AUTOMATIC RADIOGRAPHY SYSTEMS

Large dimension radiographies for any sector

XoroYa

X-Y cartesian movement system for X-rays of large format paintings. XoroYa is a fixed system oriented to the art sector, which allows the user to obtain a complete digital image of the X-ray in a quick and easy way.

  • Pixel Size: 50 μm
  • Pixel Matrix: 4608 x 5890
  • Grayscale: 14 bits
  • Scan size: 2×2 to 5×4 m (larger on request) 
  • Canvas support: +100 Kg.
  • High intensity: Up to 10 mA
  • Focal point: 1 to 3 mm
  • Automatic inspection

pYcaXo

X-Y cartesian movement system for X-rays of large format frames. It has the same features as the XoroYa system, with the advantage of being a mobile system with wheels and the possibility of vertical folding. PYcaXo is designed to be conveniently transported and preserved when not in use.

  • Lightweight, foldable system for easy transport and storage
  • Pixel Size: 50 μm
  • Pixel Matrix: 4608 x 2940
  • Grayscale: 14 bits
  • Scan size: 2×2 to 5×4 m (larger on request) 
  • Canvas support: +100 Kg
  • High intensity: Up to 10 mA
  • Focal point: 1 to 3 mm
  • Automatic inspection

WideXcan

X-Y cartesian movement system for X-ray imaging of large samples or structures. WideXcan is a mobile system consisting of two frames that carry the RX tube and the detector. Its application is mainly oriented to the aeronautics sector, as it allows the radiography of large parts through the synchronised movement of the tube and the detector.

  • Design of all types of trajectories on the part
  • Automatic and manual spatial positioning
  • Pixel size: 100 μm
  • Pixel Matrix: 4200 x 3400
  • Greyscale: 16 bits
  • Scanning size: up to 4000 x 3000 mm (larger on request)
  • Maximum power: 180 kV
  • Maximum power: 90W (0.5 mA)
  • Focal spot: 20 μm min

RoboXcan

X-Y-Z spatial movement system for X-raying large samples or structures. In this system, as its movement is governed by a robotic arm that positions the source and the detector in parallel, it is possible to X-ray large pieces or structures with the desired orientations.

  • Precise spatial positioning with six degrees of freedom
  • Design of radiography programmes (trajectories)
  • 100 micron resolution