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A chainsaw (or chain saw) is a portable, mechanical saw which cuts with a set of teeth attached to a rotating chain that runs along a guide bar. It is used in activities such as tree felling, limbing, bucking, pruning, cutting firebreaks in wildland fire suppression, and harvesting of firewood. Chainsaws with specially designed bar and chain combinations have been developed as tools for use in chainsaw art and chainsaw mills. Specialist chainsaws are used for cutting concrete. Chainsaws are sometimes used for cutting ice, for example for ice sculpture and in Finland for winter swimming. Someone who uses a saw is a sawyer.
A chainsaw consists of several parts:
Chainsaw engines are traditionally either two-stroke gasoline (petrol) internal combustion engine (usually with a cylinder volume of 30 to 120 cm3) or an electric motor driven by a battery or electric power cord. Combustion engines today (2016) are supplied through a traditional carburetor or an electronically adjustable carburetor.
The traditional carburetor needs to be adjusted, i. e. when operating in high or low altitudes, or their fuel oil-to-gasoline ratios must be adjusted to run properly. Electrically influenced carburetors make all adjustments automatically. These systems are provided by most large chain saw producers. Husqvarna calls its "Autotune," and its commonly standard on most saws of the 5XX saw series.
To reduce user fatigue problems, traditional carburetors can be de-vibrated (protected from vibrations) or they can be heated as well. Many saws offer a Winter and Summer mode of operatiojn. Winter mode applies in temperatures below 32 F where inside the cover a hole is opened leaving warm air to the air filter and carburetor to prevent icing. In warmer environment the hole is closed and both units are not ventilated with warm air.
To ensure clean air supply to the carburetor, chainsaw producers offer different filters with fine or less fine mesh. In clean surrounding air a less fine filter can be used, in dusty environment the other. The fine filter keeps the air clean to its optimum (i. e. 44 microns) but has the tendency to clogging. This leads the engine to die.
The engines are designed so that they may be operated in different positions, upside-down or tilted 90 degrees. Early engines died when tilting (two man saw from Dolmar, Germany from 1930 to 1937).
Typically a centrifugal clutch and sprocket. Tbe centrifugal clutch expands with raising spinning speed twards a drum. On this drum sits either a fixed sprocket or an exchangeable one. The clutch has three jobs to do: When the saw runs idle (typically 2500 - 2700 rpm) the chain does not move. When the clutch is enganged and the chain stops in the wood or another reason, it protects the engine. Most important it protects the operator in case of a kickback. Here the chain break stops the drum and the clutch releases immediately.
Clutches and dums can be in two positions: either turned outside (Husqvarna) or inside (Stihl).
An elongated bar with a round end of wear-resistant alloy steel typically 40 to 90 cm (16 to 36 in) in length. An edge slot guides the cutting chain. Specialized loop-style bars, called bow bars, were also used at one time for bucking logs and clearing brush, although they are now rarely encountered due to increased hazards of operation.
All guide bars have some elements for operation:
The lower part of the chain runs in the gauge. Here the lubrification oil is pulled by the chain to the nose. This is a very important mechanism.
At the end of the saw power head there are two oil holes, one on each side. These holes must match with the outlet of the oil pump. The pump presses the oil through the hole in the lower part of the gauge. (See also below)
Saw bar producers provide a large variety of bars matching different saws.
Grease holes at bar nose
Through this hole grease is pressed typically each tank filling to keep the nose sprocket well lubricated.
Here one or two bolts from the saw run through. The clutch cover is put on top of the bar and its secured though this/ these bolts. It depends on the size of the saw if one or two bolts are installed
There are different bar types available:
- Laminated bars
These bars consist of different layers to reduce the weight of the bar.
- Solid bars
These bars are solid steel bars intened for professional use. They have commonly an exchangable nose since the sprocket at the bar nose wears out faster as the bar.
- Safety bars
These bars are liminated bars with a small sprocket at the nose. The small nose reduces the kickback effect. Such bars are used on consumer saws.
Usually each segment in this chain (which is constructed from riveted metal sections similar to a bicycle chain, but without rollers) features small sharp cutting teeth. Each tooth takes the form of a folded tab of chromium-plated steel with a sharp angular or curved corner and two cutting edges, one on the top plate and one on the side plate. Left-handed and right-handed teeth are alternated in the chain. Chains come in varying pitch and gauge; the pitch of a chain is defined as half of the length spanned by any three consecutive rivets (e.g., 8 mm, 0.325 inch), while the gauge is the thickness of drive link where it fits into the guide bar (e.g., 1.5 mm, 0.05 inch). Conventional "full complement" chain has one tooth for every two drive links. "Full skip" chain has one tooth for every three drive links. Built into each tooth is a depth gauge or "raker" which rides ahead of the tooth and limits the depth of cut, typically to around 0.5 mm (0.025"). Depth gauges are critical to safe chain operation. If left too high they will cause very slow cutting, if filed too low the chain will become more prone to kick back. Low depth gauges will also cause the saw to vibrate excessively. Vibration is not only uncomfortable for the operator but is also detrimental to the saw.
