Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

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freecad-heini-1
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Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by freecad-heini-1 »

Eine ähnliche Frage hatten wir vor ein paar Tagen im Forum.
Es geht darum eine Vorrichtung zum Erklären aufzuschneiden um innen hinein sehen zu können. Federn, Ventile, O-Ringe, Stellschrauben u.a..
Mit Transparenz komme ich nicht wirklich weiter. PD, Ansicht, Schnittebene trifft es schon recht gut, aber dabei erscheinen immer nur die Außengeometrien wie Flächen, die Einzelteile sind nicht gefüllt als Solids.
Mario's Skript Cross-Section ist gut, die Teile sind gefüllt, verlieren aber die Farben. Wenn die Farben erhalten blieben, wäre es genau das was ich brauche.
https://www.freecadweb.org/wiki/Macro_cross_section/de
Mit Arch Section Plane komme ich nicht wirklich zurecht.
Mühsam aber genau so wie ich es haben will, wenn ich jedes Teil einzeln per Pocket zerschneide.

Wer kennt einen einfachen Trick?
mario52 wrote:Hello Mario, I used your script cross section. It's awesome. Thank you so much for your work. Is it possible to keep the colors of the parts with a modified script? Best regards, Wilfried
jeno
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Posts: 1820
Joined: Sun Jun 29, 2014 10:41 am

Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by jeno »

freecad-heini-1 wrote: Wed Aug 30, 2017 3:00 pm Eine ähnliche Frage hatten wir vor ein paar Tagen im Forum.
Es geht darum eine Vorrichtung zum Erklären aufzuschneiden um innen hinein sehen zu können. Federn, Ventile, O-Ringe, Stellschrauben u.a..
...
Wer kennt einen einfachen Trick?
...
Hallo,
die quick'n'dirty Variante geht wie folgt: füge deine Baugruppe zu einem compound zusammen. Kopiere den und mache mit einem Quader oder was auch immer einen boolschen cut. Dann kannst du zwischen den beiden Kopien (Original und Kopie mit cut) umschalten. Kleiner Haken, die Schnittflächen des cut sind in der Farbe des schneidenen Objekts. Da ist dann eventuell Kosmetik angebracht. Aber im Prinzip machbar.
Screenshot_20170830_181705.png
Screenshot_20170830_181705.png (172.42 KiB) Viewed 4335 times
Mit freundlichen
jeno
Attachments
freecadheini-compound-mit schnitt.fcstd
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Gift
Posts: 769
Joined: Tue Aug 18, 2015 10:08 am
Location: Germany, Sauerland

Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by Gift »

Versuch mal:

Code: Select all

# -*- coding: utf-8 -*-
"""
***************************************************************************
*                                                                         *
*   This widget makes an interactively moveable cross-section of the      *
*   currently visible objects in the currently active document. The       *
*   cross-sectioning plane is specified by its normal, and the cross-     *
*   section can be moved along that normal using a slider bar. It can     *
*   show the cross-section either as an outline or a view of the sliced   *
*   objects. To run the macro, first download it from this site and       *
*   install it in your macros directory, then use the menu to call up     *
*   your list of macros and double-click on this one. It will display     *
*   a default cross-section and pop up a window to enable you to set      *
*   the cross-sectioning parameters. Closing the pop-up window will       *
*   restore the scene to its previous state before the macro was          *
*   started.                                                              *
*                                                                         *
***************************************************************************
*   Copyright (c) 2016 Richard P. Parkins, M. A.                          *
*                                                                         *
*   This file is a supplement to the FreeCAD CAx development system.      *
*                                                                         *
*   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 software 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 macro; if not, write to the Free Software     *
*   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  *
*   USA                                                                   *
***************************************************************************
"""
__title__   = "Cross-Section"
__author__  = "Aleph0"
__version__ = "00.04"
__date__    = "29/01/2016" "10/06/2016" "29/09/2016 * 2"
 
__Comment__ = "Dynamic cross section viewer"
 
__Wiki__ = "http://www.freecadweb.org/wiki/index.php?title=Macro_cross_section"
__Help__ = "see first few lines of macro text"
__Status__ = "stable"
__Requires__ = "freecad 0.15"
 
# OS: Ubuntu 14.04.3 LTS
# Word size of OS: 64-bit
# Word size of FreeCAD: 64-bit
# Version: 0.15.4671 (Git)
# Branch: releases/FreeCAD-0-15
# Hash: 244b3aef360841646cbfe80a1b225c8b39c8380c
# Python version: 2.7.6
# Qt version: 4.8.6
# Coin version: 4.0.0a
# OCC version: 6.8.0.oce-0.17
 
import PySide
from PySide import QtCore, QtGui
import FreeCADGui
from FreeCAD import Base

try:
    _fromUtf8 = QtCore.QString.fromUtf8
except AttributeError:
    def _fromUtf8(s):
        return s
 
try:
    _encoding = QtGui.QApplication.UnicodeUTF8
    def _translate(context, text, disambig):
        return QtGui.QApplication.translate(context, text, disambig, _encoding)
except AttributeError:
    def _translate(context, text, disambig):
        return QtGui.QApplication.translate(context, text, disambig)
 
 
width = 350 # width of our window
height = 310 # height of our window
global FreeCADRootWindow # main window before we start
 
# This is the interactive window that the macro creates
# Its main function is to have a close box and tidy up when closed
class CrossSectionWindow(PySide.QtGui.QMainWindow):
 
    # automagically called when the window is created
    def __init__(self):
        super(CrossSectionWindow, self).__init__()
        self.setWindowFlags(PySide.QtCore.Qt.WindowStaysOnTopHint)
        self.setWindowTitle(_translate(
            "MainWindow", "Cross-section", None))
 
        # Create and set the window's widget, which does all the work
        self.child = CrossSection(self)
        self.setCentralWidget(self.child)
        self.child.initUI(self)
        if self.child.startup_failed :
            self.destroy()
        else:
            # Position our window relative to the FreeCAD root
            self.setPosition(FreeCADRootWindow)
            self.child.show()
            self.show()
 
    # User closed the window, tidy up
    def closeEvent(self, event) :
        self.child.restoreObjects()
 
    # Set a sensible default position for the window
    # With FreeCAD's default layout, this will be over the docking area
    # so it will not obscure the 3D view
    def setPosition(self, parent) :
        geom = parent.geometry()
        xpos = geom.left() + 50
        ypos = geom.center().y() - height / 2
        self.setGeometry(xpos, ypos, width, height)
        self.setFixedSize(width, height)
 
