- Overview
- Product Description
- Product application
- Automatic control system
- FAQ
Basic Info.
Model NO.
FG-070
Span
Multi/Single
Roofing Shape
Arched Roof
Location
Indoor & Outdoor
Heating Method
Continuous Heating
Cultivation Method
Hydroponics
Building Materials
Steel-Plastic
Usage
Commercial Greenhouse
Size
Large
Cover Material
Film
Layer
Double
Transport Package
Pipe Is Nude Packing; Accessories Packed by Bag
Specification
40GP
Trademark
VERTEX
Origin
China
HS Code
9406900090
Production Capacity
5000000 Square Meter/Years
Packaging & Delivery
Package Size
100.00cm * 100.00cm * 100.00cm
Package Gross Weight
1000.000kg
Product Description
The foundation of the thin film greenhouse is the cornerstone upon which the steadfastness of the entire structure relies. Generally constructed with concrete, its depth and dimensions are meticulously calculated based on the local geological conditions, the height and span of the greenhouse, and the load it is expected to support. For instance, in regions where the soil is particularly soft, the foundation may need to be entrenched to a depth of approximately 1 to 1.2 meters. Additionally, there may be an extension at the base designed to enhance the contact surface with the soil, thereby mitigating the risk of the greenhouse settling over time. Typically, the foundation is shaped as a strip foundation, boasting a width of approximately 0.3 to 0.5 meters, ensuring continuous support along the greenhouse's perimeter, thereby providing a robust base for the upper framework. 
Single film greenhouse frame
This greenhouse frame stands independently, featuring a span typically ranging from 6 to 12 meters and extending in length from 30 to 80 meters. It is celebrated for its straightforward construction and cost-effectiveness. For example, consider a smaller-scale single vegetable planting greenhouse with an 8-meter span and a 40-meter length. Constructed using steel pipes, farmers can erect this frame swiftly, catering ideally to small-scale vegetable cultivation needs.
The ridge height of a single greenhouse generally falls between 2.5 to 3.5 meters, while the side walls stand at about 1.5 to 2 meters. This thoughtful design facilitates easy access for personnel engaged in planting operations and significantly enhances internal ventilation and lighting conditions.
This greenhouse frame stands independently, featuring a span typically ranging from 6 to 12 meters and extending in length from 30 to 80 meters. It is celebrated for its straightforward construction and cost-effectiveness. For example, consider a smaller-scale single vegetable planting greenhouse with an 8-meter span and a 40-meter length. Constructed using steel pipes, farmers can erect this frame swiftly, catering ideally to small-scale vegetable cultivation needs.
The ridge height of a single greenhouse generally falls between 2.5 to 3.5 meters, while the side walls stand at about 1.5 to 2 meters. This thoughtful design facilitates easy access for personnel engaged in planting operations and significantly enhances internal ventilation and lighting conditions.
Multiplex film greenhouse frame
A multi-storey greenhouse is an expansive structure, ingeniously formed by linking multiple single-storey greenhouses. Its span can stretch from 8 to 16 meters, with its length adaptable based on specific site requirements and demands. This configuration boasts an impressive spatial efficiency, elevating land utilization by approximately 30% compared to a single greenhouse. Take, for example, a flower planting park; leveraging multi-storey film greenhouses can enable the cultivation of a wider variety and greater quantity of flowers within the same land area.
The frame of a multi-storey greenhouse is more complex, necessitating a robust carrying capacity. Its ridge height usually ranges between 3 to 6 meters. This elevated ridge height affords a more spacious internal environment, which is ideal for cultivating taller plants or engaging in three-dimensional planting techniques.
A multi-storey greenhouse is an expansive structure, ingeniously formed by linking multiple single-storey greenhouses. Its span can stretch from 8 to 16 meters, with its length adaptable based on specific site requirements and demands. This configuration boasts an impressive spatial efficiency, elevating land utilization by approximately 30% compared to a single greenhouse. Take, for example, a flower planting park; leveraging multi-storey film greenhouses can enable the cultivation of a wider variety and greater quantity of flowers within the same land area.
