3D TECHNOLOGY
3D-Technology
A new way of conceiving the product
Our R&D department is constantly being renovated to make the most of
the technologies currently available on the market.
Thanks to this section of our company, we can create an object from
scratch, decorate it and deliver it to the customer without external collaborators.
We are very keen to guarantee the reliability of our products: we
personally test the finishes made to check quality and tightness.
We developed an internal laboratory equipped with: spectrophotometer,
climate chamber, machinery to test UV aging, different machines to simulate the
bending of walking materials.
3D Scan and CAD
3D scanning and 3D design of the prototype
Thanks to our 3D laser scanners we are able to reproduce the mathematical model of an object. The scanned file is reworked with the reverse engineering software using it for the industrialization of the product, for modifications or to create virtual previews of the complete object. With the only cost of graphics processing, it will be possible to view the finished product.
We can move with our tools to the customer's premises for the acquisition of large and difficult handling. We also perform 3D scans of objects as a service for external companies.
No problem, starting from a sketch on a sheet we can draw the prototype with our 2D and 3D design software. After defining the virtual model, we choose the most appropriate construction technique: software for CNC milling machines or 3D printers.
Design and realization of a vase height 2.5 meters as a support for mosaic.
3D scanning, 3D processing, engraving with CNC machines of floral decorations on the entire lateral surface of a socket.
CAM and CNC
From design to implementation
Once the virtual model of the prototype has been defined, we use CAM
software to process tool paths.
We have 3 and 5 axis machining centers, as well as machines of our own
slender and fast construction, optimal for wood engravings and particularly
ductile materials.
We are also able to make large objects for urban furniture and statues
in various materials.
We also realize "functional" applications: obtain the seat for
the application of conical rhinestones and build molds for the assembly of
micro-mosaics before transferring it to the final locations in precious
material.
Home revenue for all-round application of metal accessories on heels and wooden wedges already existing.
3D Print
3D printers are the final step in the design process. We have printers
loaded with different materials: including resin, flexible and transparent
materials. We offer our customers the material that best meets the different
construction needs of prototypes.
The nylon-carbon printer allows us to obtain objects that are
structurally resistant, but at the same time light.
We are active with the
service for external designers related to 3D printing of prototypes and serial
parts.
We provide artists, makers, designers or simple enthusiasts the
opportunity to give life to their ideas and realize their projects.
Thanks to the digitization and interconnection of the department, we can
provide our customers with the credentials for direct access to printers: can
monitor in real time the duration of the print and perform direct upload of
files to verify any design flaws.
3D printing is sustainable and green: it favors a more efficient use of the raw materials; it eliminates the waste of working deriving from the milling of objects from solid material and from the molds in fiberglass for articles in carbon.By creating and refining prototypes within the plant, we drastically reduce emissions from transport between the various companies involved in the production process.
Robot
Reliability in processings
We use the robot for high precision machining, calibrated dosing, drilling, repetitive operations, meticulous positioning in production, automated painting.
Thanks to the robots we can apply a repetitive painting of pieces, eliminating manual errors and ensuring the optimal result for every single product item.
ERREBIPLAST has also developed a program that allows the robot to interface with the laser, managing to achieve 3D lasering on the entire surface of heels and clogs without visible joints.