In airless spray, the fast moving, high-pressure liquid stream provides the energy necessary to overcome the fluid’s viscosity and surface tension to form a fine spray. A simple, everyday example of an airless spray system is a bathroom shower.
In an airless system, fluid is pumped under high pressure through a spray tip; the tip size and pressure determine the material flow rate. The tip also creates the fan pattern. Airless is in contrast to air spray systems, which inject compressed air into the fluid stream of a fluid such as paint to achieve decomposition.
Airless sprayers provide an easy and economical way to apply coatings no matter the amount of solids present. Indeed, professional painting contractors prefer to use airless sprayers for three key reasons:
While the fluid section, pressure controls, and power sources are important components of airless sprayers, if one refers to the pressure controls as the “brains” of the system, then the airless spray tip is definitely the heart of the system. An airless spray tip helps determine the fluid flow or the amount of coating applied, and determines the spray pattern (i.e. fan width).All Graco airless sprayer tips are made out of the highest grade of tungsten carbide, the most abrasive-resistant material used for airless spray tips.
Selection of the correct tip is essential to maximize productivity, as the tip determines the fluid flow and the size of the spray pattern – the fan size. Using the right tip results in maximum control and minimum overspray, which means faster work and less paint usage, which ultimately means finishing the job quickly without wasting paint.
To choose the right spray tip, several factors are important to considered, such as the material thickness, the sprayer’s maximum flow rate and the best fan size for the job. It is important to know when a tip is worn and why to replace it.
Spray tips are rated in terms of liters per minute (lpm). Prior to determining which tip to use, consider the following factors:
The sprayer’s maximum flow rate
For optimum performance, the sprayer must have a maximum flow rate higher than the flow rate of the tip, so be sure the flow rate of the tip is less than the maximum flow rate of your sprayer. For example, a 15 thousandths tip (.015) has a rating of 0.91. Hence, the sprayer must be capable of pumping at least 0.91 lpm. Why use a tip with a lower flow rate? When the tip wears, the opening becomes larger, and the flow rate increases.
The thickness of the material
It’s easy to determine which tip size to use when you know the type of material you’ll be spraying. Lower stickiness (thinner) materials, such as stain or coating, require a spray tip with a smaller hole size. Heavier materials, like latex, require a tip with a larger opening. Extremely heavy materials like elastomerics and blockfiller might require spray tips larger than .035.
Fan size – the width of the spray pattern – determines the area covered with each pass. For a given tip orifice, a wider fan delivers a thinner coat, less defined spray pattern, more overspray, and faster coverage on broad, open surfaces. A narrower fan delivers a thicker coat, more defined spray pattern, less overspray, and better control when spraying small or confined surfaces.To maximize productivity and reduce labor costs, choose a tip with the right fan size. In general, a larger fan size increases production with less control, and a smaller fan size decreases production with more control.
Tips for extending the life of spray tips include:
There are many factors to take into consideration when choosing the correct airless sprayer for an application:
Material and surface to be sprayed
The types of materials you spray will determine the size of the tips you use. If you plan to spray a variety of materials you have to consider buying a sprayer with greater versatility.Will you be spraying on dry wall, exteriors or concrete? You have to consider the tip sizes needed as well as the quality of finish required in order to choose the best sprayer for the job.Each job has its own requirements. New construction, residential work, and commercial jobs vary in terms of coatings used, crew size needed, and power source available.
Liters per week to be sprayed
Purchasing a part-time sprayer to do a full-time job has disappointed many contractors. In the long run, saving money on a sprayer that is inadequate for the job, or not durable enough, is costly in terms of lost labor.
Number of spray guns to be used at one time
If you plan to use more than one gun at the same time, then you have to purchase a unit that has the ability to handle multiple guns.
Hose length depends on the job site, material being sprayed, tip size, and hose diameter. Your sprayer must be able to support the length of the hose. Most Graco sprayers use DC motors, which are able to support longer hose lengths than either AC or universal motors.
Available budget
Buying a sprayer is an investment. You don’t want to over-buy or under-buy. Keep in mind the cliché, “You can pay now or later”. Downtime resulting from an undersized, overworked sprayer or poor quality equipment can quickly wipe out any savings from the initial low purchase cost of the sprayer.
