OUR EPIROC DEVICES
The use of modern demolition tools such as demolition shears, pulverizers, scrap shears, sorting grabs, hydraulic hammers enables controlled dismantling and facilitates the separation of materials that can later be recycled. In many cases, the use of modern demolition technology is a safer and more environmentally friendly alternative than traditional blasting methods. Precisely the avoidance of noise and dust pollution and the consideration of economic and ecological requirements make direct extraction with hydraulic hammers the only applicable demolition method.
EPIROC
SB Light Series
Made from a single piece: The solid body concept makes SB hydraulic breakers from Epiroc – Atlas Copco so unique. It combines the striking mechanism and guide system in a single steel block.
Product information
This unique design makes the hammers extremely compact and handy and results in a weight saving of 20% compared to other hammers. SB actually stands for Solid Body, but for customers it means a profitable business. Thanks to this concept, SB hammers can count reliability, flexibility, high productivity and low maintenance among their unbeatable advantages.
EPIROC
MB Medium range
The power to weight ratio and efficiency of the latest generation of Epiroc – Atlas Copco medium and heavy duty hydraulic breakers has been significantly increased compared to their predecessors.
Product information
Thanks to lower weight and higher efficiency, less hydraulic power is required from the carrier device while maintaining maximum impact performance. This means that smaller carrier devices can be used, which in turn reduces the investment costs for the carrier device. Because the hydraulic system has to generate less power to operate the hydraulic hammer, the fuel consumption of the carrier device and thus the operating costs are lower. Lower acquisition and operating costs mean a reduction in the overall cost of your investment.
EPIROC
HB Heavy series
Maximum performance and productivity
The power to weight ratio and efficiency of the latest generation of Epiroc – Atlas Copco medium and heavy duty hydraulic breakers has been significantly increased compared to their predecessors.
Product information
Thanks to lower weight and higher efficiency, less hydraulic power is required from the carrier device while maintaining maximum impact performance. This means that smaller carrier devices can be used, which in turn reduces the investment costs for the carrier device. Because the hydraulic system has to generate less power to operate the hydraulic chamber, the fuel consumption of the carrier and therefore the operating costs are lower. Lower acquisition and operating costs mean a reduction in the overall cost of the investment.
EPIROC
DEMOLITION PLIERS
Strong, fast, modular – CCs for demanding work. All Epiroc - Atlas Copco demolition pliers from model CC 1700 upwards are optimized through FEM analyzes and meet the toughest requirements
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The stable cutting body contains two powerful hydraulic cylinders with quick-actuation valves for extremely short cycle times. Thanks to the modular design, each device can be equipped with different cutting jaws according to the respective application requirement
EPIROC
BP heap pulverizer
Product information
Performance features:
-> particularly wide mouth opening for high throughput
-> Rapid traverse valve for short cycle times
-> Easily replaceable cutting edges, teeth and tooth plates for longer operating time and lower operating costs
-> Hydraulic rotation device allows unlimited rotation for quick and targeted positioning in all situations
-> extremely resistant FEM-optimized components
-> robust piston rod protection
EPIROC
DP demolition pulverizer

Product information
Performance features:
-> compact design, vertical mouth
-> a good power to weight ratio
-> Hydraulic 360° rotation device allows unlimited rotation for quick and targeted positioning in all situations
-> Rapid traverse valve for short cycle times
-> replaceable cutting edges, teeth and tooth plates
-> all components in a robust design (optimized through FEM analysis)