Laser scanners feature rear tail cable protective housing options
Precision sensor manufacturer Micro-Epsilon has introduced two new model options for its scanCONTROL 30xx range of laser profile sensors (laser scanners) – a rear tail cable option and a protective housing option.
The rear-tail option with cable integrated on the rear of the sensor allows even more space-saving installation. The length of the integrated cable is 30cm. This version eliminates the need for upward wiring, which means around 80mm less installation height is required. Compared with the standard sensor model, almost 50% of the installation space can be saved.
The new protective housing option makes the sensors even more robust in harsh industrial environments. The housing is available for sensors in the 25×0 and 29×0 series with measuring ranges of 25, 50 and 100mm, as well as sensors in the 30×0 and 30×2 series with measuring ranges of 25 to 200mm.
The protective housing offers connections for air flushing and liquid cooling, an adjustable splash guard, a replaceable protective glass and a free-blowing device. If the built-in free-blowing device is supplied with compressed air, dirt, dust and other contaminants can be removed directly, which extends cleaning intervals. The protective housing with additional water cooling offers protection against mechanical damage as well as protection against high ambient temperatures. Alternatively, it is also possible to heat the sensor at particularly low outside temperatures. If the protective screen is damaged, it can be replaced easily and cost-effectively.
The scanCONTROL 30xx sensor is among the highest-performing laser scanners in terms of its size, accuracy and measuring rate. The sensor has a compact housing with integrated controller, allowing fast integration into confined spaces. Available with either red or blue laser technology, the sensor provides calibrated 2D profile data with up to 5.5 million points per second. A maximum profile frequency of 10kHz and innovative exposure control enable precise profile measurements in high-speed, dynamic processes. A high-resolution sensor matrix offers a resolution of 2,048 points per profile with an ultimate point distance spacing of just 12µm, allowing measurements of extremely fine surface/geometrical details.