English
 |
TOP
Aluminum, Galvanizing Steel
Tempered Glass, Diffusing Glass
OEM, OED
ISO
China
| Quantity: | |
|---|---|
An automated glass greenhouse is a technology-driven farming structure where critical operations such as climate control, watering, and shading are managed by automated systems. This ensures crops grow in an environment that is always optimal, regardless of outdoor conditions.
China’s greenhouse industry has expanded rapidly over the past two decades. With large-scale manufacturing facilities, access to advanced technology, and cost-efficient production, Chinese greenhouse manufacturers provide automated glass greenhouses that are durable, affordable, and globally competitive.
Top greenhouse with over 15 years professinal year , has become one of the leading manufacturers of automated glass greenhouses, combining advanced engineering, factory customization, and cost-effective production.
–The skeleton is the backbone of every greenhouse. Chinese manufacturers use hot-dip galvanized steel,
which is corrosion-resistant and capable of handling heavy loads such as snow or strong winds.
– Provides long-term structural integrity. Special coatings extend the lifespan of the structure.
– The frame is engineered to withstand extreme conditions.
Single-layer glass maximizes sunlight, while double-layer insulated glass reduces heat loss.
Glass allows up to 90% light transmission, vital for crop growth.
Double-glass traps warmth, cutting energy costs in cold regions.
Farmers can expand their facilities as production grows, thanks to modular skeleton design.
AutomatedGreenhouse
Automated Greenhouse
Automated Greenhouse
| Techinical Parameters | |||
| Dimension | Load Parameters | ||
| Span Width | 8, 9, 9.6, 11.2, 12.8 m | Wind Load | 40~120 km/h |
| Bay Length | 4, 4.5, 5 m | Snow Load | 0~100 cm |
| Gutter Height | 4, 5, 6 m | Hanging Load | 0~15 kg/㎡ |
| Top Height | 5.2~9.3 m | Max. Drain Capacity | 140 mm |
| Skeleton Frame | Hot Dip Galvanized Steel Tubes | ||
| Coverings | Tempered Glass,Float Glass | ||
| Optional Systems | Ventilation System, Circulating Fan, Fan Wet Curtain System, Inside And Outside Shading System, Planting System, Irrigation System, Water And Fertilizer Integration, Electrical Control System | ||
| Applications | Leafy Vegetables, Eggplants, Mushrooms, Flowers, Seedlings, Poultry, Fish Pond Shed, Parking Shed, Material Warehouse | ||
| Remarks | The above parameters just for reference and subject to our actual projects, we accept customization. | ||
Maintaining the right climate inside a greenhouse is crucial for crop productivity. In China’s automated glass greenhouses manufacture, sensor-based climate control systems continuously track variables like air temperature, soil temperature, relative humidity, and CO₂ concentration.
Automation is at the heart of modern greenhouse farming. In a traditional glass greenhouse, farmers must manually monitor temperature, open vents, adjust irrigation, and switch on fans or heaters. This process is time-consuming, labor-intensive, and prone to human error. However, chinese automated greenhouse manufacture replace guesswork with smart systems that respond instantly to changes in the environment.
Watering is one of the most critical factors in plant growth, and automation irrigation and fertigation takes it to the next level.
– Instead of flooding entire rows, drip irrigation delivers water directly to the root zone. The automation system calculates exactly how much water is needed, minimizing waste. It help the crop grow better.
– Known as fertigation, this combines irrigation with fertilizer application. Sensors detect the nutrient levels in the soil, and automated dosing pumps release precise amounts of nutrients. This means plants never suffer from over- or under-feeding.
– Chinese greenhouse manufacturers often integrate recycling features. Excess water drains into collection tanks, gets filtered, and is reused. This is a major win for cost savings.
In essence, irrigation automation ensures plants get exactly what they need, exactly when they need it.
Sunlight is good—but too much can overheat the greenhouse. Automated screening systems solve this problem elegantly.
– Located inside the greenhouse, these are retractable screens that can be programmed to open and close automatically throughout the day. On hot summer afternoons, they provide shade. On cloudy days, they retract fully to let in more light.
– For regions with extremely strong sun, external shade cloth systems can be deployed automatically to reduce solar radiation before it even enters the greenhouse to prevent the crops burnt,it is necessary in hot regions.
– Beyond shading, some automated curtains are designed to trap heat during cold nights, reducing heating costs by up to 30%.
The beauty here is efficiency: no worker has to climb up and pull shades manually—everything is controlled by sensors and computer software.