# This is the widget which does almost all of the work
# Widgets don't have close boxes, so closing is dealt with in CrossSectionWindow
class CrossSection(PySide.QtGui.QWidget):
 
    # Lay out the interactive elements
    def initUI(self, parent):
 
        self.parent = parent

        font = QtGui.QFont()
        font.setFamily("Times New Roman")
        font.setPointSize(10)
        font.setWeight(10)
        font.setBold(True)
 
        self.hideObjects()

        margin = 10
        alw = 20 # axis label width
        sbp = margin + alw + margin # spin boxes to right of axis labels
        slw = width - 2 * margin # width of slider and progress bar
        ypos = margin
 
        self.setObjectName(_fromUtf8("CrossSection"))
 
        # The cross-section plane is defined by its normal
        # The length of the normal is immaterial as long as it is nonzero
        self.label_1 = QtGui.QLabel(self)
        self.label_1.setGeometry(QtCore.QRect(margin, ypos, slw, 22))
        self.label_1.setObjectName(_fromUtf8("label_1"))
        self.label_1.setText(_translate(
            "MainWindow", "Sliding axis direction", None))
        self.label_1.setToolTip(_translate(
            "MainWindow",
            "Cross-section is taken perpendicular to this axis", None))
        ypos = ypos + 30
 
        self.label_2 = QtGui.QLabel(self)
        self.label_2.setGeometry(QtCore.QRect(margin, ypos, alw, 25))
        self.label_2.setObjectName(_fromUtf8("label_2"))
        self.label_2.setText(_translate("MainWindow", "X", None))
 
        self.doubleSpinBox_X = QtGui.QDoubleSpinBox(self)
        self.doubleSpinBox_X.setGeometry(QtCore.QRect(sbp, ypos, 62, 25))
        self.doubleSpinBox_X.setMinimum(-10000.0)
        self.doubleSpinBox_X.setMaximum(10000.0)
        self.doubleSpinBox_X.setValue(0.0)
        self.doubleSpinBox_X.setSingleStep(1)
        self.doubleSpinBox_X.setObjectName(_fromUtf8("doubleSpinBox_X"))
        self.doubleSpinBox_X.valueChanged.connect(
           self.on_doubleSpinBox_X_valueChanged)
        self.doubleSpinBox_X.setToolTip(_translate(
            "MainWindow", "Sliding axis X", None))
        ypos = ypos + 30
 
        self.label_3 = QtGui.QLabel(self)
        self.label_3.setGeometry(QtCore.QRect(margin, ypos, alw, 25))
        self.label_3.setObjectName(_fromUtf8("label_3"))
        self.label_3.setText(_translate("MainWindow", "Y", None))
 
        self.doubleSpinBox_Y = QtGui.QDoubleSpinBox(self)
        self.doubleSpinBox_Y.setGeometry(QtCore.QRect(sbp, ypos, 62, 25))
        self.doubleSpinBox_Y.setMinimum(-10000.0)
        self.doubleSpinBox_Y.setMaximum(10000.0)
        self.doubleSpinBox_Y.setValue(0.0)
        self.doubleSpinBox_Y.setSingleStep(1)
        self.doubleSpinBox_Y.setObjectName(_fromUtf8("doubleSpinBox_Y"))
        self.doubleSpinBox_Y.valueChanged.connect(
           self.on_doubleSpinBox_Y_valueChanged)
        self.doubleSpinBox_Y.setToolTip(_translate(
            "MainWindow", "Sliding axis Y", None))
        ypos = ypos + 30
 
        self.label_4 = QtGui.QLabel(self)
        self.label_4.setGeometry(QtCore.QRect(margin, ypos, alw, 25))
        self.label_4.setObjectName(_fromUtf8("label_4"))
        self.label_4.setText(_translate("MainWindow", "Z", None))
 
        self.doubleSpinBox_Z = QtGui.QDoubleSpinBox(self)
        self.doubleSpinBox_Z.setGeometry(QtCore.QRect(sbp, ypos, 62, 25))
        self.doubleSpinBox_Z.setMinimum(-10000.0)
        self.doubleSpinBox_Z.setMaximum(10000.0)
        self.doubleSpinBox_Z.setValue(1.0)
        self.doubleSpinBox_Z.setSingleStep(1)
        self.doubleSpinBox_Z.setObjectName(_fromUtf8("doubleSpinBox_Z"))
        self.doubleSpinBox_Z.valueChanged.connect(
           self.on_doubleSpinBox_Z_valueChanged)
        self.doubleSpinBox_Z.setToolTip(
            _translate("MainWindow", "Sliding axis Z", None))
        ypos = ypos + 40
        # Make the interactive slider control
        # As you move this slider with the mouse, the cross-section slides
        # through the model
        self.label_5 = QtGui.QLabel(self)
        self.label_5.setGeometry(QtCore.QRect(margin, ypos, slw, 22))
        self.label_5.setObjectName(_fromUtf8("label_5"))
        self.label_5.setText(_translate(
            "MainWindow", "Position along axis", None))
        ypos = ypos + 30
 
        self.horizontalSlider = QtGui.QSlider(self)
        self.horizontalSlider.setGeometry(QtCore.QRect(margin, ypos, slw-50, 20))
        self.horizontalSlider.setOrientation(QtCore.Qt.Horizontal)
        self.horizontalSlider.setInvertedAppearance(False)
        self.horizontalSlider.setObjectName(_fromUtf8("horizontalSlider"))
        self.horizontalSlider.setRange(0, 100)
        self.horizontalSlider.setValue(int(self.fraction * 100.0))
        self.horizontalSlider.setToolTip(_translate(
            "MainWindow", "Slide to move cross-section along axis", None))
 
        # must be called after setValue()
        self.horizontalSlider.valueChanged.connect(self.on_horizontal_slider)
        ypos = ypos + 30
 
        self.progressBar_1 = QtGui.QProgressBar(self)
        self.progressBar_1.setGeometry(QtCore.QRect(margin, ypos, slw-50, 23))
        self.progressBar_1.setValue(int(self.fraction * 100.0))
        self.progressBar_1.setOrientation(QtCore.Qt.Horizontal)
        self.progressBar_1.setAlignment(QtCore.Qt.AlignCenter)
        self.progressBar_1.setObjectName(_fromUtf8("progressBar_1"))
        self.progressBar_1.setToolTip(_translate(
            "MainWindow", "Percent position of cross-section", None))
        ypos = ypos + 40
 
