Tower cranes are widely used in the construction industry to lift and move heavy loads. A tower crane consists of several different components that work together to provide stability and control while performing various lifting tasks.

In order to understand how a tower crane operates, it would be extremely helpful to know the specific tower crane parts that typically come from a crane parts supplier, and their respective functions.
This article shall cover some of the more distinctive features of a crane which include:
- The Base
- The Mast or Tower
- The Boom or Jib
- The Trolley
- The Hoist
- The Operator’s Cabin
- The Counterweight

The Base
Stability is extremely paramount in the case of a tower crane, especially in the context of transporting and moving heavy loads. The base helps to anchor the tower crane to either a concrete foundation or a steel platform to provide maximum stability and to ensure that the crane does not move around unnecessarily when moving and transporting weighted goods. It is crucial that the base is designed in a manner such that it can fully withstand the weight of the crane, its constituent components, and the load which is being lifted at that point of time.
The Mast or Tower:
The mast refers to the vertical component of the crane which rises from the base. It usually consists of several sections that can be added or removed to adjust the height of the crane, based on the corresponding height of the structure under construction. The mast generally tends to be made using steel and is designed to be strong and rigid enough to support the weight of the other components, such as the boom and the counterweight.

The Boom or Jib
The boom is the horizontal component of the crane which extends outwards from the top of the mast - akin to an arm. It can range from 40 to 60 metres in length, and certain specific models of tower cranes allow the boom to be angled differently in various orientations, to reach different parts of a construction site in the most efficient way possible. Like the mast, the boom is also predominantly made of steel, and is also designed to be strong and rigid, for the same reasons as that of the mast.
The Trolley
The trolley is a mechanism that moves along the boom and carries the load. It is powered by an electric motor and can be controlled from the operator's cabin. The trolley consists of a platform that holds the load, and a system of pulleys and ropes that allow the load to be raised and lowered. Additionally, the trolley also controls the position of the load along the boom, allowing for heightened flexibility when transporting construction materials around the construction site.
The Hoist
The Hoist is the device responsible for raising and lowering the attached load. It is powered by an electric motor and controlled from the operator's cab. A cable or rope is attached to the hoist and runs through a pulley system to the trolley, where it is attached to the load. The hoist is also designed to be able to lift heavy loads and maintain control of the load during operation.

The Operator’s Cabin
The operator’s cabin is located at the top of the mast, right under the horizontal boom. It allows the operator to gain a clear and unobstructed view of the construction site. The cabin is also equipped with multiple sophisticated controls that allow the operator to move the trolley and control the hoist. The operator can also choose to raise and lower the load, move the load along the boom, and adjust the angle of the boom as needed.
The Counterweight
Based on the principle of moments, for a body to be in rotational equilibrium, the net torque on acting on the body must be strictly zero. Counterweights thus help to ensure that the clockwise moment caused by the heavy load is matched and thus balanced out by an anticlockwise moment caused by the counterweight, of the same magnitude but opposite rotational direction. As heavy weights which are placed at the opposite end of the boom from the load, the counterweights ensure that the crane does not tip over while moving or transporting objects of significant mass. This, in turn, ensures heightened stability during the crane’s operation.
While in operation, the tower crane is used to lift and move heavy loads around a construction site. The operator first positions the trolley at the desired location along the boom, preferably directly above the weighted load for increased efficiency. The operator then uses the hoist to raise or lower the load based on the requirements of the site, and the trolley is also used to move the load along the boom to its final destination in the construction site. The counterweights help to balance the load and prevent the crane from tipping over. The crane operator has absolute control over the position and rate of movement of the load, and can adjust the position and angle of the boom and as needed, so as to reach different parts of the construction site with ease and unrivalled flexibility.
Tower cranes can also be further divided into different types - Hammerhead cranes, Self-Erecting Tower Cranes and Luffing Tower Cranes, as shown by the table below:
Crane Type | Distinctive Features |
---|---|
Hammerhead Crane | The boom or jib of the crane is perpetually horizontal and fixed, but the trolley of the crane can be moved horizontally along the boom with few restrictions. As a versatile crane, it can be used in a variety of situations due to its high adaptability to any site. |
Self-Erecting Tower Crane | The crane is lighter and more mobile than most other cranes, and can be easily folded, dismantled and transported. However, this type of crane is typically used for comparatively lighter weights instead of heavy loads. |
Luffing Tower Crane | The trolley of the crane is fixed at the edge of the boom and cannot be moved. However, the angle of the boom or jib can be adjusted upwards and downwards to provide increased flexibility, especially in construction sites with space constraints |
To conclude, tower cranes are highly versatile and efficient lifting machines that play a crucial role in the construction industry and can be absolutely indispensable in certain cases. A crane parts supplier tends to be most experienced in this field, and would be most adept in helping their clients obtain crane spares, or even specific crane spare parts from individual tower crane models. By understanding the specific crane parts and their respective functions, it then becomes possible to appreciate the complexity and sophistication brought about by these machines, as well as how they function so as to provide stability, order and control in a construction site.