RPI’s products are built to deliver new levels of accuracy, flexibility and performance over a wide range of calibration and inspection applications.
Our unique capabilities include the measurement of large and heavy components with precision machines that are fully compatible with any shop floor environment whilst maintaining world class accuracies more commonly seen in the standards laboratory.
Manual Spin Rotary Table for Optimal Circular Geometry (TIR) Inspection of small and medium sized round parts such as pinions and gears, gauges, bearings, aero engine components and optical assemblies.
Metrology-grade rotary axis enables objects larger than the reach of your portable coordinate measuring machine (pcmm) to be measured by increasing its effective measuring volume.
The LabStandard range of ultraprecise rotary tables are intended for fine inspection, metrology and test applications for high precision angular positioning, calibration and geometry inspection.
Designed for horizontal and vertical applications with a high accuracy angular encoder ensures sensitivity and fine positioning for metrology and precision testing.
Designed for horizontal and vertical applications with zero backlash gearing and a high accuracy angular encoder ensures sensitivity and fine positioning for metrology and precision testing.
Designed for horizontal and vertical applications with self-locking worm gearing and a high accuracy angular encoder ensures sensitivity and fine positioning for metrology and precision testing.
The LabStandardAIR has been designed as a “Contact Free” system and eliminates features, which may detract from achieving the optimum rotational performance.
A dual axis rotary table specifically designed for the inspection of complex 3D parts with a zero backlash drive. Offers smooth and precise rotational motion suitable for fine positioning and precision testing, ideal for 360° inspection of aero-engine rotor blades and blisks.
2 axis design for rotary tilting applications with self-locking worm gearing and a high accuracy angular encoder ensures sensitivity and fine positioning for metrology and precision testing.
The GeoOrdinate has been designed specifically for the inspection of large and heavy components and is fully compatible with any shop floor environment whilst maintaining world class accuracies more commonly seen in the standards laboratory.
Specialist machines designed to optimise your inspection process. Measures Roundness, Runout, Flatness, Parallelism, Eccentricity and Concentricity. Designed specifically to be fully compatible with any shop floor environment whilst maintaining unrivalled accuracies.
The Quadrant range provide an additional rotary axis for high precision co-ordinate measurement machines. They are specifically developed to increases the flexibility, productivity and efficiency of your CMM.
Designed for horizontal and vertical applications with zero backlash gearing and a high accuracy angular encoder ensures sensitivity and fine positioning for metrology and precision testing.
Versatile system with the option to mount parts both horizontally and vertically for inspection, such as large aero engine blades from the front of the engine.
Low profile rotary table with an extensive measurement range where typical applications include inspection of rotors, disks, blisks and gears.
The smallest rotary table in the Quadrant range that delivers high speed measurement of smaller parts such as inner engine blades and gears. Horizontal or vertical axis.
2 axis rotary table with an extensive measurement range where typical applications include inspection of rotor blades and blisks.
Ultralow profile, granite integrated rotary table where maximising measurement volume within the CMM is of utmost importance.
Fully understanding components geometry prior to assembly is critical when faced with the ever growing environmental pressures and increasing fuel prices. The significantly more reliable measurement data collected by iMAP enables rotor stacking software to accurately manipulate component parts, resulting in precisely aligned rotor assemblies.
iMAP is the definitive system for productivity improvement in turbine rotor assembly for large volume and heavy loads such as passenger jets and gas turbines.
iMAP is the definitive system for productivity improvement in turbine rotor assembly for large volume and heavy loads such as passenger jets and gas turbines.
GeoSpin has been specifically developed for the measurement and assembly of smaller engines in the aerospace industry, such as short-haul and business jets.g.