5/8/2023 0 Comments Discord app![]() ![]() ![]() Light spot size (Lateral resolution)Ģ.2 - 146 µm, depends on selected probe parameters, See table "Standard probe characteristics" above *The centralizer in the shown configuration includes the breadboard and adds approximately 2.6 kg (5.7 lb). Without probe and centralizer (probe stabilizer) * Rotation + linear (Z-axis) + optional X/Y-axisĮxtended range option with adjustable standoff probesĪpproximate size of rotational probe enclosure The most popular RS for a wide variety of applications. Lightest model with the fastest rotational speed. Ideal for applications involving extra-small bores, where user-exchangeable probes are required The RS housing enclosure is robust and shop-floor ready. The rotational scanner advances and spins the side-looking optical probe selected to suit the application. ***Maximum probe length may be limited by mechanical constraints. The client then has precise focus control within the chosen subset of the bore diameter range. When selecting this type of probe, clients must choose a subset of the bore diameter range smaller than or equal to 50 mm. With adjustable-standoff probes, the standoff may be adjusted programmatically between scans of various sections of the bore. When selecting this type of probe, clients must choose a subset of the bore diameter range equivalent to twice the scanning depth range of the selected Microcam interferometer. With fixed-standoff probes, standoff is fixed at manufacture time. **Standoff is the distance from the probe OD (outside diameter) to the focal point. Custom probes for extreme temperatures, high pressures, or other hostile environments are also built upon request. Other custom probes with non-standard diameters, lengths, light spot sizes, and light beam angles (different from the standard 90°) are built upon request. High-precision machining: bores, barrels, tubes and slots in parts for defence, industrial, medical equipment, nuclear, oil and gas, power generation, transportation (train and marine as well as aerospace and automotive) sectors.Aerospace and industrial gas turbine engines: compressor and turbine airfoils and vanes, vane rings, duct or nozzle throats, shafts.Aerospace industry: rivet holes and countersinks in aircraft fuselage assembly, valve bores, cylinder bores, manifolds, and other engine components featuring bores, slots, or other hard-to-reach spaces.Automotive industry engine components: valve body bores, valve seats, cylinder blocks, cylinder heads, camshafts, crankshafts, drive shafts, combustion chambers, die cast parts, and more.Extrusion dies, feed-through holes, conical bores, blind bores.Parts made by casting, high-precision drilling, deep gun drilling, injection molding, 3D printing, additive manufacturing.Measurement, visualization, and GD&T inspection of ID surfaces in: Thickness of semi-transparent materials: single-layer or multilayer filmsĮxamples of bore measurement applications.Surface roughness: linear (axial or circumferential) roughness, or area roughness.Defects: corrosion, pitting, cracking, denting, scratching, porosity.Volume loss: surface wear or other damage.High-aspect-ratio features: steps, O-ring grooves, undercuts, threads, channels, sharp edges, steep slopes, and cross-holes.Full ID geometry: GD&T : diameter, circularity, cylindricity, taper, runout, straightness, etc.Maintenance, repair and operations (MRO).Research and development (R&D) inspection.Automated 3D production inspection, geometric dimensioning and tolerancing (GD&T). ![]() Metrology Applications 3D bores measurements for industry and R&D Accidental damage is rare-probes are designed to be rugged. No consumables are needed: Optical probes do not come in contact with the measured surfaces, and therefore do not wear out like contact probes.Time-saving automated reporting: Following a scan, go-no-go bore measurement reports can be produced and results logged in a manner compatible with industry-standard mechanisms.The scan definition can later be executed with the push of a button. Simple scan definition and execution: Define the scan sequence once by teaching the system with a joystick.Flexible options for evaluating inspected parts: measured features can be compared to CAD drawings or to a user-defined set of locations, nominals, and tolerances.Each measurement represents a 3D topographic point. Reduces cycle time of bore measurement: the rotational scanner spins the probe at up to 30 rotations per second, and obtains up to 100,000 3D measurements per second.Bore measurement system that is easily integrated in lab, shop, or fully-automated industrial inspection setups. ![]()
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