Width of the inner guiding flange: 102mm

Width of the inner guiding flange: 84mm

Width of the inner guide flange: 84mm

Width of the inner guiding flange: 70mm

Width of the inner guiding flange: 57mm

Width of the inner guide flange: 57mm

Width of the inner guiding flange: 54mm

Width of the inner guiding flange: 54mm

Width of the inner guiding flange: 52mm

Sprockets are a key element in the construction of heavy machinery such as excavators, loaders, bulldozers, and others. Their main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, which could lead to increased fuel consumption, frequent breakdowns, and a shortened lifespan of the entire equipment.

In an economic context, the choice of appropriate sprockets also affects the operating costs of the machine. Sprockets with higher durability and resistance to damage can significantly reduce maintenance and repair costs, as well as contribute to the longer lifespan of the machine itself. Additionally, properly selected sprockets can enhance fuel efficiency, which directly impacts the reduction of operational costs.

Sprockets play a crucial role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across varied construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

Sprockets play a crucial role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across varied construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

Sprockets play a crucial role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across varied construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

The sprocket is a key component in the construction of heavy machinery such as excavators, loaders, and bulldozers. Its main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, leading to increased fuel consumption, frequent breakdowns, and reduced equipment lifespan.

Sprockets play a crucial role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across varied construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

Sprockets are a key element in the construction of heavy machinery, such as excavators, loaders, bulldozers, and others. Their main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, which could lead to increased fuel consumption, frequent breakdowns, and a shortened lifespan of the entire device.

In economic terms, the choice of appropriate sprockets also affects the operating costs of the machine. Sprockets with higher durability and resistance to damage can significantly reduce maintenance and repair costs, as well as contribute to the longer lifespan of the machine itself. Additionally, properly selected sprockets can enhance fuel efficiency, which directly impacts the reduction of operational costs.

The sprocket is a key component in the construction of heavy machinery such as excavators, loaders, and bulldozers. Its main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, leading to increased fuel consumption, frequent breakdowns, and reduced equipment lifespan.

Sprockets are a key element in the construction of heavy machinery, such as excavators, loaders, bulldozers, and others. Their main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, which could lead to increased fuel consumption, frequent breakdowns, and a shortened lifespan of the entire equipment.

In an economic context, the choice of appropriate sprockets also affects the operating costs of the machine. Sprockets with higher durability and resistance to damage can significantly reduce maintenance and repair costs, as well as contribute to the longer lifespan of the machine itself. Additionally, properly selected sprockets can enhance fuel efficiency, which directly impacts the reduction of operational costs.

Sprockets play a key role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across varied construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

Sprockets are a key element in the construction of heavy machinery such as excavators, loaders, bulldozers, and others. Their main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, which could lead to increased fuel consumption, frequent breakdowns, and a shortened lifespan of the entire equipment.

In economic terms, the choice of appropriate sprockets also affects the operating costs of the machine. Sprockets with higher durability and resistance to damage can significantly reduce maintenance and repair costs, as well as contribute to the longer lifespan of the machine itself. Additionally, properly selected sprockets can enhance fuel efficiency, which directly impacts the reduction of operational costs.

The sprocket is a key component in the construction of heavy machinery such as excavators, loaders, and bulldozers. Its main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, leading to increased fuel consumption, frequent breakdowns, and reduced equipment lifespan.

Sprockets play a crucial role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across varied construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

Sprockets are a key element in the construction of heavy machinery, such as excavators, loaders, bulldozers, and others. Their main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, which could lead to increased fuel consumption, frequent breakdowns, and a shortened lifespan of the entire equipment.

In an economic context, the choice of appropriate sprockets also affects the operating costs of the machine. Sprockets with higher durability and resistance to damage can significantly reduce maintenance and repair costs, as well as contribute to the longer lifespan of the machine itself. Additionally, properly selected sprockets can enhance fuel efficiency, which directly impacts the reduction of operational costs.

The sprocket is a key component in the construction of heavy machinery such as excavators, loaders, and bulldozers. Its main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, leading to increased fuel consumption, frequent breakdowns, and reduced equipment lifespan.

Sprockets play a crucial role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across diverse construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

Sprockets are a key element in the construction of heavy machinery, such as excavators, loaders, bulldozers, and others. Their main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, which could lead to increased fuel consumption, frequent breakdowns, and a shortened lifespan of the entire equipment.

In economic terms, the choice of appropriate sprockets also affects the operating costs of the machine. Sprockets with higher durability and resistance to damage can significantly reduce maintenance and repair costs, as well as contribute to the longer lifespan of the machine itself. Additionally, properly selected sprockets can enhance fuel efficiency, which directly impacts the reduction of operational costs.

The sprocket is a key component in the construction of heavy machinery such as excavators, loaders, and bulldozers. Its main function is to transfer power from the engine to the ground, allowing the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, leading to increased fuel consumption, frequent breakdowns, and reduced equipment lifespan.

