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| Descrizione |
|---|
| Foratura per armadi System32. Versione macro: 1.0 Ultima modifica: 2015-01-22 Versione FreeCAD: All Download: ToolBar Icon Autore: Berner |
| Autore |
| Berner |
| Download |
| ToolBar Icon |
| Link |
| Raccolta di macro Come installare le macro Personalizzare la toolbar |
| Versione macro |
| 1.0 |
| Data ultima modifica |
| 2015-01-22 |
| Versioni di FreeCAD |
| All |
| Scorciatoia |
| Nessuna |
| Vedere anche |
| Nessuno |
Descrizione
Questa macro crea i piani e le pareti laterali di un armadio con le specifiche System32. Le impostazioni predefinite nella macro sono per le parti della ditta Hettich.
Lato dell'armadio
Parte superiore dell'armadio
Utilizzo
- Avviare la macro e cambiare la lunghezza, l'altezza e la larghezza dell'armadio.
- La Gui chiede se volete praticare uno o due fori di connessione.
- È possibile praticare dei fori distanziati di 32 millimetri.
- È possibile praticare fori sulla parte superiore o inferiore dei piani del vostro armadio.
Script
ToolBar Icon 
Cabinets32.FCMacro
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# ***************************************************************************
# * *
# * Copyright (c) 2015 Bruno Bueckmann reset12 at gmx.de *
# * http://home.bb-24.net *
# * This program is free software; you can redistribute it and/or modify *
# * it under the terms of the GNU Lesser General Public License (LGPL) *
# * as published by the Free Software Foundation; either version 2 of *
# * the License, or (at your option) any later version. *
# * for detail see the LICENCE text file. *
# * *
# * This program is distributed in the hope that it will be useful, *
# * but WITHOUT ANY WARRANTY; without even the implied warranty of *
# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
# * GNU Library General Public License for more details. *
# * *
# * You should have received a copy of the GNU Library General Public *
# * License along with this program; if not, write to the Free Software *
# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 *
# * USA *
# * *
# ***************************************************************************
# Macro Begin: cabinets32.FCMacro ++++++++++++++++++++++++++++++++++++++++++++++
# This Macro generates holes and a groove for the side Base cabinet
# Top and Bottom Wall are OUTSIDE the side base
# like :
# -------
# | |
# | |
# -------
from __future__ import division
import FreeCAD as App
import FreeCADGui as Gui
from PySide import QtGui
# GUI
debug = False # debugging on
guiok = True # flag for abort input
width, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Thickness', 'Thickness of cabinet-side', 19, 0, 50, 2)
if ok:
length, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Depth', 'Depth of cabinet-side', 600, 0, 2000, 2)
else:
guiok = False
if ok and guiok:
height, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Height', 'Height of cabinet-side', 2000, 0, 3000, 2)
else:
guiok = False
if ok and guiok:
bradius, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Bradius', 'Radius of drill holes in cabinet-side',
2.5, 0, 50, 2)
else:
guiok = False
if ok:
bdeep, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Bdeep', 'Depth of drill holes in cabinet-side',
12, 0, 50, 2)
else:
guiok = False
if ok:
fdist, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Fdist', 'Distance to Front of cabinet-side',
37, 0, 50, 2)
else:
guiok = False
if ok:
hole1, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Hole1',
'Distance first hole from top or bottom of cabinet-side', 10, 0, 50, 2)
else:
guiok = False
if ok:
holedistance, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Holedistance',
'Distance from hole to hole (System 32)', 32, 1, 50, 2)
else:
guiok = False
if ok:
groovethickness, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Groovethickness', 'Thickness of backpanel',
