EinScan HX Guide Book
2020-9-16
2020-9-16
2020-9-16
2020-7-23
2020-3-14
2020-3-14
2019-07-05
2019-07-05
2019-07-05
2019-07-05
2018-04-20
2019-04-24
Распаковка EinScan Pro 2X
04.12.2018
EinScan Pro 2X Рекомендации по эксплуатации (фиксация кабеля)
14.12.2018
EinScan Pro 2X Рекомендации по эксплуатации (Установка дополнительных устройств)
14.12.2018
Сканер EinScan-Pro 3D Инструкция по настройке
29.06.2017
Сканер EinScan-SE 3D Инструкция по настройке
11.07.2017
Сканер EinScan-SP 3D Инструкция по настройке
11.07.2017
Сканер EinScan-S 3D Инструкция по настройке
08.10.2016
The EinScan exports mesh data (STL.OBJ. PLY. etc…), those are composed of a large number of triangle (polygons). Traditional CAD software reads parasolid files (IGES, STEP/STP etc…), these files are composed of a set of shapes that are mathematically defined. Therefore, for CAD software a mesh is interpreted as a very large number of planes. Often the direct conversion from mesh to CAD format is limited to small files.
The transformation from mesh to CAD data is called Reverse Engineering. The mesh is imported into the CAD interface and is used as a visual or matching reference for the construction of the CAD model.
Solid Edge SHINING 3D edition is bundled with EinScan for this purpose. SHINING 3D has developed partnerships with multiple software companies providing Reverse Engineering solutions among them, Solid Edge, Rhino & mesh2surface, DesignX, and Geomagic for Solidworks.
Hairs are difficult to scan as they reflect light in random directions, you can try to apply dry shampoo or mat color spray on the hair to turn them mat.
Or do the post processing with a mesh editor. You can find some library or draw hair using 3Dmax, Maya, Blender, Z brush. These kinds of software require advanced skills.
Classic:
15 frames / sec
Direct scan with selected resolution
Good for: small parts, middle resolution scan.
Lightning:
30 frames / sec
Scan with 1mm resolution
Interpolation to selected resolution when end scan
Good for: large part with low resolution scan
Lightning + Refine:
30 frames / sec
Scan with 1mm resolution
Parallel capture of frame data
Refine to selected resolution after scan, by retopology, using the frame data
Good for: large part, allow recalculation of the resolution.
EXScan Pro is optimized for Nvidia GTX graphic cards. The resources allowed for scanning are different from the ones required for CAD or gaming. The use of other cards, outside of the recommended ones, can result in the software lag or crashes.
Once you are at the optimal working distance, increase the brightness, until some data is captured. However, with higher brightness settings, more noise is captured.
For a better result you can, prior to scanning, apply some spray on the surface:
Scan spray for metrology applications, is projecting an extremely thin layer, so the shape is not affected.
DIY solution: flour or baby powder can work too.
Scanning large objects can be challenging because of:
The numerical limit of the software,
The maximum distance in one direction is 4m. the size limit is 8000*point-distance. Therefore, you reduce the resolution to achieve singular large scan data
The cumulative error
The further you go the less accurate the data. Start from the middle of the object and follow a spider path towards the edges to reduce risk of tracking loss.
If you misalign, recovering tracking can take long as there may be multiple possibilities of matching areas. The use of markers is highly recommended for large parts.
The computer capacity
The bigger the object, the larger the file. To improve this, register the GMF and construct the large file as a puzzle of smaller scans with a 3rd party software.
EXScan Pro mesh editor offers:
Watertight or Unwatertight models
Simplification (decimate the mesh)
For Unwatertight: Fill holes respecting curvature, up to 100mm perimeter, and fill markers holes
Sharpen and Smooth option
Brightness and contrast of the texture
For more options on these or other features we recommend meshlab or meshmixer (both free software) or Geomagic Wrap.
The EinScan exports mesh data (STL.OBJ. PLY. etc…), those are composed of a large number of triangle (polygons). Traditional CAD software reads parasolid files (IGES, STEP/STP etc…), these files are composed of a set of shapes that are mathematically defined. Therefore, for CAD software a mesh is interpreted as a very large number of planes. Often the direct conversion from mesh to CAD format is limited to small files.
The transformation from mesh to CAD data is called Reverse Engineering. The mesh is imported into the CAD interface and is used as a visual or matching reference for the construction of the CAD model.
Solid Edge SHINING 3D edition is bundled with EinScan for this purpose. SHINING 3D has developed partnerships with multiple software companies providing Reverse Engineering solutions among them, Solid Edge, Rhino & mesh2surface, DesignX, and Geomagic for Solidworks.
EinScan-Pro+
Select Marker/Feature alignment. If you start the scan facing markers, markers will be required to add new data. If you start without facing markers, feature alignment is enabled. Or you can choose Hybrid alignment, the software will switch from feature to markers automatically
EinScan-Pro
Only feature alignment is enabled. To enable Markers and Hybrid options, Rapid Registration add-on needs to be purchased.
