One of the key features of the SBC 255 II is its exceptional power-to-weight ratio.
Despite its compact size, it delivers impressive impact energy, allowing it to break through various materials, including concrete, rock, and asphalt. The hydraulic system enables the hammer to generate the necessary force for efficient breaking while minimizing vibration, reducing operator fatigue, and increasing productivity.
The SBC 255 II is equipped with an advanced control valve system that offers precise and smooth operation. This allows the operator to maintain accurate control over the breaking process, enabling them to work with greater accuracy and safety. The hammer also has an adjustable blow frequency, allowing operators to tailor the tool's performance to the specific material and task at hand.
Durability is a crucial factor in hydraulic breakers, especially in demanding job site conditions. The SBC 255 II is constructed from high-strength materials, making it resistant to wear, impacts, and environmental elements. The breaker's components are built to withstand frequent use, ensuring a long service life and reducing the need for frequent replacements or repairs.
The ergonomic design of the SBC 255 II enhances operator comfort and safety during operation.
The vibration-reducing handle minimizes the vibrations transmitted to the operator, reducing the risk of hand-arm vibration syndrome (HAVS) and ensuring a more pleasant working experience. The handle's grip is designed to provide excellent control and maneuverability, enabling the operator to precisely position the hammer for efficient breaking.
With a total length of 710mm, the SBC 255 II is highly versatile and can be used in various applications. Its compact size makes it ideal for indoor or confined spaces where larger equipment may be unsuitable. Additionally, it can be easily transported between job sites, increasing its versatility and utility for contractors and construction professionals.
As part of Atlas Copco's dedication to sustainability, the SBC 255 II is designed to be energy-efficient. The hydraulic system is optimized to deliver maximum impact energy while minimizing energy consumption, making it an environmentally friendly option for breaking tasks.