Some way to adjust the tension in the cutting chain so that it neither binds on nor comes loose from the guide bar. The tensioner is either operting by turning a screw or a manual wheel. The tensioner is either in a lateral position underneath the exhaust or integrated in the clutch cover.
The lateral tensioner has the advantage that the clutch cover is easier to mount but the disadvantage that its more difficult to reach nearby the bar. Tensioners through the clutch cover are easier to operarte, but the clutch cover is more difficult to attach.
When turning the screw a hook in in a bar hole moves the bar either out (tensioning) or in, make the chain loose. Tension is right, when it can be moved easily by hand and not hanging loose from the bar. When tensioning hold the bar nose up and pull the bar nuts tight. Otherwise the chain might derail.
The underside of each link features a small metal finger called a "drive link" (also DL) which locates the chain on the bar, helps to carry lubricating oil around the bar, and engages with the engine's drive sprocket inside the body of the saw. The engine drives the chain around the track by a centrifugal clutch, engaging the chain as engine speed increases under power, but allowing it to stop as the engine speed slows to idle speed.
Dramatic improvements, chainsaw safety devices and overall design have taken place since the chainsaw's invention, saving many lives and preventing countless serious injuries. These include chainbrake systems, better chain design and anti-vibration systems.
As chainsaw carving has become more popular, chainsaw manufacturers are making special short, narrow-tipped bars for carving. These are called "quarter tipped," "nickel tipped" or "dime tipped" bars, based on the size of the round tip. Chainsaw manufacturer Echo sponsors a carving series, as well as carvers such as former Runaways singer Cherie Currie. Some chainsaws such as the RedMax G3200 CV are built specifically for carving applications.
Two-stroke chainsaws require about 2–5% of oil in the fuel to lubricate the motor, while the motor in electrical chain-saws is normally lubricated for life. Most modern gas operated saws today require a fuel mix of 2% (1:50). Regular gas from most gas stations contain 5 to 10% ethanol which can result in problems of the equipment. Ethanol dissolves plastic, rubber and other material.  This leads to problems especially on older equipment. A workaround of this problem is to run fresh fuel only and run the saw dry at the end of the work.
Separate chain oil or bar oil is used for the lubrication of the bar and chain on all types of chain-saw. The chain oil is depleted quickly because it tends to be thrown off by chain centrifugal force, and it is soaked up by sawdust. On two-stroke chainsaws the chain oil reservoir is usually filled up at the same time as refuelling. The reservoir is normally large enough to provide sufficient chain oil between refuelling. Lack of chain-oil, or using an oil of incorrect viscosity, is a common source of damage to chain-saws, and tends to lead to rapid wear of the bar, or the chain seizing or coming off the bar. In addition to being quite thick, chain oil is particularly sticky (due to "tackifier" additives) to reduce the amount thrown off the chain. Although motor oil is a common emergency substitute, it is lost even faster and so leaves the chain under-lubricated.
Chain oil is either non-biodegradeable or degrateable. Professionls have to use biodegrateable oil in Germany by law.
The oil is pumped from a small pump to a hole in the bar. From here the lower ends of each chain drive link take a portion of the oil into the gauge towards the bar nose.
Chains must be kept sharp to perform well. They become blunt rapidly if they touch soil, metal or stones. When blunt, they tend to produce powdery sawdust, rather than the longer, clean shavings characteristic of a sharp chain; a sharp saw also needs very little force from the operator to push it into the cut. Special hardened chains (made with tungsten carbide) are used for applications where soil is likely to contaminate the cut, such as for cutting through roots.
A clear sign of a blunt chain are vibrations of the saw. A sharp chain pulls itself into the wood without pressing on the saw.
The air intake filter tends to clog up with sawdust. This must be cleaned from time to time, but is not a problem during normal operation.
Despite safety features and protective clothing, injuries can still arise from chainsaw use, from the large forces involved in the work, from the fast-moving, sharp chain, or from the vibration and noise of the machinery.
A common accident arises from kickback, when a chain tooth at the tip of the guide bar catches on wood without cutting through it. This throws the bar (with its moving chain) in an upward arc toward the operator which can cause serious injury or even death.
Another dangerous situation occurs when heavy timber begins to fall or shift before a cut is complete — the chainsaw operator may be trapped or crushed. Similarly, timber falling in an unplanned direction may harm the operator or other workers, or an operator working at a height may fall or be injured by falling timber.