A good spray pattern indicates that the paint or coating is completely atomized and distributed evenly onto the surface. Several techniques help determine the quality of the spray pattern and the quality of the finish. Techniques include everything from adjusting the pressure to the aiming of the spray pattern and movement of the spray gun. The following techniques ensure a long-lasting quality finish:
Aiming the spray pattern
The spray gun is held approximately 30 cm from the surface, and aimed straight (both horizontally and vertically) at the surface. Extremely large tips will require you to move further away to achieve a good spray pattern. The spray gun should move across the surface with the wrist flexed to keep the gun pointed straight at the surface. “Fanning” the gun to direct the spray at an angle will cause an uneven finish.
Triggering technique
The spray gun should be triggered after beginning the stroke (also call the lead stroke) and released before ending the stroke (also called the lag stroke). The gun should move during both the trigger squeeze and trigger release. This technique prevents patches of thick coating at the beginning and end of each accomplishment.
Overlapping technique
This technique ensures that an even amount of coating has been sprayed onto the surface. The spray gun should be aimed so that the tip points at the edge of the previous stroke, overlapping each stroke by half. To maximize efficiency when spraying on broad, open surfaces (e.g. ceilings and bare walls), the outside edges of walls should be sprayed first. The middle can then be sprayed quickly, requiring less precise strokes.
Painting inside corners
When spraying corners the gun should be aimed into the corner, spraying along the corner, rather than spraying back and forth across the corner.
The key to proper coverage is controlling the coat thickness. To ensure proper coverage and a quality finish, do not adjust the pressure to make the coat thicker or thinner. Adjust the pressure to the lowest pressure with a good spray pattern. If the coating is running down the surface, then the coat is too thick. One or more of the following will help:
If the finish is not covering the surface, then the coat is too thin. One or more of the following will help:
Many different components need to be checked, tightened, cleaned or replaced as needed: inlet screen, manifold filter, gun filter, tip filter, hose connections, inlet suction tube, gun body, tip guard and tip, trigger safety, trigger guard and power cord.
The appropriate size filters should be used for the material being sprayed. Filters should be checked daily; if clogged more than 20%, replace. If punctured, replace immediately. Visually check hoses every time you spray for internal build-up, cracks, kinks, holes, blisters, abrasions, and damage to the hose cover.
The potential hazards that can occur when using Graco products are mainly related to fire and explosions. These can only occur if there is an ignition source combined with flammable vapors and air in the workspace. Ignition sources that can potentially lead to a fire or explosion are electrical switches or motors, open flames, and static electricity.To prevent fire and explosion:
Skin injection
Spray equipment users and doctors often underestimate the seriousness of a skin injection injury and the medical complications that could result. The injury might look like “just a cut” but should be considered a serious injury!
Factors in the work environment that contribute to the risk of accidental skin injection are a high-pressure fluid stream directed toward skin or clothing; removal of protective devices from equipment (gun safety, trigger guard, and tip guard); unintended release of fluid pressure; and failure to use a spray gun trigger safety.To prevent skin injection:
Pressure-related injuries occur when equipment is over-pressurized and a component of the airless sprayer ruptures. Exceeding the safe working pressure of a component leads to component ruptures; continued use of worn or damaged equipment; or the operator fails to follow pressure-relief procedures. In addition, injuries can occur if connections are not tight, are incompatible, or are inappropriate for the pressure rating.
When equipment components rupture or an unexpected pressure release occurs, injuries are most often caused by spray in the face or eyes, a whipping hose, or projectiles. To prevent pressure-related injuries:
Injury from moving parts most often occurs after unintended contact with moving components (for example, air motor and pump displacement rods). It can also occur if equipment guards are removed, or failure to completely relieve fluid and air pressure on servicing equipment.
To prevent injury from moving parts, follow procedures for relieving fluid pressure whenever you stop equipment for service or repair. Never operate equipment with guards or other protective devices removed, and check regularly to ensure that safety devices are operating properly. Finally, properly use bleed type shutoff valves.
Factors in the work environment that may potentially lead to electric shock are contact with electrically live or charged parts, or improper grounding of equipment and other objects in the spray area. To prevent electric shock:
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