A cucumber greenhouse creates a stable growing space with controlled temperature and light. Many farms use this system because cucumbers grow fast and need dependable protection. The greenhouse improves yield and reduces seasonal limits. A typical farm increases annual output by 20% with a well-built structure.
Structure
Steel structure is an ideal choice for building greenhouses. A steel structure greenhouse uses strong frames, roof arches, side walls, and cover systems. The structure forms a protective shell that supports healthy cucumber growth. Most greenhouses reach 6m to 10 m in height. Many farms use spans from 8 m to 12 m. Larger projects use spans up to 20 m for high output. Frame spacing usually stays between 1.2 m and 2.0 m.
The roof uses curved arches that guide rainwater safely. This shape avoids water pressure issues and reduces snow load risks. A typical roof slope ranges from 18° to 25°. The side walls use steel columns that hold wind loads. A standard greenhouse resists wind speeds up to 80 km/h. Some heavy-duty designs reach 100 km/h.
The structure supports natural ventilation with side vents and roof vents. Farms often install two roof vents with a total width around 1.5 m. Side vents often reach 40 m length in large units. These vents keep humidity stable and reduce disease risk.
The greenhouse includes internal support systems such as hanging wires for cucumber vines. Each wire spacing stays about 0.4 m to 0.5 m. The internal paths allow workers to manage plants easily. A good layout cuts labor time by 15 %.
Lighting systems fit along the roof arches. LED strips save 35 % energy compared to old lamps. Water channels run along both sides for irrigation. Good layout keeps water distribution even across all crop rows.
Materials Used
A steel structure greenhouse uses materials that support strength, durability, and long-term stability. The main frames use hot-dip galvanized steel. Many frames use 60 mm to 100 mm round or square tubes. Zinc coating often reaches 80 g to 120 g per square meter. This coating extends service life to 15 to 20 years.
Crossbars and internal braces use 25 mm to 40 mm tubes. These tubes reduce weight but keep good strength. Many farms choose 0.8 mm to 1.2 mm wall thickness for strong support. Braces prevent shaking during storms.
The cover material plays an important role. Many greenhouses use 150-micron polyethylene film. This film transmits around 85% light. Some farms use 180-micron films to improve durability. Others choose polycarbonate sheets with 6mm or 8mm thickness. These sheets resist hail and cut heat loss by 25%.
The ground foundation needs strong anchoring. Many farms use concrete bases with a depth of 400 mm to 700 mm depending on soil type. The anchor bolts often measure M10 or M12 size. Good anchoring keeps frames stable under strong wind.
Ventilation materials include mesh, rollers, and crank systems. Mesh screens use 40-mesh or 50-mesh to keep insects away. Rollers open films smoothly and reduce manual work.
Internal materials include steel cables, plastic pipes, drip lines, and shade nets. Drip lines use flow rates around 2 L per hour. Shade nets often block 30% to 50% light depending on climate. Support wires hold cucumber vines that may reach 2 m growth within one month.
Advantages
A steel structure cucumber greenhouse offers stable performance and high productivity. Many farms report yield increases of 25 % to 40 % due to controlled conditions. Cucumbers grow faster because the greenhouse keeps a warm microclimate. Temperature stays around 20°C to 26°C during the day and 16°C to 18°C at night. This stable range protects flowers and fruits.
Steel frames deliver long life. Hot-dip galvanized steel resists rust for 15 to 20 years. Some thicker coatings reach 25 years. This durability reduces repair costs by up to 30%. The structure also handles strong wind and heavy rain, which protects crops during storms.
The greenhouse improves water efficiency. Drip irrigation saves 40 % water compared to surface watering. Moisture stays balanced, which reduces disease spread. Many farms lower pesticide use by 20 % because humidity stays stable.
A steel structure cucumber greenhouse allows precise fertilization. Liquid fertilizer systems improve nutrient absorption by 15 %. This precision increases fruit size and reduces waste. The system also supports year-round production. Farms can harvest cucumbers for 10 to 12 months depending on climate.
Energy efficiency increases with modern materials. Polycarbonate sheets reduce heat loss by 20 % to 25 %. LED lamps cut power use by 35 % to 50 % compared to old bulbs. Temperature controllers reduce heater use by 10 % to 15 %.
Labor management improves inside a clean structure. Workers move more easily along organized rows. Many farms reduce labor hours by 10 % because tools and paths stay clear. High-quality airflow also lowers mold risk, which keeps fruits cleaner.
Key Design Points
Design teams study climate, soil, wind load, and sunlight before planning the greenhouse. They choose height and span based on the region. Hot areas use taller structures with 6 m to 7 m height to improve airflow. Cold regions use lower roofs to reduce heat loss. Windy areas need stronger columns with thicker steel tubes.
Designers select cover materials based on light needs. Cucumbers need strong light, so 85 % light transmission works well. Some farms add light-diffusion films that improve light spread by 20 %. This even light reduces leaf burn.
Ventilation design matters for cucumber health. Roof vents usually reach 8 % to 12 % of total roof area. Side vents stretch along 70 % of the wall length. This layout supports steady airflow and removes moist air. Good ventilation cuts disease risk by 30 %.
Irrigation design includes water tanks, filters, and drip lines. A 1000 m² greenhouse may use 60 to 80 drip lines. Each line supports dozens of plants. Many systems include fertilization injectors to improve nutrient control.
The support system holds cucumber vines. Designers place support wires every 0.5 m. Each wire supports up to 15 kg of plant weight. Workers tie vine clips along the wires, which keeps fruits clean and straight.
Heating design matters in cold regions. Hot water pipes or electric heaters hold temperature above 15°C at night. Some systems use 30 W to 50 W per square meter. Shading design matters in hot regions. Shade nets reduce solar load by 30 % to 50 %.
Post time: Dec-02-2025