Like other hand-held machinery, the operation of chainsaws can cause vibration white finger, tinnitus or industrial deafness. Theses symptoms were very common when such equipment was not de-vibrated. On today's equipment there are damping elements (in rubber or steel spring) lowering these risks. Heated handles are an additional help.
The risks associated with chainsaw use mean that protective clothing such as chainsaw boots, chainsaw trousers and hearing protectors are normally worn while operating them, and many jurisdictions require that operators be certified or licensed to work with chainsaws. Injury can also result if the chain breaks during operation due to poor maintenance or attempting to cut inappropriate materials.
Drop starting, or turning on a chainsaw by dropping it with one hand while pulling the starting cord with the other, is a safety violation in most states in the U.S. Keeping both hands on the saw for stability is essential for safe chainsaw use.
Chainsaw training is designed to provide working technical knowledge and skills to safely operate the equipment.
- Sizeup – This is scouting and planning safe cuts for the felling direction, danger zones, and retreat paths, before starting the saw. The tree's location relative to other objects, support, and tension determines a safe fall, splits off or if the saw will jam. Several factors to consider are: tree lean and bend, wind direction, branch arrangement, snow load, obstacles and damaged, rotting tree parts, which might behave unexpectedly when cut. A tree may have to fall in its natural direction if it's too dangerous or impossible to fell in a desired direction. The aim is for the tree to fall safely for limbing and cross-cutting the log. The goal is to avoid having the tree fall on another tree or obstacle.
- Felling – After clearing the tree's base undergrowth for the retreat path and the felling direction; felling is properly done with three main cuts. To control the fall, the directional cut line should run 1/4 of the tree diameter to make a 45-degree wedge, which should be 90 degrees to the felling direction and perfectly horizontal. Make the top cut first then, the bottom cut is made to form the directional cut line at the wedge point. A narrow or nonexistent hinge lessens felling direction control. From the opposite side of the wedge, plan to finish the final felling cut 1/10 of the tree diameter from the direction cut line. The felling cut is made horizontally and slightly (1.5–2 inches; 5.1 cm) above the bottom cut. When the hinge is properly set, the felling cut will begin the fall in the desired direction. A sitback is when a tree moves back opposite the intended direction. Placing a wedge in the felling cut can prevent a sitback from pinching the saw.
- Freeing – Working a badly fallen tree that may have become trapped in other trees. Working out maximum tension locations to decide the safest way to release tension, and a winch may be needed in complicated situations. To avoid cutting straight through a tree in tension, one or two cuts at the tension point of sufficient depth to reduce tension may be necessary. After tension releases, cuts are made outside the bend.
- Limbing – Cutting the branches off the log. The operator must be able to properly reach the cut to avoid kickback.
- Bucking – Cross-cutting the felled log into sections. Setup is made to avoid binding the chainsaw within the changing log tensions and compressions. Safe bucking is started at the log highside and then sections worked offside, toward the butt end. The offside log falls and allows for gravity to help prevent binds. Watching the log's kerf movement while cutting, helps to indicate binds. Additional equipment (lifts, bars, wedges and winches) and special cutting techniques can help prevent binds.
- Binds – This is when the chainsaw is at risk or is stuck in the log compression. A log bound chainsaw is not safe, and must be carefully removed to prevent equipment damage.
- Top bind – The tension area on log bottom, compression on top.
- Bottom bind – The tension area on log top, compression on bottom.
- Side bind – Sideways pressure exerted on log.
- End bind – Weight compresses the log’s entire cross section.
- Brushing and Slashing – This is quickly clearing small trees and branches under 5 inches diameter. A hand piler may follow along to move out debris.
The origin is debated, but a chainsaw-like tool was made around 1830 by the German orthopaedist Bernhard Heine. This instrument, the osteotome, had links of a chain carrying small cutting teeth with the edges set at an angle; the chain was moved around a guiding blade by turning the handle of a sprocket wheel. As the name implies, this was used to cut bone. The prototype of the chain saw familiar today in the timber industry was pioneered in the late 18th century by two Scottish doctors, John Aitken and James Jeffray, for symphysiotomy and excision of diseased bone respectively. The chain hand saw, a fine serrated link chain which cut on the concave side, was invented around 1783-1785. It was illustrated in Aitken's Principles of Midwifery or Puerperal Medicine (1785) and used by him in his dissecting room. Jeffray claimed to have conceived the idea of the chain saw independently about that time but it was 1790 before he was able to have it produced. In 1806, Jeffray published Cases of the Excision of Carious Joints by H. Park and P. F. Moreau with Observations by James Jeffray M.D.. In this communication he translated Moreau's paper of 1803. Park and Moreau described successful excision of diseased joints, particularly the knee and elbow. Jeffray explained that the chain saw would allow a smaller wound and protect the adjacent neurovascular bundle. While a heroic concept, symphysiotomy had too many complications for most obstetricians but Jeffray's ideas became accepted, especially after the development of anaesthetics. Mechanised versions of the chain saw were developed but in the later 19th Century, it was superseded in surgery by the Gigli twisted wire saw. For much of the 19th century, however, the chain saw was a useful surgical instrument.
