Description

TomoCheck S HA

Coordinate Measuring Machine with Tomography Sensor (X-Ray Measurement)

Multisensor CMM

Multisensor coordinate measuring machine for 3D measurements with computed tomography (CT).

Rigid Granite Base

Rigid granite base with precision linear guideways and integrated rotary axis.

Protective Shielding

Fully protective lead shielding design according to German Radiation Protection Act.

Easy Positioning

Optical workpiece positioning aid for easy positioning of measuring objects.

Fast Reconstruction

Software to optimize the speed of 3D workpiece geometry reconstruction.

WinWerth Software

Graphically interactive, user-friendly measuring software for advanced measurement tasks.

Options

Second Z-axis for operation in multisensory mode.
Workpiece changing system.
Raster tomography for measuring small features, even on large workpieces, with high resolution.
Multi-ROI tomography for high resolution measurement of small object details at any position.
Volume cross section image processing for evaluation directly in the voxel volume.

Spiral CT for reducing cone beam artifacts.
OnTheFly tomography to significantly reduce measurement time.
Multi-spectra tomography to minimize artifacts when measuring multi-material workpieces.
Werth Tool Correction for direct correction of injection molds.
Werth Autocorrection.

Ever since Werth presented the first X-ray tomography machine developed especially for coordinate measuring technology, with optional multisensor systems, the machines in the Werth TomoScope® series have enabled the complete, precise, and non-destructive measurement of workpieces. This technology minimizes first article inspection times for rapid product validation, thus reducing development costs. Special measurement methods also make it possible to monitor processes with high throughput due to short measurement times.

CMM Technology Inside

Built with coordinate measuring machine technology for stable measuring performance.

CAA Compensation

Supports advanced compensation for accurate measuring results.

Temperature Compensation

Designed to support consistent measurement under controlled conditions.

Pre-Calibrated Magnifications

Enables accurate operation with calibrated magnification settings.

Fully Automatic Measurement

Reduces manual influence and improves measurement repeatability.

Artifact Correction

Integrated artifact correction with local edge detection using subvoxeling algorithms.

Principle

X-ray images of the workpiece are taken at various rotated positions. With suitable mathematical methods, they can be used to calculate a complete, high-resolution volumetric model. A patented subvoxeling process determines the measurement points at the material boundaries.

3D Comparison

The 3D point cloud can be compared directly with the 3D CAD model, imported for example in IGES or STEP format. Each point is automatically associated with the corresponding patch in the CAD model. WinWerth® measuring software generates a color-coded deviation plot for each measurement point in comparison with the specified CAD surface.

Dimensional Measurements

The points associated with a geometrical feature are selected for analysis, either using automatic segmentation or simply by clicking on the CAD model. WinWerth® calculates standard geometrical features and links them into dimensions, generating a measurement report on request. Using virtual planes, measurements can be performed in any cross section of the volume or point cloud.

Machine Design

The design principle of the CT machines, based on proven components from Werth coordinate measuring machines, ensures stability and precision. All TomoScope® and TomoCheck® machines meet the requirements to be considered cabinet X-ray systems.

Precision in the Sub-Micron Range

The CT measurements can be traced back to the internationally recognized length standard of the German National Metrology Institute using calibrated standards in accordance with VDI 2617 or VDI 2630. If precision in the sub-micron range is required for workpieces that are difficult to penetrate radiographically, multisensor systems can help reduce systematic measurement errors using patented Werth Autocorrection.

Special Measurement Methods

Special measurement methods, such as OnTheFly CT, Eccentric CT, Multi-ROI CT, Raster Tomography, and Dual-Spectra CT are available to increase measuring speed or resolution, expand the measurement range, and measure workpieces made of multiple materials.

X-Ray CT Speeds Up First Article Inspection

The measurement time for first article inspection of a workpiece has been reduced from several days, using classical measurement techniques, to a few minutes with CT. Product development can thereby be sped up significantly, which increases cost-effectiveness. With extensive and precise information about the workpiece, mold corrections can be implemented in a fraction of the time.

WinWerth® Software

The operation of machines with a wide variety of sensors, as well as the evaluation of volume data and point clouds, are possible with WinWerth® in a unique combination. Optical distance sensors, conventional styluses, the Werth Fiber Probe®, X-ray computed tomography, and machines with a combination of several sensors are all supported by the uniform concept.

Image Processing Measures Almost by Itself

The intelligence of the WinWerth® measurement software takes over tasks such as determining the object area, selecting the geometrical element to be measured, and linking algorithms for geometrical characteristics such as distances, angles, and diameters.

Measurement Points Distributed Automatically

Measurement points or scan lines are automatically distributed on the geometry elements to be measured, taking into account the necessary travel paths. The complete measurement sequence, including evaluation, can be created offline using the CAD model or online with the minimum number of points.

Evaluating Images for Optics and CT Scan

The evaluation is mainly realised by PC hardware and software. In a first processing step, the image can be improved with image filters, optimizing contrast and smoothing surface disturbances for reliable measurements.

Testing and Changing Made Easy

The feature tree in the WinWerth® user interface controls the test and change mode, where programmes can be run step-by-step and changes can be added. A parallel text editor allows experienced operators to enter or change DMIS programme code.