Extreme temperatures are a challenge for every grower. Automated glass greenhouses in China integrate cooling and heating systems.
– When temperatures rise, powerful fans pull outside air through wet cooling pads. The water evaporates, lowering the greenhouse’s internal temperature by several degrees. This process is entirely automated.
– For cold winters, Chinese greenhouses use hot-water pipes, boilers, or radiant heating systems. Instead of turning these on manually, the system calculates the heat demand and adjusts output accordingly, ensuring crops stay warm.
– Some greenhouse manufacturer goes further by linking systems with solar panels or geothermal heating. Automated software decides when to use renewable power, reducing electricity bills and carbon footprint.
Plants need light for photosynthesis, and automation ensures they never run short.
– These lights turn on automatically during low-light conditions, such as cloudy days or nighttime crop cycles.
– The system continuously measures how much sunlight enters the greenhouse. If natural light is insufficient, LEDs brighten to compensate.
– This is a more advanced feature. Certain crops grow better with specific light wavelengths. Automation allows growers to “tune” the spectrum—for example, boosting blue light for leafy growth or red light for flowering.By automating lighting, farmers maximize yields while reducing wasted energy.
Automation isn’t just about equipment—it’s also about smart monitoring.
– The Internet of Things (IoT) connects all devices and sensors into a single network. Farmers can access real-time climate data, irrigation schedules, and energy consumption reports from their smartphones.
– Cutting-edge Chinese systems incorporate AI to analyze greenhouse data. The AI can predict future conditions, such as upcoming humidity spikes, and adjust systems preemptively.
– Cameras and sensors can detect early signs of stress, pests, or nutrient deficiencies, alerting farmers before problems spread.
This level of digital integration makes farming
smarter, more efficient, and less risky.
Maintaining the right climate inside a greenhouse is crucial for crop productivity.
– Instead of manually switching heaters or fans, an automated system uses real-time data. For instance, if the temperature rises above 28°C, the cooling fans or pad-and-fan systems activate automatically. If it drops too low, automated heating units kick at once.
– High humidity can cause mold and plant diseases, while low humidity stresses crops. Automated systems regulate misting nozzles and dehumidifiers to maintain the perfect balance.
– Roof vents and side vents are motorized and controlled by software. The system opens them gradually, not abruptly, so the airflow is smooth and consistent, avoiding plant shock.
This precision control ensures crops enjoy a steady, optimized environment.
The biggest advantage of automation is that it frees farmers from routine manual tasks while improving results. Instead of spending hours checking thermometers, opening vents, or adjusting pumps, farmers can focus on strategic decisions like crop planning and marketing.
Automation also:
Reduces labor costs by up to 40%.
Prevents human error in irrigation and climate control.
Extends growing seasons, allowing year-round production.
Increases yields and crop quality consistently.
In short, automation is not just a luxury—it’s a necessity for modern, competitive farming.
Site Preparation – Level land and prepare drainage.
Foundation Work – Lay concrete base for stability.
Skeleton Assembly – Connect prefabricated steel parts.
Glass Installation – Secure panels with anti-leak systems.
Automation Integration – Connect irrigation, shading, and monitoring systems.
Routine Inspections – Check sensors and systems regularly.
Glass Panel Cleaning – Maintain high light transmission.
Software Updates – Keep automation systems efficient.
Corrosion-Resistant Materials
Ensure decades of reliability.
Decades of Service Life
Properly maintained, these greenhouses last 20–30 years.
Greenhouses are designed for desert heat, snowy winters, or humid tropics.
From small farms to industrial complexes, scalability is built-in.
Lower costs compared to Western alternatives.
Factories ship globally with favorable rates.
Kits arrive ready for assembly.
Manufacturers provide detailed guidance.
Vegetable Greenhouse
Fruit Greenhouse
Flower Greenhouse
Seedling Greenhouse
Aquaculture Greenhouse
Laboratory Greenhouse
Commercial Greenhouse
Restaurant Greenhouse
A China automated glass greenhouse manufacturer offers more than just a building—it provides a complete, future-ready farming solution. With factory customization, smart technology integration, easy installation, and long-lasting durability, these greenhouses give growers the tools they need to maximize yields and reduce costs. Whether for vegetables, flowers, or research, investing in a Chinese automated glass greenhouse is a step toward sustainable, profitable farming.
Automation reduces manual labor while improving efficiency in climate and water management.
Smart shading, double-glass insulation, and LED lighting cut energy use significantly.
Yes, designs are adapted for specific crops, climates, and farm sizes.
With maintenance, they last 20–30 years or more.
