Reverse engineering dimensions allow you to quickly transition from a model to a tool coordinate measuring machine using Zeiss measuring machines to obtain digital design models. Dimensions provides CAD designers with a final design as a dataset that can be directly used in their existing environment. Dimensioning produces surface descriptions or triangular facets of dispersed point clouds that can be processed in CAD or CAD/CAM systems with high quality. The result is that only a small amount of data is needed to describe complex surfaces. Compared to tradition
reverse engineering
Dimension: Faster transition from model to tool
Reverse engineering of coordinate measuring machines
Dimensions allow you to obtain digital design models using Zeiss measuring machines. Dimensions provides CAD designers with a final design as a dataset that can be directly used in their existing environment. DIMENSION
Efficient quality
Dimensions generate surface descriptions or triangular patches of dispersed point clouds that can be processed in CAD or CAD/CAM systems. The result is that only a small amount of data is needed to describe complex surfaces. Unlike traditional methods, regular geometric quantities are not only described as approximate values, but also use precise geometric elements.
In addition to the precise description of the model, the algorithm's smooth surface to some extent makes the transformation as tangential and curvature constants as possible - which are prerequisites for the optimal milling path.
Accurately determine the edge curve
The quality of the digital process largely depends on the calculation of edge curves. For surface trimming, Dimensions automatically calculates the edge boundaries of the surface that are larger than the digitized area.
Quick insertion of partial digitization
Dimensions can capture changes through partial digitization. Calculate new surface data and merge the original dataset as a reference surface with the measured data.
You see your measurement process
All planar features can be displayed in completion modes of 3D, rotation, movement, and scaling. Light sources give visualization an additional dimension. This makes it easy to evaluate the results achieved.
Optional Coordinate Measuring Machines
Bridge type coordinate measuring machine
ZEISS SPECTRUM Scanning Measurement Platform
ZEISS PRISMO
ZEISS ACCURA
ZEISS MICURA Small Size * Precision
ZEISS CONTURA Compact
ZEISS XENOS
ZEISS SPECTRUM Mobile
ZEISS MICURA Mobile
ZEISS CONTURA
ZEISS PRISMO
ZEISS CONTURAZEISS ACCURA
Composite three coordinate system
ZEISS O-INSPECT322
ZEISS O-INSPECT543
ZEISS O-INSPECT863
Large gantry high-precision coordinate measuring machine
ZEISS MMZ G
ZEISS MMZ M
ZEISS MMZ T
Production of Coordinate Measuring Machines
ZEISS CenterMax
ZEISS GageMax
ZEISS DuraMax
Cantilever Coordinate Measuring Machine
ZEISS CALENO
ZEISS PRO/PRO T
ZEISS CARMET
Computerized tomography measuring machine
ZEISS METROTOM 6 scout
ZEISS Xradia610 & 620 Versa
ZEISS Xradia 800 Ultra
ZEISS Xradia 810 Ultra
ZEISS Xradia Context microCT
ZEISS Xradia 410 Versa
ZEISS Xradia 510 Versa
ZEISS SRE MAXX-ray shielding cabinet
ZEISS METROTOM 800
ZEISS METROTOM 1500
Production process control and inspection procedures
ZEISS VoluMax
ZEISS SurfMax
Online measurement robot
Hybrid measuring station
Offline robot workstation
2D measurement and testing station
Robot guidance
Zeiss Measurement Solutions
Wittmann
Nidec Motors
Henschel
GRASS
Cummins
LT Ultra
SABS
Xiongbang Die Casting
Volkswagen
GM
Bosch
IAC
Agusta Westland
Andrew Tool
Jamco Aeropspace
Three-M Tool
Moventas
Pietro Rosa
PMT India
Rochester Precision Optics
Schwan Cosmetics
Agfa Healthcare
CardioBridge
MeadWestvaco
Braun
starlim//sterner
