Chapter 1
The greenhouse is a structure made by assembling different parts or components. Each part has specific role in greenhouse structure. The main components of a greenhouse are its structural components like trusses, purlins, and side posts. Most frames are made from steel, aluminum, plastic, or wood. There are several materials to consider when deciding the kind of foundation to use for the greenhouse. Wood timber, concrete or concrete block, and brick are all suitable choices. The covering material of the greenhouse, also known as glazing, is usually the most expensive component of the structure. It is also one of the most important because the glazing is what allows the entry of light and heat into the greenhouse.
Greenhouse Framing Members
Trusses are the fundamental vertical support structure of a greenhouse (See Figure 1.14), which supports the weight of the roof. They provide strength to the basic structure and a hence placed at a distance of 2, 3, 4 feet or as required. The truss is made up of rafter, strut, and chords. Struts are support members under compression while chords are supports members under tension. Trusses are connected by the roof ridge and the purlins which run the length of the greenhouse.
Greenhouse Framing Materials
There are number of structural parts of a greenhouse roof which include bar caps, gutters, purlins, trusses, ridge cap, sash bar, and sideposts. Bar caps are attached to the outside of the greenhouse sash bars to hold the glazing material in place. The bar caps also hold the glazing compound used to seal around the glass (or other glazing material) to prevent leaks. The bar caps shield the glazing compound from the ultraviolet rays.
Greenhouse Foundation
When setting up a greenhouse, one of the most important aspects of the construction process is the foundation. There are a few different types of foundations that can be used for greenhouses. The type of foundation used is determined by the style of greenhouse and building codes. Essentially, the foundation is the complete system on which the greenhouse structure sits. One of the key components of a foundation is the footing. The footing refers to the point at which the structure meets the soil.
Greenhouse Walls
The end and side walls are typically covered with one of the rigid plastics. The structured acrylics and polycarbonates will provide heating costs can be gained. better insulation and security against theft or vandalism, but at greater initial costs, than fiberglass. Since the structured plastics come in 8- or 10-foot panel lengths, less cutting and splicing will be needed in comparison to polyethylene which comes in a minimum of 20-foot wide rolls.
Greenhouse Flooring
Growers may choose from a range of floor surfaces for container grown crops from gravel to concrete. The actual floor design will be dependent upon the type of production being planned and the available capital.
Soil Floors
Soil floors are rarely found in large greenhouse operations, except for small-scale vegetable operations. Muddy conditions due to irrigation, roots growing into the soil, and. the challenge of controlling weeds make this practice hard to manage unless the soil is naturally very well drained.
Gravel Floors
One of the simplest floor systems is a gravel floor. In this case plants are grown on a pad of 3/8 inch crushed rock or pea gravel. This is a low-cost floor production system and the gravel allows for excellent drainage. However, weeds may grow in the gravel and sanitation can be difficult on gravel floors. It may also be difficult to have small containers sit upright and level on gravel floors.
Concrete Floors
Concrete floors are very common with commercial greenhouses. In part because of environmental legislation that requires growers to capture drainage and runoff, and also to accommodate mechanization equipment and general cleanliness. Where concrete is used, it should be slightly sloped to allow water to drain off. Concrete floors prevent weeds and are generally easy to clean. They are durable and long-lasting and provide the advantage of maximizing space usage efficiency as well as flexibility. There are two basic types of concrete that may be used for greenhouse floors.
Floor Drainage. Although there is generally very little excess water on a concrete floor, sloping the floor to a drain is important. A slope of 1/8-inch per linear foot is usually the standard.
Click on the following topics for more information on greenhouse structures and design.
- Introduction to Greenhouse Structures and Design
- Greenhouse Site Selection
- Types of Greenhouses
- Open-Roof Greenhouse Systems
- Greenhouse Structural Components
- Other Types Greenhouse Structures
FAQs
Basic structural components of a greenhouse: A) rafter, B) end wall, C) side posts, D) side wall, and E) purlin.
What is the superstructure of a greenhouse? ›
Main wind-force resisting system [superstructure] -- primary greenhouse structural elements [roof trusses, supporting columns, rigid frames, braced frames, etc] which transfer wind loads applied to the glazing through the connectors and secondary structural members of the greenhouse to the foundation.