Maintenance is straightforward—clean sensors, inspect equipment, and update software periodically.
An automated glass greenhouse is a technology-driven farming structure where critical operations such as climate control, watering, and shading are managed by automated systems. This ensures crops grow in an environment that is always optimal, regardless of outdoor conditions.
China’s greenhouse industry has expanded rapidly over the past two decades. With large-scale manufacturing facilities, access to advanced technology, and cost-efficient production, Chinese greenhouse manufacturers provide automated glass greenhouses that are durable, affordable, and globally competitive.
Top greenhouse with over 15 years professinal year , has become one of the leading manufacturers of automated glass greenhouses, combining advanced engineering, factory customization, and cost-effective production.
–The skeleton is the backbone of every greenhouse. Chinese manufacturers use hot-dip galvanized steel,
which is corrosion-resistant and capable of handling heavy loads such as snow or strong winds.
– Provides long-term structural integrity. Special coatings extend the lifespan of the structure.
– The frame is engineered to withstand extreme conditions.
Single-layer glass maximizes sunlight, while double-layer insulated glass reduces heat loss.
Glass allows up to 90% light transmission, vital for crop growth.
Double-glass traps warmth, cutting energy costs in cold regions.
Farmers can expand their facilities as production grows, thanks to modular skeleton design.
AutomatedGreenhouse
Automated Greenhouse
Automated Greenhouse
| Techinical Parameters | |||
| Dimension | Load Parameters | ||
| Span Width | 8, 9, 9.6, 11.2, 12.8 m | Wind Load | 40~120 km/h |
| Bay Length | 4, 4.5, 5 m | Snow Load | 0~100 cm |
| Gutter Height | 4, 5, 6 m | Hanging Load | 0~15 kg/㎡ |
| Top Height | 5.2~9.3 m | Max. Drain Capacity | 140 mm |
| Skeleton Frame | Hot Dip Galvanized Steel Tubes | ||
| Coverings | Tempered Glass,Float Glass | ||
| Optional Systems | Ventilation System, Circulating Fan, Fan Wet Curtain System, Inside And Outside Shading System, Planting System, Irrigation System, Water And Fertilizer Integration, Electrical Control System | ||
| Applications | Leafy Vegetables, Eggplants, Mushrooms, Flowers, Seedlings, Poultry, Fish Pond Shed, Parking Shed, Material Warehouse | ||
| Remarks | The above parameters just for reference and subject to our actual projects, we accept customization. | ||
Maintaining the right climate inside a greenhouse is crucial for crop productivity. In China’s automated glass greenhouses manufacture, sensor-based climate control systems continuously track variables like air temperature, soil temperature, relative humidity, and CO₂ concentration.
Automation is at the heart of modern greenhouse farming. In a traditional glass greenhouse, farmers must manually monitor temperature, open vents, adjust irrigation, and switch on fans or heaters. This process is time-consuming, labor-intensive, and prone to human error. However, chinese automated greenhouse manufacture replace guesswork with smart systems that respond instantly to changes in the environment.
Watering is one of the most critical factors in plant growth, and automation irrigation and fertigation takes it to the next level.
– Instead of flooding entire rows, drip irrigation delivers water directly to the root zone. The automation system calculates exactly how much water is needed, minimizing waste. It help the crop grow better.
– Known as fertigation, this combines irrigation with fertilizer application. Sensors detect the nutrient levels in the soil, and automated dosing pumps release precise amounts of nutrients. This means plants never suffer from over- or under-feeding.
– Chinese greenhouse manufacturers often integrate recycling features. Excess water drains into collection tanks, gets filtered, and is reused. This is a major win for cost savings.
In essence, irrigation automation ensures plants get exactly what they need, exactly when they need it.
Sunlight is good—but too much can overheat the greenhouse. Automated screening systems solve this problem elegantly.
– Located inside the greenhouse, these are retractable screens that can be programmed to open and close automatically throughout the day. On hot summer afternoons, they provide shade. On cloudy days, they retract fully to let in more light.
– For regions with extremely strong sun, external shade cloth systems can be deployed automatically to reduce solar radiation before it even enters the greenhouse to prevent the crops burnt,it is necessary in hot regions.
– Beyond shading, some automated curtains are designed to trap heat during cold nights, reducing heating costs by up to 30%.
The beauty here is efficiency: no worker has to climb up and pull shades manually—everything is controlled by sensors and computer software.
Extreme temperatures are a challenge for every grower. Automated glass greenhouses in China integrate cooling and heating systems.
