Retractable Awning & Parts
What is Awning Parts?
Awning parts refer to the various components that make up an awning, a structure usually attached to the exterior of a building that provides shade or weather protection.
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Our Factory
After more than 20 years of development, the factory has gradually grown, and the company has purchased land in Leping Town, Sanshui District, Foshan City, Guangdong Province to establish a new modern production factory, with a production area of more than 40,000 square meters and more than 200 employees.
Our Product
Hanrui main awning and accessories wholesale, aluminum alloy pavilion, windproof curtain, PVC canopy, full box awning, sunroom awning and so on.
Production Market
The company's sales cover the whole country of China, while exported to the United States, Europe, Australia, the Middle East, Africa and other regions, well received by customers.
One-stop Solution
We offer a comprehensive customization solution, tailored to meet the specific needs and requirements of our clients.
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Awning Canopy BracketThe telescopic awning is widely used outdoors, shops, home courtyards, commercial Spaces have applications, and the seemingly simple telescopic awning is actually a model of mechanics and...read more -
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Aluminum Folding Awning Support ArmCan you imagine how much the telescopic arms of the outdoor sunshade can bear? An adult who weighs over 200 pounds!read more
Awning Parts: Understanding your Shade Structure
When it comes to shade structures, sometimes we forget that these are just simple constructions of textiles and frames. Awnings, for example, are not as complicated to build or construct as one might think.
But first, before diving into choosing an awning, let's discuss awning parts, what they are, and how to understand them. Here's a list of the basic awning parts and what they are:
Frame: This holds the textile of the awning in place. These can be made from metals like aluminum.
Fabric: These are specially designed textiles for the outdoors and come in a variety of colors and types including acrylic, polyester, and vinyl.
Poles: These are for windows, patios, backyards, or decks. The poles hold the awning frame in place.
Mounting Brackets: These are used to mount the frame of the awning to the building.
Accessories: Awnings can be accentuated with accessories like valances, retractable options, fixed options, drop screens, drop curtains, and more.
Understanding the basic parts of an awning structure and how they work is important when you're about to purchase one. After all, installing an awning is an investment that needs to be considered carefully. You want to know what you're installing, how long it will last, and what each part is for so that you know how to take care of it and ensure it will stand the test of time.
The Different Types of Awning Brackets
Retractable awnings rely on brackets to secure them to a building. The larger the dimensions, in both width and projection, the more brackets required to attach and support it.
Awnings come in many combinations of widths and projections and extend over windows, patios, decks and just about any outdoor living space. The awning may be lightweight and not seem too difficult for the brackets to hold. However, when the canopy is extended or cantilevered, gravity multiplies that weight.
Think of holding a 5-pound weight in your hand at your side. Now extend your arm out straight to your side until it is horizontal. That is similar to the minimum strain and stresses an awning bracket experiences.
Retractable awning brackets have to deal with additional forces too. If the fabric gets wet, it increases the weight, which adds to the downward force. Wind force is another strain the supports must be able to withstand.
Consider a 5'x3' awning with 15 square feet of cloth, the same as most windsurfers. The 14'x10' has a generous 140 square feet, enough to make day-sailor fly. If you're looking at the large 53'x13' model, that's a whopping 689 square feet of canvas!
Now that we understand the forces at work let's look at the brackets.
How Mounting Brackets Work
Retractable awning mounting brackets attach to the ends and depending on size to multiple points along the width of the awning frame. The longer the awning, the more brackets needed to secure it to the structure.
The size of the awning and the type of bracket are very important considerations. The size affects the forces the brackets must withstand. Of additional importance are what the brackets are made of, their shape, what material they will be attached to, and the hardware used to install them. The mechanism used to extend and retract also exerts a force; manual operation adds more stress than electric.
Brackets and hardware must withstand vertical shear forces (gravity), horizontal (lateral forces) strain caused by wind, plus the increased downward pull on the frame when partially or fully extended. Structural and Professional engineers use computer models to calculate all these forces for minimums and maximums and create designs for general or average situations. It is impossible to take every scenario into account though. This is very important to know.