What is the structure and function of the greenhouse? ›
The modern greenhouse is usually a glass- or plastic-enclosed framed structure that is used for the production of fruits, vegetables, flowers, and any other plants that require special conditions of temperature.
What are the three common layouts in a greenhouse? ›
For example, the three basic greenhouse design types are attached (lean-to), freestanding (even-span) and connected (sawtooth).
What should the floor of a greenhouse be made of? ›
What to Use for Greenhouse Floors. There are several options for greenhouse flooring materials. The most ideal is a poured concrete floor, especially if it's insulated. A concrete floor is easy to clean and walk on, and if poured correctly, should drain away any excess water.
What is the foundation of a greenhouse? ›
The foundation for the perimeter of the greenhouse differs from that of the inner foundation. The perimeter foundation is a continuous concrete beam with a minimum height of 30 cm. This outer perimeter can be pre-fabricated or can be poured with concrete on the construction site, the latter is the most common.
What plants should not be in a greenhouse? ›
Plants to Avoid in a Greenhouse
- Melons and Squash. Melons and squash grow very large and spread out. ...
- Potatoes. Moving from melons and squash, we see that potatoes also face challenges in greenhouses. ...
- Sunflowers. ...
- Radishes and Broccoli. ...
- Corn and Tomatoes. ...
- Cauliflower and Broccoli. ...
- Onions and Garlic. ...
- Marigolds and Beans.
Organising your greenhouse into “zones” will help you to use the space most efficiently. Consider a potting area, a storage area, and separate areas for edible and non-edible plants. Keep things you use regularly in one place, and you won't waste precious time hunting for them.
What is a multi span greenhouse structure? ›
The multi-span greenhouse is characterized by its semicircular roof. It is a modular structure that can be adapted to different climates and crops due to its resistance to wind and crop loads.
What is the construction of a greenhouse? ›
Similar to most buildings, the greenhouse structure consists of five high-level components: foundations, structural frames, cladding, ventilation windows and drainage systems. The greenhouse structure consists of concrete, steel and aluminium and is covered with glass, sandwichpanels or polycarbonate.
A glass Greenhouse boasts nearly 100% light transmission, which your plants are sure to love throughout the year. Thicker paned glass also increases the ventilation and insulation, another benefit of glass Greenhouses. If you're looking for an iconic planthouse design, a glass Greenhouse comes above all else.
What is the spacing for rafters on a greenhouse? ›
Rafter Spacing and Bracing
If you get extreme winds, you may want 2 foot spacing on rafters, though lighting will be reduced a bit. In average wind areas woven poly has been used successfully on steep rafters 6 feet apart. I get strong winds and use 8 foot spacing, but I use steep rafter angles and I cross-brace.
What is the best structure for a greenhouse? ›
Ridge and furrow houses provide the greatest efficiency in crop production. Aluminum is the most durable and commonly used framing material for commercial greenhouse structures.
What is the key component of a greenhouse structure? ›
The main components of a greenhouse are its structural components like trusses, purlins, and side posts. Most frames are made from steel, aluminum, plastic, or wood. There are several materials to consider when deciding the kind of foundation to use for the greenhouse.
What are the types of structure of greenhouse? ›
Classification of a greenhouse is according to its basic shape. Types include Gable, Flat arch, Raised dome, Sawtooth, Skillion, Tunnel.
What is the structure of a Chinese greenhouse? ›
They are made up with materials having good insulation properties and with a thickness more than 30 inches. The south sides are arch-shaped, supported by steels and covered with polyethylene or polyvinyl chloride films. From north to south, the structures span 26-46 feet.
What are the basic features of greenhouse? ›
A reliable frame, covering, flooring and ventilation are all necessary for basic operation. To sustain the environment, a heating system and some automated processes, like irrigation via a dedicated water supply, may also be necessary.
What is the best way to layout a greenhouse? ›
Divide Your Greenhouse into Zones. Organizing your greenhouse into zones will help you maximize space in an efficient manner. The most common way is to separate the space inside your greenhouse into four areas: a potting area, a storage area, an area for plants, and an area for trash.
