Alignment Operation Guide

A robot reference frame refers to the reference frame used by the robot to describe positions and orientations. The origin of the robot reference frame is located at the robot base and remains fixed.

A part reference frame is a reference frame established based on certain standards that a specific part of the vehicle body must follow during its processing and manufacturing.

A vehicle reference frame is a reference frame established at the early stages of vehicle design to define the position and orientation of various parts of the vehicle.

Alignment refers to establishing the spatial relationship between different reference frames (such as the robot reference frame and the vehicle body reference frame), so as to accurately transform the measured values in the robot reference frame into those in the vehicle body reference frame or other target reference frames. Alignment is the foundation for unifying the data in multiple reference frames and aligning measurement results.

Part alignment refers to defining a reference frame based on datum features of the part (such as holes, edges, and datum surfaces). Since the reference feature of each part may be different, when a part is used for alignment, the reference frame of each part may also be different. This method can appropriately relax the requirements on the accuracy of fixtures, suitable for scenarios where the reference features of the part are easy to recognize and the fixturing methods vary. The transformation path is as follows: robot reference frame → vehicle body reference frame.

Fixture alignment refers to establishing a reference frame for the fixture (the equipment used to hold the part in place) based on measured features of the fixture. Due to the fixed nature of the fixture, all parts to be measured can be converted to the fixture reference frame by performing alignment once. This method has a high requirement on the accuracy of the fixture, which is suitable for mass production and fixture reuse scenarios. The transformation path is as follows: robot reference frame → vehicle body reference frame.

RPS alignment aligns workpieces accurately with their CAD models by selecting a set of reference feature points that constrain the translation and rotation of the parts. This method is used for part alignment.

Best-fit alignment is the process of aligning a part with the CAD model of the part by performing a best fit with at least three feature center points. This method is used for fixture alignment.