3, 1, 50, 2)
else:
guiok = False
if ok:
groovedeep, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Groovedeep',
'Overlapping of backpanel in cabinet-side', 12, 1, 50, 2)
else:
guiok = False
if guiok:
# VB 35 / 18 or VB 36 M /19 from Hettich
connector, ok = QtGui.QInputDialog.getInt(
QtGui.QWidget(), 'Connectortype',
'Zerohole(0) Singlehole(1) or Doublehole(2) Connector', 2, 0, 2, 1)
if ok:
fillwithholes, ok = QtGui.QInputDialog.getItem(None,
"Fillwithholes",
"Fill Board with holes?",
["no", "yes"],
editable=False)
else:
guiok = False
endhole = 9.5
if ok and guiok:
endholes, ok = QtGui.QInputDialog.getItem(None,
"Endholes",
"Drill Holes on Top/Bottom vertical for Connectors",
['no', 'yes'],
editable=False)
if ok and guiok and endholes == 'yes':
endhole, ok = QtGui.QInputDialog.getDouble(
QtGui.QWidget(), 'Endhole',
'Endhole distance from inner cabinet-side', 9.5, 1, 50, 2)
if debug:
App.Console.PrintMessage("ok?: {}\n".format(ok))
App.Console.PrintMessage("width = {}\n".format(width))
App.Console.PrintMessage("length = {}\n".format(length))
App.Console.PrintMessage("bradius = {}\n".format(bradius))
App.Console.PrintMessage("bdeep = {}\n".format(bdeep))
App.Console.PrintMessage("fdist = {}\n".format(fdist))
App.Console.PrintMessage("hole1 = {}\n".format(hole1))
App.Console.PrintMessage("holedistance = {}\n".format(holedistance))
App.Console.PrintMessage("groovethickness = {}\n".format(groovethickness))
App.Console.PrintMessage("groovedeep = {}\n".format(groovedeep))
App.Console.PrintMessage("connector = {}\n".format(connector))
App.Console.PrintMessage("fillwithholes = {}\n".format(fillwithholes))
App.Console.PrintMessage("endholes = {}\n".format(endholes))
App.Console.PrintMessage("endhole = {}\n".format(endhole))
App.Console.PrintMessage("guiok = {}\n".format(guiok))
# End GUI
if guiok:
# width= 19 # thickness of korpus
# length= 600 # width of korpus
# height= 2000 # height of korpus
#
# bradius = 2.5 # Radius drill hole
# bdeep = 12 # deepness of drill hole
# fdist = 37 # Distance to Front
# hole1 = 9.5 # Distance first hole from top or bottom of korpus
# holedistance = 32 # System 32
# groovethickness = 3 # 3 mm backpanel
# groovedeep = width-8 # deep of groovedeep
if int(width) > 16:
# First hole depends on specs for VB36 M / 19 for 19 mm boards from
# Hettich.
holetop = 9.5 # holedistance for screw of vb36
hole1 = 9.5 + 0.5 # distance hole 1 from end of board
hole1r = 10 # radius first hole
hole1d = 14 # deepness first hole
hole2r = 5 # radius 2. hole
hole2d = 10.5 # deepness 2. hole
else:
# First hole depends on specs for VB36 M / 16 for 16 mm boards from
# Hettich.
holetop = 9.5 # holedistance for screw of vb36
hole1 = 9.5 + 0.5 # distance hole 1 from end of board
hole1r = 10 # radius first hole
hole1d = 12.5 # deepness first hole
hole2r = 5 # radius 2. hole
hole2d = 10.5 # deepness 2. hole
if debug:
App.Console.PrintMessage("hole1d = {}\n".format(hole1d))
# functions
def cut(tool):
global cutsnr
global cuts
# cuts objects defined in string cuts
if debug:
App.Console.PrintMessage("cuts = {}, cutsnr = {}\n".format(
cuts, cutsnr))
data = 'App.activeDocument().addObject("Part::Cut","' + str(cuts.split(" ")[cutsnr + 1]) + '")'
if debug:
App.Console.PrintMessage(str(data) + "\n")
exec(data)
data = "App.activeDocument()." + str(cuts.split(" ")[cutsnr + 1])
data = data + ".Base = App.activeDocument()." + str(cuts.split(" ")[cutsnr])
if debug:
App.Console.PrintMessage(str(data) + "\n")
exec(data)
data = "App.activeDocument()." + str(cuts.split(" ")[cutsnr + 1])
data = data + ".Tool = App.activeDocument()." + str(tool)
if debug:
App.Console.PrintMessage(str(data) + "\n")
exec(data)
cutsnr = cutsnr + 1
cuts = cuts + " Cut%03d" % cutsnr
return 0
# end functions
doc = App.activeDocument()
# Korpus
box = doc.addObject("Part::Box", "Box")
box.Label = "Cube"
