Use impression foam with SoleScanner
See how to use impression foam
The complete system

The input data (measurements) is obtained directly from the SoleScanner©, PodoView© or DigiTab©. The program thus enables different methods/techniques of data input

SoleCad© enables the user to control all the different elements (orthotics, modules, rough shapes, etc.) with ease. The software package was specially developed for particular pathological cases such as diabetes, rheumatism, etc.

The data used in SoleCad© can also come from pressure plates, allowing the combination of the 3D measurements with the result of the static or dynamic pressure.

By digitising an orthotic/insole or a corrective element, rather than the imprint of the foot, the SoleCad© software permits mass reproduction of the existing element with great precision. As well, through the use of a scale factor, it is possible to produce elements of different sizes from a single model.

Once the insole has been conceived, SoleCad© calculates the toolpaths to generate the milling passes of the milling machine. Insoles can be milled directly or indirectly, "positive" or "negative", depending on whether the work is done directly in the material, or from a mould.

This system is very efficient for serial insole production or made-to-measure insoles and orthotics. It can be used for central fabrication production or for in-shop production.

The system characteristics

- USB-2 connection to any computer
- 3D scanner for the plantar surface of the foot.
- Instant 3D measurement without contact.
- Load bearing, semi-load bearing or neutral position of the foot.
- User friendly.
- High precision resulting in incomparable comfort.
- Ideal for diabetic feet or sport applications.
- Number of optical heads: 1.
- Maximum error in measurement: <0.3 mm.
- Length of measurement cycle: 1/25 of a second.
- Number of captured points: between 10,000 and 50,000.
- Exterior dimensions (l x w x h): 400 x175 x 600 mm.
- Approximate weight: 10 kg.
- Power supply: 220 V-110 V - 90 W max.