Technodiversity Glossary

The feller is a self-propelled machine which is designed to fell trees (buffer 10 to 21). Alternatives, which are commonly used in forestry for the sub-process of felling, are the chainsaw as a tool, and the harvester as a machine.

The feller itself can only take over the function of felling and pre-skidding over the distance of the crane length, further steps must be performed by other forest machines e.g., the processor.

A shear or saw device, which is attached to the end of the feller´s hydraulic arm, cuts the tree off from its roots and bunches the full trees.

Since all the steps of felling are executed by the feller and the human only needs to control the movements, the work with the feller is classified as advanced mechanized work.

(See PR1-B03 and B07)

see solutions for felling

A felling damage happens by the felling and processing of a tree to the tree itself and to neighboring trees and values.

With motor-manual felling (a), the tree falls down forming a quadrant.

The axis of this movement originates at the aptly, called “hinge”. As it falls, the tree develops a high dynamic force.Any obstacle in its way is in serious danger. If another tree is hit, it will be broken or wounded. If that occurs, a damage has been inflicted on the environment - not to the human being itself. Very often, this devaluation is not important: yet, if the injured tree is particularly valuable, then an important financial damage has also occurred.

With machine felling (b) – using a feller or a harvester – , the tree is cut from its root, lifted a little bit and pulled towards the machine position. As a result, the wide tree crown falls mostly in the void left by the cut tree – where now there is little that could be damaged.

Experience shows that by this procedure, the risk of inflicting felling damage to the remaining stand has turned nearly to zero.

If the machine is strong enough to lift the tree upright (c), it can move it out of the stand and lay it down where there is no risk of damaging anything. This procedure is applied when the driver wants to spare clumps of regeneration developing under the cut tree.

This proves that machines are able to reduce site damage, opposite to the common feeling of public, provided that the driver is sufficiently competent and careful.

(See more at PR1-D01)

See rosette

The forwarder is a rubber-tired or tracked machine used for the extraction of trees. Other machines that can be used for this sub-process are the cable skidder, grapple skidder, clam-bunk skidder, farm tractor equipped with a forwarding trailer, and cable yarder.

The forwarder is mainly utilized for the extraction of short logs with a maximum length of 6 m (so called crane length).

An integrated grapple loader lifts the logs onto the forwarder, where the logs are held by stanchions. Since the load does not touch the ground during the transportation process from the trail (buffer 32) to the forest road (buffer 33), this type of extractions is assigned to the carrying extraction.

The forwarder is commonly used in combination with a harvester. The combination of both machines is called “fully mechanized cut to length method” or short “cut to length method”.

A farm tractor equipped with a forwarding trailer is also used in some cases as a substitute for the forwarder.

The work with the forwarder is described as advanced mechanized work.

(See PR1-B03 and B07)

The full tree method is one of four different functional groups of harvesting methods. The others are tree length, cut-to-length and chip method.

With the full tree method, trees are cut down and then taken as full trees to the forest road.

There (a) they can be loaded on special trailers and transported as full trees to the factory. Otherwise (b), once at the forest road, trees are delimbed and topped and transported to the factory as tree lengths. Or (c) they could also be crosscut at pre-defined lengths and transported to the factory as logs. Or finally (d), the logger opts for chipping the whole trees rather than delimbing and crosscutting them.

(See more at TDiv PR1-B07)

See manual method

See mechanized method

See motor-manual method

The functiogram is one possibility to describe a harvesting method in forestry. In Technodiversity, it is used as standard visualization for processes and methods.

From LÖFFLER et al. we have adopted the columns, where the location of the action is visualized:

•       Stand

•       Strip road, trail, corridor

•       Forest road

•       Factory

From top to down we added the steps leading to state change:

• Complete tree
• Full tree
• Tree length
• Log
• Chips

In combination of both, we get a ‘road map’ of different paths, through which we can step forward from the top left corner (the complete tree) to the comfortable right end (i.e., the desired product).

Technical operations are expressed by colored arrows. Each sub-process ends up with a buffer that is expressed by a dark button. Normally a process is a combination of two or more sub-processes that are concatenated. Each sub-process can be named by a pictogram of the most important actor like a machine, an animal or a hand-tool. If necessary, additional information can be made by pictures or words.

As one example, the fully mechanized method with harvester and forwarder is shown here.  

The harvester performs the following tasks: fells the tree, moves the full tree to the trail (pre-skidding), delimbs the tree and cross-cuts it into shorter logs. Finally, the logs are stored alongside the trail as a small pile – i.e., a buffer (dark button). Later on, the forwarder loads the logs, carries them along the trail to the landing at the forest road and unloads the logs. Here again a buffer is formed (second dark button). The truck loads the logs and delivers them to the user plant.

On the basis of a functiogram, the harvesting method can be subsumed under one of the following functional groups: full-tree method, tree-length method, cut-to-length method or chip method. The combination of the degrees of mechanization of each sub-process gives the degree of mechanization of the total method. In our example, we have a fully mechanized cut-to-length method.

(See more at TDiv PR1-B06)