Werth Multisensor Tactile Coordinate Measuring Machine ScopeCheck S Probe Series

Werth Multisensor Tactile Coordinate Measuring Machine ScopeCheck S Probe Series

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Penerangan

ScopeCheck® S Probe

3D Scanning in Compact Design

The entry into tactile CNC metrology for shopfloor and measuring room – Manual bench gauges, gages and conventional production measuring stations can be ideally supplemented or even completely replaced by the Werth ScopeCheck® S Probe. The ScopeCheck® S Probe is also suitable for areas of application that were previously reserved for expensive and complex coordinate measuring machines, thanks to its highly accurate 3D scanning probe and fast CNC continuous path control.

 

Production monitoring or laboratory, small or large workpieces, optical sensors, multi-sensor systems – Werth offers the right video measuring machine. Consistent quality assurance and acceptance tests according to VDI 2617 or ISO 10360 guarantee the reliability and accuracy of the machines. Task-specific measurement errors can be reduced down to the sub-micrometre range. Competent advice based on decades of experience enables customised combinations for optimal adaptation to the respective measuring task.


 



 
Typical Applications of Different Sensor

a) Conventional probes

b) Werth Fiber Probe®

c) Laser

d) Image processing

e) Autofocus

f) Werth 3D-Patch

g) 3D Werth Fiber Probe

h) X-ray Tomography Sensor

 




 
Telecentric for Constant Image Scale

Non-telecentric images change sharpness and image scale as the object distance changes. With telecentric imaging on the object side (right), in contrast, the images have nearly constant scale.

a) Sensor plane
b) Virtual image plane
c) Telecentric diaphragm

 




 
Contour Image Processing for Reliable Measurement

In contour image processing, the image is viewed as a two-dimensional whole within an evaluation window. Contours are extracted from this image using suitable mathematical algorithms (operators). Each image point of a contour corresponds to a measurement point. The measurement points are strung together like a string of pearls. This makes it possible to detect and filter out interfering contours caused by surface structures, breakouts and dirt during measurement (contour filters) without changing the mould of the contours.

 




 
Patented Werth MultiRing®

The advantage of Patented Werth MultiRing:

  • Angle of incidence selectable
  • No loss of working distance
  • No mechanically moving parts
  • Large angle range adjustable
  • White high power LEDs
 


 
Werth Autofocus Sensor

By combining the non-contact measuring methods of image processing and autofocus sensor, many three-dimensional measuring tasks can be solved. The features of Werth Autofocus:

  • Integrated in Werth Zoom
  • Measuring on low-contrast surfaces
  • Standard configuration for highest magnification
  • Selection via sensor button
  • Also usable with 3D patch
 


 
Werth FlatLight®

Minimizing out of focus condition with a special illumination device with a small numerical aperture.  Even high and rounded profile sections can be measured with great precision.

 


 

WinWerth® Software

The operation of machines with a wide variety of sensors, but also the evaluation of volume data and point clouds are possible with WinWerth® in a unique combination. The Werth image processing software is based on 40 years of experience and is the foundation of probably the most powerful image processing sensors for coordinate measuring machines currently available. Optical distance sensors, conventional styluses in single-point or scanning mode, the Werth Fiber Probe®, X-ray computed tomography or machines with a combination of several sensors are all supported by the uniform concept. Measurement points, 2D images or volume data can also be conveniently evaluated in terms of geometrical characteristics or with part-to-part deviation analysis. PTB-certified evaluation algorithms ensure correct measurement results. All desired information is displayed in the graphic: CAD models with PMI data, voxel volumes, measurement point clouds, colour-coded deviation plots from 3D nominal-actual comparisons, video images, measurement and calculation elements as well as flags with nominal and actual values, tolerances and deviations. In order to meet the most diverse requirements, the software has a modular structure. Various machines can be operated, from simple measuring projectors to complex multi-axis coordinate measuring machines with multi-sensor systems or even X-ray tomography sensors.



 




 
Image Processing Measures almost by Itself

The “intelligence” of the WinWerth® measurement software then takes over, for example, the exact determination of the object area to be captured, the selection of the geometrical element to be measured (e.g. e.g. straight line, circle, corner point) as well as the linking algorithms for determining 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, e.g. as circles, cylinder surface lines, stars or spirals, taking into account the necessary travel paths. In this way, the complete measurement sequence, including evaluation, is first created offline using the CAD model or online with the minimum number of points for the respective geometry element.