Multi-story buildings will withstand the strain of awning brackets differently than single-story walls. Wall construction is another factor. Stud walls clad in vinyl, brick or wood handle bracket pressure, or compression, in ways different than those mounted in stone, block, concrete, concrete block (CMU) or steel.
The bracket must withstand the downward stresses without buckling the wall, breaking, or being ripped out. There is also the twist and lift situations caused by the wind they must survive. Some brackets use lag screws for installation in to wooden framing; others add anchors or shields to bite into stone or masonry walls. It is of critical importance to use the correct fastener type and size (length and diameter) depending on the substrate that the brackets are being attached to.
Durable mounting brackets spread the weight or force along the wall while others put the strain in one area. Different types of brackets are designed for different surfaces and locations.
Types of Retractable Awning Brackets
Brackets for awnings come in different shapes, sizes and metals. They are 'J', and 'L' shaped, even 'F,' 'H,' 'V,' 'T,' and 'U' shaped. Some are formed for siding profiles, while others attach to rafters, and a few to the roof deck.
The brackets are usually made of powder-coated aluminum, stainless steel, or hot painted steel. Some are cast, many are heated and bent, and others welded to form the necessary unit. Beware of those made of plastic – do not use.
Wall Brackets
Awning wall mounting brackets come in a variety of shapes and sizes depending on the canopy manufacturer. The width and projection of the model determine the number of brackets needed. Less expensive models use smaller brackets that use lag screws to install. Lag screws must bite into wood studs and not just sheathing. Check the instructions, some recommend attaching a ledger board for the awning mounting brackets to grip. As stated above, it is of critical importance to use the correct fastener type and size (length and diameter) depending on the substrate that the brackets are being attached to.
Some companies have specially designed retractable brackets unique to their products. The bay extension bracket is one that is a horizontal 'y.' It provides extra vertical support while spreading the compression force down the wall. Additionally, the roller tube is moved away from the wall and provides more shade.
Brick or stone walls use anchors or shields for bolts or screws to hold onto. Shear force is optimized, but lateral or twist isn't. When canopies are fully extended, the force is more diagonal, and the strain on the anchor has actually caused walls to buckle. Using larger awning support brackets that spread the force out more is recommended.
Soffit and Fascia
Soffit/eave and fascia brackets frequently are the same or similar type used for walls, just oriented differently. It is often easier though to find a rafter to attach the bracket to. Some mounts attach to both sides of an exposed truss with bolts going through the metal and the wood. This is usually a more expensive solution but is available if requested.
Roof Brackets
There are buildings where an awning can't be attached to a wall, soffit/eave or fascia. The walls may not be able to support a canopy; they could be glass, or not tall enough to provide comfortable clearance. Soffit/eave and fascia also may not give the necessary height.
Adjustable roof brackets for retractable awnings are a great solution. They mount through the roof deck in to the top side of the roof rafter and can even have a plate underneath to provide more support if needed. A standard retractable awning wall bracket can then be bolted to the roof bracket to hold the awning. The roof bracket or retractable awning doesn't interfere with the gutter, and it allows warm air and rain to escape instead of being trapped.
Alternatives to Wall or Roof Awning Brackets
In some situations, it is not possible to attach an awning to a structure. A potential solution is to install a frame like a soccer goal post and either bolt them to an anchor in the ground or set them in a concrete anchor.
The frame is usually erected near the building, so a retractable awning can be mounted to it to shade a patio or deck. Alternatively, some homes or businesses install a frame away from the building and attach an awning on each side to form a double-wide "tent" shaped like ^ to protect more outdoor area from the sun.
