The m&h LS-R-4.8 can capture around 40,000 measurement points a second – compared to the status quo of taking individual points with traditional touch probes – and securely transmits the data to the receiver, via radio, which enables operators to change the sensor automatically without manual intervention.
Measuring on the machine tool, whether for workpiece inspection, temperature, or tool control, is a valuable source of information in the machining process. With this data, workpieces can be controlled before, or even in between, machining. In this way the quality of products can be assured, and measurement results used to flexibly improve production – for example through automatic part alignment. These small improvements accumulate to improve production efficiency.
The wireless scanner will remove bottlenecks by taking inline measurement for in-process enhancements away from CMM machines. In modern production, manufacturing often must stop until the results come in. This new wireless laser scanner provides quick measurement on the machine tool, and the results are quickly sent to relevant areas of the production, such as quality engineers or production managers.
Capturing 40,000 measurement points a second provides information about the complete part, rather than just selected individual points. This enables users to evaluate production quality, enhance production processes by identifying problems early, better align the parts for steps later in the workflow, and an insight into the complete part quality.
“Wireless connectivity means these measurements are now all possible without moving the part away from the machine or installing external mobile measuring devices – both of which would be time consuming,” stated product marketing manager, Manuel Müller.
The improved time-saving and higher throughput gained from using the scanner is particularly important where multiple machines are used for sequential production steps. Parts must be precisely positioned in order to start milling accurately each time.
“The laser increases the speed of throughput by capturing the complete surface of the whole part instantly, rather than slowly measuring many individual points,” added Müller. “Measuring parts with manual devices between each step takes considerably longer than using an integrated laser scanner.”
The wireless scanner deploys laser triangulation to deliver high levels of speed and accuracy. The laser beam is projected on to the component, and its reflection passes through a lens where it is detected by an imager. The position measurement points are then determined by that information.
Dedicated modular software presents the data in an easy-to-understand format, making it simple for machine operators or quality teams to quickly identify quality issues and correctly align a part for reworking while it is still fixed to the machine tool. The wealth of data laser scanning brings to the machine tool also offers machine OEMs and their operators powerful new capabilities:
Working principally with machine tool companies, enabling them to deliver added value to their customers, Hexagon is providing a solution which can be used on multiple machines from different machine tool OEMs. The laser is just one of a series of Hexagon measuring devices which turn a machine tool from any supplier into a full multi-sensor device. For example, separate probes can capture temperature and wall thickness, and now full surface data is captured with the laser.
Everything runs with just one receiver, and as Manuel Müller concludes, the wireless technology switches between them seamlessly: “We’re working with OEMs who will fit several sensors to their machines, which can simply be switched automatically for particular applications, depending on the program the user is running.”
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