The first portable chainsaw was developed and patented in 1918 by Canadian millwright James Shand. After he allowed his rights to lapse in 1930 his invention was further developed by what became the German company Festo in 1933. The company now operates as Festool producing portable power tools. Other important contributors to the modern chainsaw are Joseph Buford Cox and Andreas Stihl; the latter patented and developed an electrical chainsaw for use on bucking sites in 1926 and a gasoline-powered chainsaw in 1929, and founded a company to mass-produce them. In 1927, Emil Lerp, the founder of Dolmar, developed the world's first gasoline-powered chainsaw and mass-produced them.
World War II interrupted the supply of German chain saws to North America, so new manufacturers sprang up including Industrial Engineering Ltd (IEL) in 1947, the forerunner of Pioneer Saws. Ltd and part of Outboard Marine Corporation, the oldest manufacturer of chainsaws in North America.
McCulloch in North America started to produce chainsaws in 1948. The early models were heavy, two-person devices with long bars. Often chainsaws were so heavy that they had wheels like dragsaws. Other outfits used driven lines from a wheeled power unit to drive the cutting bar.
After World War II, improvements in aluminum and engine design lightened chainsaws to the point where one person could carry them. In some areas the skidder (chainsaw) crews have been replaced by the feller buncher and harvester.
Chainsaws have almost entirely replaced simple man-powered saws in forestry. They come in many sizes, from small electric saws intended for home and garden use, to large "lumberjack" saws. Members of military engineer units are trained to use chainsaws as are firefighters to fight forest fires and to ventilate structure fires.
Cutting stone, concrete and brick
Special chainsaws can cut concrete, brick and natural stone. These use similar chains to ordinary chainsaws, but with cutting edges embedded with diamond grit. They may use gasoline or hydraulic power, and the chain is lubricated with water, because of high friction and to remove stone-dust. The machine is used in construction, for example in cutting deep square holes in walls or floors, in stone sculpture for removing large chunks of stone during pre-carving, by fire departments for gaining access to buildings and in restoration of buildings and monuments, for removing parts with minimal damage to the surrounding structure. More recently concrete chainsaws with electric motors of 230 volts have also been developed.
Because the material to be cut is non-fibrous, there is much less chance of kickback. Therefore, the most-used method of cutting is plunge-cutting, by pushing the tip of the blade into the material. With this method square cuts as small as the blade width can be achieved. Pushback can occur if a block shifts when nearly cut through and pinches the blade, but overall the machine is less dangerous than a wood-cutting chainsaw.
- Chainsaws in popular culture
- Circular saw
- Portable sawmill
- Saw chain
- Small engine
- ECHO Carving Series
- Chainsaw carving page.
- Masters of the Chainsaw – Chainsaw Competitions
- "Chain Saw Safety Manual" (PDF). Stihl. 1999.
- Stihl, Chain Saw Safety Manual, pp. 12-16
- "Preventing Chain Saw Injuries During Tree Removal After a Disaster". Centers for Disease Control and Prevention. Retrieved 1 April 2014.
- Vibration Syndrome. National Institute for Occupational Safety and Health. Current Intelligence Bulletin 38: March 29, 2983. Retrieved December 22, 2008.
- Carbon Monoxide Hazards from Small Gasoline Powered Engines. National Institute for Occupational Safety and Health. Retrieved December 22, 2008.
- Chain Saw and Crosscut Saw Training Course Student's Guidebook 2006 Edition. USDA, US Forest Service. 29 December 2009. Retrieved 18 February 2011. External link in
- Jonsered Operator's Manual (1153137-95Rev.2). 2012-03-04. pp. 16–18.
- Husqvarna Operator's Manual (115 42 1549 Rev. 6). 2009-12-29. pp. 27–28; 43.
- Jonsered Operator's Manual (1153137-95Rev.2). 2012-03-04. pp. 16–18.
- Jonsered Operator's Manual (1153137-95Rev.2). 2012-03-04. pp. 16–18.
- Lennox, Doug. Now You Know: The Book of Answers, Volume 4. Toronto: Dundurn Press. 175. Print.
- "Steady Growth, Industry Firsts Noted in Long Pioneer History", Chain Saw Age August 1972.
- Electric concrete chainsaw 230V
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- How a Chainsaw Works., Popular Science, August 1951