Need some advice? Give us a call.
Need some advice? Give us a call.
Optical measurement is a non-contact method that uses cameras or laser sensors. Unlike contact probes, it does not touch the measured object, is fast, does not damage the part, and can capture complex shapes and fine details.
A modern 3D measurement method that combines optical, tactile, and laser sensors in one machine. It enables comprehensive quality inspection without moving the part between devices.
It is non-contact, avoids deforming flexible parts (plastics, rubber), no fixturing is needed, 2D measurement is very fast, laser probes offer high speed, and cameras capture tiny features that tactile probes cannot.
Ideal for inspecting complex parts, hard-to-reach areas, and fine details. They deliver higher accuracy, faster measurements, and lower costs. Widely used in automotive, aerospace, engineering, and medical industries.
Provides accurate data on shape, dimensions, and surface quality. Outputs include color deviation maps, tolerance reports, and CAD model comparisons. Reports may also include camera images for visual assessment.
Suitable for metals, plastics, glass, ceramics, composites, and rubber. With the right sensors, it can also measure shiny and transparent surfaces.
They achieve sub-micron accuracy, depending on the machine type, technology, and measurement conditions.
Optical measurement is non-contact, using a camera or laser, while contact measurement uses a probe that physically touches the part.
In many cases yes – especially with flexible parts, delicate features, or when a fast dimensional check is required.
A process of rapid and accurate acquisition of 3D data from an object. Used for CAD comparison, reverse engineering, prototyping, and 3D modeling.
The object is non-contact scanned to create an accurate 3D model, which can be edited and exported into CAD software.
A 2D profile projector measures only outline dimensions in one plane, while a 3D optical machine provides full 3D information, including heights, geometric tolerances, and feature positions.
We supply optical and multisensor systems, 3D scanners, photogrammetry, laser and tactile systems, 2D profile projectors, 3D measuring arms, shaft measurement systems, CT scanners, and also hand tools such as calipers, micrometers, indicators, and height gauges.
Yes – we provide expert consultations, recommendations, and demonstrations on customer samples.
Yes – we offer trial measurements and live demonstrations.
Yes – we handle installation, commissioning, and operator training directly at the customer site.
When repairs become frequent, maintenance costs rise, and accuracy no longer meets production requirements, it is more effective to invest in a new system.
We provide warranty and post-warranty service, including original spare parts, with service performed on-site if needed.
Guarantees priority response within 24 hours, regular maintenance, and lower prices for calibrations, repairs, and parts.
Yes – we stock original parts (OGP, Micro-Vu, and others) for fast availability.
Yes – we operate an ISO/IEC 17025:2018 accredited calibration laboratory.
Typically once a year, more frequently depending on usage.
Yes – operator and software training, including for new staff.
Yes – phone, online support, and remote diagnostics.
Yes – such as probes, optical components, adapters.
With proper care, the lifetime of OGP SmartScope systems is over 15 years.
Yes – refurbished and stock systems at attractive prices.
Handheld and stationary scanners from SCANOLOGY and OGP, suitable for industrial applications, quality control, and reverse engineering.
Stock systems – immediately, others depending on manufacturer lead time (usually weeks).
Yes – we prepare customized financing solutions.
A process of comparing the system against standards to verify accuracy and compliance with norms. It ensures traceability, accuracy, and reliability of measurements.
To maintain measurement accuracy and reliability, and to meet quality and audit requirements.
Accredited calibration of optical and multisensor machines, probes, 3D CMMs, as well as hand tools such as calipers, micrometers, and indicators.
It provides an internationally recognized certificate and ensures calibration is performed according to standardized procedures.
Calibration begins with handover of the device directly at the customer’s site. We measure calibrated standards on the instrument, compare the measured data with calibration values, and evaluate the deviations. After completion, the customer receives a protocol or certificate, along with the instrument ready for further use. The service also includes reminders of the next calibration date.
At least once per year, more frequently for intensive use or after mechanical impacts.
Factory calibration checks functionality according to manufacturer procedures, while accredited calibration follows international standards and provides a recognized certificate.
By controlling temperature, humidity, and environment, ideally with monitoring systems.
Basic hand measuring tools – calipers, micrometers, dial indicators – used in workshops, labs, and production for fast and accurate measurements.
By comparing them with reference standards in an accredited lab or on-site, followed by issuing a calibration certificate.
Typical errors include incorrect zeroing, excessive force, misreading the scale, and measuring on dirty surfaces.