The frame of a multi-storey greenhouse is more complex, necessitating a robust carrying capacity. Its ridge height usually ranges between 3 to 6 meters. This elevated ridge height affords a more spacious internal environment, which is ideal for cultivating taller plants or engaging in three-dimensional planting techniques.
| Vegetable cultivation It is one of the most important application areas of plastic film greenhouse. In vegetable cultivation, it can provide the appropriate temperature, humidity and light conditions, so that vegetables can grow normally in the unnatural growing season. For example, in the northern winter, the use of plastic film greenhouses to grow out-of-season vegetables, such as cucumbers, tomatoes, etc., can effectively increase the supply of vegetables and improve farmers' income. | floriculture Many flowers have high requirements for environmental conditions, and plastic film greenhouses can provide relatively stable growth environment for flowers. Whether it is the seedling stage of flowers or the cultivation stage of finished flowers, the greenhouse can adjust the light, temperature and humidity to promote the growth and development of flowers. For example, when raising flowers, the greenhouse can control the temperature in the range suitable for seed germination and seedling growth, and improve the success rate of seedlings. | Edible mushroom culture The growth of edible fungi requires specific temperature, humidity and ventilation conditions. Plastic film greenhouses can easily adjust these environmental factors to create a good environment for the growth of edible fungi. For example, during the cultivation of oyster mushrooms, by controlling the temperature of the greenhouse at 15-25 ° C, the humidity at 60%-70%, and maintaining proper ventilation, the yield and quality of oyster mushrooms can be improved. |
| The temperature regulation inside the greenhouse is mainly achieved through ventilation, shading and heating. During the day, when the temperature is too high, open the vents or start the ventilation equipment to expel hot air and reduce the temperature. |
| At night or in cold weather, it is necessary to keep warm or heat. In addition to the use of insulation, it can also be heated by hot fans, water heating pipes and other ways. Water heating pipe heating is a more environmentally friendly and stable way, it lays water pipes in the greenhouse, the use of hot water circulation to release heat, so that the temperature in the greenhouse is kept in the range suitable for plant growth. |
Humidity control
Regulating humidity is crucial for optimal plant growth. Excessive humidity within the greenhouse can lead to diseases and pest infestations. Ventilation serves as a key method to reduce humidity and expel excess moisture. Conversely, when the humidity levels are too low, employing a spray system can effectively augment the humidity, ensuring a conducive environment for plant vitality.
Regulating humidity is crucial for optimal plant growth. Excessive humidity within the greenhouse can lead to diseases and pest infestations. Ventilation serves as a key method to reduce humidity and expel excess moisture. Conversely, when the humidity levels are too low, employing a spray system can effectively augment the humidity, ensuring a conducive environment for plant vitality.
Light regulation
Besides benefiting from the inherent light-transmitting properties of the film, light levels within the greenhouse can be meticulously adjusted using shade nets and supplementary lighting. Shade nets are particularly beneficial during summer, when light intensity is high, helping to moderate light exposure. Supplemental lighting is predominantly utilized in the winter months or during overcast days to ensure plants receive sufficient illumination, thereby promoting robust photosynthesis.
Besides benefiting from the inherent light-transmitting properties of the film, light levels within the greenhouse can be meticulously adjusted using shade nets and supplementary lighting. Shade nets are particularly beneficial during summer, when light intensity is high, helping to moderate light exposure. Supplemental lighting is predominantly utilized in the winter months or during overcast days to ensure plants receive sufficient illumination, thereby promoting robust photosynthesis.
| 1. How long is the delivery time? According to your greenhouse size and system, the delivery time is usually 15-60days. 2. Can you supply sample? Small parts can be supplied, but you should pay the express cost. 3. Can your company supply greenhouse design? Our company can give greenhouse design according to your land and plan after deposit. And we can give simple drawing before signing contract. 4. How to install greenhouse ? Firstly we prepare the material and send the material to your city. After your customs clearing, we send 2-4 engineers or all workers to guide to install. If you want to save money, we only send engineers, and you match local workers. If you think it is hard to build the greenhouse, we also can send engineers and workers to install for you. 5. When installing, what cost should we pay? Our engineers and workers visas and round-trip tickets, their foods and accommodation, their communication |