Crane
materials handling
crane, any of a diverse group of machines that not only lift heavy objects but also shift them horizontally. Cranes are distinct from hoists, passenger elevators, and other devices intended solely or primarily for vertical lifting and from conveyors, which continuously lift or carry bulk materials such as grain or coal. Cranes have come into their present widespread application only since the introduction of steam engines, internal-combustion engines, and electric motors, beginning in the 19th century.
The most prominent component of that class of cranes known as derrick cranes is the jib, or boom; this is a long beam that is structurally reinforced so that it will not bend. The jib is supported or held aloft by guy wires running from its top to a vertical mast, or pillar, that is itself stiffly braced; the guy wires set the angle at which the jib leans. Along the entire length of the jib runs a pulley system whose cables or chains are wound and unwound around a drum, or cylinder, that is placed at the jib’s base and is turned by a motor. The cable dropping from the top of the jib is attached to loads and lifts them vertically. The loads may also be moved from side to side by having the jib pivot, or rotate, on its base around the mast. A simple pivoting hand-operated jib crane is depicted in Figure 1.
A traveling jib crane is one in which the pulley system is suspended from a trolley, or wheeled carriage, moving along the length of the jib, as illustrated in Figure 2. Such traveling cranes usually have lifting capacities of from 5 to 250 tons. A potentially more powerful derrick is the floating crane, which is built on a barge for such purposes as constructing bridges or salvaging sunken objects. The Musashi, a large crane of this type built in Japan in 1974, can lift a 3,000-ton load.
Problems in maintaining stability always arise with jib cranes, and in the case of larger cranes that lift heavy loads at long outreaches, special care has to be taken to avoid tipping of the crane. For this purpose, besides the usual practice of mounting the hoisting machinery in such a way as to counterpoise part of the load on the boom, special ballast weights must be added to ensure that the crane will not be overturned.
The cantilever crane, a type much used in the construction of ships and tall buildings, has a horizontal boom that rests upon and can rotate about a vertical mast. The load is suspended from a trolley that can move along a track on the boom. A cantilever crane used in shipyards is depicted in Figure 3. During the erection of a building of many stories, the mast of a cantilever crane may be extended upward repeatedly as the height of the building increases. (See also cantilever.)
Bridge cranes comprise another important class of cranes in which the pulley system is suspended from a trolley that moves on tracks along one or two horizontal beams, called the bridge, that are supported at both ends. In most cases, the bridge itself can move along a pair of parallel rails, so that the crane can serve a large rectangular area. A circular space can be served by a rotary bridge crane, in which one end of the overhead beam is supported by a central pivot while the other end moves on a circular rail on the periphery of the area. The overhead traveling crane, a bridge crane for which the rails are mounted above the level of the ground or floor, has the advantage of causing no obstruction of the working area. Overhead traveling cranes are commonly used indoors, where their rails can be attached to the columns that support the roof. This type of crane is depicted in Figure 4. If the construction of overhead rails is impracticable, the ends of the bridge can be attached to upright towers that move on rails at the ground level; such cranes are called gantry, or goliath, cranes.
A commonly used type of small movable crane is the truck crane, which is a crane mounted on a heavy, modified truck. Such cranes frequently use unsupported telescoping booms; these are made up of collapsible sections that can be extended outward like the sections of an old nautical telescope or spyglass. The extension of the boom is usually managed hydraulically. Truck cranes make up in mobility and ease of transport what they lack in hoisting capacity.
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