Awning Brackets for RVs and Trailers
RVs and trailers use similar brackets to house or building walls to attach the awning securely. The brackets are either stainless steel or aluminum. Retractable RV awnings frequently have slider arms that provide support to the front bar. The roller is attached to brackets that have been bolted to the vehicle. Brackets are 'L' shaped reinforced at the angle.
Some RV retractable awnings are reversed, so the vehicle acts as the front bar. The awning roller is supported on slider arms and unrolls as it is moved away from the trailer or RV side. Different manufacturers also offer a choice of bracket depending on the model selected.
Loads & anchoring: Awnings & canopies
A major consideration in designing a large awning or canopy for a structure is how it will be secured. Anchorages—elements used to fasten an awning system to a building and the ground—stabilize the awning.
Most anchoring is done using one of four tried-and-true methods: friction, keying, combined friction and keying, or adhesion.
The various awning shapes and sizes will pose unique anchoring challenges. Projects having especially heavy weights and/or unusual spans typically will require an engineer's help. In the process of determining the best anchoring system for a job, you should consider these four items:
The amount and direction of loads imposed on the frame
The location of the anchors
The reaction loads at the anchors
Details and material of the parent structure.
The first three items are primarily of concern to the fabricator or engineer, although the architect should be somewhat familiar with them. The fourth item, however, is something an architect is generally best suited to evaluate.
Because they determine the strength and number of anchorages needed, the loads imposed on the frame bear further discussion, as does the parent structure, since its compositional materials can determine the anchor type.
Loads
The four types of loads awnings and canopies need to withstand are wind, snow, ponding and drift. In certain regions, seismic loads also may deserve consideration. Ponding occurs when rain or melted snow collects on the fabric, causing it to sag and add to the awning structure's weight load. Ponding and snow loads are dead loads on a canopy; wind creates a live load.
Wind loads
Winds can act upon awnings and canopies in numerous ways, subjecting them to uplift, wind shear, gusts and steady winds, not to mention the infrequent tornado, tropical storm and hurricane.
The designer or engineer working on an awning must understand which, if any, of these forces will be at work on the awning once it is in place. If wind pressure is calculated incorrectly—or not calculated at all—uplift or down force may rip awning anchorings loose or cause the rafters or tubes of the frame to buckle.
Before hitting the drawing board, become familiar with local building codes that have jurisdiction over the area in which the awning will be placed and use them to determine design loading for the structure. Also, consult elementary engineering statics to resolve wind-and snow-load pressures at the awning's supports.
Within the code books, you'll find information about basic wind speeds by location. From this you can calculate the height of the proposed awning. By checking these numbers against the code book's conversion chart, you can determine a basic wind pressure.
Site
The amount of wind load an awning or canopy will be subjected to is not only determined by the regional location; it's also a function of the local site environment. If the awning's parent structure is in a built-up environment, surrounding trees and buildings can provide a sheltering effect, reducing the wind load. In contrast, if the building site is in a wide-open space or along the shore of an ocean or large lake, where the wind's approach is unimpeded, the wind-load factor may have to be increased beyond the nominal design value. Snow loads, however, will be lower in such open areas because snow can blow off the structure.
Wall surface and fasteners
Wall surface is an important factor in the anchoring equation. The wide selection of fasteners narrows to those that work best with the parent structure's material—be it brick, wood, concrete, steel or other material.
It is essential that the anchors be attached to a building's structural element. Consequently, the best awning anchor for almost any building is a through-bolt, which is drilled through the entire structural support surface and fastened with a nut on the back. Awning anchors attaching to an accessible steel or wood substrate are easily through-bolted.
However, when the frame must be anchored to an inaccessible wood substrate and cannot be through-bolted, there may be no choice but to use lag screws. The strength of lag-screw anchorages is significantly affected by the species, condition and thickness of the wood. Apart from the strength of the screw itself, the limiting factor of the wood must be examined when making this kind of connection (see "Lag screw formulas").
