Untitled - BobCAD-CAM

Transcription

Untitled - BobCAD-CAM
Version 23 BobART Getting Started Manual
Version 23 BobART
June 10, 2010
Copyright©2010 by BobCAM Inc., All rights reserved. No part of this work may be reproduced or
transmitted in any form or by any means, electronic or mechanical, including photocopying and
recording, or by any information storage or retrieval system without prior written permission of
BobCAD-CAM Inc. unless such copying is expressly permitted by federal copyright law. This
document may be downloaded from www.bobcad.com and printed for personal use. Address
inquires to Documentation Department, BobCAD-CAM, Inc., 28200 US HWY 19 N., Suite E,
Clearwater, Florida 33761
AutoDesk™, ACIS™, Rhinoceros™, ParaSolid™, Predator CNC Editor™,
Predator Virtual CNC™,and SolidWorks™are all trademarked by their respective companies.
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BobART
Table of Contents
Chapter 1. Introduction ……………………………………………………………………………5
1.1 Introduction
....…………………………………………………………………………6
1.2 System Requirements ……………………………………………………………………7
Chapter 2. Files
……………………………………………………………………………………9
2.1 Opening & Importing ……………………………………………………………………10
2.2 Saving & Exporting
……………………………………………………………………14
2.3 Supported File Types ……………………………………………………………………14
Chapter 3. Using The Workspace
……………………………………………………………15
3.1 Using The Workspace ……………………………………………………………………16
3.2 Mouse Controls ……………………………………………………………………………18
3.3 Copying & Pasting Geometry ……………………………………………………………19
3.4 Setting Part & System View Defaults ……………………………………………………19
3.5 Working With Layers ……………………………………………………………………20
3.6 Blanking & Un-blanking
……………………………………………………………21
3.7 Work Planes
……………………………………………………………………………22
Chapter 4. 2D Vectorization
……………………………………………………………………23
4.1 2D Vectorization
……………………………………………………………………24
4.2 Black & White 2 Color Strategy
……………………………………………………24
4.3 Multi-Color Strategy ……………………………………………………………………28
4.4 3D Embossing & V Carve
……………………………………………………………33
4.5 Engraving
……………………………………………………………………………39
4.6 Pocketing with V Carve
……………………………………………………………44
Chapter 5. Verification
……………………………………………………………………………49
5.1 Verification
……………………………………………………………………………50
5.2 Starting the Simulation ……………………………………………………………………50
5.3 Controlling the Simulation
……………………………………………………………50
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1.1 Introduction
Welcome the BobCAD-CAM Version 23 BobART module. The BobART module is a an excellent
product for sign making, custom woodworking or any artistic type project you may have that involves
turning your art into machine toolpath and g-code programs for CNC machining.
With BobART you can:



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
Turn images (.jpg, .bmp files and others) into 2D geometry for engraving, carving, profiling and
even pocketing.
Create 2D geometry from pictures for use in building custom relief models for machining.
Create embossed models for machining directly from pictures.
Create textured surfaces from images, geometry and even solids.
Much more!
This manual is designed to help get you started in using some of the key functionality that is available
in the BobART module. For additional guidance please use the on-board “Help” system that is
included with the Version 23 CAD-CAM system for reference. To access the help system, click the
main Help Menu and choose Help Topics.
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1.2 System Requirements
The following are the recommended system requirements for BobCAD-CAM Version 23 and would
apply to the BobART module as it is an add-on.
Minimum System Requirements:
2 GHz Processor 1 GB RAM
2 GB Available Hard Disk (used for Paging File)
256 MB Graphics Adapter that supports OpenGL 1.1
For Windows Vista stations we suggest an ATI or NVIDIA graphics card.
Recommended System Requirements:
2.0 GHz Processor
2 GB RAM
2 GB Available Hard Disk (Used for Paging File)
512 MB Graphics Adapter that supports OpenGL 1.1
For Windows Vista stations we suggest an ATI or NVIDIA graphics card.
NOTE: The minimum configuration will allow the system to run, but there will be some delay in the
execution of commands. The BobCAD-CAM V23 system is a solids and surface modeling system. If
you are using a computer that has less RAM than the minimum requirements listed above, you may
experience delays in executing functions that relate to rendering models, generating toolpath and GCode programs. By upgrading your computer to the recommended requirements above, you will be
able to execute those functions more efficiently.
It is highly recommended to use a minimum screen resolution of at least 1024x768 pixels. Any
smaller may make it difficult to navigate the menus and toolbars on the screen.
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2.1 Opening & Importing Files
There are 2 ways that you can proceed with opening files for use with BobART.
1. To open or import a file into the main Version 23 you would click on File in the main menu and
then on Open. Then you would need to locate the file on your hard drive, click on it in the box,
and then click Open. This would load the file into the workspace allowing you to use it in
BobART.
2. The second way to open files would be to click on the BobART Tab at the bottom of the DataCAM Tree Manager and then right click your mouse on “BobART Manager” to select Load
Image.
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When you choose Load Image, the Open dialog will pop up and allow you to locate the file and
then load it or open it by clicking the Open button.
Simply click on the file or image you want and then click Open.
This method is typically used to open picture files (.jpeg, .png or .bmp). By right-clicking on the
BobART manager item you will also be able to load native BobART files that you have created
and saved in BobART with the file extension .bart.
You can also load image files by right-clicking on “Images” and then clicking on Load Image.
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Loading a file from the BobART Manager item:
1.
2.
3.
4.
5.
Click on the BobART tab in the Data-CAM Tree Manager.
Right click on the BobART Manager item in the tree.
In the pop-up menu, click Load Image. The Open File dialog will appear.
Locate and select the necessary image file and click Open.
An item with the name of the image file will be created under the Images item in the tree.
Loading a file from the Images item:
1.
2.
3.
4.
5.
Click on the BobART tab in the Data-CAM Tree Manager.
Right click on Images in the tree.
In the pop-up menu, click Load Image. The Open File dialog will appear.
Locate and select the necessary image file and left click on Open.
An item with the name of the image file will be created under the Images item in the tree.
Once the image is loaded into the tree, you will be able to see the image listed under the Images
item.
From here, the user can right click on the image name to produce a pop-up menu. The following is a
list of the options located in the pop-up menu:
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
Change Origin: This option allows the user to reposition the image within the workspace. This
may be necessary if there are multiple images that require vectorization, or if the user would
like the image in a specific location for the vectorization process. When this option is selected,
the Image Origin dialog will appear.

Vectorize: The two methods for vectorizing images stated above, share many common traits.
They are described independently of one another for clarity. These methods are the Black and
White Strategy and the Multi-Color Strategy.
Delete: When this option is selected, the image will be removed from the BobART tree.
Blank/Unblank: This option allows the user to hide or show the image in the workspace.
Edit Image Using Paint: When this function is selected, the image file will open in the Paint
program on the host computer. The user can then make any necessary changes to the image
in Paint. Upon closing that application, the updated image will be loaded into the BobART tree
in place of the original image.



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2.2 Saving & Exporting Files
To save a file, simply click on File in the main menu and then on Save. If the file has not been saved
before, the Save As dialog box will appear and you will be able to type in a name for the file and
choose the type you wish to save it as.
If at any time you need to save a file to a different format or under a different name, choose Save As
instead of Save and you can get back to this box.
It is important to stay within the Windows™file naming guidelines when naming your files. Each name
can be up to 255 characters long including the names of all of the folders above it, and must not
contain any of the following special characters: ? [ ] / \ = + < > ; : “ , | *
2.3 Supported File Types
The following are supported file types:
.bbcd: This is the native BobCAD-CAM
™file type. This file type supports CAD and CAM data. They
can be both opened and saved.
.bbas: This is the native BobArt Surface file. They can be opened and saved.
.cad: These file types are older native BobCAD-CAM file types. They can only be opened.
.igs or .iges: This stands for International Graphics Exchange Standard. These file types are used
for transferring CAD data between systems. This type of file can be opened and saved.
.dxf: This file type is the AutoDesk
™Document eXchange Format. Can be opened and saved.
.dwg: This file type is the AutoDesk
™DraWinG file. This type of file can be opened and saved.
.sat: This type of file is the ACIS
™solid file. This type of file can be opened and saved.
.3dm: This type of file is a Rhinoceros
™3D file. (RhinoCAD) These files can only be opened.
.x_t: ASCII ParaSolid file. These files can only be opened.
.x_b: Binary ParaSolid file. These files can only be opened.
.sldprt: This is the native SolidWorks
™part file type. BobCAD-CAM will read 2009, 2010 and higher
versions (as released) of this file. These files can only be opened.
.stp or .step: This stands for STandard for the Exchange of Product model data. These file types
can be opened and saved.
.stl: This stands for STereoLithography file. This is a mesh/faceted data format. BobCAD-CAM
Version 23 can generate 3D toolpath directly from .stl meshes. These file types can be opened and
saved.
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3.1 Using The Workspace
With BobART, the primary focus is the Data CAM Tree manager and the BobART manager along
with the main workspace. Once an image or geometry is loaded it will appear in the main workspace.
BobART commands will be available in the BobART Manager.
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Take a look at a BobART Tree that has been populated with various operations.
In the example you can see that once the “parent” operation was added, there are subsequent
operations added under it. When something is referred to as a “Parent” item it means that there are
sub items/operations under it in the tree. In BobART you can edit a sub item without having to start
over again. After editing the sub operation you will simply right-click on Emboss Model and click
Regenerate. You will learn more about this by doing the training lessons in this manual.
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3.2 Mouse Controls
Here is the standard mouse functionality that can be used in conjunction with the Shift & Control keys
for:






Panning
Dynamic Zoom
Zoom Window
Dynamic Rotation
Accessing the Utility Drop-Down Menu
Geometry Selection & Window Picking
Here is a standard computer mouse with a left and right button as well as the middle mouse wheel
that is also considered the second button.
LEFT MOUSE BUTTON
Place the cursor on the entity, face or solid that you wish to select and click the left mouse button to
select it.

Shift + Left Mouse button: When in selection mode, the left mouse button and Shift key on
your keyboard combined, allow you to window pick geometry in the workspace. To do this
simply hold down both the Shift key and the left mouse button and drag a picking window over
the desired geometry to select it.
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
Ctrl + Left Mouse button: Using the Control key with the left mouse button puts you into
Zoom Window mode. This means that by holding both down and then dragging the cursor
over an area of the workspace you can zoom in on an area.
MIDDLE/WHEEL MOUSE BUTTON
If the mouse has a wheel it can be used as a middle or second mouse button for accessing
functionality.



Zoom In: By rolling the wheel toward you, you can freely zoom in.
Zoom Out: By rolling the wheel away from you, you can freely zoom out.
PAN: By holding down the Control key on the keyboard and then depressing the wheel, you
may use it as a second button to freely PAN and move the drawing around the workspace.
RIGHT MOUSE BUTTON
The right mouse button is used to access the Utility Drop-Down menu, indicate that selections are
completed, cancel a selection, use verify functions, change views and access the Selection Mask
settings. Other functionality exists as well:

Dynamic Rotation: By holding down the control key on the keyboard and the right mouse
button simultaneously, you can use the dynamic rotate functionality for moving the mouse and
rotating the part in the workspace freely.
3.3 Copying & Pasting Geometry
There may be a time when parts of one drawing will need to be copied into another.
To do this:
1. Highlight the parts of the first drawing to be copied.
2. Click on Edit in the main menu and choose Copy, or press CTRL+C to copy the items to the
Windows clipboard.
3. Click on the tab of the drawing it has to be copied to at the bottom of the workspace.
4. Click on Edit in the main menu and choose Paste, or press CTRL+V. The copied parts will
appear in the second drawing in the same place they were originally.
3.4 Setting the Part & System View defaults
All settings for viewing the current part are easily set by selecting the main Preferences Menu and
then choosing Settings Part or Settings default. These settings include background color, new entity
color, the highlight color, the quality of the part rendering, etc. Also set here are the current units the
part and all operations are done in, whether in inch (SAE), metric, or some other type of unit.
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Settings Default has the same box as Settings Part, but the settings there apply to new drawings
only. There is also a Directories category not present in Settings Part on the left where the user can
set the default folders to retrieve data from and save to.
The workspace has a few default shortcut keys of its own for part display:
W – toggles wire frame view on and off.
S – toggles shaded view on & off.
T – toggles transparency for every solid or surface visible.
3.5 Working with Layers
It is very important to understand how BobCAD-CAM software allows you to create and manage
layers. Let’s take a look at the Layer Manager.
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The purpose of the Layer Manager is allowing you to control the visibility of layers, add new layers,
change layer names and indicate which layer is active. Each layer that is imported and/or created is
assigned a numeric value in the Layer-UCS-Post Manager automatically.
These are the capabilities that the Layer manager can help you with.





