Reinforcement Nomenclature de façonnage
Reinforcement Nomenclature de façonnage des armatures |
Emplacement du menu |
---|
Reinforcement → Rebar Shape Cut List |
Ateliers |
Reinforcement, Arch, BIM |
Raccourci par défaut |
Aucun |
Introduit dans la version |
0.19 |
Voir aussi |
Arch Dimensionnement des dessins d'armatures, Arch Nomenclature armature |
Description
L'outil Rebar Shape Cut List permet à l'utilisateur de créer une liste pour la coupe et le pliage des barres d'armature.
Cette commande fait partie de l'Atelier Reinforcement, un Atelier externe qui peut être installé avec le Gestionnaire d'Addon via le menu Outils → Gestionnaire d'Addon → Reinforcement.
Nomenclature de façonnage d'armatures
Utilisation
1. Sélectionnez les objets Arch Armatures et Rebar2 que vous souhaitez inclure dans la nomenclature de façonnage des armatures ou sélectionnez les objets Arch Structure à inclure aux Arch Armatures et les objets Rebar2 hébergés par celui-ci dans la nomenclature de façonnage des armatures. Si rien n'est sélectionné, la nomenclature de façonnage des armatures sera générée pour tous les objets Arch Armatures et Rebar2 présents dans le modèle.
2. Sélectionnez ensuite Rebar Shape Cut List dans les outils d'armature.
3. Une boîte de dialogue apparaîtra à l'écran, comme indiqué ci-dessous.
Dialog Box for the Reinforcement Bar Shape Cut List tool
4. Modify data to suit your requirements.
5. Click OK or Apply to generate Rebar Shape Cut List for rebars.
6. Click Cancel to exit the dialog box.
Properties
General:
- DonnéesStirrup Extended Edge Offset: The offset of extended end edges of stirrup, so that end edges of stirrup with 90 degree bent angle do not overlap with stirrup edges.
- DonnéesRebars Stroke Width: The stroke-width of rebars in rebar shape cut list.
- DonnéesRebars Color Style: The color style of rebars.
- DonnéesRow Height: The height of each row of rebar shape in rebar shape cut list.
- DonnéesColumn Width: The width of each column of rebar shape in rebar shape cut list.
- DonnéesColumn Count: The number of columns in rebar shape cut list.
- DonnéesSide Padding: The padding on each side of rebar shape.
- DonnéesHorizontal Rebar Shape: If True, then rebar shape will be made horizontal by rotating max length edge of rebar shape.
- DonnéesInclude Mark: If it is set to True, then rebar.Mark will be included for each rebar shape in rebar shape cut list.
- DonnéesSVG Output File: The output file to write generated rebar shape cut list svg.
Dimension Data:
- DonnéesInclude Dimensions: If True, then each rebar edge dimensions and bent angle dimensions will be included in rebar shape cut list.
- DonnéesInclude Units in Dimension Label: If it is True, then rebar edge length units will be shown in dimension label.
- DonnéesRebar Edge Dimension Units: The units to be used for rebar edge length dimensions.
- DonnéesRebar Edge Dimension Precision: The number of decimals that should be shown for rebar edge length as dimension label.
- DonnéesDimension Font Family: The font-family of dimension text.
- DonnéesDimension Font Size: The font-size of dimension text.
- DonnéesBent Angle Dimension Exclude List: The list of bent angles to not include their dimensions.
- DonnéesHelical Rebar Dimension Label Format: The format of helical rebar dimension label. e.g. "%L,r=%R,pitch=%P" where %L -> Length of helical rebar, %R -> Helix radius of helical rebar, %P -> Helix pitch of helical rebar.
Scripting
See also: Arch API, Reinforcement API and FreeCAD Scripting Basics.
