Audited Supplier
GG-007
Steel Structure
Glass
Hydroponics
Continuous Heating
Double
Indoor & Outdoor
Flat Roof
Large
Multi/Single
Mixed Farming
Commercial Greenhouse
VERTEX
Container Shipping
40GP
China
9406900090
Product Description
Vertex Agriculture is a trailblazer in crafting cutting-edge solutions for the agricultural industry, with a strong focus on modern innovation and quality.
The Glass greenhouse is ingeniously designed for optimal plant cultivation, leveraging the exceptional light transmission properties of glass to create ideal lighting conditions conducive to robust plant growth. With glass boasting a high transmittance rate of 85%-90%, it allows a vast majority of sunlight's visible spectrum to permeate, thus ensuring plants carry out photosynthesis to their fullest potential. Moreover, this sophisticated structure effectively maintains indoor temperature, cultivating a microclimate that stands relatively independent from the whims of the external natural environment. During the chilly months, the glass greenhouse excels at minimizing heat loss indoors, providing essential insulation. Conversely, in the sweltering months, it artfully manages temperature through strategic ventilation, shading, and other supporting systems, adeptly safeguarding plants from the perils of excessive heat.
| 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 leverages side and top windows to achieve effective ventilation. Side windows, positioned along the greenhouse sides, can be operated manually or electronically. The top window, perched at the greenhouse's peak, offers varied opening mechanisms, such as rack and pinion. As indoor temperatures climb, warm air ascends and escapes through the top, while cooler outside air is drawn in through the side, facilitating a naturally balanced atmosphere and optimal humidity levels.
2. Forced Ventilation System: Outfitted with powerful exhaust fans, this system is activated when natural ventilation falls short, especially during sweltering summer days. Situated at either end of the greenhouse, the fans actively expel hot interior air, while simultaneously ushering in fresh external air, ensuring swift cooling and efficient air circulation.
1. Natural Ventilation System: This system primarily leverages side and top windows to achieve effective ventilation. Side windows, positioned along the greenhouse sides, can be operated manually or electronically. The top window, perched at the greenhouse's peak, offers varied opening mechanisms, such as rack and pinion. As indoor temperatures climb, warm air ascends and escapes through the top, while cooler outside air is drawn in through the side, facilitating a naturally balanced atmosphere and optimal humidity levels.
2. Forced Ventilation System: Outfitted with powerful exhaust fans, this system is activated when natural ventilation falls short, especially during sweltering summer days. Situated at either end of the greenhouse, the fans actively expel hot interior air, while simultaneously ushering in fresh external air, ensuring swift cooling and efficient air circulation.
Sunshade System
1. External Sunshade System: Mounted on the greenhouse's exterior top, the sunshade net can expand or contract automatically or manually in response to sunlight intensity and temperature. By effectively blocking sunlight, it reduces light penetration and heat influx, safeguarding plants from high summer temperatures and intense light damage.
2. Internal Sunshade System: Installed inside the greenhouse ceiling, this system not only offers shading and cooling but also conserves heat during nighttime. It reflects sunlight to minimize heat absorption and optimizes light distribution within the greenhouse.
1. External Sunshade System: Mounted on the greenhouse's exterior top, the sunshade net can expand or contract automatically or manually in response to sunlight intensity and temperature. By effectively blocking sunlight, it reduces light penetration and heat influx, safeguarding plants from high summer temperatures and intense light damage.
2. Internal Sunshade System: Installed inside the greenhouse ceiling, this system not only offers shading and cooling but also conserves heat during nighttime. It reflects sunlight to minimize heat absorption and optimizes light distribution within the greenhouse.
Irrigation System
1. Drip Irrigation System: A popular method in glass greenhouses, it channels water through pipes to drip heads positioned near plant roots, delivering water droplets into the soil. This precision system minimizes evaporation and waste, allowing water-soluble fertilizers to nourish plants at the roots.
2. Micro-Sprinkler Irrigation System: Positioned atop the greenhouse or above plants, sprinkler heads emit fine droplets of water, enhancing air humidity-a boon for humidity-loving plants. This method efficiently covers large areas, irrigating multiple plants simultaneously.
1. Drip Irrigation System: A popular method in glass greenhouses, it channels water through pipes to drip heads positioned near plant roots, delivering water droplets into the soil. This precision system minimizes evaporation and waste, allowing water-soluble fertilizers to nourish plants at the roots.
2. Micro-Sprinkler Irrigation System: Positioned atop the greenhouse or above plants, sprinkler heads emit fine droplets of water, enhancing air humidity-a boon for humidity-loving plants. This method efficiently covers large areas, irrigating multiple plants simultaneously.
Heating System
1. Hot Water Heating System: Utilizing boilers and related equipment to heat water, which circulates through greenhouse pipes, this system evenly distributes warmth, making temperature control straightforward. Furthermore, residual heat can be repurposed for tasks like hot water irrigation.
2. Hot Air Heating System: Employing a hot air fan, this system rapidly warms the greenhouse. The direction and angle of air distribution can be adjusted as needed, ensuring even heat distribution.
1. Hot Water Heating System: Utilizing boilers and related equipment to heat water, which circulates through greenhouse pipes, this system evenly distributes warmth, making temperature control straightforward. Furthermore, residual heat can be repurposed for tasks like hot water irrigation.
2. Hot Air Heating System: Employing a hot air fan, this system rapidly warms the greenhouse. The direction and angle of air distribution can be adjusted as needed, ensuring even heat distribution.
Control System
The intelligent control system serves as the greenhouse's brain, autonomously managing environmental parameters like temperature, humidity, light, and ventilation. It gathers data via sensors, including temperature, humidity, and light sensors, transmitting information to the controller. Based on preset criteria, the system fine-tunes the operation of ventilation, shading, irrigation, and heating systems, crafting an optimal setting for plant growth.
The intelligent control system serves as the greenhouse's brain, autonomously managing environmental parameters like temperature, humidity, light, and ventilation. It gathers data via sensors, including temperature, humidity, and light sensors, transmitting information to the controller. Based on preset criteria, the system fine-tunes the operation of ventilation, shading, irrigation, and heating systems, crafting an optimal setting for plant growth.