Making a Layer Active
Adding New Layer
Renaming existing Layers
Deleting Layers
Toggling Layer Visibility
3.6 Blanking & Un-Blanking
To hide and show all entities on a layer, click on the Layer Visible button. When there is a square in
the box, the entities on that layer are visible and when there is not, they are hidden.
To toggle between showing and hiding all of the entities on a single layer, simply toggle the Layer
Visible button as in the description above. However, to show or hide only a few entities, use the Blank
and Un-blank icons:
To hide only a few entities:
1. Click on the Blank icon
on the toolbar, Left-click on all of the entities that need to be hidden
to select them.
2. Right-click and choose OK in the pop-up menu.
3. All of the selected entities will be made invisible.
To show some of those entities again:
on the toolbar.
1. Choose the Un-blank icon
2. All of the currently blanked entities will show and BobCAD-CAM will temporarily hide the
currently visible parts of the drawing.
3. Click on those entities that need to show again to get them highlighted. Then right-click and
choose OK in the pop-up menu. Those entities that were highlighted will be un-blanked and
the drawing will be returned to normal.
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3.7 Work Planes
BobCAD-CAM Version 23 allows the user to define the working planes for parts. There are three predefined planes and the user can create as many others as necessary. When a plane is set active,
like layers, all new entities are drawn on that plane. The pre-defined planes are the Top (X/Y), Front
(X/Z), and Side (Y/Z) planes.
There are several ways to create a new plane. See the Help system for a detailed explanation of all of
the methods available.
What follows is an example of using the 3 Points method:
1. Click on the Point menu, and then on Coordinates. The dialog in the DATA-CAM Tree
Manager will display fields for the coordinates of the points. 3 points are required.
2. Enter in the values in the fields. Click OK after each one.
X:0, Y:0, Z:0
X:1, Y:0, Z:0
X:0, Y:sin(45) Z:cos(45)
Typing in the trigonometric functions will cause BobCAD-CAM to evaluate those functions and
change the number in the box to the result of the calculation. It is possible to type in “.7071” in
both the Y and Z fields, but in reality BobCAD-CAM can support many more decimal places
than it may be set to display. Using trigonometric functions such as sin(), cos(), and tan() is
much more accurate as BobCAD-CAM will evaluate them as far out as it can, i.e. to 15 decimal
places.
3. Right-click on the UCS tab of the Layer-UCS-Post Manager, and choose Add New UCS.
4. Choose the 3 Point button in the Data-CAM Tree Manager.
5. Click the points in the order they were drawn in to create the new work plane. This new plane
will be rotated 45 degrees off of the Front plane around the X-axis, because the Y and Z
numbers are 45 degrees from (0, 0, 0). It is important to click them in this order because the
first point highlighted becomes the origin position (0, 0, 0) of the new work plane, the second
becomes the direction of the new +X axis, and the third becomes the new +Y.
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4.1 2D Vectorization
BobART can vectorize 2-dimensional bitmapped images. This process is called “raster-to-vector”
conversion. BobART provides the user with numerous controls to influence the outcome of the
conversion process.
There are two general vectorization strategies supported by BobCAD-CAM, two-color (often called
“Black and White”), and “Color.” Black and white vectorization works on the contrast between two
pixels to determine if an edge line or arc should be drawn between them, and color tries to draw
enclosed shapes around splashes of like colors. Both of these strategies have a place in BobART.
4.2 The Black & White Strategy
1. Click on the BobART tab at the bottom of the Data-CAM Tree Manager to expose the BobART
tree. Right click on Images at the top of the tree and click on Load Image. An Open dialog will
display. Navigate the dialog box to the folder that BobCAD-CAM was installed into. The file will
be directly under the Examples\BobART\Images folder there. Choose Celtic Heart.jpg.
When you have located the file, click on it to highlight it and then click the Open button in the
dialog. The file will open and the drawing will be displayed in the workspace.
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2. Right click on Image-Celtic Heart under Images in the tree and choose Vectorize from the popup.
The Raster to Vector dialog will display to permit the user to change the parameters of the
raster to vector conversion. Set the Threshold value to 93 to give a good balance in how bold
the edges are. Set the Accuracy to 0.9.
The Accuracy field controls how close BobART must be in order to be in tolerance with respect
to the original image. A smaller value here will result in stair-stepping as the function tries to
get closer to the imported pixels, and a larger value allows for smoother curves. Click OK and
BobART will vectorize the image and lay the vectorized result on top of it in the workspace.
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3. The vectorization is finished, but it is often difficult to see the vectorized geometry through the
original image, as it is in this case. Right click on Image-Celtic Heart under Images in the tree
and choose Blank/Un-blank.
The vectorized geometry will be more visible and easier to work with.
Take the picture below for example and adjusting the threshold value.
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Here are some examples:
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4.3 Multi-Color Strategy
This strategy allows you to work with color pictures to get the results you want. Let’s take a look at an
example of a picture of a tiger.
1. You would right click on Images in the BobART tree and click Load Image.
2. Next you would right-click on the pictures name under Images in the tree and click vectorize.
3. Now you would click Multi-Color Strategy.
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In the example picture we are using here, there are 16 different colors. The software automatically
picks this up and lists them up to a maximum of 16 colors.
Now for this example we selected only the darkest color black and clicked ok.
Original picture
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Here we selected all colors.
Original picture
Vectorization
If you need to change the results you get you can do so easily by right-clicking on Vectorization under
the image name and then clicking Edit. This opens the dialog box again so that you can start over or
make the adjustments that you need.
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The multi-color strategy has many different aspects.
# of Colors: This field allows the user to control the total number of colors available for vectorization.
The user is permitted to select any number from 3 (the minimum allowable) to 16 (the maximum
allowable). The colors available will then be displayed in the Colors to be Vectorized field.
Colors to be Vectorized: This field allows the user to select the colors which will vectorized in this
operation. Placing a checkmark in the field next to the color, indicates that the color will be vectorized
in the final results.
Accuracy: This field determines the amount of each pixel the system will use to generate a line