The Rebar Shape Cut List tool can be used in macros and from the Python console by using the following function:
Create Rebar Shape SVG
getRebarShapeSVG(
rebar,
view_direction: Union[FreeCAD.Vector, WorkingPlane.Plane] = FreeCAD.Vector(0, 0, 0),
include_mark: bool = True,
stirrup_extended_edge_offset: float = 2,
rebar_stroke_width: float = 0.35,
rebar_color_style: str = "shape color",
include_dimensions: bool = True,
rebar_dimension_units: str = "mm",
rebar_length_dimension_precision: int = 0,
include_units_in_dimension_label: bool = False,
bent_angle_dimension_exclude_list: Tuple[float, ...] = (45, 90, 180),
dimension_font_family: str = "DejaVu Sans",
dimension_font_size: float = 2,
helical_rebar_dimension_label_format: str = "%L,r=%R,pitch=%P",
scale: float = 1,
max_height: float = 0,
max_width: float = 0,
side_padding: float = 1,
horizontal_shape: bool = False,
) -> ElementTree.Element
- Generates and return a rebar shape svg element for given
rebar
object. rebar
object can be of type <ArchRebar._Rebar> or <rebar2.BaseRebar>, to generate its shape svg.view_direction
specifies the view point direction for rebar shape. It can be of typeFreeCAD.Vector
orWorkingPlane.Plane
thoughWorkingPlane.Plane
is preferred.include_mark
specifies if rebar.Mark is to be included in rebar shape svg or not.stirrup_extended_edge_offset
is the offset of extended end edges of stirrup, so that end edges of stirrup with 90 degree bent angle do not overlap with stirrup edges.rebar_stroke_width
specifies the stroke-width of rebar in svg.rebar_color_style
specifies the color style of rebar. It can be "shape color" or "color_name or hex_value_of_color". "shape color" means select color of rebar shape.include_dimensions
specifies if each rebar edge dimensions and bent angle dimensions is to be included in rebar shape svg.rebar_dimension_units
specifies the units to be used for rebar length dimensions.rebar_length_dimension_precision
specifies the number of decimals that should be shown for rebar length as dimension label. Set it to None to use user preferred unit precision from FreeCAD unit preferences.include_units_in_dimension_label
specifies if rebar length units is to be shown in dimension label.bent_angle_dimension_exclude_list
specifies the list of bent angles to not include their dimensions.dimension_font_family
specifies the font-family of dimension text.dimension_font_size
specifies the font-size of dimension text.helical_rebar_dimension_label_format
specifies the format of helical rebar dimension label. E.g. "%L,r=%R,pitch=%P" where:
%L -> Length of helical rebar %R -> Helix radius of helical rebar %P -> Helix pitch of helical rebar
scale
specifies the scale value to scale rebar svg. The scale parameter helps to scale down rebar_stroke_width and dimension_font_size to make them resolution independent. If max_height or max_width is set to non-zero value, then scale parameter will be ignored.max_height
specifies the maximum height of rebar shape svg. Set it to 0 to have rebar shape svg height based on scale parameter.max_width
specifies the maximum width of rebar shape svg. Set it to 0 to have rebar shape svg width based on scale parameter.side_padding
specifies the padding on each side of rebar shape.horizontal_shape
specifies if rebar shape is to be made horizontal by rotating max length edge of rebar shape.
