Highest quality for your skill


The DONATONI D625 is a 5 interpolated axis simple and compact bridge cutter, ideal for the production of kitchen tops, vanity tops, shower trays and claddings for the building industry in marble, granite and artificial stone.
It allows to perform several types of processing such as orthogonal cuts up to 200 mm thickness, oblique, circular, elliptical, inclined, togheter with milling, drilling and straight, concave, convex, arched or elliptical shapes.

The DONATONI D625 is equipped with invertercontrolled electro-spindle and is fitted with diamond tools, such as an end mill, excavation wheel and horizontal blade. Thanks to X and Y axes sliding system on linear guides with recirculating balls and racks with hardened and ground steel teeth both with automatic centralized grease lubrication, the DONATONI D625 allows to obtain finished products extremely fine and precise.
The motion is given by brushless motors coupled to high precision gearboxes.

It is supplied complete with a series of optional and hot-galvanized monoblock structure that does not require foundations, allowing installation and startup in a very short time.

Main features
  • Simple and easy to program
  • Complete solution
  • Wide range of work processes
  • Reduced space required
  • Cuts and precise shaping
  • No foundations required
  • Simple transport and assembly
Production gallery
Technical schedule
Max number of interpolated axes 5
Vertical stroke Z axis mm 450
Blade-carrying head rotation (C axis) gradi -5° / 365°
Blade-carrying head tilting (A axis) gradi 0° / 90°
Working table dimensions mm 3800 x 2000
Maximum cutting depth mm 200
Minimum blade diameter mm 350
Maximum disc diameter mm 625
Approx. total weight of the machine kg 4800
Types of processing
Longitudinal cuts
Transverse cuts
Oblique cuts
Inclined cuts 0°-90°
Orthogonal cuts
Circular cuts
Elliptical cuts


Monoblock frame composed of supporting walls and supporting beams of the tilting bench, in hot-galvanized steel.
High quality electro-spindles controlled by an inverter allowing the adjustment of the nr. of revolutions from 0 to 5500 rpm, so granting the use of blade and diamond tools such as a core drill or milling cutter. The tool change is of manual type.
Measurement system of blade diameter.
System to automatically detect the thickness of the slab.
Vertical lateral electrospindle, allows the operator the use of small diameter diamond tools with ½ "gas connection for incremental cutting / blind or through hole drilling and the performance of combined operations with blade and milling cutter.
System to detect slab, with camera positioned above the machine and image acquisition software. The application enables the slab dimensions to be exploited in the best way possible and allows the cutting to be carried out avoiding any defects or any veins in the material.


Parametrix is the simple and intuitive Software developed by Donatoni Macchine and designed to optimise the management of cuts of variously-shaped pieces on a slab. It enables work processes involving cuts with discs, milling cutters and drills, the insertion of straight and curved forms and shapes that have been pre-set or imported from DXF files, and the optimisation of processing times and slab surfaces.

Discover Parametrix

It allows you to measure the surface of slabs placed on the workbench using a camera located on top of the machine and the acquisition software integrated with Parametrix.
ISOSAG is the software that allows you to create files for executing shaping that is straight-lined or with a concave or convex arc using either a vertical or horizontal disc
SCAN-CNC is a measuring system consisting of a laser pointer mounted at the head of the machine and a software integrated with Parametrix that allows you to measure bi-dimensional shapes with a linear or curved form and create the drawing in real time (DXF file) on the monitor.
The CAD-CAM software allows you to design, import and execute 2D and 3D files in DXF, IGES, STL, PNT, STEP and RHINO formats and to define surfaces and shapes using laser scanning.