Technology: Laser Stereolithography
Working Area: 300 x 300 x 300 mm
Laser Source: Solid State BluEdge®
Slice Thickness: 10-100 microns (mechanical resolution, the actual value depends on the material used)
Scanning Method: Quad-Galvanometer
Software: Fictor® and Nauta®
Input File Format: .stl, .slc, .nauta, .fictor, .mkr, .3dm, 3ds, .ply, .obj, .lwo, .x
Machine Size: 704 x 1446 x 2048 mm
Weight: 500 Kg
Operating Temperature and Humidity: 20°-25°C / 60%
Power Supply: AC 230/115V / 50-60 Hz
Electrical Consumption: 500W
PC Minimum Requirements: Windows 8 or higher*
Memory: RAM 4 GB*
Graphics Card: OpenGL 2.0 compatible or above*
I/O Interfaces: 1 USB port - 1 Ethernet TCP/IP port
Connectivity: 1 Active internet connection
* Built-in PC, the minimum requirements are expressed in order to operate Nauta Plus with an external PC (not included). The recommended requirements may vary in accordance with the complexity of the file to be printed.
XPRO Q is a stereolithographic 3D printer capable of the highest levels of productivity and quality in the jewellery sector.
This reliable 3D printer boasts a large printing area and can produce models of the highest quality, precision and resolution.
It is designed for large businesses, third-party manufacturers, and big-name brands in the jewellery industry and can produce up to 3,200 models per day (depending on complexity) to an extremely high level of detail, including smooth surfaces, undercuts, cavities and filigrees while offering the greatest freedom for the designer.
XPRO Q runs both the proprietary Nauta Plus software (that allows the automatic generation of supports) and its special (optional) module XCluster*, dedicated to the easy building of trees for lost wax casting productions.
XPRO Q is the perfect 3D printing system for the production of large quantities of models for direct casting and rubber moulding within a short time.
With low running costs and zero planned maintenance costs, XPRO Q has been designed to operate continuously, always ensuring the maximum reliability and consistency.
The system uses SLA technology to obtain the extremely high resolution and precision that the industry demands and it is compatible with the entire range of materials DWS has developed for jewellery applications.
The system includes an integrated touch screen computer, making it easy to launch print jobs, and four Solid State BluEdge laser sources working simultaneously to ensure the fastest production times.
* Patent pending