The hydraulic breaker operates using the principle of hydraulic pressure, where hydraulic fluid is used to generate high-impact forces for breaking rock, concrete, asphalt, and other hard materials.
As an essential attachment for excavators and other heavy machinery, the SB 450 provides exceptional performance and productivity.
One of the key features of the SB 450 hydraulic breaker is its compact design, which allows for excellent accessibility in narrow spaces and challenging environments. This feature makes it particularly suitable for urban construction and demolition projects, where space constraints are common.
The hammer's construction is focused on durability and reliability. With high-quality materials and precision engineering, the SB 450 is built to withstand demanding working conditions and frequent use. This robust design ensures a long service life and minimizes downtime, contributing to increased efficiency and reduced operational costs.
The hydraulic hammer is powered by an external hydraulic power source, typically the hydraulic system of an excavator or a dedicated hydraulic power pack.
This setup provides the hammer with the necessary energy to deliver powerful blows, ensuring efficient and effective material breaking.
Incorporating advanced technology, the SB 450 hydraulic breaker is designed for optimized performance. It efficiently converts hydraulic energy into impact energy, maximizing the breaking force and productivity. The hammer's impact energy and frequency can often be adjusted to suit specific applications and materials, allowing for precise control and improved efficiency on the job site.
Safety and operator comfort are essential considerations in the design of the SB 450 hydraulic breaker. Vibration dampening systems are often integrated into the hammer to reduce the impact on the operator and the machine, minimizing fatigue and increasing overall safety during prolonged operation. Furthermore, soundproofing measures are implemented to reduce noise levels, providing a more pleasant working environment.