Example
from pathlib import Path
from xml.dom import minidom
from xml.etree import ElementTree
import Draft, Arch, Stirrup
from RebarShapeCutList import RebarShapeCutListfunc
Rect = Draft.makeRectangle(400, 400)
Structure = Arch.makeStructure(Rect, height=1600)
Structure.ViewObject.Transparency = 80
FreeCAD.ActiveDocument.recompute()
Rebar = Stirrup.makeStirrup(
20, 20, 20, 20, 20, 90, 4, 8, 2, True, 10, Structure, "Face6"
)
rebar_shape_svg = RebarShapeCutListfunc.getRebarShapeSVG(
Rebar,
view_direction=FreeCAD.Vector(0, 0, 0),
include_mark=True,
stirrup_extended_edge_offset=2,
rebar_stroke_width=0.35,
rebar_color_style="shape color",
include_dimensions=True,
rebar_dimension_units="mm",
rebar_length_dimension_precision=0,
include_units_in_dimension_label=True,
bent_angle_dimension_exclude_list=(45, 90, 180),
dimension_font_family="DejaVu Sans",
dimension_font_size=2,
helical_rebar_dimension_label_format="%L,r=%R,pitch=%P",
scale=1,
max_height=100,
max_width=100,
side_padding=1,
horizontal_shape=False,
)
output_file = str(Path.home() / "StirrupRebarShape.svg")
with open(output_file, "w", encoding="utf-8") as f:
f.write(
minidom.parseString(
ElementTree.tostring(rebar_shape_svg, encoding="unicode")
).toprettyxml(indent=" ")
)
Create Rebar Shape Cut List SVG
getRebarShapeCutList(
base_rebars_list: Optional[List] = None,
view_directions: Union[
Union[FreeCAD.Vector, WorkingPlane.Plane],
List[Union[FreeCAD.Vector, WorkingPlane.Plane]],
] = FreeCAD.Vector(0, 0, 0),
include_mark: bool = True,
stirrup_extended_edge_offset: float = 2,
rebars_stroke_width: float = 0.35,
rebars_color_style: str = "shape color",
include_dimensions: bool = True,
rebar_edge_dimension_units: str = "mm",
rebar_edge_dimension_precision: int = 0,
include_units_in_dimension_label: bool = False,
bent_angle_dimension_exclude_list: Union[Tuple[float, ...], List[float]] = (
45,
90,
180,
),
dimension_font_family: str = "DejaVu Sans",
dimension_font_size: float = 2,
helical_rebar_dimension_label_format: str = "%L,r=%R,pitch=%P",
row_height: float = 40,
column_width: float = 60,
column_count: Union[int, Literal["row_count"]] = "row_count",
side_padding: float = 1,
horizontal_rebar_shape: bool = True,
output_file: Optional[str] = None,
) -> ElementTree.Element
- Generate and return rebar shape cut list svg element for given
base_rebars_list
. base_rebars_list
is a list of <ArchRebar._Rebar> or <rebar2.BaseRebar> objects, to generate their RebarShape cut list. If not provided, then all ArchRebars and rebar2.BaseRebar objects with unique Mark from ActiveDocument will be selected and rebars with no Mark assigned will be ignored.view_directions
is a list of view point directions for each rebar shape. It can be either of typeFreeCAD.Vector
orWorkingPlane.Plane
OR their list. Keep itFreeCAD.Vector(0, 0, 0)
to automatically choose view_directions.include_mark
specifies if rebar.Mark is to be included for each rebar shape in rebar shape cut list svg or not.stirrup_extended_edge_offset
specifies the offset of extended end edges of stirrup, so that end edges of stirrup with 90 degree bent angle do not overlap with stirrup edges.rebars_stroke_width
specifies the stroke-width of rebars in rebar shape cut list svg.rebars_color_style
specifies the color style of rebars. It can be "shape color" or "color_name or hex_value_of_color". "shape color" means select color of rebar shape.include_dimensions
specifies if each rebar edge dimensions and bent angle dimensions is to be included in rebar shape cut list.rebar_edge_dimension_units
specifies the units to be used for rebar edge length dimensions.rebar_edge_dimension_precision
specifies the number of decimals that should be shown for rebar length as dimension label. Set it to None to use user preferred unit precision from FreeCAD unit preferences.include_units_in_dimension_label
specifies if rebars edge length units is to be shown in dimension label.bent_angle_dimension_exclude_list
specifies the list of bent angles to not include their dimensions.dimension_font_family
specifies the font-family of dimension text.dimension_font_size
specifies the font-size of dimension text.helical_rebar_dimension_label_format
specifies the format of helical rebar dimension label. E.g. "%L,r=%R,pitch=%P" where:
%L -> Length of helical rebar %R -> Helix radius of helical rebar %P -> Helix pitch of helical rebar
row_height
specifies the height of each row of rebar shape in rebar shape cut list.column_width
specifies the width of each row of rebar shape in rebar shape cut list.column_count
specifies the number of columns in rebar shape cut list. Set it to "row_count" to have column_count <= row_countside_padding
specifies the padding on each side of rebar shape in rebar shape cut list.horizontal_rebar_shape
specifies if rebar shape is to be made horizontal by rotating max length edge of rebar shape.output_file
specifies the output file to write generated rebar shape cut list svg.
