Excavator hydraulic hammer is a powerful demolition tool used in excavation and demolition works to break or remove hard materials such as concrete, rock, asphalt and other sturdy structures. It uses hydraulic pressure to deliver a high impact force to a chisel head or sharp tool, and then repeatedly strikes the target material to break it.
The key components of excavator hydraulic hammer include:
Hydraulic system: Excavator hydraulic crushing hammer is driven by hydraulic system, usually connected to the hydraulic line of compatible construction machinery, such as excavator or loader. The hydraulic system generates the necessary hydraulic pressure and flow to operate the hammer.
Chisel head or tool head: The chisel head or tool head is the working end of the hydraulic crushing hammer of the excavator. It comes in a variety of shapes and sizes to suit different applications, such as a conical chisel for breaking concrete, a chisel for digging ditches, and a blunt tool for breaking large rocks.
Accumulator: Hydraulic crushing hammers typically use an accumulator to store hydraulic energy and release it quickly when the tool head hits the material. This helps deliver a strong impact with a small hydraulic system load.
Housing: The housing of the hydraulic hammer encloses the hydraulic assembly and provides protection for the operator. It also helps to direct the impact force onto the target material.
Excavator hydraulic crushing hammer is widely used in construction, demolition, mining, quarrying and road construction projects. They are favored for their efficiency and accuracy in breaking up hard materials. Mechanical operators controlling hydraulic crushing hammers can adjust impact frequency and force, allowing for greater control and versatility in a variety of applications. There are different sizes of excavator hydraulic crushing hammer to choose from to match the size and power of the host machine, as well as the specific requirements of the work.