For anchoring in structural brick, hard-steel self-tapping anchor screws or expansion bolts are recommended. Several types of fasteners are available for use in concrete. Three common types are expansion anchors, where the bolt contains a wedge and is surrounded by a sleeve (hitting or screwing the bolt forces the wedge against the sleeve and the edges of the hole); hooked-end anchor bolts, which are set in wet concrete; and chemical anchors, which use epoxy to keep anchoring screws in place.
Chemical anchors
Some awning manufacturers disagree about the advantages and disadvantages of chemical anchors.
A chemical anchor is normally used in masonry. The epoxy works by bonding to everything it touches, creating a keying that is unable to be pulled through. The two basic types of chemical anchors are capsules and gun-mixed (also called injection method). Capsules are intended for solid, not hollow, masonry installation. The capsule, a glass tube containing hardener and resin, is placed in a predrilled hole. Drilling through the tube with an anchoring screw breaks the capsule, mixes the epoxy, and releases it.
The gun-mixed or injection technique, used for solid or hollow masonry, delivers the pre-mixed adhesive through a specially designed gun that is inserted into the pre-drilled hole. Next, the anchor screw is inserted. Within the solid part of the substrate, the adhesive bonds itself to the strata. Inside the hollow portions, the adhesive mushrooms out and keys itself into the unit.
Advantages
Chemical anchors do not exert expansion force, have high loading capacity, are easy to use, and offer good cure time. They can eliminate the blow-out, splitting and spalling problems that can occur with sleeve and drive-pin anchors. When cured, the adhesive and imbedded anchor become a part of the base material—even in poor-quality materials such as sandstone, decaying brick and loose mortar. Anchors of this type can be used closer together than fasteners that depend on wedging.
Disadvantages
Chemical anchoring products have a shelf life of one to three years. Using them overhead is difficult because dripping may occur.
Temperature greatly affects the cure rate of the adhesives, a fact installation crews must understand. In hot weather, the anchor screws must be set immediately before the epoxy hardens. In cold temperatures, the cure time greatly increases; if the temperature drops too low, the chemicals cannot be used. In any case, the chemical must cure before any load is placed on the anchor, which can increase labor costs if crews must wait or leave and return later.
Veneer
Most modern brick is veneer, not a support surface. Unlike structural brick, a modern brick veneer cannot accept through- bolts or expansion bolts. Expansion bolts bear pressure against the sides of the wall; such sideways force could break apart the mortar joints.
Another modern material, Dryvit (essentially a 76mm-thick [3 in.] plastic foam covered with concrete), also will not support anything mounted to it. These and similar veneers require special anchoring treatment.
New construction may allow the building designer, awning designer, and awning fabricator to collaborate and install anchors before veneer goes up. In an existing building, an anchor support—a 51 by 102mm or 51 by 152mm [2- by 4-in. or 2- by 6-in.] wooden board—can be added behind the veneer at the height where the awning's top rail will be. This solution also works for metal buildings, particularly those constructed of thin, corrugated metal.
Brackets
For most applications, brackets are used in conjunction with the various fastening methods. One of the most popular is the Z bracket, which essentially serves as a cradle for the awning framework. Z brackets come in aluminum, galvanized steel, and zinc-plated steel. The type used depends on the region's weather conditions and the awning fabricator's preference.
Our Factory
Foshan Hanrui Outdoor Products Co., LTD., is a research and development, manufacturing and sales as one of the enterprises, own factory more than 40,000 square meters, the main telescopic awning, windproof curtain, Aluminum alloy pavilion, PVC canopy, and other products and accessories wholesale. Our company has more than 20 years of production and operation experience, the enterprise from the initial sunshade gradually to the functional sunshade, outdoor space in-depth development, the company adhering to the "integrity of people, quality based" business purpose, the product quality as the foundation of brand development, product quality is reliable and durable, pay attention to product development and innovation.
FAQ
We're professional awning parts manufacturers and suppliers in China, specialized in providing high quality customized service. We warmly welcome you to buy high-grade awning parts from our factory.
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