Reinforcement ColumnRebars/it: Difference between revisions
Renatorivo (talk | contribs) (Created page with "{{Caption|Finestra di dialogo per i dati Armature di direzione Y.}}") |
Renatorivo (talk | contribs) (Created page with "11. Selezionare il tipo di armatura desiderata e compilare i dati per le armature in direzione y. <br> 12. Cliccare su {{Button|OK}} o su {{Button|Applica}} per generare il ri...") |
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[[Image:ColumnReinforcementDialog_YDirRebars.png|700px]]{{Caption|Finestra di dialogo per i dati Armature di direzione Y.}} |
[[Image:ColumnReinforcementDialog_YDirRebars.png|700px]]{{Caption|Finestra di dialogo per i dati Armature di direzione Y.}} |
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11. Selezionare il tipo di armatura desiderata e compilare i dati per le armature in direzione y. <br> |
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11. Select desired rebar type and fill data for ydirection rebars. <br> |
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12. |
12. Cliccare su {{Button|OK}} o su {{Button|Applica}} per generare il rinforzo della colonna. <br> |
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13. |
13. Cliccare su {{Button|Cancella}} per uscire dalla finestra di dialogo. <br> |
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Revision as of 20:21, 13 October 2019
Arch Rebar ColumnReinforcement |
Posizione nel menu |
---|
Arch → Strumenti armatura |
Ambiente |
Arch, BIM |
Avvio veloce |
Nessuno |
Introdotto nella versione |
0.19 |
Vedere anche |
Armatura elicoidale, Rinforzo di colonna TwoTiesSixRebars |
Descrizione
Lo strumento Rinforzo di colonna consente all'utente di creare delle barre di rinforzo all'interno di un oggetto Struttura Colonna.
Questo comando fa parte del addon Reinforcement, che si può installare con Addon manager, tramite il menu Strumenti → Addon manager → Reinforcement.
Rinforzo di colonna all'interno di una Struttura colonna
Utilizzo
1. Seleziona una faccia di un oggetto Struttura creato precedentemente.
2. Quindi selezionare Rinforzo di colonna dagli strumenti armaturas.
3. Sullo schermo appare una finestra di dialogo come mostrato sotto.
Finestra di dialogo per lo strumento Rinforzo di colonna
4. Seleziona il tipo desiderato di rinforzo della colonna.
5. Fornire gli input per i dati relativi alla staffatura.
6. Fare clic su Avanti per aggiornare la finestra di dialogo come quella mostrata sotto.
Finestra di dialogo per i dati dell'armatura principale
7. Selezionare il tipo di armatura desiderata e riempire i dati per le armature principali.
8. Fare clic su Avanti per passare alla finestra di dialogo successiva.
Finestra di dialogo per i dati Armature di direzione X.
9. Selezionare il tipo di armatura desiderata e compilare i dati per le armature in direzione x.
10. Fare clic su Avanti per passare alla finestra di dialogo successiva.
Finestra di dialogo per i dati Armature di direzione Y.
11. Selezionare il tipo di armatura desiderata e compilare i dati per le armature in direzione y.
12. Cliccare su OK o su Applica per generare il rinforzo della colonna.
13. Cliccare su Cancella per uscire dalla finestra di dialogo.
Properties
Ties:
- DatiLeft Cover: The distance between the left end of the tie to the left face of the structure.
- DatiRight Cover: The distance between the right end of the tie to right face of the structure.
- DatiTop Cover: The distance between tie from the top face of the structure.
- DatiBottom Cover: The distance between tie from the bottom face of the structure.
- DatiOffset: The distance between tie from the top/bottom face of the structure.
- DatiDiameter: Diameter of the tie.
- DatiBent Angle: Bent angle defines the angle at the ends of a tie.
- DatiExtension Factor: Extension Factor defines length of end of tie, expressed in times the diameter.
- DatiNumber: The number of ties.
- DatiSpacing: The distance between the axes of each tie.
Main Rebars: Rebars present at corners of tie
- DatiRebar Type: Type of main rebars.