– When temperatures rise, powerful fans pull outside air through wet cooling pads. The water evaporates, lowering the greenhouse’s internal temperature by several degrees. This process is entirely automated.
– For cold winters, Chinese greenhouses use hot-water pipes, boilers, or radiant heating systems. Instead of turning these on manually, the system calculates the heat demand and adjusts output accordingly, ensuring crops stay warm.
– Some greenhouse manufacturer goes further by linking systems with solar panels or geothermal heating. Automated software decides when to use renewable power, reducing electricity bills and carbon footprint.
Plants need light for photosynthesis, and automation ensures they never run short.
– These lights turn on automatically during low-light conditions, such as cloudy days or nighttime crop cycles.
– The system continuously measures how much sunlight enters the greenhouse. If natural light is insufficient, LEDs brighten to compensate.
– This is a more advanced feature. Certain crops grow better with specific light wavelengths. Automation allows growers to “tune” the spectrum—for example, boosting blue light for leafy growth or red light for flowering.By automating lighting, farmers maximize yields while reducing wasted energy.
Automation isn’t just about equipment—it’s also about smart monitoring.
– The Internet of Things (IoT) connects all devices and sensors into a single network. Farmers can access real-time climate data, irrigation schedules, and energy consumption reports from their smartphones.
– Cutting-edge Chinese systems incorporate AI to analyze greenhouse data. The AI can predict future conditions, such as upcoming humidity spikes, and adjust systems preemptively.
– Cameras and sensors can detect early signs of stress, pests, or nutrient deficiencies, alerting farmers before problems spread.
This level of digital integration makes farming
smarter, more efficient, and less risky.
Maintaining the right climate inside a greenhouse is crucial for crop productivity.
– Instead of manually switching heaters or fans, an automated system uses real-time data. For instance, if the temperature rises above 28°C, the cooling fans or pad-and-fan systems activate automatically. If it drops too low, automated heating units kick at once.
– High humidity can cause mold and plant diseases, while low humidity stresses crops. Automated systems regulate misting nozzles and dehumidifiers to maintain the perfect balance.
– Roof vents and side vents are motorized and controlled by software. The system opens them gradually, not abruptly, so the airflow is smooth and consistent, avoiding plant shock.
This precision control ensures crops enjoy a steady, optimized environment.
The biggest advantage of automation is that it frees farmers from routine manual tasks while improving results. Instead of spending hours checking thermometers, opening vents, or adjusting pumps, farmers can focus on strategic decisions like crop planning and marketing.
Automation also:
Reduces labor costs by up to 40%.
Prevents human error in irrigation and climate control.
Extends growing seasons, allowing year-round production.
Increases yields and crop quality consistently.
In short, automation is not just a luxury—it’s a necessity for modern, competitive farming.
Site Preparation – Level land and prepare drainage.
Foundation Work – Lay concrete base for stability.
Skeleton Assembly – Connect prefabricated steel parts.
Glass Installation – Secure panels with anti-leak systems.
Automation Integration – Connect irrigation, shading, and monitoring systems.
Routine Inspections – Check sensors and systems regularly.
Glass Panel Cleaning – Maintain high light transmission.
Software Updates – Keep automation systems efficient.
Corrosion-Resistant Materials
Ensure decades of reliability.
Decades of Service Life
Properly maintained, these greenhouses last 20–30 years.
Greenhouses are designed for desert heat, snowy winters, or humid tropics.
From small farms to industrial complexes, scalability is built-in.
Lower costs compared to Western alternatives.
Factories ship globally with favorable rates.
Kits arrive ready for assembly.
Manufacturers provide detailed guidance.
Vegetable Greenhouse
Fruit Greenhouse
Flower Greenhouse
Seedling Greenhouse
Aquaculture Greenhouse
Laboratory Greenhouse
Commercial Greenhouse
Restaurant Greenhouse
A China automated glass greenhouse manufacturer offers more than just a building—it provides a complete, future-ready farming solution. With factory customization, smart technology integration, easy installation, and long-lasting durability, these greenhouses give growers the tools they need to maximize yields and reduce costs. Whether for vegetables, flowers, or research, investing in a Chinese automated glass greenhouse is a step toward sustainable, profitable farming.
Automation reduces manual labor while improving efficiency in climate and water management.
Smart shading, double-glass insulation, and LED lighting cut energy use significantly.
Yes, designs are adapted for specific crops, climates, and farm sizes.
With maintenance, they last 20–30 years or more.
Maintenance is straightforward—clean sensors, inspect equipment, and update software periodically.
