A tree chipper or woodchipper is a machine used for reducing wood into smaller woodchips. They are often portable, being mounted on wheels on frames suitable for towing behind a truck or van. Power is generally provided by an internal combustion engine from to. There are also high power chipper models mounted on trucks and powered by a separate engine. These models usually also have a hydraulic crane. Tree chippers are typically made of a hopper with a collar, the chipper mechanism itself, and an optional collection bin for the chips. A tree limb is inserted into the hopper and started into the chipping mechanism. The chips exit through a chute and can be directed into a truck-mounted container or onto the ground. Typical output is chips on the order of to across in size. The resulting wood chips have various uses such as being spread as a ground cover or being fed into a digester during papermaking. Most woodchippers rely on energy stored in a heavy flywheel to do their work. The chipping blades are mounted on the face of the flywheel, and the flywheel is accelerated by an electric motor or internal combustion engine. Large woodchippers are frequently equipped with grooved rollers in the throat of their feed funnels. Once a branch has been gripped by the rollers, the rollers transport the branch to the chipping blades at a steady rate. These rollers are a safety feature and are generally reversible for situations where a branch gets caught on clothing.
History
The woodchipper was invented by Peter Jensen in 1884, the "Marke Angeln" woodchipper soon became the core business of his company, which already produced and repaired communal- and woodworking-machinery.
Types
Disc
The original chipper design employs a steel disk with knives mounted upon it as the chipping mechanism. This technology dates back to an invention by German Heinrich Wigger, for which he obtained a patent in 1922. In this design, reversible hydraulically powered wheels draw the material from the hopper towards the disk, which is mounted perpendicularly to the incoming material. As the disk is turned by a motor, the knives mounted on the face of the disk cut the material into chips. These are thrown out the chute by flanges on the edges of the disk. Commercial-grade disk-style chippers usually have a material diameter capacity of. Industrial-grade chippers are available with discs as large as in diameter, requiring. One application of industrial disk chippers is to produce the wood chips used in the manufacture of particle board.
Drum
Drum chippers employ mechanisms consisting of a large steel drum powered by a motor. The drum is mounted parallel to the hopper and spins toward the chute. Knives mounted to the outer surface of the drum cut the material into chips and propel the chips into the discharge chute. Commercial-grade drum-style chippers usually have a material diameter capacity of. Conventionally-fed drum chippers use the drum as the feed mechanism, drawing the material through as it chips it. These are colloquially known as "chuck-and-duck" chippers, due to the immediate speed attained by material dropped into the drum. Chippers of this type have many drawbacks and safety issues. If an operator becomes snagged on material being fed into the machine, injury or death is very likely. Hydraulically-fed drum chippers have largely replaced conventionally-fed machines. These chippers use a set of hydraulically powered wheels to regulate the rate of feed of material into the chipper drum.
Other
Much larger machines for wood processing exist. "Whole tree chippers" and "Recyclers", which can typically handle material diameters of to may employ drums, disks, or a combination of both. The largest machines used in wood processing, often called "Tub Grinders", may handle a material diameter of or greater, and use carbide tipped flail hammers to pulverize wood rather than cut it. These machines usually have to. Some are so heavy that they require a semi-trailer truck to be transported. Smaller models can be towed by a medium duty truck.
Blades
Although chippers vary greatly in size, type, and capacity, the blades processing the wood are similar in construction. They are rectangular in shape and are usually to across by to long. They vary in thickness from about to. Chipper blades are made from high grade steel and usually contain a minimum of 8% chromium for hardness.