- DatiHook Orientation: Orientation of LShaped hooks.
- DatiHook Extend Along: Direction for hook extension.
- DatiHook Extension: Length of hook of LShape rebars.
- DatiRounding: A rounding value to be applied to the corners of the LShape rebars, expressed in times the diameter.
- DatiTop Offset: The distance between rebar from the top face of the structure.
- DatiBottom Offset: The distance between rebar from the bottom face of the structure.
- DatiDiameter: Diameter of the main rebars.
XDir Secondary Rebars: Rebars along x-direction except main rebars
- DatiRebar Type: Type of x-direction rebars.
- DatiHook Orientation: Orientation of LShaped hooks.
- DatiHook Extension: Length of hook of LShape rebars.
- DatiRounding: A rounding value to be applied to the corners of the LShape rebars, expressed in times the diameter.
- DatiTop Offset: The distance between rebar from the top face of the structure.
- DatiBottom Offset: The distance between rebar from the bottom face of the structure.
- DatiNumber#Diameter: Number#Diameter set of the x-direction rebars.
YDir Secondary Rebars: Rebars along y-direction except main rebars
- DatiRebar Type: Type of y-direction rebars.
- DatiHook Orientation: Orientation of LShaped hooks.
- DatiHook Extension: Length of hook of LShape rebars.
- DatiRounding: A rounding value to be applied to the corners of the LShape rebars, expressed in times the diameter.
- DatiTop Offset: The distance between rebar from the top face of the structure.
- DatiBottom Offset: The distance between rebar from the bottom face of the structure.
- DatiNumber#Diameter: Number#Diameter set of the y-direction rebars.
Scripting
See also: Arch API, Reinforcement API and FreeCAD Scripting Basics.
The ColumnReinforcement tool can be used in macros and from the Python console by using the following function:
Create Single Tie Four Rebars
RebarGroup = makeSingleTieFourRebars(
l_cover_of_tie,
r_cover_of_tie,
t_cover_of_tie,
b_cover_of_tie,
offset_of_tie,
bent_angle,
extension_factor,
dia_of_tie,
number_spacing_check,
number_spacing_value,
dia_of_rebars,
t_offset_of_rebars,
b_offset_of_rebars,
rebar_type="StraightRebar",
hook_orientation="Top Inside",
hook_extend_along="x-axis",
l_rebar_rounding=None,
hook_extension=None,
structure=None,
facename=None,
).rebar_group
- Creates a
RebarGroup
object from the givenstructure
, which is an Arch Structure, andfacename
, which is a face of that structure.- If no
structure
norfacename
are given, it will take the user selected face as input.
- If no
l_cover_of_tie
,r_cover_of_tie
,t_cover_of_tie
,b_cover_of_tie
andoffset_of_tie
are inner offset distances for the tie elements with respect to the faces of the structure. They are respectively the left, right, top, bottom and front/rear offsets.bent_angle
define the angle of the tip of the reinforcement loop.extension_factor
define the length of the tip of the reinforcement loop, expressed in times the diameter.dia_of_tie
is the diameter of the ties.number_spacing_check
if it isTrue
it will create as many ties as given bynumber_spacing_value
; if it isFalse
it will create ties separated by the numerical value ofnumber_spacing_value
.number_spacing_value
specifies the number of ties, or the value of the separation between them, depending onnumber_spacing_check
.dia_of_rebars
is the diameter of the main rebars.t_offset_of_rebars
andb_offset_of_rebars
are inner offset distances for the main rebars with respect to the top and bottom faces of the structure, respectively.rebar_type
is the type of the main rebars; it can be"StraightRebar"
or"LShapeRebar"
.hook_orientation
specifies the orientation of LShaped hook; it can be:"Top Inside"
,"Top Outside"
,"Bottom Inside"
,"Bottom Outside"
,"Top Right"
,"Top Left"
,"Bottom Right"
or"Bottom Left"
.hook_extend_along
specifies direction for hook extension; it can be"x-axis"
or"y-axis"
.l_rebar_rounding
is the parameter that determines the bending radius of the LShaped main rebars, expressed as times the diameter.hook_extension
is the length of hook of LShaped rebars.