Example
from pathlib import Path
import FreeCAD, Draft, Arch
from ColumnReinforcement import SingleTie
from RebarShapeCutList import RebarShapeCutListfunc
Rect1 = Draft.makeRectangle(400, 400)
Structure1 = Arch.makeStructure(Rect1, height=1600)
Structure1.ViewObject.Transparency = 80
Rect2 = Draft.makeRectangle(500, 500)
Structure2 = Arch.makeStructure(Rect2, height=1600)
Structure2.ViewObject.Transparency = 80
Structure2.Placement = FreeCAD.Placement(FreeCAD.Vector(1000, 0, 0), FreeCAD.Rotation(FreeCAD.Vector(0, 0, 1), 0))
FreeCAD.ActiveDocument.recompute()
# Create Straight Rebars
rebar_group = SingleTie.makeSingleTieFourRebars(
l_cover_of_tie=40,
r_cover_of_tie=40,
t_cover_of_tie=40,
b_cover_of_tie=40,
offset_of_tie=100,
bent_angle=135,
extension_factor=8,
dia_of_tie=8,
number_spacing_check=True,
number_spacing_value=10,
dia_of_rebars=16,
t_offset_of_rebars=40,
b_offset_of_rebars=40,
rebar_type="StraightRebar",
hook_orientation="Top Inside",
hook_extend_along="x-axis",
l_rebar_rounding=None,
hook_extension=None,
structure=Structure1,
facename="Face6",
).rebar_group
# Assign Mark to straight rebars
for straight_rebar in rebar_group.RebarGroups[1].MainRebars:
straight_rebar.Mark = "main_sb"
# Create LShaped Rebars with hook along x-axis
rebar_group = SingleTie.makeSingleTieFourRebars(
l_cover_of_tie=40,
r_cover_of_tie=40,
t_cover_of_tie=40,
b_cover_of_tie=40,
offset_of_tie=100,
bent_angle=90,
extension_factor=8,
dia_of_tie=8,
number_spacing_check=True,
number_spacing_value=10,
dia_of_rebars=16,
t_offset_of_rebars=-40,
b_offset_of_rebars=-40,
rebar_type="LShapeRebar",
hook_orientation="Top Outside",
hook_extend_along="x-axis",
l_rebar_rounding=2,
hook_extension=100,
structure=Structure2,
facename="Face6",
).rebar_group
# Assign Mark to lshape rebars
for lshape_rebar in rebar_group.RebarGroups[1].MainRebars:
lshape_rebar.Mark = "main_lb"
output_file = str(Path.home() / "RebarShapeCutList.svg")
# Create Rebar Shape Cut List for all base rebars in model
RebarShapeCutListfunc.getRebarShapeCutList(
base_rebars_list=None,
view_directions=FreeCAD.Vector(0, 0, 0),
include_mark=True,
stirrup_extended_edge_offset=2,
rebars_stroke_width=0.35,
rebars_color_style="shape color",
include_dimensions=True,
rebar_edge_dimension_units="mm",
rebar_edge_dimension_precision=0,
include_units_in_dimension_label=False,
bent_angle_dimension_exclude_list=(45, 90, 180),
dimension_font_family="DejaVu Sans",
dimension_font_size=2,
helical_rebar_dimension_label_format="%L,r=%R,pitch=%P",
row_height=40,
column_width=60,
column_count="row_count",
side_padding=1,
horizontal_rebar_shape=True,
output_file=output_file,
)