CAD-Online® and CAD-Offline®

Measurement programs can be generated both online and offline using 2D or 3D CAD models. CAD models are imported in STEP, native CAD, or IGES format. The software computes the necessary actions for the sensor and automatically generates the corresponding program segment.

Volume Section Sensor

With 2D contour image processing and associated filters, measurements can be taken in any cross section of the CT volume or point cloud. This makes measurement of workpieces made of several materials particularly easy.

Eccentric Sections with Multi-ROI CT

With section tomography or ROI tomography, parts of the measuring object can be measured with high resolution without having to capture the entire measuring object. Multi-ROI tomography combines the benefits of eccentric and sectional tomography scans.

Automatic Burr Detection

Werth supports automatic detection and measurement of burrs or chips during the measurement sequence. The result is a colour-coded deviation plot of the burr and the maximum burr length.

Graphic Displays and Reports

WinWerth® displays all measured elements along with selected geometrical characteristics in the 2D or 3D graphics window. The report generator summarizes the various outputs in an office-style format. All desired dimensions are collected during measurement, statistically analyzed in real time, and evaluated using standard SPC functions.

Specifications

Model	TomoCheck S HA
General
Machine Type	Multisensor coordinate measuring machine with CT device
Probing System	X-ray sensor, Optical Sensors, Image Processing, Mechanical Probing Systems: Trigger and Scanning Probes
Modes of Operation	Continuous path control
Measuring Software	WinWerth®
Operating System	MS Windows
Measuring Range
Max. part dimensions for tomography***	For “In the image” measurements L = 105 mm, Ø = 104 mm	Option raster tomography L = 365 mm, Ø = 176 mm
Max. workpiece dimensions for other sensors	L = 250 mm (10″) Ø = 200 mm (8″)
Max. distance X-ray source – detector	FDD = 850 mm (33.5″)
Dimensions and Masses [Installation area without instrument table]
Depth	approx. 1257 mm (50″)
Width	approx. 2410 mm (95″)
Height	approx. 1900 mm (75″)
Machine Weight	approx. 6000 kg (13230 lbs.)
Workpiece Weight mmax	150 kg (110 lbs)
For specified Error MPE	2 kg (4.4 lbs.)
X-Ray Components
X-Ray Source	Transmission target: 190 kV, 225 kV
Detector Surface Area	from 290 mm x 230 mm²
Number of Pixels	from 1024 x 1024 pixel to 5800 x 4800 pixel
Pixel Center Distance	50 µm to 127 µm
Additional Performance Data
Resolution of Linear Measuring System	0.1 µm (0.000004″)
Positioning Speed vmax	60 mm/s
Acceleration amax	250 mm/s²
Supply Data**
Voltage	3 x 400 N/P/VE
Frequency	50 – 60 Hz ±2%
Power Consumption	X-ray sources < 190 kV: max. 2000 VA X-ray sources ≥ 190 kV: max. 3000 VA
Air Pressure	7 – 10 bar
Air Consumption	18000 Nl/h
Permissible Environmental Conditions
Environmental Air	Humidity 40% – 70% relative humidity, oil free
Air Contamination	Max. 0.05 mg/m³
Operating Temperature	10 – 35 °C (50 – 95 °F)

** Other supply data on request or according to specific country kit.

*** Depending on calibration condition and aspect ratio of the workpieces.

Maximum Permissible Error MPE

Maximum Permissible Error MPE (Extract)
For Advanced Laboratory Conditions
Optical and Tactile Sensor ¹ ~² ~	P: 2.5 µm	SD: (4.5 + L/75) µm
Unidirectional	E : (0.25 + L/900) µm
Bidirectional	E : (0.5 + L/900) µm	E : (0.7 + L/600) µm	E: (1.5 + L/500) µm
Optical and Tactile Sensor ¹ ~³ ~
Unidirectional	E : (0.25 + L/500) µm
Bidirectional	E : (0.5 + L/500) µm	E : (0.7 + L/400) µm	E: (1.5 + L/300) µm
CT Sensor ¹ ~	P: 2.5 µm	E: (2.5 + L/150) µm

MPE* for the Standard-TomoCheck deviate from these values. L = measuring length in mm comparable to ISO 10360 and VDI/VDE 2617.

1) Measured with lens 10x or sensor with equal or better probing deviation.

2) ∂ = 20 °C ± 0.1 K, ∇∂ = 0.1 K/h, m ≤ 2 kg.

3) ∂ = 20 °C ± 1 K, ∇∂ = 0.5 K/h, m ≤ 2 kg.

Variable X-Ray Sensors

Description	Number of Pixels	Pixel Size	Max. Part Dimensions for “In the Image” Measurements	Max. Part Dimensions with Raster Tomography
X-DETECTOR VA1000	1024 x 1024	127 µm	Ø = 104 mm / L = 105 mm	Ø = 176 mm / L = 365 mm

Contact us today to inquire about the TomoCheck S HA and enhance your X-ray CT measurement capabilities.

More detail about MSP Metrology (M) Sdn Bhd

Werth Coordinate Measuring Machine with X-Ray Tomography Sensor TomoCheck® S HA Series