##################################    add
        self.SpinBox_PBar = QtGui.QSpinBox(self)
        self.SpinBox_PBar.setGeometry(QtCore.QRect(sbp+255, ypos-40, 45, 23))
        self.SpinBox_PBar.setMinimum(0.0)
        self.SpinBox_PBar.setMaximum(100.0)
        self.SpinBox_PBar.setValue(int(self.fraction * 100.0))
        self.SpinBox_PBar.setSingleStep(1)
        self.SpinBox_PBar.setObjectName(_fromUtf8("SpinBox_PBar"))
        self.SpinBox_PBar.valueChanged.connect(self.on_SpinBox_PBar_valueChanged)
        self.SpinBox_PBar.setToolTip(_translate(
            "MainWindow", "Sliding percent", None))
#################################    add

        # Select the display format for the cross-section
        # This button shows a wire line in the cross-section plane
        self.radioButton_1 = QtGui.QRadioButton(self)
        self.radioButton_1.setGeometry(QtCore.QRect(margin, ypos, slw, 20))
        self.radioButton_1.setText(_fromUtf8("Outline"))
        self.radioButton_1.setChecked(True)
        self.radioButton_1.toggled.connect(self.onRadioButton)
        self.radioButton_1.setObjectName(_fromUtf8("radioButton_1"))
        self.radioButton_1.setToolTip(_translate(
            "MainWindow", "Make cross-section as wire outline", None))
        ypos = ypos + 30
 
        # Select the display format for the cross-section
        # This button shows a normal 3D display with everything above the
        # cross-section plane cut away
        self.radioButton_2 = QtGui.QRadioButton(self)
        self.radioButton_2.setGeometry(QtCore.QRect(margin, ypos, slw, 20))
        self.radioButton_2.setText(_fromUtf8("Cut objects"))
        self.radioButton_2.setChecked(False)
        self.radioButton_2.toggled.connect(self.onRadioButton)
        self.radioButton_2.setObjectName(_fromUtf8("radioButton_2"))
        self.radioButton_2.setToolTip(_translate(
            "MainWindow", "Make cross-section as cut objects", None))

##################################
        #Keep the sectional view
        self.CB_00 = QtGui.QCheckBox(self)
        self.CB_00.setText(_fromUtf8("Keep the sectional view"))
        self.CB_00.setGeometry(QtCore.QRect(margin+168, ypos-30, slw, 20))
        self.CB_00.setObjectName(_fromUtf8("CB_00"))
        self.CB_00.setChecked(False)
        self.CB_00.setToolTip(_translate(
            "MainWindow", "Keep the sectional view or erase", None))
##################################


    # Called at macro start up by initUI()
    def hideObjects(self):
        # Initialise the cross-section state variables
        self.startup_failed = False
        self.fraction = 0.5
        self.axisX = 0.0
        self.axisY = 0.0
        self.axisZ = 1.0
        self.cross_section_type = 1
 
        # We must have something to do a cross-section on
        if App.ActiveDocument is None :
            QtGui.QMessageBox.warning(None, _translate("MainWindow",
                "Cross-section", None),
                _translate("MainWindow", "There is no Active Document\n" +
                    "Create one and run this macro again.", None),
                QtGui.QMessageBox.Cancel,
                QtGui.QMessageBox.Cancel)
            self.startup_failed = True
            self.parent.destroy() # This will close the window
        else :
 
            # Make a list of the user's objects
            # WARNING!!
            # This list is persistent. We'll get confused if the user deletes or
            # adds objects while the macro is active
            self.oblist = App.ActiveDocument.Objects
 
            # Create the cross-section object
            self.cs = FreeCAD.ActiveDocument.addObject("Part::Feature",
                "Generated__cross-section")
            self.OriginalVisibilities = list()
            self.xmin = 1000.0
            self.xmax = -1000.0
            self.ymin = 1000.0
            self.ymax = -1000.0
            self.zmin = 1000.0
            self.zmax = -1000.0
#            n = 0
#            for p in self.oblist: # stupid Python list has no length function
#                n = n + 1
############################# Skip the <group object> ########################         # add
            b0 = []
            for x0 in self.oblist:
                if str(x0) !=  "<group object>":
                    b0.append(x0)
            self.oblist = b0
            n = len(self.oblist)
###############################################################################
            # Make a list of the visible objects and make them invisible while
            # the macro is active
            # Also we compute the bounding box of the model
            for i in range(n):
                vis = self.oblist[i].ViewObject.Visibility
                self.OriginalVisibilities.append(vis)
                if vis :
                    if self.oblist[i].TypeId != str("Drawing::FeatureViewPython") :    # add
                        self.oblist[i].ViewObject.Visibility=False
                        b = self.oblist[i].Shape.BoundBox
                        if b.XMin < self.xmin :
                            self.xmin = b.XMin
                        if b.XMax > self.xmax :
                            self.xmax = b.XMax
                        if b.YMin < self.ymin :
                            self.ymin = b.YMin
                        if b.YMax > self.ymax :
                            self.ymax = b.YMax
                        if b.ZMin < self.zmin :
                            self.zmin = b.ZMin
                        if b.ZMax > self.zmax :
                            self.zmax = b.ZMax
            # Moan and give up if there is nothing to cross-section
            if self.xmax <= self.xmin \
            or self.ymax <= self.ymin \
            or self.zmax <= self.zmin :
                QtGui.QMessageBox.warning(None, _translate("MainWindow",
                    "Cross-section", None),
                    _translate("MainWindow",
                    "There are no visible solid objects\n" +
                    "Create some and run this macro again.", None),
                    QtGui.QMessageBox.Cancel,
                    QtGui.QMessageBox.Cancel)
                self.restoreObjects()
                self.startup_failed = True
                App.ActiveDocument.removeObject("Generated__cross_section")
                self.parent.destroy() # This will close the window
            else :
                # Trigger initial display
                self.updateAxis()
 
