Processing of laser tracker

As an innovative measuring equipment, laser tracker has the characteristics of non-contact, high precision and high speed. It adopts advanced laser interference ranging and angle measurement technology, and based on the principle of spherical coordinate measurement, it can calculate the position and shape parameters of the workpiece in real time by emitting laser and tracking the reflected light on the surface of the workpiece, and can realize accurate measurement of three-dimensional coordinates.

In the spatial measurement of oversized workpieces, laser tracker can accurately measure geometric features such as points, lines, surfaces and curved surfaces in large-scale space. It can quickly and accurately measure complex features such as internal features, hidden features or curved surfaces of the workpiece according to the precise spatial posture of the cooperative target.

The attitude sensor automatically follows the locked laser beam, so the measurement flexibility is high;

Laser tracker has been widely used for accurate positioning and size measurement of super-large workpieces. For example, in the aerospace field, laser tracker can accurately measure the deformation and deformation of aircraft wings, which provides important support for the evaluation of flight stability and safety; In the field of automobile manufacturing, laser tracker can monitor the assembly accuracy and consistency of automobile body and parts in real time to ensure the stability of vehicle quality and performance. Its existence makes the measurement easier and more efficient!

In addition, the laser tracker is simple and flexible to operate. It can be quickly installed at any position near the workpiece, without being limited by the shape and size of the workpiece, and does not need to directly contact the surface of the workpiece, thus avoiding the possible errors and damage caused by traditional measurement methods. It also has the ability of fast response and high-frequency sampling, and can monitor the attitude change and morphological evolution of the workpiece in real time to ensure the accuracy and reliability of the measurement results.