During the automotive manufacturing process, various components are added in stages to create the vehicle bodyshell. The components include sheet metal parts from the pressing plant; front, rear, and floor assemblies; and add-on parts such as doors and side walls. The components are moved along the production line on transport platforms—or skids—and delivered to the various production stations. At this point, robots weld, glue, or rivet the components together, or they grip and position them in preparation for assembly processes. During this process, there should only be one bodyshell at a time in each production station.
If a production cell is already in use, the incoming skid must stop in front of the cell until entry is possible. The transport platform typically moves at speeds of around 60 m/min. In order to slow it down as gently as possible, the speed is gradually reduced before the platform comes to a complete stop. The photoelectric sensors that detect the skids must ensure complete reliability—even when the skids cause reflections and mirroring, and when there is extraneous light and other sources of interference from the plant environment.
R201 series retroreflective sensors—which have a polarization filter that prevents disruptive light incidence from reaching the receiver element in the sensor—makes light work of this task. Reflective skid surfaces are reliably detected. When an incoming skid interrupts the light path between the first sensor and the reflector mounted on the opposite side, the transport speed is immediately reduced. By the time it reaches the second R201 series retroreflective sensor, the transport platform has stopped. This reliable detection of skids enables efficient, interference-free control of the entire process.
R201 series retroreflective sensors with polarization filter can reliably detect even extremely glossy parts. Mirroring from the bodyshell and extraneous light from the environment do not inhibit reliable sensor performance. The R201 series for medium-sized applications is complemented by the impressive performance of the R200 series for larger operating ranges. All five series—the R201 and R200 alongside the smaller R100, R101, and R103 series for space-restricted applications—offer the same sensing modes, standard configurations, and one user interface for maximum flexibility.
For the first time, a consistent solution range of photoelectric functional principles and innovative technologies is available in identical housings. Users benefit from a uniform operating concept across the entire portfolio. Discover the R100, R101, R103, R200 and R201 series ...