    # Called when macro is closed
    # Restore the original visibility of the user's objects
    # and destroy our cross-section object
    def restoreObjects(self):

        n = 0
        for p in self.oblist: # stupid Python list has no length function
            n = n + 1
        for i in range(n):
            self.oblist[i].ViewObject.Visibility = self.OriginalVisibilities[i]
        try:
            if self.CB_00.isChecked() == False:
                App.ActiveDocument.removeObject("Generated__cross_section")
        except Exception:
            None
    # Something has changed, recalculate the cross-section
    def updateGui(self):
 
        # default to no visible cross-ection
        self.cs.ViewObject.Visibility = False
 
        # check if the sliding axis is invalid
        if self.xdir == 0.0 and self.ydir == 0.0 and self.zdir == 0.0 :
            QtGui.QMessageBox.warning(None, _translate("MainWindow",
                "Cross-section", None),
                _translate("MainWindow", "The sliding axis has zero length\n" +
                    "Please set a valid axis.", None),
                QtGui.QMessageBox.Ok,
                QtGui.QMessageBox.Ok)
        else :
 
            # First we compute the 0% and 100% positions on the sliding axis
            if self.xdir < 0.0 :
                x = self.xmax + self.fraction * self.xdir
            else :
                x = self.xmin + self.fraction * self.xdir
            if self.ydir < 0.0 :
                y = self.ymax + self.fraction * self.ydir
            else :
                y = self.ymin + self.fraction * self.ydir
            if self.zdir < 0.0 :
                z = self.zmax + self.fraction * self.zdir
            else :
                z = self.zmin + self.fraction * self.zdir

            r = 2 * max(self.xmax - self.xmin, self.ymax - self.ymin,
                        self.zmax - self.xmin)

            # Display the dimensions
            dimDep = "X "+str(x)+" mm , Y "+str(y)+" mm , Z "+str(z)+" mm"
            App.Console.PrintMessage(dimDep + "\n")


            # Create a big enough disc in the cross-section plane
            c = Part.makeCircle(r, Base.Vector(x, y, z),
                 Base.Vector(self.xdir,  self.ydir,  self.zdir))
            f = Part.Face(Part.Wire(c))
            l = list() # list for cross-section parts
            n = 0
            for p in self.oblist: # stupid Python list has no length function
                n = n + 1
            something = False
            if self.cross_section_type == 1 :
                # wire line cross-section
                for i in range(n):
                    if self.oblist[i].TypeId != str("Drawing::FeatureViewPython") :    # add
                        if self.OriginalVisibilities[i] :
							ob = FreeCAD.ActiveDocument.addObject("Part::Feature")
							ob.ViewObject.DiffuseColor = self.oblist[i].ViewObject.DiffuseColor
							ob.Shape = self.oblist[i].Shape.section(f)
                            # check for valid section part
							if ob.Shape.BoundBox.XMin <= ob.Shape.BoundBox.XMax :
								l.append(ob)
								something = True
            else :
                # cut shape cross-section
                # extrude our cross-ection disc into a cylinder
                cyl = f.extrude(Base.Vector(self.xdir,  self.ydir,  self.zdir))
                for i in range(n):
                    if self.oblist[i].TypeId != str("Drawing::FeatureViewPython") :    # add
                        if self.OriginalVisibilities[i] :
							ob = FreeCAD.ActiveDocument.addObject("Part::Feature")
							ob.ViewObject.DiffuseColor = self.oblist[i].ViewObject.DiffuseColor
							ob.Shape = self.oblist[i].Shape.cut(cyl)
							if ob.Shape.isValid() and ob.Shape.Volume > 0.0 :
								l.append(ob)
								something = True
 
            if something :
				feature = FreeCAD.ActiveDocument.addObject("Part::MultiFuse")
				feature.Shapes = l
				FreeCAD.ActiveDocument.recompute()
				if feature.Shape.isValid() :
					self.cs.Shape = feature.Shape.copy()
					self.cs.ViewObject.DiffuseColor = feature.ViewObject.DiffuseColor
					self.cs.ViewObject.Visibility = True
				FreeCAD.ActiveDocument.recompute()
				FreeCAD.ActiveDocument.removeObject(feature.Name)
            FreeCADGui.updateGui()
 
    # User changed axis vector
    # Compute a new axis vector whose length just covers the model
    def updateAxis(self):
        ldir = 0.0
        if self.axisX != 0.0 :
            ldir = (self.xmax - self.xmin) / abs(self.axisX)
        if self.axisY != 0.0 :
            ldir = max(ldir, (self.ymax - self.ymin) / abs(self.axisY))
        if self.axisZ != 0.0 :
            ldir = max(ldir, (self.zmax - self.zmin) / abs(self.axisZ))
        self.xdir = self.axisX * ldir
        self.ydir = self.axisY * ldir
        self.zdir = self.axisZ * ldir
        self.updateGui() # recalculate the cross-section
 
    def on_horizontal_slider(self, val):
        self.fraction = val / 100.0
        self.progressBar_1.setValue(val)
        self.SpinBox_PBar.setValue(val)
        self.updateGui()
 
    def on_doubleSpinBox_X_valueChanged(self, val):
        self.axisX = val
        self.updateAxis()
 
    def on_doubleSpinBox_Y_valueChanged(self, val):
        self.axisY = val
        self.updateAxis()
 
    def on_doubleSpinBox_Z_valueChanged(self, val):
        self.axisZ = val
        self.updateAxis()

    def on_SpinBox_PBar_valueChanged(self, val):
        self.progressBar_1.setValue(val)
        self.horizontalSlider.setValue(int(val))
        self.updateGui()
       

    def onRadioButton(self, wasChecked) :
        if self.radioButton_1.isChecked() :
            self.cross_section_type = 1
        else :
            self.cross_section_type = 2
        self.updateGui()
 
#######################################
 
# Find FreeCAD's root window
FreeCADRootWindow = Gui.getMainWindow()
 
# Create the window and start it
myWidget = CrossSectionWindow()
 
# The CrossSectionWindow will do all the work 
Attachments
cross_section_with_color.zip
(5.66 KiB) Downloaded 149 times
freecad-heini-1
Veteran
Posts: 7788
Joined: Tue Jan 07, 2014 11:10 am
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Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by freecad-heini-1 »

Gift wrote: Wed Aug 30, 2017 5:03 pm Versuch mal:
Danke Kollege. Jetzt ist es zwar bunt, aber die Trennung der Komponenten geht verloren, statt dessen werden alle Teile, die im Schnitt liegen, mit einer Farbe eingefärbt. Das Skript hat wahrscheinlich noch einen Fehler.
Last edited by freecad-heini-1 on Wed Aug 30, 2017 6:03 pm, edited 1 time in total.
User avatar
Gift
Posts: 769
Joined: Tue Aug 18, 2015 10:08 am
Location: Germany, Sauerland

Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by Gift »

Ooops, kleiner Bug.