Sprockets play a crucial role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across diverse construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

Sprockets are a key element in the construction of heavy machinery, such as excavators, loaders, bulldozers, and others. Their main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, which could lead to increased fuel consumption, frequent breakdowns, and a shortened lifespan of the entire equipment.

In an economic context, the choice of appropriate sprockets also affects the operating costs of the machine. Sprockets with higher durability and resistance to damage can significantly reduce maintenance and repair costs, as well as contribute to the longer lifespan of the machine itself. Additionally, properly selected sprockets can enhance fuel efficiency, which directly impacts the reduction of operational costs.

The sprocket is a key component in the construction of heavy machinery such as excavators, loaders, and bulldozers. Its main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, leading to increased fuel consumption, frequent breakdowns, and reduced equipment lifespan.

Sprockets play a crucial role in construction machinery such as excavators, loaders, and bulldozers. Their task is to transfer power from the engine to the ground, enabling movement across varied construction terrains. The appropriate sprocket ensures optimal performance for the machine, reducing fuel consumption, minimizing the risk of failure, and extending the equipment's lifespan.

Sprockets are a key element in the construction of heavy machinery such as excavators, loaders, bulldozers, and others. Their main function is to transfer power from the engine to the ground, enabling the machine to move across various construction terrains. Without properly selected and designed sprockets, construction machines would not be able to perform their tasks efficiently, which could lead to increased fuel consumption, frequent breakdowns, and a shortened lifespan of the entire equipment.

In an economic context, the choice of appropriate sprockets also affects the operating costs of the machine. Sprockets with higher durability and resistance to damage can significantly reduce maintenance and repair costs, as well as contribute to the longer lifespan of the machine itself. Additionally, well-chosen sprockets can enhance fuel efficiency, which directly impacts the reduction of operational costs.

The carrier roller for Ingersoll-Rand is a key component of the crawler undercarriage system, which ensures stable maintenance of the upper part of the track in the correct position. This prevents the tracks from slipping, allowing the machine to operate at full efficiency even in the most demanding terrains. The offered carrier roller is made of high-strength steel, ensuring its durability and resistance to intense loads and harsh working conditions.

A single flange track roller is an important component in the crawler undercarriage system, used in construction machines such as crawler excavators, bulldozers, and other heavy equipment operating in challenging terrain. These rollers provide smooth movement and even weight distribution of the machine on the tracks, which helps minimize part wear and reduces the impact on the ground over which the machine moves.

A single flange track roller is a crucial component of the crawler undercarriage system, widely used in construction machinery such as crawler excavators, bulldozers, and other heavy vehicles operating in challenging terrain conditions. This roller plays a key role in ensuring the smooth movement of the machine and the even distribution of its weight on the tracks, which contributes to reducing component wear and minimizing the impact on the ground.

A single flange track roller is a crucial component of the crawler undercarriage system, widely used in construction machinery such as crawler excavators, bulldozers, and other heavy vehicles operating in challenging terrain conditions. This roller plays a key role in ensuring the smooth movement of the machine and the even distribution of its weight on the tracks, which contributes to reducing component wear and minimizing the impact on the ground.

Single flange track rollers are key components of the crawler undercarriage system, commonly used in construction machinery such as crawler excavators, bulldozers, and other heavy equipment operating in challenging terrain. These rollers play a crucial role in ensuring smooth movement and even weight distribution of the machine on the tracks, which minimizes wear on components and the ground over which the machine travels.

A single flange track roller is an important component in the crawler undercarriage system, used in construction machines such as crawler excavators, bulldozers, and other heavy equipment operating in challenging terrain. These rollers provide smooth movement and even weight distribution of the machine on the tracks, which helps minimize part wear and reduces the impact on the ground over which the machine moves.

Width of the inner guiding flange: 142mm

Width of the inner guiding flange: 142mm

Width of the inner guiding flange: 136mm

Width of the inner guiding flange: 130mm

Width of the inner guiding flange: 128mm

Width of the inner guiding flange: 128mm

Width of the inner guiding flange: 127mm

Width of the inner guiding flange: 127mm

Width of the inner guiding flange: 127mm

Width of the inner guiding flange: 127mm

Width of the inner guiding flange: 127mm

Width of the inner guiding flange: 127mm

Width of the inner guiding flange: 127mm

Width of the inner guiding flange: 122mm

Width of the inner guiding flange: 122mm

Width of the inner guiding flange: 122mm

Width of the inner guiding flange: 122mm

Width of the inner guiding flange: 121mm

Width of the inner guiding flange: 121mm

Width of the inner guiding flange: 121mm

Width of the inner guide flange: 121mm

Width of the inner guide flange: 121mm

Width of the inner guide flange: 121mm

Width of the inner guiding flange: 120mm

Width of the inner guiding flange: 120mm

Width of the inner guiding flange: 108mm