- Uses the advantages of the most modern optical measuring technology
- Non-contact measurement on sensitive pieces
- High measuring accuracy
- Low production costs
- Usable directly in the production environment
- Maximum amount of automation
The high-precision measuring machine MarForm MFU 110 is based on the proven MFU 100 and has been expanded with an ultraflexible optical measuring system. Now one tactile and one optical sensor are at your disposal for high-precision measuring tasks in the inspection laboratory and in the production environment.
All advantages of traditional tactile and modern optical metrology are united in this measuring machine. A summary of the advantages of optical metrology are given below:
- No influence of measuring force: no bending or deformation of measuring objects
- Non-contact measurement: no scratching or damage of sensitive surfaces
- Direct measurement: no influence of ball tip geometry, therefore more exact recording of contours, e.g. edges, convex shapes
- Very smal probe arm diameter: measuring of very small objects and shapes, e.g. small bores
- High rotating speed of the C-axis: less measuring time, more data, laminary measuring
- High vertical and lateral resolution: more precise measuring of diameter and distance
- 2 optical outputs: more flexible contacting, less turning of probe arm, improved cone measuring
- Maximum measuring certainty
- Process accuracy
- Software package MarWin
- Future proof
Just like the MFU 100, an active air-conditioned cabin is optionally available for the MFU 110 for use in production environment. Shorter distances and faster intervention into the production process control reduce your costs and optimize the quality of your products.
A high degree of automation is achieved through the motorized centering and tilting table, which is a core component of Formtesters, and the use of the motorized T7W probe.
Due to the separation of machine control and profile evaluation, the MarForm MFU 110 is easily expandable and ready for the future. The addition of other languages or special evaluations is possible, as well as the implementation of new standards.
ApplicationEvaluation of of roundness, radial run-out, axial run-out, concentricity, coaxility, total run-out, total axial run-out, cylindricity, straightness, parallelism, perpendicularity, angularity, flatness, conicity, line form, position (DIN ISO 1101), cone form, diameter.
- Compact measuring volume, loading capacity up to 200 N
- Inspection of 'true parallelism' when the horizontal X-axis passes the workpiece center, results free from other measuring influences
- Optimal for a higher tolerance latitude in the production environment
- Fast Roundness measurement with up to 200 rpm
FORM MEASURING MACHINE MarForm MFU 110
-
High-precision Formtester MFU 110 with optical sensor
and high speed C-axis - Evaluation computer Marwin
- Integrated modem
- PC hardware in compliance with the Mahr standard available at the time of delivery
- Windows-based operating system (Windows 7 Ultimate 64 bit)
- Software package 'Mahr Form - and Location Evaluation'
- Work table with integrated control unit
- T7W probe: motorized bi-directional length measuring probe, incl. standard probe arm with sperical stylus, dia. 3 mm
- Optical measuring probe IPS or WP (Details on request)
Technical Data
Roundness deviation (µm+µm/mm measuring height)
|
0,01 + 0,0002
|
---|---|
Roundness deviation (µm+µm/mm measuring height)
|
0,02 + 0,0004
|
Axial runout deviation (µm+µm/mm measuring radius)
|
0,02 + 0,0002
|
Axial runout deviation (µm+µm/mm measuring radius)
|
0,04 + 0,0004
|
Centering and tilting table
|
automatic
|
Table diameter (mm)
|
180
|
Table load capacity, centered (N)
|
200
|
Speed (rpm) 50 Hz / 60 Hz
|
0.1 to 200
|
Straightness deviation / 100 mm measuring path (µm), Z axis
|
0.1
|
Straightness deviation / total measuring path (µm), Z axis
|
0.3
|
Parallelism deviation Z-/C axis in tracing direction, measuring path (µm)
|
0.6
|
Measuring speed (mm/s), Z axis
|
0.1 to 50
|
Positioning speed (mm/s), Z axis
|
0.1 to 50
|
Straightness deviation / total measuring path (µm), X axis
|
0.3
|
Perpendicularity X/C axis, measuring path (µm)
|
0.3
|
Positioning speed (mm/s), X axis
|
0.1 to 50
|
Measuring speed (mm/s), X axis
|
0.01 to 50
|