Example
import FreeCAD, Draft, Arch
from ColumnReinforcement import SingleTie
# It doesn't work if the structure is not based on a face
# Structure = Arch.makeStructure(length=1000, width=400, height=400)
Rect = Draft.makeRectangle(400, 400)
Structure = Arch.makeStructure(Rect, height=1600)
Structure.ViewObject.Transparency = 80
FreeCAD.ActiveDocument.recompute()
# For Straight Rebars
RebarGroup = 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=2,
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=Structure,
facename="Face6",
).rebar_group
# For LShaped Rebars with hook along x-axis
RebarGroup = 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=2,
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=40,
structure=Structure,
facename="Face6",
).rebar_group
# For LShaped Rebars with hook along y-axis
RebarGroup = 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=2,
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="y-axis",
l_rebar_rounding=2,
hook_extension=40,
structure=Structure,
facename="Face6",
).rebar_group
Create Single Tie Multiple Rebars
RebarGroup = makeSingleTieMultipleRebars(
l_cover_of_tie,
r_cover_of_tie,
t_cover_of_tie,
b_cover_of_tie,
offset_of_tie,
bent_angle,
extension_factor,
dia_of_tie,
number_spacing_check,
number_spacing_value,
dia_of_main_rebars,
main_rebars_t_offset,
main_rebars_b_offset,
main_rebars_type="StraightRebar",
main_hook_orientation="Top Inside",
main_hook_extend_along="x-axis",
l_main_rebar_rounding=None,
main_hook_extension=None,
sec_rebars_t_offset=None,
sec_rebars_b_offset=None,
sec_rebars_number_diameter=None,
sec_rebars_type=("StraightRebar", "StraightRebar"),
sec_hook_orientation=("Top Inside", "Top Inside"),
l_sec_rebar_rounding=None,
sec_hook_extension=None,
structure=None,
facename=None,
)
- Creates a
RebarGroup
object from the givenstructure
, which is an Arch Structure, andfacename
, which is a face of that structure.- If no
structure
norfacename
are given, it will take the user selected face as input.
- If no
l_cover_of_tie
,r_cover_of_tie
,t_cover_of_tie
,b_cover_of_tie
andoffset_of_tie
are inner offset distances for the tie elements with respect to the faces of the structure. They are respectively the left, right, top, bottom and front/rear offsets.bent_angle
define the angle of the tip of the reinforcement loop.extension_factor
define the length of the tip of the reinforcement loop, expressed in times the diameter.dia_of_tie
is the diameter of the ties.number_spacing_check
if it isTrue
it will create as many ties as given bynumber_spacing_value
; if it isFalse
it will create ties separated by the numerical value ofnumber_spacing_value
.number_spacing_value
specifies the number of ties, or the value of the separation between them, depending onnumber_spacing_check
.dia_of_main_rebars
is the diameter of the main rebars.main_rebars_t_offset
andmain_rebars_b_offset
are inner offset distances for the main rebars with respect to the top and bottom faces of the structure, respectively.main_rebars_type
is the type of the main rebars; it can be"StraightRebar"
or"LShapeRebar"
.main_hook_orientation
specifies the orientation of main LShaped hook; it can be:"Top Inside"
,"Top Outside"
,"Bottom Inside"
,"Bottom Outside"
,"Top Right"
,"Top Left"
,"Bottom Right"
or"Bottom Left"
.main_hook_extend_along
specifies direction for main hook extension; it can be"x-axis"
or"y-axis"
.l_main_rebar_rounding
is the parameter that determines the bending radius of the LShaped main rebars, expressed as times the diameter.main_hook_extension