Code: Select all

# -*- coding: utf-8 -*-
"""
***************************************************************************
*                                                                         *
*   This widget makes an interactively moveable cross-section of the      *
*   currently visible objects in the currently active document. The       *
*   cross-sectioning plane is specified by its normal, and the cross-     *
*   section can be moved along that normal using a slider bar. It can     *
*   show the cross-section either as an outline or a view of the sliced   *
*   objects. To run the macro, first download it from this site and       *
*   install it in your macros directory, then use the menu to call up     *
*   your list of macros and double-click on this one. It will display     *
*   a default cross-section and pop up a window to enable you to set      *
*   the cross-sectioning parameters. Closing the pop-up window will       *
*   restore the scene to its previous state before the macro was          *
*   started.                                                              *
*                                                                         *
***************************************************************************
*   Copyright (c) 2016 Richard P. Parkins, M. A.                          *
*                                                                         *
*   This file is a supplement to the FreeCAD CAx development system.      *
*                                                                         *
*   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 software 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 macro; if not, write to the Free Software     *
*   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  *
*   USA                                                                   *
***************************************************************************
"""
__title__   = "Cross-Section"
__author__  = "Aleph0"
__version__ = "00.04"
__date__    = "29/01/2016" "10/06/2016" "29/09/2016 * 2"
 
__Comment__ = "Dynamic cross section viewer"
 
__Wiki__ = "http://www.freecadweb.org/wiki/index.php?title=Macro_cross_section"
__Help__ = "see first few lines of macro text"
__Status__ = "stable"
__Requires__ = "freecad 0.15"
 
# OS: Ubuntu 14.04.3 LTS
# Word size of OS: 64-bit
# Word size of FreeCAD: 64-bit
# Version: 0.15.4671 (Git)
# Branch: releases/FreeCAD-0-15
# Hash: 244b3aef360841646cbfe80a1b225c8b39c8380c
# Python version: 2.7.6
# Qt version: 4.8.6
# Coin version: 4.0.0a
# OCC version: 6.8.0.oce-0.17
 
import PySide
from PySide import QtCore, QtGui
import FreeCADGui
from FreeCAD import Base

try:
    _fromUtf8 = QtCore.QString.fromUtf8
except AttributeError:
    def _fromUtf8(s):
        return s
 
try:
    _encoding = QtGui.QApplication.UnicodeUTF8
    def _translate(context, text, disambig):
        return QtGui.QApplication.translate(context, text, disambig, _encoding)
except AttributeError:
    def _translate(context, text, disambig):
        return QtGui.QApplication.translate(context, text, disambig)
 
 
width = 350 # width of our window
height = 310 # height of our window
global FreeCADRootWindow # main window before we start
 
# This is the interactive window that the macro creates
# Its main function is to have a close box and tidy up when closed
class CrossSectionWindow(PySide.QtGui.QMainWindow):
 
    # automagically called when the window is created
    def __init__(self):
        super(CrossSectionWindow, self).__init__()
        self.setWindowFlags(PySide.QtCore.Qt.WindowStaysOnTopHint)
        self.setWindowTitle(_translate(
            "MainWindow", "Cross-section", None))
 
        # Create and set the window's widget, which does all the work
        self.child = CrossSection(self)
        self.setCentralWidget(self.child)
        self.child.initUI(self)
        if self.child.startup_failed :
            self.destroy()
        else:
            # Position our window relative to the FreeCAD root
            self.setPosition(FreeCADRootWindow)
            self.child.show()
            self.show()
 
    # User closed the window, tidy up
    def closeEvent(self, event) :
        self.child.restoreObjects()
 
    # Set a sensible default position for the window
    # With FreeCAD's default layout, this will be over the docking area
    # so it will not obscure the 3D view
    def setPosition(self, parent) :
        geom = parent.geometry()
        xpos = geom.left() + 50
        ypos = geom.center().y() - height / 2
        self.setGeometry(xpos, ypos, width, height)
        self.setFixedSize(width, height)
 
# This is the widget which does almost all of the work
# Widgets don't have close boxes, so closing is dealt with in CrossSectionWindow
class CrossSection(PySide.QtGui.QWidget):
 
    # Lay out the interactive elements
    def initUI(self, parent):
 
        self.parent = parent

        font = QtGui.QFont()
        font.setFamily("Times New Roman")
        font.setPointSize(10)
        font.setWeight(10)
        font.setBold(True)
 
        self.hideObjects()

        margin = 10
        alw = 20 # axis label width
        sbp = margin + alw + margin # spin boxes to right of axis labels
        slw = width - 2 * margin # width of slider and progress bar
        ypos = margin
 
        self.setObjectName(_fromUtf8("CrossSection"))
 
        # The cross-section plane is defined by its normal
        # The length of the normal is immaterial as long as it is nonzero
        self.label_1 = QtGui.QLabel(self)
        self.label_1.setGeometry(QtCore.QRect(margin, ypos, slw, 22))
        self.label_1.setObjectName(_fromUtf8("label_1"))
        self.label_1.setText(_translate(
            "MainWindow", "Sliding axis direction", None))
        self.label_1.setToolTip(_translate(
            "MainWindow",
            "Cross-section is taken perpendicular to this axis", None))
        ypos = ypos + 30
 
        self.label_2 = QtGui.QLabel(self)
        self.label_2.setGeometry(QtCore.QRect(margin, ypos, alw, 25))
        self.label_2.setObjectName(_fromUtf8("label_2"))
        self.label_2.setText(_translate("MainWindow", "X", None))
 
        self.doubleSpinBox_X = QtGui.QDoubleSpinBox(self)
        self.doubleSpinBox_X.setGeometry(QtCore.QRect(sbp, ypos, 62, 25))
        self.doubleSpinBox_X.setMinimum(-10000.0)
        self.doubleSpinBox_X.setMaximum(10000.0)
        self.doubleSpinBox_X.setValue(0.0)
        self.doubleSpinBox_X.setSingleStep(1)
        self.doubleSpinBox_X.setObjectName(_fromUtf8("doubleSpinBox_X"))
        self.doubleSpinBox_X.valueChanged.connect(
           self.on_doubleSpinBox_X_valueChanged)
        self.doubleSpinBox_X.setToolTip(_translate(
            "MainWindow", "Sliding axis X", None))
        ypos = ypos + 30
 
