, this system disperses heat uniformly throughout the greenhouse, elevating indoor temperatures to ideal levels. The ease of control coupled with the ability to repurpose waste heat for other applications, such as hot-water-based irrigation, makes this a sustainable and efficient heating solution.
2. Hot Air Heating System: By deploying strategically positioned hot air fans, this system rapidly increases greenhouse temperatures. The fans' adjustable positioning and outlet angling ensure even heat distribution, optimizing the internal climate for plant growth.
Control System
At the core of the glass greenhouse's functionality is an advanced, intelligent control system that meticulously monitors and adjusts essential environmental parameters, including temperature, humidity, light, and ventilation. By gathering real-time data from sophisticated sensors for temperature, humidity, and light, and transmitting it to the main controller, this system meticulously regulates the operation of ventilation, shading, irrigation, and heating equipment. The outcome is a finely tuned environment that creates the perfect conditions for plants to flourish and achieve optimal growth.
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