box.Length = length
box.Width = width
box.Height = height
# Change Color of Object.
box.ViewObject.DiffuseColor = (0.67, 0.67, 0.0)
if debug:
doc.recompute()
# Groove
groove = doc.addObject("Part::Box", "Groove")
groove.Label = "Groove"
groove.Length = groovethickness
groove.Width = groovedeep
groove.Height = height - (2 * groovedeep)
groove.ViewObject.DiffuseColor = (0.67, 0.67, 0.0)
groove.Placement = App.Placement(
App.Vector(length - groovethickness, 0, groovedeep),
App.Rotation())
if debug:
doc.recompute()
# make endholes
cylinders = "" # labels of cylinders to cut
if endholes == 'y':
# Bottom holes
cylendl = doc.addObject("Part::Cylinder", "Cylinderendl")
cylendl.Label = "Cylinderendl001"
cylendl.Radius = bradius
cylendl.Height = bdeep
cylendl.Angle = 360
cylinders = cylinders + " " + cylendl.Name
cylendl.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
doc.ActiveObject.Placement = App.Placement(
App.Vector(fdist, bdeep, holetop),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
cylendr = doc.addObject("Part::Cylinder", "Cylinderendr")
cylendr.Label = "Cylinderendr001"
cylendr.Radius = bradius
cylendr.Height = bdeep
cylendr.Angle = 360
cylinders = cylinders + " " + cylendr.Name
cylendr.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylendr.Placement = App.Placement(
App.Vector(length - fdist, bdeep, holetop),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
# Top holes
cylendl = doc.addObject("Part::Cylinder", "Cylinderendl")
cylendl.Label = "Cylinderendl002"
cylendl.Radius = bradius
cylendl.Height = bdeep
cylendl.Angle = 360
cylinders = cylinders + " " + cylendl.Name
cylendl.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylendl.Placement = App.Placement(
App.Vector(fdist, bdeep, height - holetop),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
cylendr = doc.addObject("Part::Cylinder", "Cylinderendr")
cylendr.Label = "Cylinderendr002"
cylendr.Radius = bradius
cylendr.Height = bdeep
cylendr.Angle = 360
cylinders = cylinders + " " + cylendr.Name
cylendr.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylendr.Placement = App.Placement(
App.Vector(length - fdist, bdeep, height-holetop),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
if fillwithholes == 'no':
n = 0
else:
n = int(height / 2 / holedistance)
# drill holes from bottom to half height
# reduce holes for test to 2 alternative use n
# Holes for Hettich VB36
# Bohrloecher
x = -1 # init value
if connector >= 1:
x = 0
App.Console.PrintMessage("x="+str(x) + " " + "\n")
cyll = doc.addObject("Part::Cylinder", "Cylinderl")
cyll.Label = "Cylinderl%03d" % x
cyll.Radius = hole1r
cyll.Height = hole1d
cyll.Angle = 360
cylinders = cylinders + " " + cyll.Name
cyll.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cyll.Placement = App.Placement(
App.Vector(fdist, hole1d, hole1 + x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
cylr = doc.addObject("Part::Cylinder", "Cylinderr")
cylr.Label = "Cylinderr%03d" % x
cylr.Radius = hole1r
cylr.Height = hole1d
cylr.Angle = 360
cylinders = cylinders + " " + cylr.Name
cylr.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylr.Placement = App.Placement(
App.Vector(length - fdist, hole1d, hole1 + x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if connector == 2:
x = 1
cyll = doc.addObject("Part::Cylinder", "Cylinderl")
cyll.Label = "Cylinderl%03d" % x
cyll.Radius = hole2r
cyll.Height = hole2d
cyll.Angle = 360
cylinders = cylinders + " " + cyll.Name
cyll.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cyll.Placement = App.Placement(
App.Vector(fdist, hole2d, hole1 + x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
cylr = doc.addObject("Part::Cylinder", "Cylinderr")
cylr.Label = "Cylinderr%03d" % x
cylr.Radius = hole2r
cylr.Height = hole2d
cylr.Angle = 360
cylinders = cylinders + " " + cylr.Name
cylr.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylr.Placement = App.Placement(
App.Vector(length - fdist, hole2d, hole1 + x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
xs = x + 1
for x in range(xs, n):