        self.label_3 = QtGui.QLabel(self)
        self.label_3.setGeometry(QtCore.QRect(margin, ypos, alw, 25))
        self.label_3.setObjectName(_fromUtf8("label_3"))
        self.label_3.setText(_translate("MainWindow", "Y", None))
 
        self.doubleSpinBox_Y = QtGui.QDoubleSpinBox(self)
        self.doubleSpinBox_Y.setGeometry(QtCore.QRect(sbp, ypos, 62, 25))
        self.doubleSpinBox_Y.setMinimum(-10000.0)
        self.doubleSpinBox_Y.setMaximum(10000.0)
        self.doubleSpinBox_Y.setValue(0.0)
        self.doubleSpinBox_Y.setSingleStep(1)
        self.doubleSpinBox_Y.setObjectName(_fromUtf8("doubleSpinBox_Y"))
        self.doubleSpinBox_Y.valueChanged.connect(
           self.on_doubleSpinBox_Y_valueChanged)
        self.doubleSpinBox_Y.setToolTip(_translate(
            "MainWindow", "Sliding axis Y", None))
        ypos = ypos + 30
 
        self.label_4 = QtGui.QLabel(self)
        self.label_4.setGeometry(QtCore.QRect(margin, ypos, alw, 25))
        self.label_4.setObjectName(_fromUtf8("label_4"))
        self.label_4.setText(_translate("MainWindow", "Z", None))
 
        self.doubleSpinBox_Z = QtGui.QDoubleSpinBox(self)
        self.doubleSpinBox_Z.setGeometry(QtCore.QRect(sbp, ypos, 62, 25))
        self.doubleSpinBox_Z.setMinimum(-10000.0)
        self.doubleSpinBox_Z.setMaximum(10000.0)
        self.doubleSpinBox_Z.setValue(1.0)
        self.doubleSpinBox_Z.setSingleStep(1)
        self.doubleSpinBox_Z.setObjectName(_fromUtf8("doubleSpinBox_Z"))
        self.doubleSpinBox_Z.valueChanged.connect(
           self.on_doubleSpinBox_Z_valueChanged)
        self.doubleSpinBox_Z.setToolTip(
            _translate("MainWindow", "Sliding axis Z", None))
        ypos = ypos + 40
        # Make the interactive slider control
        # As you move this slider with the mouse, the cross-section slides
        # through the model
        self.label_5 = QtGui.QLabel(self)
        self.label_5.setGeometry(QtCore.QRect(margin, ypos, slw, 22))
        self.label_5.setObjectName(_fromUtf8("label_5"))
        self.label_5.setText(_translate(
            "MainWindow", "Position along axis", None))
        ypos = ypos + 30
 
        self.horizontalSlider = QtGui.QSlider(self)
        self.horizontalSlider.setGeometry(QtCore.QRect(margin, ypos, slw-50, 20))
        self.horizontalSlider.setOrientation(QtCore.Qt.Horizontal)
        self.horizontalSlider.setInvertedAppearance(False)
        self.horizontalSlider.setObjectName(_fromUtf8("horizontalSlider"))
        self.horizontalSlider.setRange(0, 100)
        self.horizontalSlider.setValue(int(self.fraction * 100.0))
        self.horizontalSlider.setToolTip(_translate(
            "MainWindow", "Slide to move cross-section along axis", None))
 
        # must be called after setValue()
        self.horizontalSlider.valueChanged.connect(self.on_horizontal_slider)
        ypos = ypos + 30
 
        self.progressBar_1 = QtGui.QProgressBar(self)
        self.progressBar_1.setGeometry(QtCore.QRect(margin, ypos, slw-50, 23))
        self.progressBar_1.setValue(int(self.fraction * 100.0))
        self.progressBar_1.setOrientation(QtCore.Qt.Horizontal)
        self.progressBar_1.setAlignment(QtCore.Qt.AlignCenter)
        self.progressBar_1.setObjectName(_fromUtf8("progressBar_1"))
        self.progressBar_1.setToolTip(_translate(
            "MainWindow", "Percent position of cross-section", None))
        ypos = ypos + 40
 
##################################    add
        self.SpinBox_PBar = QtGui.QSpinBox(self)
        self.SpinBox_PBar.setGeometry(QtCore.QRect(sbp+255, ypos-40, 45, 23))
        self.SpinBox_PBar.setMinimum(0.0)
        self.SpinBox_PBar.setMaximum(100.0)
        self.SpinBox_PBar.setValue(int(self.fraction * 100.0))
        self.SpinBox_PBar.setSingleStep(1)
        self.SpinBox_PBar.setObjectName(_fromUtf8("SpinBox_PBar"))
        self.SpinBox_PBar.valueChanged.connect(self.on_SpinBox_PBar_valueChanged)
        self.SpinBox_PBar.setToolTip(_translate(
            "MainWindow", "Sliding percent", None))
#################################    add

        # Select the display format for the cross-section
        # This button shows a wire line in the cross-section plane
        self.radioButton_1 = QtGui.QRadioButton(self)
        self.radioButton_1.setGeometry(QtCore.QRect(margin, ypos, slw, 20))
        self.radioButton_1.setText(_fromUtf8("Outline"))
        self.radioButton_1.setChecked(True)
        self.radioButton_1.toggled.connect(self.onRadioButton)
        self.radioButton_1.setObjectName(_fromUtf8("radioButton_1"))
        self.radioButton_1.setToolTip(_translate(
            "MainWindow", "Make cross-section as wire outline", None))
        ypos = ypos + 30
 
        # Select the display format for the cross-section
        # This button shows a normal 3D display with everything above the
        # cross-section plane cut away
        self.radioButton_2 = QtGui.QRadioButton(self)
        self.radioButton_2.setGeometry(QtCore.QRect(margin, ypos, slw, 20))
        self.radioButton_2.setText(_fromUtf8("Cut objects"))
        self.radioButton_2.setChecked(False)
        self.radioButton_2.toggled.connect(self.onRadioButton)
        self.radioButton_2.setObjectName(_fromUtf8("radioButton_2"))
        self.radioButton_2.setToolTip(_translate(
            "MainWindow", "Make cross-section as cut objects", None))