is the length of hook of main LShaped rebars.sec_rebars_t_offset
andsec_rebars_b_offset
are tuples (xdir_rebars_t_offset, ydir_rebars_t_offset) and (xdir_rebars_b_offset, ydir_rebars_b_offset) respectively, that defines inner offset distances for the secondary x-direction and y-direction rebars with respect to the top and bottom faces of the structure, respectively.sec_rebars_number_diameter
is a tuple (xdir_rebars_number_diameter, ydir_rebars_number_diameter) that defines number#diameter set of the secondary x-direction and y-direction rebars, respectively.sec_rebars_type
is a tuple (xdir_rebars_type, ydir_rebars_type) that defines the type of secondary x-direction and y-direction rebars ,respectively; it can have"StraightRebar"
or"LShapeRebar"
as rebar type.sec_hook_orientation
is a tuple (xdir_hook_orientation, ydir_hook_orientation) that defines the orientation of secondary x-direction and y-direction LShaped hook; it can have"Top Inside"
,"Top Outside"
,"Bottom Inside"
,"Bottom Outside"
,"Top Right"
,"Top Left"
,"Bottom Right"
or"Bottom Left"
as hook_orientation.l_sec_rebar_rounding
is a tuple (l_xdir_rebar_rounding, l_ydir_rebar_rounding) that determines the bending radius of the LShaped secondary x-direction and y-direction LShaped rebars, expressed as times the diameter of x-direction and y-direction LShaped rebars, respectively.sec_hook_extension
is a tuple (xdir_hook_extension, ydir_hook_extension) that defines the length of hook of secondary x-direction and y-direction LShaped rebars.
Example
import FreeCAD, Draft, Arch
from ColumnReinforcement import SingleTieMultipleRebars
# It doesn't work if the structure is not based on a face
# Structure = Arch.makeStructure(length=1000, width=400, height=400)
Rect = Draft.makeRectangle(400, 400)
Structure = Arch.makeStructure(Rect, height=1600)
Structure.ViewObject.Transparency = 80
FreeCAD.ActiveDocument.recompute()
RebarGroup = SingleTieMultipleRebars.makeSingleTieMultipleRebars(
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=2,
dia_of_tie=8,
number_spacing_check=True,
number_spacing_value=10,
dia_of_main_rebars=16,
main_rebars_t_offset=-40,
main_rebars_b_offset=-40,
main_rebars_type="LShapeRebar",
main_hook_orientation="Top Outside",
main_hook_extend_along="x-axis",
l_main_rebar_rounding=2,
main_hook_extension=40,
sec_rebars_t_offset=(-40, -40),
sec_rebars_b_offset=(-40, -40),
sec_rebars_number_diameter=("2#20mm+1#16mm+2#20mm", "1#20mm+1#16mm+1#20mm"),
sec_rebars_type=("LShapeRebar", "LShapeRebar"),
sec_hook_orientation=("Top Outside", "Top Outside"),
l_sec_rebar_rounding=(2, 2),
sec_hook_extension=(40, 40),
structure=Structure,
facename="Face6",
)
Edition of Single Tie Four Rebars
You can change the properties of the ties and rebars with the following function
rebar_group = editSingleTieFourRebars(
rebar_group,
l_cover_of_tie,
r_cover_of_tie,
t_cover_of_tie,
b_cover_of_tie,
offset_of_tie,
bent_angle,
extension_factor,
dia_of_tie,
number_spacing_check,
number_spacing_value,
dia_of_rebars,
t_offset_of_rebars,
b_offset_of_rebars,
rebar_type="StraightRebar",
hook_orientation="Top Inside",
hook_extend_along="x-axis",
l_rebar_rounding=None,
hook_extension=None,
structure=None,
facename=None,
)
rebar_group
is a previously createdColumnReinforcement
group object.- The other parameters are the same as required by the
makeSingleTieFourRebars()
function. structure
andfacename
may be omitted so that the rebar stays in the original structure.