Hairs are difficult to scan as they reflect light in random directions, you can try to apply dry shampoo or mat color spray on the hair to turn them mat.
Or do the post processing with a mesh editor. You can find some library or draw hair using 3Dmax, Maya, Blender, Z brush. These kinds of software require advanced skills.
EinScan software is optimized for Nvidia GTX graphic cards. The resources allowed for scanning are different that from the ones required for CAD or gaming. The use of other cards, outside of the recommended ones, can result in the software lag or crashes.
Once you are at the optimal working distance, increase the brightness, until some data is captured. However, with higher brightness settings, more noise is captured.
For a better result you can, prior to scanning, apply some spray on the surface:
Scan spray for metrology applications, is projecting an extremely thin layer, so the shape is not affected.
DIY solution: flour or baby powder can work too.
Scanning large objects can be challenging because of:
The numerical limit of the software,
The maximum distance in one direction is 4m. the size limit is 8000*point-distance.
Therefore, you reduce the resolution to achieve singular large scan data
The cumulative error
The further you go the less accurate the data. Start from the middle of the object and follow a spider path towards the edges to reduce risk to of tracking loss.
If you misalign, recovering tracking can take long as there may be multiple possibilities of matching areas. The use of markers is highly recommended for large parts.
The computer capacity
The bigger the object, the larger the file. To improve this, register the GMF and construct the large file as a puzzle of smaller scans with a 3rd party software.
EinScan software mesh editor offers
Watertight or Unwatertight models
Simplification (decimate the mesh)
For Unwatertight: Fill holes respecting curvature, up to 100mm perimeter, and fill markers holes
Sharpen and Smooth option
Brightness and contrast of the texture
For more options on these features or other features, we recommend meshlab or meshmixer (both free software) or Geomagic Wrap
The EinScan exports mesh data (STL.OBJ. PLY. etc.…), which are composed of a large number of triangles (polygons). Traditional CAD software reads parasolid files (IGES, STEP/STP etc.…), which are composed of a set of shapes that are mathematically defined. Therefore, CAD software interprets a mesh as a very large number of planes. Often the direct conversion from mesh to CAD format is limited to small files.
The transformation from mesh to CAD data is called Reverse Engineering. The mesh is imported into the CAD interface and is used as a visual or matching reference for the construction of the CAD model.
Solid Edge SHINING 3D edition is bundled with EinScan for this purpose. SHINING 3D has developed partnerships with multiple software companies providing Reverse Engineering solutions among them, Solid Edge, Rhino & mesh2surface, DesignX, and Geomagic for Solidworks.
Once you are at the optimal working distance, increase the brightness until some data is captured. Keep in mind, however, that with higher brightness settings, more noise will be captured.
If your object is both dark and bright, turn on HDR, the scan will take more time but contrasting data will be captured
For a better result you can, prior to scanning, apply some spray on the surface:
Scan spray for metrology applications applies an extremely thin layer, so the object’s shape is not affected.
DIY solution: flour or baby powder can work too.
Thin objects are very tricky as you can have interference between the 2 faces, causing a misalignment of data. It is recommended to use markers (SP only) to improve the accuracy between successive scans
EinScan software mesh editor offers:
Watertight or Unwatertight model
Simplification (decimate the mesh)
For Unwatertight: Fill holes respecting curvature, up to 100mm perimeter, and fill markers holes (SP only) Sharpen and Smooth option
Brightness and contrast of the texture
For more options, on those or other features, we recommend meshlab or meshmixer (both free software) or Geomagic Wrap (paid professional grade software)
We have merge fixed and auto scan mode into “scan”. If the turntable is plugged, check/uncheck the box “With turntable” to enable /disable it, the turntable settings will show (turntable step, SP: alignment condition). If the turntable is not plugged in, go back to the home menu before re-opening the project.
Coded target: Is most convenient, if the object is small enough to not cover the encoded targets on the turntable.
On every step of the turntable, the scanner recognizes common targets on the turntable to calculate the new position of the object. At least 4 common targets need to be recognized between 2 successive scans.
Feature: Feature alignment is best used when the object is too big for the turntable coded target alignment and you do not want to or cannot stick markers on it. With feature alignment the software recognizes features on 3 successive preliminary scans then calculates the position of the turntable. the scans are matched by knowing the center and angle of rotation between successive captures.
Objects with too simple of features such as a flat surface, symmetrical surfaces like spheres, cylinder, and circular patterns are not recommended for this mode. Better to use markers to facilitate the alignment.
Marker or global markers: When the object is too big for the turntable coded target alignment and can accept markers. Marker alignment works in a similar way of turntable coded target alignment; the software matches 2 successive scans by recognizing at least 4 common markers.