##################################
        #Keep the sectional view
        self.CB_00 = QtGui.QCheckBox(self)
        self.CB_00.setText(_fromUtf8("Keep the sectional view"))
        self.CB_00.setGeometry(QtCore.QRect(margin+168, ypos-30, slw, 20))
        self.CB_00.setObjectName(_fromUtf8("CB_00"))
        self.CB_00.setChecked(False)
        self.CB_00.setToolTip(_translate(
            "MainWindow", "Keep the sectional view or erase", None))
##################################


    # Called at macro start up by initUI()
    def hideObjects(self):
        # Initialise the cross-section state variables
        self.startup_failed = False
        self.fraction = 0.5
        self.axisX = 0.0
        self.axisY = 0.0
        self.axisZ = 1.0
        self.cross_section_type = 1
 
        # We must have something to do a cross-section on
        if App.ActiveDocument is None :
            QtGui.QMessageBox.warning(None, _translate("MainWindow",
                "Cross-section", None),
                _translate("MainWindow", "There is no Active Document\n" +
                    "Create one and run this macro again.", None),
                QtGui.QMessageBox.Cancel,
                QtGui.QMessageBox.Cancel)
            self.startup_failed = True
            self.parent.destroy() # This will close the window
        else :
 
            # Make a list of the user's objects
            # WARNING!!
            # This list is persistent. We'll get confused if the user deletes or
            # adds objects while the macro is active
            self.oblist = App.ActiveDocument.Objects
 
            # Create the cross-section object
            self.cs = FreeCAD.ActiveDocument.addObject("Part::Feature",
                "Generated__cross-section")
            self.OriginalVisibilities = list()
            self.xmin = 1000.0
            self.xmax = -1000.0
            self.ymin = 1000.0
            self.ymax = -1000.0
            self.zmin = 1000.0
            self.zmax = -1000.0
#            n = 0
#            for p in self.oblist: # stupid Python list has no length function
#                n = n + 1
############################# Skip the <group object> ########################         # add
            b0 = []
            for x0 in self.oblist:
                if str(x0) !=  "<group object>":
                    b0.append(x0)
            self.oblist = b0
            n = len(self.oblist)
###############################################################################
            # Make a list of the visible objects and make them invisible while
            # the macro is active
            # Also we compute the bounding box of the model
            for i in range(n):
                vis = self.oblist[i].ViewObject.Visibility
                self.OriginalVisibilities.append(vis)
                if vis :
                    if self.oblist[i].TypeId != str("Drawing::FeatureViewPython") :    # add
                        self.oblist[i].ViewObject.Visibility=False
                        b = self.oblist[i].Shape.BoundBox
                        if b.XMin < self.xmin :
                            self.xmin = b.XMin
                        if b.XMax > self.xmax :
                            self.xmax = b.XMax
                        if b.YMin < self.ymin :
                            self.ymin = b.YMin
                        if b.YMax > self.ymax :
                            self.ymax = b.YMax
                        if b.ZMin < self.zmin :
                            self.zmin = b.ZMin
                        if b.ZMax > self.zmax :
                            self.zmax = b.ZMax
            # Moan and give up if there is nothing to cross-section
            if self.xmax <= self.xmin \
            or self.ymax <= self.ymin \
            or self.zmax <= self.zmin :
                QtGui.QMessageBox.warning(None, _translate("MainWindow",
                    "Cross-section", None),
                    _translate("MainWindow",
                    "There are no visible solid objects\n" +
                    "Create some and run this macro again.", None),
                    QtGui.QMessageBox.Cancel,
                    QtGui.QMessageBox.Cancel)
                self.restoreObjects()
                self.startup_failed = True
                App.ActiveDocument.removeObject("Generated__cross_section")
                self.parent.destroy() # This will close the window
            else :
                # Trigger initial display
                self.updateAxis()
 
    # Called when macro is closed
    # Restore the original visibility of the user's objects
    # and destroy our cross-section object
    def restoreObjects(self):

        n = 0
        for p in self.oblist: # stupid Python list has no length function
            n = n + 1
        for i in range(n):
            self.oblist[i].ViewObject.Visibility = self.OriginalVisibilities[i]
        try:
            if self.CB_00.isChecked() == False:
                App.ActiveDocument.removeObject("Generated__cross_section")
        except Exception:
            None
    # Something has changed, recalculate the cross-section
    def updateGui(self):
 
        # default to no visible cross-ection
        self.cs.ViewObject.Visibility = False
 
        # check if the sliding axis is invalid
        if self.xdir == 0.0 and self.ydir == 0.0 and self.zdir == 0.0 :
            QtGui.QMessageBox.warning(None, _translate("MainWindow",
                "Cross-section", None),
                _translate("MainWindow", "The sliding axis has zero length\n" +
                    "Please set a valid axis.", None),
                QtGui.QMessageBox.Ok,
                QtGui.QMessageBox.Ok)
        else :
 
            # First we compute the 0% and 100% positions on the sliding axis
            if self.xdir < 0.0 :
                x = self.xmax + self.fraction * self.xdir
            else :
                x = self.xmin + self.fraction * self.xdir
            if self.ydir < 0.0 :
                y = self.ymax + self.fraction * self.ydir
            else :
                y = self.ymin + self.fraction * self.ydir
            if self.zdir < 0.0 :
                z = self.zmax + self.fraction * self.zdir
            else :
                z = self.zmin + self.fraction * self.zdir

            r = 2 * max(self.xmax - self.xmin, self.ymax - self.ymin,
                        self.zmax - self.xmin)

            # Display the dimensions
            dimDep = "X "+str(x)+" mm , Y "+str(y)+" mm , Z "+str(z)+" mm"
            App.Console.PrintMessage(dimDep + "\n")