Example
from ColumnReinforcement import SingleTie
rebar_group = SingleTie.editSingleTieFourRebars(
rebar_group,
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=2,
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=40,
structure=None,
facename=None,
)
Edition of Single Tie Multiple Rebars
You can change the properties of the ties and rebars with the following function
rebar_group = editSingleTieMultipleRebars(
rebar_group,
l_cover_of_tie,
r_cover_of_tie,
t_cover_of_tie,
b_cover_of_tie,
offset_of_tie,
bent_angle,
extension_factor,
dia_of_tie,
number_spacing_check,
number_spacing_value,
dia_of_main_rebars,
main_rebars_t_offset,
main_rebars_b_offset,
main_rebars_type="StraightRebar",
main_hook_orientation="Top Inside",
main_hook_extend_along="x-axis",
l_main_rebar_rounding=None,
main_hook_extension=None,
sec_rebars_t_offset=None,
sec_rebars_b_offset=None,
sec_rebars_number_diameter=None,
sec_rebars_type=("StraightRebar", "StraightRebar"),
sec_hook_orientation=("Top Inside", "Top Inside"),
l_sec_rebar_rounding=None,
sec_hook_extension=None,
structure=None,
facename=None,
)
rebar_group
is a previously createdColumnReinforcement
group object.- The other parameters are the same as required by the
makeSingleTieMultipleRebars()
function. structure
andfacename
may be omitted so that the reinforcement stays in the original structure.
Example
from ColumnReinforcement import SingleTieMultipleRebars
rebar_group = SingleTieMultipleRebars.editSingleTieMultipleRebars(
rebar_group,
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=2,
dia_of_tie=8,
number_spacing_check=True,
number_spacing_value=10,
dia_of_main_rebars=16,
main_rebars_t_offset=-40,
main_rebars_b_offset=-40,
main_rebars_type="LShapeRebar",
main_hook_orientation="Top Outside",
main_hook_extend_along="x-axis",
l_main_rebar_rounding=2,
main_hook_extension=40,
sec_rebars_t_offset=(-40, -40),
sec_rebars_b_offset=(-40, -40),
sec_rebars_number_diameter=("2#20mm+1#16mm+2#20mm", "1#20mm+1#16mm+1#20mm"),
sec_rebars_type=("StraightRebar", "StraightRebar"),
sec_hook_orientation=None,
l_sec_rebar_rounding=None,
sec_hook_extension=None,
structure=None,
facename=None,
)
- Elements: Wall, Structure, Curtain Wall, Window, Roof, Space, Stairs, Equipment, Frame, Fence, Truss, Profile, Pipe, Pipe Connector
- Reinforcements: Straight Rebar, U-Shape Rebar, L-Shape Rebar, Stirrup, Bent-Shape Rebar, Helical Rebar, Column Reinforcement, Beam Reinforcement, Slab Reinforcement, Footing Reinforcement, Custom Rebar
- Panels: Panel, Panel Cut, Panel Sheet, Nest
- Materials: Material, Multi-Material
- Organization: Building Part, Project, Site, Building, Level, External reference, Section Plane, Schedule
- Axes: Axis, Axes system, Grid
- Modification: Cut with plane, Add component, Remove component, Survey
- Utilities: Component, Clone component, Split Mesh, Mesh to Shape, Select non-manifold meshes, Remove Shape from Arch, Close Holes, Merge Walls, Check, Toggle IFC Brep flag, 3 Views from mesh, Create IFC spreadsheet, Toggle Subcomponents
- Additional: Preferences, Import Export Preferences (IFC, DAE, OBJ, JSON, 3DS, SHP), IfcOpenShell, IfcPlusPlus, Arch API
- Getting started
- Installation: Download, Windows, Linux, Mac, Additional components, Docker, AppImage, Ubuntu Snap
- Basics: About FreeCAD, Interface, Mouse navigation, Selection methods, Object name, Preferences, Workbenches, Document structure, Properties, Help FreeCAD, Donate
- Help: Tutorials, Video tutorials
- Workbenches: Std Base, Arch, Assembly, CAM, Draft, FEM, Inspection, Mesh, OpenSCAD, Part, PartDesign, Points, Reverse Engineering, Robot, Sketcher, Spreadsheet, Surface, TechDraw, Test Framework
- Hubs: User hub, Power users hub, Developer hub