Flat Net House Structure
Flat Net House Structure For Poly House is also used as green house & nethouse. Pests and insects cause immense damage to the yield by feeding on or sucking the plant, depositing eggs on the crop and spreading disease. How do the Nets Work?
- Flat Net House Structure : Light Weight frames with poles and cables that support the net.
- Greenhouses: Air Vents are covered with nets, or all the greenhouse walls are made of nets.
- Walk-in Tunnels: completely covered with net, or covered with net and PE sheets.
- OptiNet is a sophisticated new-generation anti-insect net that integrates physical and optical protection.
Anti Insect Nets:
- 17-mesh net: For protection against fruit files (Mediterranean fruit fly and Fig fruit fly) in orchards and vineyards,Grape moth and Pomegranate Deudorix livia.
- 25-mesh net: For protection against mediterranean fruit fly in peppers.
- 40-mest net: For partial blocking of white flies where climatic conditions do not allow the use of 50 mesh nets.
polyester netting which has insecticide bound to the external surface of the netting fibre using a resin; polyethylene which has insecticide incorporated into the fibre and polypropylene which has insecticide incorporated into the fibre. These nets come with a guarantee of 5 Years against UV degradation.
Product Specification
Material | GI Structure With Shade Net |
Color | White |
Width | 44 Meter |
Length | 92 Meter |
Thickness | 125 GSM |
Shading | 50% To 90% |
Usage/Application | Agriculture |
Brand | Shri Ji |
Durability | 5-6 Year |
Application | Flat Type Net house for Vegetable Grow |
Minimum Order Quantity | 4000 Square Meter |
Additional Information
Item Code | SJI-0141 |
Delivery Time | Same Day |
Port of Dispatch | Jodhpur |
Production Capacity | 50,000 Sqm. |
Packaging Details | Large Bag’s |
Packing Qty | 1 Bag |
Payment Terms | Advance |
Payment Mode | RTGS / NEFT / IMPS |
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Advantages of Flat net houses:
Flat net houses offer several advantages for growing plants and vegetables:
- Versatility: Flat net houses can grow a wide range of plants and vegetables, making them a versatile option for small and large-scale farming operations.
- Cost-effective: Flat net houses are generally more affordable than traditional greenhouses. Making them an ideal choice for small-scale growers or farmers on a budget.
- Low maintenance: Flat net houses are relatively easy to maintain, requiring minimal upkeep compared to traditional greenhouses. Furthermore, they also need less water and fertilizers, reducing operational costs.
- Improved plant growth: The netting or cable structure used in flat net houses provides excellent support for plants. Allowing them to grow more efficiently and produce higher yields. The netting or cables also help distribute weight evenly across the structure, reducing the risk of damage from heavy snow loads or high winds.
- Energy-efficient: Flat net houses can be designed to be energy-efficient, with features such as passive solar heating and natural ventilation. Reducing energy costs and promoting sustainable farming practices.
- Pest and disease control: The netting used in flat net houses helps prevent pests and diseases from entering the greenhouse. Furthermore, reducing the need for pesticides and other harmful chemicals.
- Increased crop protection: The netting or cable structure used in flat net houses provides additional protection for crops against adverse weather conditions such as heavy rain, hail, or strong winds, resulting in reduced crop loss.
Flat net houses offer a cost-effective and sustainable solution for growers and farmers who want to maximize plant growth while minimizing maintenance and operational costs.
Design of flat net houses:
The design of flat net houses typically involves creating a sturdy structure that can withstand the weight of the roof and the environmental conditions in which it will be placed. In addition, here are some key design considerations for flat net houses:
- Frame and support structure: The frame and support structure of a flat net house can be made of various materials, including steel, aluminum, or PVC. Choosing a material that is strong, durable, and resistant to corrosion and other forms of degradation is important.
- Roof: The roof of a flat net house should be designed to withstand the weight of snow, rain, and other environmental factors. In addition, it should also be translucent to allow sunlight to enter the greenhouse and provide suitable plant growth conditions.
