Vertex Agriculture is at the forefront of innovation, specializing in the crafting of cutting-edge agricultural equipment that transforms the way modern farming thrives. Our dedication to quality and advancement positions us as leaders in revolutionizing agricultural practices for future generations.
The glass greenhouse stands as a remarkable testament to agricultural innovation, primarily designed for the nurturing and cultivation of plants. Its exceptional light transmission capabilities harness the brilliance of natural sunlight, providing optimal lighting conditions crucial for robust plant growth. With an impressive glass transmittance rate exceeding 85%-90%, this greenhouse allows most of the sun's visible light to penetrate, ensuring that plants engage in photosynthesis to their fullest potential. Moreover, it meticulously maintains indoor temperatures, crafting a self-sufficient microclimate independent of the external environmental elements. During the colder seasons, the glass greenhouse adeptly minimizes heat loss indoors, serving as a vital insulator. Conversely, in warmer seasons, it expertly moderates temperature fluctuations using sophisticated ventilation, shading, and other advanced facilities to safeguard plants from excessive heat, thus preserving their health and vitality.
| 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 predominantly utilizes side and top windows to naturally regulate the environment. Side windows are strategically positioned along the greenhouse's perimeter and can be operated either manually or via an electrical mechanism. Meanwhile, top windows are located at the apex and can be opened in various ways, such as through a rack-and-pinion system. As the indoor temperature escalates, hot air rises and exits through these top windows, while cooler external air is drawn in through the side windows. This natural ventilation effectively balances indoor temperature and humidity, creating an optimal climate for cultivation.
2. Forced Ventilation System: This system is supplemented with powerful exhaust fans, strategically installed at one or both ends of the greenhouse. In circumstances where natural ventilation falls short, such as during the oppressive heat of summer, these fans are activated to swiftly expel hot indoor air. Simultaneously, they draw in refreshing external air, delivering rapid cooling and maintaining a conducive environment for plant growth.
Sunshade System
1. External Sunshade System: A sunshade net, positioned on the greenhouse's exterior, is operable both manually and automatically based on light intensity and indoor temperature, managed via electric control. This net effectively curtails sun exposure, reducing light intensity and heat penetration. It safeguards plants by averting excessive temperature hikes during scorching summers and shields delicate foliage from intense sunlight.
2. Internal Sunshade System: Installed within the greenhouse's interior, this system not only provides shading and cooling but also serves as an insulator at night. By reflecting portions of sunlight and minimizing heat absorption, it regulates the light distribution, ensuring a balanced internal environment conducive to plant health.
Irrigation System
1. Drip Irrigation System: A staple in glass greenhouse irrigation, this system delivers water directly to plant roots via pipes connected to individual drip heads. It allows precise water control, reducing evaporation and wastage. Additionally, it facilitates targeted fertilization by dissolving nutrients in the water, ensuring they reach the plant roots effectively.
2. Micro-Sprinkler Irrigation System: This system features sprinkler heads stationed at the greenhouse's apex or elevated positions above plants, dispersing water as fine droplets. It enhances air humidity, ideal for species with specific moisture needs. Covering extensive areas, it efficiently irrigates multiple plants simultaneously, fostering uniform growth.
Heating System
1. Hot Water Heating System: Utilizing boilers and related equipment, water is heated and circulated through ground or space pipes within the greenhouse, radiating warmth to elevate indoor temperatures. This system ensures even heat distribution, precise temperature control, and utilizes residual heat for other applications like hot water irrigation.
2. Hot Air Heating System: Employing hot air fans, this system swiftly introduces warm air into the greenhouse. It allows for flexible adjustments in the positioning and angle of air supply outlets, ensuring optimal heat distribution tailored to specific cultivation needs, enhancing plant growth and energy efficiency.
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