 




 
Evaluating Images Perfectly for Optics and Computer Tomography Scan

The evaluation is mainly realised by PC hardware and software. In a first processing step, the image can be improved with image filters (optimising contrast, smoothing surface disturbances). This enables reliable measurements even with difficult edges and rigid scanning in incident light.

 




 
Testing and Changing Made Easy

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

 




 
CAD-Online® and CAD-Offline®

Measurement programs can be generated both online and offline using 2D or 3D CAD models. The CAD models are imported in either STEP, native CAD or IGES format. In offline mode a sensor is selected and a patch or combination of several patches is selected on the CAD model. The software computes the necessary actions for the sensor and automatically generates the corresponding segment of the program. The graphic shows the simulated measurement sequence. In online mode the procedure is similar to the offline mode, but the coordinate measuring machine immediately performs each operational step so it can be observed “live.

 




 
Volume Section Sensor

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

 




 
Eccentric Sections can be Scanned Tomographically with Multi-ROI CT

With the help of section tomography or ROI tomography (ROI: Region of Interest), parts of the measuring object are measured with high resolution without having to capture the entire measuring object, e.g. , completely with high resolution using Raster Tomography, which is time-consuming and requires a lot of memory. Multi-ROI tomography offers a combination of the benefits of eccentric and sectional tomography scans. Multiple parts with high resolution can also be selected at any position in the measuring object.

 



 
Automatic Burr Detection

A special feature of Werth is the 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. The deviation display optionally shows only those points where the burr length exceeds the tolerance limits. The burr length along the entire burr can also be displayed numerically via analysis markers. For example, every 0.5 mm a flag is set that contains the maximum local burr length.

 




 
Graphic Displays and Reports

WinWerth® displays all the measured elements along with the selected geometrical characteristics in the 2D or 3D graphics window. The report generator summarizes the various outputs in “Office style.

 


 

Specifications

 
Model ScopeCheck® S Probe
General
Machine Type 3D coordinate measuring machine
Probing System Mechanical probing system: scanning probing system
Modes of Operation Continuous-path control
Measuring Software WinWerth®
Operating System MS Windows
Measuring Range
  X = 400 mm (15.7 in.)
  Y = 200 mm (7.9 in.)
  Z = 200 mm (7.9 in.)
Dimensions and Masses (Min. Installation area ):
Depth 737 mm (29 in.)
Width 750 mm (29.5 in.)
Height 1664 mm (65.5 in.)
Machine Weight 260 kg (573 lbs.)
Workpiece Weight mmax 8 kg (17.6 Ibs.)
Optional: 20 kg (44 lbs.)
Further Performance Data
Resolution of Linear Measuring System 0.1 µm  (0.000004 in.)
Positioning Speed, vmax 150 mm/s
Acceleration, amax 300 mm/s²
Supply Data**
Voltage 230 V (115 V) ±10%
Frequency 48 – 62 Hz
Power Consumption Max. 1000VA
Permissible Environmental Conditions
Environmental Air Humidity 40% – 70% rel. hum., oil free
Operating Temperature 10 – 35 °C (50 – 95 °F)
** Other supply data on request or according to specific countrykit

 
Maximum Permissible Error MPE (extract)
For standard laboratory conditions with enhanced 3D geometry correction (option)
Tactile sensor SP25  1) 2) E: (2.4 + L/150) µm E2xy: (1.9 + L/150) µm E3: (2.9 + L/100) µm
PS/PF = 2.4 µm THN: 3.5 µm THP: 3.5 µm
For standard laboratory conditions
Tactile sensor SP25  1) 3) E3: (3.9 + L/75) µm    
PS/PF: 3.9 µm THN: 4.5 µm THP: 4.5 µm
No air-conditioning required
Tactile sensor SP25 1) 4) E3: (4.5 + L/50) µm    
PS/PF: 4.5 µm THN: 4.9 µm THP: 4.9 µm

(Where L = measuring length in mm comparable to ISO 10360 and VDI/VDE 2617)

 

1) Measured with SP25 Kit 1 (stylus length 20 mm, sphere diameter 2 mm) or with a probe with the same or better probing error

2) ∂ = 20 °C ± 2 K                ∇∂ = 1 K/h, 1 K/m               m ≤ 8 kg (extended 3D geometry correction) 

3) ∂ = 20 °C ± 2 K                ∇∂ = 1 K/h, 1 K/m               m ≤ 8 kg

4) ∂ = 16 °C to 30 °C            ∇∂ = 2 K/h, 2 Km                m ≤ 8 kg

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