- Netting or cable structure: The netting or cable structure used in a flat net house is an important part of the design. It provides additional support for the roof and helps distribute weight evenly across the structure. The netting or cables should be made of solid and durable materials. And they should be spaced at appropriate intervals to ensure proper support for the roof.
- Walls: The walls of a flat net house can be made of high-quality plastic or other translucent materials that allow sunlight to enter the greenhouse. In addition, the walls should also be designed to provide adequate ventilation for the plants and to prevent the entry of pests and other harmful organisms.
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Size and shape: The size and shape of a flat net house can vary depending on the intended use of the structure. It is essential to consider factors such as the available space, the number of plants to be grown, and the desired level of environmental control when designing the greenhouse.
- Environmental control systems: Flat-net houses can have various environmental control systems, including heating and cooling systems, ventilation systems, and humidity control systems. However, these systems are designed to create an optimal plant-growing environment and can be automated to ensure consistent and efficient operation.
Overall, the design of a flat net house should prioritize strength, durability, and environmental control to provide an ideal growing environment for plants.
Types of materials used in the construction of flat net houses:
Various kinds of materials can be used in the construction of flat net houses, including:
- Steel: Steel is a strong and durable material commonly used in constructing flat net houses. It is corrosion-resistant and can withstand heavy snow loads and high winds.
- Aluminum: Aluminum is lightweight and easy to work with, making it a popular choice for the frame of flat net houses. Furthermore, it is also corrosion-resistant and can be painted to match the desired color scheme.
- PVC: PVC is a lightweight and affordable material often used to construct smaller flat net houses. It is easy to work with and can be cut to fit any size or shape.
- Polycarbonate: Polycarbonate panels are a popular choice for the roof of flat net houses. In addition, they are lightweight, durable, and provide excellent light transmission, making them ideal for creating a suitable plant-growing environment.
- High-quality plastic: High-quality plastic is often used in constructing the walls of flat net houses. In addition, it is translucent, allowing sunlight to enter the greenhouse, and is resistant to damage from UV rays and other environmental factors.
When selecting materials for a flat net house, it is important to consider factors such as strength, durability, and resistance to environmental factors. The materials should also be suitable for the size and intended use of the greenhouse. Further more, ensuring that the materials comply with local building codes and regulations is also important.
Maintenance and repair of flat net houses:
Maintenance and repair are essential to ensuring the longevity and efficiency of flat net houses. Here are some tips on how to properly maintain and repair a flat net home:
- Regular cleaning: It is essential to regularly clean the netting or cables used in flat net houses to prevent dust and debris from accumulating. This can be done using a soft brush or sponge and gentle soap or water.
- Inspect for damage: It is essential to regularly inspect the netting or cables for signs of wear, such as tears, holes, or frayed edges. Any damage should be repaired promptly to prevent further deterioration.
- Check for loose connections: A flat net house’s netting or cable structure relies on secure connections to maintain its structural integrity. It is important to regularly check for loose connections and tighten them as necessary.
- Replace damaged components: If parts of the flat net house, such as netting or cables, are damaged beyond repair, they should be replaced promptly to prevent further damage to the structure.
- Address environmental factors: Flat-net houses are subject to environmental factors such as wind, snow, and heavy rain. In addition, it is important to protect the structure from these factors, such as installing windbreaks or reinforcing them to withstand heavy snow loads.
- Repair leaks: If the flat net house has a roof, it is important to regularly check for leaks and repair them promptly to prevent water damage to the plants or structure.
- Consult a professional: If repairs are beyond your expertise or require specialized tools or knowledge, it is important to consult a professional to ensure they are done correctly and safely.
Conclusion
Overall, proper maintenance and repair are essential to ensuring the longevity and efficiency of a flat net house. However, by regularly inspecting and addressing any issues promptly, growers can ensure that their flat net house provides an optimal growing environment for their plants.