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HANDLING – AUTOMOTIVE

Automation in the automotive world has always been the core business of Sir, which throughout its history has designed and built robotic lines and cells capable of covering the entire production chain of typical components for a modern car.
The industry-specific requirements imposed by the automotive sector in terms of quality repeatability, now comparable to those required in the aeronautics industry,
with extremely short cycle times and near 100% efficiency, make automotive the most demanding testing ground for modern robotics.
In this context, Sir has developed comprehensive solutions characterized by a high level of integration.
These solutions range from processing raw cast components and cores to handling them during the loading and unloading of machine tools, from finishing processes after the initial machining to final assembly operations and palletization.

SIR’s robotic solutions represent a significant evolution in industrial automation, enabling the execution of complex processes in a fully automated manner. SIR’s achievements extend beyond the typical applications of robotics, encompassing robotic lines where loading and unloading activities synergistically integrate with the production processes and assembly. Furthermore, SIR redefines the concept of machine tool tending by creating multifunctional lines that adeptly combine the traditional approach with a wide range of secondary procedures.

High Production Rates

SIR manipulation systems guarantee speed and efficiency: equipped with the best industrial or collaborative robots on the market, they have specific grippers and mechanical systems, with solutions ranging from the single unit to sequential tending lines.

Universal Feeding

2D and 3D artificial vision with binpicking capability allows the use of universal feeding systems, requiring no retooling between batches, with impressive simplification of industrial logistics.

Quality Control

Using the robot as optic sensor positioner, manipulation lines can be equipped with inspection systems that can objectively assess processed product quality through surface, dimensional or assembly checks.

Functional Characteristics

  • Feeding guided by vision systems
  • Dedicated grippers
  • Functional integration
  • Automatic product inspection

Bin picking

Bin picking of items placed inside bins using 3D vision systems in fixed position, on controlled axes or on board robots.
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CNC and Machine Tool Tending

CNC and machine tool tending by anthropomorphic robots through the realization of robotic lines.
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Part Inspection (2D and 3D)

Use of robots and cobots for complex two- or three-dimensional inspection of machined or assembled items.
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