Since its introduction in the 1990s, laser scanning has simplified the process of collecting spatial data in some industries, but probably not as much as in the engineering industry. Because the engineering process relies on the accurate collection of infinitely small data, the ability of laser scanners to collect more accurate data than other surveying methods is essential to the timeliness of the manufacturing process, especially in engineering. Discover how an object or part works. How can it be faithfully reproduced? Alternatively, the method of designing for new elements depends almost entirely on the quality of spatial data collection.
Is there an ideal reverse engineering scanner?
The suitability of a scanner for reverse engineering depends primarily on what is being scanned. For example, there is a big difference between collecting data for large objects and collecting data for small objects, and collecting data from surface models and real objects. The following are three types of laser scanners commonly used in reverse engineering. The first two are the most popular. Visit:- https://flight-scanner.de/
Contact scanners are useful for reverse engineers because they provide highly accurate surface data. The contact scanner uses a survey function to evaluate the data to be scanned, and an engineer sitting outside a small box where the arm works controls the shape of the arm. Contact scanners are ideal for scanning small objects. However, its polling capabilities can be dangerous for topics such as sensitive heritage objects. Triangulation scanner
A triangular scanner works by emitting a pattern of light onto the surface of an object, the deviation of which is measured by a special camera inside the scanner. Triangular scanners can measure objects larger than contact scanners with the same accuracy and can be attached to large subjects that require detailed data collection. Triangular scanners are ideal for scanning complex automotive and mechanical parts.
Flight time scanner
Time flight scanners are commonly used for reverse engineering. This is because most backward engineering is done for manufacturing purposes, rather than replicating or fitting large objects or structures, which is a common scanning cost for time flight scanners. Time flight scanners use a laser rangefinder to measure the time before and after a laser from scanner to scanner and vice versa, and collect that spatial data. In addition to inspecting buildings, large objects, and spacious environments, time scanners are also useful for inspecting large and complex interiors such as industrial chimneys and factory ceilings, where support systems are complex and inaccessible.
If your business has reverse engineering needs but you don’t have a reverse engineering scanner, it’s best to contact a laser scanner to meet your measurement needs, as commercial scanners are expensive and very affordable. It is an option. Due to the portability of scanning equipment, many laser surveyors travel to remote locations to complete scanning projects.