Finish up your spaces with this parametric Revit family crisscross space divider that includes multiple parameters. Change the parameters to create different looks and sizes that will give your space a lot more character. Play with the number of panels, the angle, height and width of each panel, as well as with the number and thickness of the crisscross bars to fully change its appearance.
- Parametric: Yes
- Hybrid*: No
- Compatible with: Revit 2016 and higher.
- Family type: Furniture
- Materials/textures: Yes
- Approximate file size: 1.40 MB
- File format: .rfa
This Revit family crisscross space divider comes with the following customizable parameters and options:
Width and height of panels (all four panels will have the same width and height when you change it):
- Minimum width of panels: 9″
- Minimum height: 2′
Number of crisscross bars. If the number of bars is too large, the number will be adjusted so that there is no overlap between the bars.
- Minimum number of crisscross bars: 6
Thickness of crisscross bars:
- Minimum thickness: 1/2″
- Maximum thickness: 3″
Angles of each panel (individually):
- Minimum angle: 0
- Maximum angle: 135
If the Equal checkbox is on, the angle of all panels will be the same (it will take the angle of panel 1 as the angle for all).
Hinges can be turned on/off
Panels 3 and 4 can be turned on/off to make it a double, triple or quadruple divider
After changing the angles it might be necessary to rotate the family to make sure it’s in the right position.
Material parameters for:
- Wood frame
- Panel
- Hinges
* Hybrid families combine native Revit objects with other 3D applications’ objects for a more organic and realistic look to the families. The objects coming from other 3D applications are configured to NOT have mesh lines (only outlines) and to display in black.
All files are delivered in zip format. Before using your 3D models, you will need to unzip the downloadable file using a 3rd party software like Winzip or Peazip. Make sure you have a software to unzip files before purchasing 3D models.