Coordinate Measuring Machines (also known as CMMs), Metrology Software, and Associated Coordinate Measuring Machine Accessory Products are all manufactured by LK Metrology. At the IMTS Show that will be held in 2022, which will be held at McCormick Place in Chicago, Illinois, from September 12-17, 2022, they will be displaying a variety of newly developed products.
In addition to a presentation, there will be a hands-on demonstration of each of the following four distinct types of coordinate measuring machines (CMMs), listed in alphabetical order:The LK ALTERA M SCANTEK 5, which features a Renishaw REVO-2 5-axis scanning system; the LK Multi-Sensor ALTERAC, which features LK's new blue line laser scanner and a new surface roughness probe; the new ALTO 6x5 Bench Top CMM; and the new COORD 3 UNIVERSAL CMM are all now available for purchase.
Some of the related accessory products that will be on display include the brand-new LK SLK20 blue light line laser scanner, a brand-new LK surface roughness probe, and a brand-new LK FREEDOM V2 measuring arm that comes equipped with a rotary indexing table. The wbk Institute of Production Science at the Karlsruhe Institute of Technology (KIT) and Dentsply Sirona have collaborated in order to accomplish one of their shared goals, which is to lessen the amount of noise and vibration that are generated by dental instruments. As part of the ProIQ project, there is currently investigation into the various methods that could be utilized for the purpose of performing function-oriented quality assurance on micro gears. It has been decided that the Bruker Alicona optical coordinate measuring machine, which is more commonly referred to as the CMM, will be useful for the purposes of this project. This decision was made after it was determined that the CMM will be useful.
The trend toward miniaturization, on the one hand, and the growing use of high-precision components, which call for tolerances of just a few micrometers or less, on the other hand, each present significant challenges for manufacturing businesses. Miniaturization is on the rise, and high-precision components are becoming increasingly popular. In order to produce high-precision components for the international dental product manufacturer Dentsply Sirona, they are conducting research on intelligent quality control loops, measurement technology (in-line and in-process), and component pairing strategies. This work is being done for the purpose of supplying Dentsply Sirona. This is done with the purpose of supplying Dentsply Sirona with their products in order to fulfill their order. They have made it abundantly clear that the formation of quality control loops in the sense of closed loop manufacturing is their primary goal, cmm inspection services and it is clear that this is the primary focus that they have on achieving their primary goal. Additionally, it is clear that this is the primary focus that they have on achieving their primary goal. The implementation of in-line metrology into production systems ultimately leads to an improvement in product quality in addition to an increase in the overall efficiency of the production process. Because of this, the production process has the potential to be more productive all the way around.
The Bruker Alicona Coordinate Measuring Machine (CMM) was initially installed at the KIT institute; however, not too much longer after that, it was transferred to the production environment on the shop floor of Dentsply Sirona. Following the completion of that stage of the procedure, the geometric parameters are then extracted from the point clouds that have been captured. Even the smallest of deviations can, for example, result in a reduction in the amount of vibration that is produced by dental instruments. This can be an issue if the instruments are not calibrated properly.
Because of reflections, it is absolutely necessary to pay close attention not only to the surfaces of the metallic components, but also to the steep flanks of those components. This is because reflections can cause errors in measurement. This is as a result of the many different factors that are capable of causing reflections in a given environment. This particular region presents the most difficult challenge as a direct result of this factor.
A number of desirable characteristics, such as a low measurement uncertainty and rapid measurement times, should be present in good measurements. These desirable characteristics include:When it comes to the sector of technology known as microgear measurement, a number of factors, including measurement speed, measurement uncertainty, and information density, all play an important part in the bigger picture. In addition to this, the total amount of time necessary to complete measurements substantially increases, and the degree of uncertainty that is associated with the measurements is relatively high. Vivian Schiller asserts that Focus Variation is able to deliver non-contact, two-dimensional measurement recordings that feature a significant number of measurement points. Assuming that the material of the workpiece is optically cooperative and that undercuts are not considered to be reasons for exclusion from the process, this is the case.
Efforts Being Made to Improve the Overall Quality of the Components While Also Cutting Down on Waste
It is abundantly clear that the following benefits will be realized as a result of the measurements:From the measurement data that is recorded in-line, it is possible to derive standard parameters (VDI/VDE 2612) and function-describing parameters (after single-flank rolling test VDI/VDE 2608). After gathering these parameters, CMM Inspection Companies one can use them to explain the functionality of the product. You can use these parameters to provide a description of the product if you want to. This is one method that can be used to attain quality improvements that are not only sustainable but also friendly to the environment.
The application of artificial intelligence with the goal of improving a product's overall performance by making predictions about how its various functions will interact with one another.
The KIT research group is going to devote the majority of their efforts, for the foreseeable future at least, toward the development of ever-more-comprehensive strategies for the implementation of artificial intelligence (AI). Needs additional citationsIn addition to developing adaptive control for the hobbing process, the researchers are working on a method for the adaptive assembly of micro gears. This work is being done in conjunction with the development of adaptive control. This method consists of the following processes and procedures:Using the measurement data and the features derived from the point clouds, the purpose of the artificial intelligence models is to determine the function of the possible microgear pairs. To accomplish this, the models' use of artificial intelligence is necessary. The point clouds served as the basis for the generation of these features. It is essential for the models to employ some form of artificial intelligence in order for this objective to be satisfied.