create_helix#
- Modeler3D.create_helix(assignment, origin, x_start_dir, y_start_dir, z_start_dir, turns=1, right_hand=True, radius_increment=0.0, thread=1, **kwargs)#
Create an helix from a polyline.
- Parameters:
- assignment
str
Name of the polyline used as the base for the helix.
- origin
list
List of
[x, y, z]
coordinates for the center point of the circle.- x_start_dir
float
Distance along x axis from the polyline.
- y_start_dir
float
Distance along y axis from the polyline.
- z_start_dir
float
Distance along z axis from the polyline.
- turns
int
,optional
Number of turns. The default value is
1
.- right_handbool,
optional
Whether the helix turning direction is right hand. The default value is
True
.- radius_increment
float
,optional
Radius change per turn. The default value is
0.0
.- thread
float
- **kwargs
optional
Additional keyword arguments may be passed when creating the primitive to set properties. See
ansys.aedt.core.modeler.cad.object_3d.Object3d
for more details.
- assignment
- Returns:
ansys.aedt.core.modeler.cad.object_3d.Object3d
or bool3D object or
False
if it fails.
References
>>> oEditor.CreateHelix
Examples
The following example shows how to create a polyline and then create an helix from the polyline. This method applies to all 3D applications: HFSS, Q3D, Icepak, Maxwell 3D, and Mechanical.
>>> from ansys.aedt.core import Hfss >>> aedtapp = Hfss() >>> udp1 = [0, 0, 0] >>> udp2 = [5, 0, 0] >>> udp3 = [10, 5, 0] >>> udp4 = [15, 3, 0] >>> polyline = aedtapp.modeler.create_polyline([udp1, udp2, udp3, udp4],cover_surface=False, ... name="helix_polyline") >>> helix_right_turn = aedtapp.modeler.create_helix(assignment=polyline.name,origin=[0, 0, 0], ... x_start_dir=0,y_start_dir=1.0,z_start_dir=1.0, ... turns=1,right_hand=True,radius_increment=0.0,thread=1.0)