            # Create a big enough disc in the cross-section plane
            c = Part.makeCircle(r, Base.Vector(x, y, z),
                 Base.Vector(self.xdir,  self.ydir,  self.zdir))
            f = Part.Face(Part.Wire(c))
            l = list() # list for cross-section parts
            n = 0
            for p in self.oblist: # stupid Python list has no length function
                n = n + 1
            something = False
            if self.cross_section_type == 1 :
                # wire line cross-section
                for i in range(n):
                    if self.oblist[i].TypeId != str("Drawing::FeatureViewPython") :    # add
                        if self.OriginalVisibilities[i] :
							ob = FreeCAD.ActiveDocument.addObject("Part::Feature")
							ob.ViewObject.DiffuseColor = self.oblist[i].ViewObject.DiffuseColor
							ob.Shape = self.oblist[i].Shape.section(f)
                            # check for valid section part
							if ob.Shape.BoundBox.XMin <= ob.Shape.BoundBox.XMax :
								l.append(ob)
								something = True
            else :
                # cut shape cross-section
                # extrude our cross-ection disc into a cylinder
                cyl = f.extrude(Base.Vector(self.xdir,  self.ydir,  self.zdir))
                for i in range(n):
                    if self.oblist[i].TypeId != str("Drawing::FeatureViewPython") :    # add
                        if self.OriginalVisibilities[i] :
							ob = FreeCAD.ActiveDocument.addObject("Part::Feature")
							ob.ViewObject.DiffuseColor = self.oblist[i].ViewObject.DiffuseColor
							ob.Shape = self.oblist[i].Shape.cut(cyl)
							if ob.Shape.isValid() and ob.Shape.Volume > 0.0 :
								l.append(ob)
								something = True
 
            if something :
				feature = FreeCAD.ActiveDocument.addObject("Part::MultiFuse")
				feature.Shapes = l
				FreeCAD.ActiveDocument.recompute()
				if feature.Shape.isValid() :
					self.cs.Shape = feature.Shape.copy()
					self.cs.ViewObject.DiffuseColor = feature.ViewObject.DiffuseColor
					self.cs.ViewObject.Visibility = True
				for od in l:
					FreeCAD.ActiveDocument.removeObject(od.Name)
				FreeCAD.ActiveDocument.recompute()
				FreeCAD.ActiveDocument.removeObject(feature.Name)
            FreeCADGui.updateGui()
 
    # User changed axis vector
    # Compute a new axis vector whose length just covers the model
    def updateAxis(self):
        ldir = 0.0
        if self.axisX != 0.0 :
            ldir = (self.xmax - self.xmin) / abs(self.axisX)
        if self.axisY != 0.0 :
            ldir = max(ldir, (self.ymax - self.ymin) / abs(self.axisY))
        if self.axisZ != 0.0 :
            ldir = max(ldir, (self.zmax - self.zmin) / abs(self.axisZ))
        self.xdir = self.axisX * ldir
        self.ydir = self.axisY * ldir
        self.zdir = self.axisZ * ldir
        self.updateGui() # recalculate the cross-section
 
    def on_horizontal_slider(self, val):
        self.fraction = val / 100.0
        self.progressBar_1.setValue(val)
        self.SpinBox_PBar.setValue(val)
        self.updateGui()
 
    def on_doubleSpinBox_X_valueChanged(self, val):
        self.axisX = val
        self.updateAxis()
 
    def on_doubleSpinBox_Y_valueChanged(self, val):
        self.axisY = val
        self.updateAxis()
 
    def on_doubleSpinBox_Z_valueChanged(self, val):
        self.axisZ = val
        self.updateAxis()

    def on_SpinBox_PBar_valueChanged(self, val):
        self.progressBar_1.setValue(val)
        self.horizontalSlider.setValue(int(val))
        self.updateGui()
       

    def onRadioButton(self, wasChecked) :
        if self.radioButton_1.isChecked() :
            self.cross_section_type = 1
        else :
            self.cross_section_type = 2
        self.updateGui()
 
#######################################
 
# Find FreeCAD's root window
FreeCADRootWindow = Gui.getMainWindow()
 
# Create the window and start it
myWidget = CrossSectionWindow()
 
# The CrossSectionWindow will do all the work 
Attachments
cross_section_with_color.7z
(5.44 KiB) Downloaded 173 times
User avatar
Gift
Posts: 769
Joined: Tue Aug 18, 2015 10:08 am
Location: Germany, Sauerland

Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by Gift »

freecad-heini-1 wrote: Wed Aug 30, 2017 5:56 pm Hier eine Baugruppe zum Testen:
http://wilerk.whiteops.de/download/Kolb ... heiben.zip
Der Link ist defekt.
freecad-heini-1
Veteran
Posts: 7788
Joined: Tue Jan 07, 2014 11:10 am
Contact:

Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by freecad-heini-1 »

Gift wrote: Wed Aug 30, 2017 5:59 pm Der Link ist defekt.
Stimmt.

Das Skript hat noch immer eine Macke, siehe:
cross-section-1.png
cross-section-1.png (16.12 KiB) Viewed 4301 times
Mit dem ursprünglichen Skript fehlen die Farben, aber die Teile werden einzeln alle richtig angezeigt:
cross-section-2.png
cross-section-2.png (18.58 KiB) Viewed 4301 times
freecad-heini-1
Veteran
Posts: 7788
Joined: Tue Jan 07, 2014 11:10 am
Contact:

Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by freecad-heini-1 »

Zum Testen Jeno's Baugruppe mit den drei ineinander gestülpten Bechern:
becher.baugruppe.fcstd
(7.75 KiB) Downloaded 148 times
Danke Jeno für die Mühe.

Wenn sich die Teile nicht berühren, dann sieht es perfekt aus:
cross-section-3.png
cross-section-3.png (45.51 KiB) Viewed 4295 times
Aber wenn sie sich berühren, dann wird die Schnittfläche einfarbig:
cross-section-4.png
cross-section-4.png (36.35 KiB) Viewed 4292 times
Passende Baugruppe:
becher.baugruppe2.fcstd
(7.76 KiB) Downloaded 144 times
User avatar
Gift
Posts: 769
Joined: Tue Aug 18, 2015 10:08 am
Location: Germany, Sauerland

Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by Gift »

Das liegt am Part::MultiFuse. Dann müssten die Objekte einzeln bleiben. Es wäre möglich die in eine Gruppe zu schieben. Evt. das als Option anbieten?
freecad-heini-1
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Re: Optischer Schnitt durch Baugruppe, z.B. für Ventilgehäuse

Post by freecad-heini-1 »

Gift wrote: Wed Aug 30, 2017 7:04 pm Das liegt am Part::MultiFuse. Dann müssten die Objekte einzeln bleiben. Es wäre möglich die in eine Gruppe zu schieben. Evt. das als Option anbieten?
Das habe ich nicht verstanden, was Du meinst mit in eine Gruppe schieben? Die beiden Baugruppen habe ich Dir hochgeladen.
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