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  1. Robotics & automation
  2. Assembly automation
  3. Improved quality and cost savings with the 3D camera (OPEL)

O3D – View from the top

The automotive manufacturer Opel in Rüsselsheim relies on innovative technology in production. At a welding robot various stamped and deep-drawn metal sheets are welded to form a supporting element of the bodywork.

A 3D camera monitors the position and the fixing of the sheet metal parts.

The O3D sensor

ifm's O3D302 vision sensor is a 3D camera with integrated image evaluation. The resolution of the PMD image sensor is 176 by 132 pixels. For each of the 23,232 pixels the sensor supplies a precise distance value - up to 25 times per second. In contrast to laser scanners, the ifm 3D sensor has no moving parts. Therefore, it is especially robust, small and cost effective.

Since the 3D image is evaluated in the sensor, external image evaluation is not needed. The distance between the clamp and the sensor is evaluated via definable positions in the camera image (called ROIs, region of interest). The integrated evaluation detects if the tension lever is "open" or "closed". The events are transferred to the controller using the integrated Ethernet interface via TCP/IP, PROFINET IO or EtherNet/IP. The live camera image can also be provided. Using the "Vision Assistant" software, the user can easily set the sensor parameters, define ROIs or configure the output function, for example. This software is available both for Windows PCs and for iPads.

Several prepared sheet metal plates are welded together to form a subassembly.

Looking down from the top

Two of these sensors are installed above the welding system, one in the placement area (component placed), the other in the actual welding area. Both look down from the top to the sheet metal to be welded and their clamps in the installation equipment.

Fabian Gulla, application engineer for image processing and robotics in plant construction at Opel, explains the function of the sensors: "We use the sensor for distance measurement. To do so, we have defined several regions of interest which we detect. For once, there is the clamp and its end positions, and then there is the component as such, i.e. present or not present. You could, of course, also detect this using several one-dimensional photoelectric sensors if you align one sensor to each area. The advantage of the O3D is that you only need one sensor and can then redefine ROIs in the software. We have aligned the ROIs to the end positions of the clamps and the workpieces and then we simply use the distance measurement for detection: 'Is a component present' or 'Has the clamp reached its end position?' "

Cost savings 
Instead of many sensors only one single 3D sensor simultaneously detects the position at several points in the equipment. Using the O3D vision sensor, approx. 80 % of the conventional sensors can be replaced in this plant.
There are even more saving potentials by reducing cabling, installation accessories and I/O points at the controller.

For transparency in the process, Opel have installed a monitor for visualisation in the plant. Besides graphic process visualisation, the O3D can also provide a live image.

Thanks to the live image, the advantage of the ifm sensor is that we have assigned end positions to the clamps and components, which are visualised in the image. The red-green colour change symbolises to the operator if a workpiece has been placed and if the clamp is open or closed.

This does not mean any more programming work because the sensor parameters have to be set anyway and the live image is provided by the sensor."

Space saving
Due to the fact that instead of several sensors, now only one sensor is needed for the detection of several positions and this sensor is installed high above the plant, there are advantages for the construction of the plant.

Claus Moog: "The use of the O3D sensor provides us with completely new possibilities; for example, we have more construction space and more space for accessibility to welding tongues. Furthermore, we can eliminate the susceptibility to failure of conventional sensors. Since the sensor is installed high above the welding area, weld spatter cannot reach it which would damage it over time as is possible with conventional sensors installed close to the welding tongues."

The experience made in this pioneer plant at Opel is overall positive. This will influence future developments in plant construction.

The O3D vision sensor was introduced in close cooperation with the developers of the vision sensor.

Fabian Gulla: "The cooperation with ifm is very good. We had several meetings directly with the developers. So we could gain insight into important findings such as 'how does the sensor work?', 'what do I have to note?', 'what size must my clamp be so that it can be reliably detected'?"

Fewer sensors, simpler plant construction, no interference due to weld spatter - the vision sensor as a monitoring system provides numerous advantages and considerably reduces the plant cost. Other production plants can also be equipped with the vision sensor and thus optimised.

More product information about industrial image processing