The complete range of dry and wet deburring/graining machines for metal surfaces, thanks to the latest generation of DMC technologies, is able to respond at best to any application, from the removal of large sharp burrs to surface finishing on Mild Steel, Stainless steel, Aluminium and Titanium.
Dry deburring-finishing machine for metals, the compact deburring-finishing machine designed to meet a variety of production requirements for diversified machining. The machine allows to better satisfy all dry deburring and satinising requirements of metallic surfaces thanks to the several customising machine compositions and the technical features of the working units.
Wet processing is ideal for customers requiring very high quality finishes such as preparation of surfaces for mechanical polishing, chrome-plating and other galvanising processes.
Topmetal contact rollers are available with a diameter of 250 mm or 320 mm. The latter, thanks to the larger contact surface with the work piece being processed and greater ability to absorb any defects on the abrasive belt joint, are specifically indicated for all applications requiring very high quality finishes.
The modular structure of the machine along with the newly designed working units allows for maximum flexibility within the machine in order to meet the changing needs of production. In fact any single working unit can be replaced quickly and economically (or their placement inside the machine can simply be changed thus changing the composition of the machine).
The innovative DP Planetary unit was developed by DMC in response to the demand to the more complex needs of deburring and rounding of work piece edges. All of the motor transmissions in the unit are driven by sprockets sealed and constantly lubricated (NO DRIVE BELTS ARE USED!), thus ensuring the unit is capable of working with high speeds or when working 3 working shifts per day. These exclusive construction features of the unit guarantee high levels of reliability as well as minimal noise levels during operation.