# Bohrloecher
cyll = doc.addObject("Part::Cylinder", "Cylinderl")
cyll.Label = "Cylinderl%03d" % x
cyll.Radius = bradius
cyll.Height = bdeep
cyll.Angle = 360
cylinders = cylinders + " " + cyll.Name
cyll.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cyll.Placement = App.Placement(
App.Vector(fdist, bdeep, hole1 + x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
cylr = doc.addObject("Part::Cylinder", "Cylinderr")
cylr.Label = "Cylinderr%03d" % x
cylr.Radius = bradius
cylr.Height = bdeep
cylr.Angle = 360
cylinders = cylinders + " " + cylr.Name
cylr.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylr.Placement = App.Placement(
App.Vector(length - fdist, bdeep, hole1 + x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
# drill holes from Top to half height
# # Holes for Hettich VB36
x = -1 # init value
if connector >= 1:
x = 0
cyll = doc.addObject("Part::Cylinder", "Cylinderl")
cyll.Label = "Cylinderl%03d" % x
cyll.Radius = hole1r
cyll.Height = hole1d
cyll.Angle = 360
cylinders = cylinders + " " + cyll.Name
cyll.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cyll.Placement = App.Placement(
App.Vector(fdist, hole1d, height - hole1 - x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
cylr = doc.addObject("Part::Cylinder", "Cylinderr")
cylr.Label = "Cylinderr%03d" % x
cylr.Radius = hole1r
cylr.Height = hole1d
cylr.Angle = 360
cylinders = cylinders + " " + cylr.Name
cylr.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylr.Placement = App.Placement(
App.Vector(length - fdist, hole1d, height-hole1 - x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
if connector == 2:
x = 1
cyll = doc.addObject("Part::Cylinder", "Cylinderl")
cyll.Label = "Cylinderl%03d" % x
cyll.Radius = hole2r
cyll.Height = hole2d
cyll.Angle = 360
cylinders = cylinders + " " + cyll.Name
cyll.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cyll.Placement = App.Placement(
App.Vector(fdist, hole2d, height - hole1 - x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
cylr = doc.addObject("Part::Cylinder", "Cylinderr")
cylr.Label = "Cylinderr%03d" % x
cylr.Radius = hole2r
cylr.Height = hole2d
cylr.Angle = 360
cylinders = cylinders + " " + cylr.Name
cylr.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylr.Placement = App.Placement(
App.Vector(
length - fdist, hole2d, height - hole1 - x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
xs = x + 1
for x in range(xs, n):
# Drillholes
cyll = doc.addObject("Part::Cylinder", "Cylinderl")
cyll.Label = "Cylinderl%03d" % x
cyll.Radius = bradius
cyll.Height = bdeep
cyll.Angle = 360
cylinders = cylinders + " " + cyll.Name
cyll.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cyll.Placement = App.Placement(
App.Vector(fdist, bdeep, height - hole1 - x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
cylr = doc.addObject("Part::Cylinder", "Cylinderr")
cylr.Label = "Cylinderr%03d" % x
cylr.Radius = bradius
cylr.Height = bdeep
cylr.Angle = 360
cylinders = cylinders + " " + cylr.Name
cylr.ViewObject.DiffuseColor = (0.0, 0.0, 0.0)
cylr.Placement = App.Placement(
App.Vector(
length - fdist, bdeep, height - hole1 - x * holedistance),
App.Rotation(App.Vector(1, 0, 0), 90))
if debug:
doc.recompute()
if debug:
App.Console.PrintMessage("cylinders = ")
App.Console.PrintMessage(cylinders + "\n")
# cut all holes
cuts = "Box Cut" # cut labels
cutsnr = 0 # index number in cuts
# cut groove
cut("Groove")
cyls = cylinders.split() # number of words
if debug:
App.Console.PrintMessage("n=" + str(cyls) + "\n")
for x in cyls:
if debug:
App.Console.PrintMessage("cylinder(" + x + ")=" + str(x) + "\n")
cut(str(x))
doc.recompute()
Gui.SendMsgToActiveView('ViewFit')
# OS: Ubuntu 14.04.1 LTS
# Word size of OS: 32-bit
# Word size of FreeCAD: 32-bit
# Version: 0.15.4410 (Git)
# Branch: master
# Hash: 9ee08a97ea81304e2690694f76ee2dc013556a5d
# Python version: 2.7.6
# Qt version: 4.8.6
# Coin version: 4.0.0a
Link
- Macro_PartsLibrary Libreria FreeCAD con parti riutilizzabili che possono essere inserite nei propri progetti.
Questa pagina è recuperata da https://wiki.freecad.org/Macro_Cabinets32