segment. This value is a percentage value based on the size of the pixels. The default value 0.8
means that eight-tenths of each pixel will be used to generate a line or arc segment. Increasing or
decreasing this value may be necessary to improve the quality of the profiles resulting from the
vectorization.
Remove Chains Less Than: This field allows the user to clean up additional "noise," or unwanted
profiles. The default value of 10 pixels means that if the system encounters an area of pixels of the
same color and the number of pixels in the grouping is less than or equal to 10 they will be omitted
from the final results.
In the image below we have the “remove chains less than” value set at 10.
In the image you see below, we have increased this value to 50. You can see that some of the
smaller detail is lost, but the change is subtle.
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With Arcs: When this box is checked the system will generate arc segments in the profiles, where it
is possible.
Keep Aspect Ratio: When this box is checked, and the user changes the X or Y size value, the
system will automatically update the other value to maintain the length to width ratio of the original
image.
X Size: This field indicates the length of the vectorized image in the X axis. This value does not
represent the dimensions of the actual results, but the distance from one side of the image to the
other side. When BobART vectorizes the image it will use the ratio between the input X Size and
original size of the image in X to scale the resulting profiles in the workspace.
Y Size: This field indicates the length of the vectorized image in the Y axis. This value does not
represent the dimensions of the actual results, but the distance from one side of the image to the
other side. When BobART vectorizes the image it will use the ratio between the input Y Size and
original size of the image in Y to scale the resulting profiles in the workspace.
Here are some other examples from using the multi-color strategy:
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4.4 3D Embossing
In addition to vectorizing bitmap images, BobART can also produce 3-dimensional embossed
surfaces that can be machined like any other surface in the software.
There are many ways of generating embossed surfaces in the software. In this manual are only a few
because of space limitations. For complete explanations of all of these functions, their dialog boxes,
and for the rest of the methods available, see the Help system in the software itself.
This example uses a sample file that is included in the BobCAD-CAM install. The steps used can be
used for any file however, the steps in the example are tailored for this file.
1. Open the “Star Example.bbcd” file in the BobCAD-CAM installation folder. Click on File in the
main menu and then Open. Navigate the dialog box to the folder that BobCAD-CAM was
installed into. The file will be directly under the Examples/BobART folder there. When you have
located the file, click on it to highlight it and then click the Open button in the dialog. The file
will open and the drawing will be displayed in the workspace.
2. At the bottom of the Data-CAM Tree Manager, click on the BobART tab to display the BobART
tree. Right click on Emboss Model and choose Emboss Regular from the menu that will
appear.
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3. The new emboss feature will be inserted into the tree. Since no stock was yet defined,
BobCAD-CAM will display the Stock Parameters dialog.
Enter the following:
Origin:
X: 0
Y: 0
Z: -.75
Model Size:
X: 7.0
Y: 7.0
Change the resolution value to 100 and click OK.
The next dialog that will appear is the Emboss dialog. Change the Name field to something
meaningful so that this operation can be easily located in the tree by the user. BobCAD-CAM
permits the names of the features in the tree to be changed in order to make them easier to
differentiate. Often, a complex set of emboss operations in the BobART tree will contain
numerous features with the same name. The larger and more complex the operations get, the
more difficult it can be to tell them apart. Because of this we have made it so that when you
click on an item in the tree, the associated geometry will be highlighted in the workspace. This
helps to differentiate between one emboss operation and another.
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4. Right click on Emboss Model and choose Emboss Regular again from the menu that will
appear. Since the stock has already been defined, the box that will display first will be the
Emboss dialog itself.
Change these values in the dialog:
Name: Ring
Pattern: Convex Arc
Radius: 0.125
Base Height: 0.125
Application Type: Add
Click OK in the dialog and it will disappear.
Right click on Geometry under the new feature named Ring - Add. Click on the outside circle
and then the inside circle. Now with both of them selected, right-click your mouse anywhere in
the workspace and click OK.
5. Right click on Emboss Model and choose Emboss Regular again from the menu that will
appear. Since the stock has already been defined, the box that will display first will be the
Emboss dialog itself.
In the dialog, set these values:
Name: Star
Pattern: Line
Height: 0.75
Slope Angle: 30.0
Application Type: Add
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6. Right click on Geometry under the new feature named Star - Add. Choose Re/Select from the
pop-up. The software will be placed in Selection Mode. While holding the Shift key down on
the keyboard, click anywhere on the star shape only in the drawing. When it has highlighted
all the way around, right click your mouse anywhere in the workspace and choose OK from the
menu that will appear.
7. Now we are going to create a texture for the part. Right click Emboss Model and hover the
cursor over Emboss Texture in the menu. Choose From Primitives from the fly-out.
In the dialog that will be displayed, set these values:
Name: Pyramid Texture
Type: Pyramid
Side X: 0.125
Side Y: 0.125
Top Size(% of Bottom): 0
Z Height: 0.0875
Application Type: Add
Click on the checkbox labeled Randomize the Location to have BobART scatter the primitives
in the texture, then click OK.
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Right click on Geometry under the new feature named Pyramid Texture and choose Re/Select
from the pop-up. While holding the Shift key down on the keyboard, click anywhere on the
inside circle only, and click anywhere on the star shape in the middle. When both are
highlighted all the way around, right click in the workspace one last time and choose OK to set
the selection.
8. Now go to the Tree, right-click Emboss Model and click Re-Generate from the list.
Now the software will generate the embossed part.
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The result:
3D View:
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4.5 V Carving
The V Carving operation is a machining operation that is located in the Mill 3 Axis menu of the CAM
Tree. Because of this it is not located in the BobART Tree. It is Important for us to take a look at the
V Carving machining operation.
The V-Carve feature type is generally used to engrave text, arcs, lines and splines in a 3-dimensional
form with 3 axis tool motion, with pocketing of open spaces in the selected profiles if necessary.
When a V-Carve feature is added to the CAM tree, the system will automatically add the following
items to the tree:



Geometry: This item in the CAM tree allows the user to specify the contour or contours that
will be used when calculating the tool movements.
Feature V-Carve: Right click on this item in the CAM tree to produce a pop-up menu with
three options for the user to choose from:
o Edit: Allows the user to modify the settings that are used when calculating the tool
movements.
o Compute Toolpath: When this option is selected from the pop-up menu, the system will
begin calculating the toolpath.
o Post Yes/No: This option allows the user to determine whether a feature in the CAM
tree will be included in the code that is posted by the system.
V-Tool: Right click on this item in the CAM tree to produce a pop-up menu with two options
for modifying the visibility and color of the toolpath that is created.
o Color: When this option is selected from the pop-up menu, a dialog will appear allowing
the user to change the color of the selected engraving toolpath.
o Blank: When this option is selected from the pop-up menu, the system will show the
selected engraving toolpath if it was previously hidden or hide the engraving toolpath if it
is visible in the workspace.
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Editing the V-Carving Operation
The V-Carve dialog permits the user to change every aspect of a V-Carve feature.
The Approach and Entry Page

Material Approach
 Top of Part: This is the face of the material that is to be machined
 Rapid Plane: The height at which the tool can rapid safely from operation to operation
within the same feature. This value is indicated as the incremental distance from the top
of the part.
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The Parameters Page

Parameters
 V-Tool Depth of Cut: If the width of the profile is larger at any point than the width of
the tool, or the combination of the two forces the tool deeper than is desired, set this
value to limit that depth.
 V-Tool Roughing Stepover: If the tool actually reaches the V-Tool Depth of Cut
above and is forced to rough a portion of the profile, this value sets the step over for the
successive passes that the tool must take.
To force the tool to rough portions of the pocket out, set the V-Tool Depth of Cut to be less
than the depth of the tool point at that part of the profile. The maximum depth the tool can reach
is given by the formula D = r / tan(angle/2), where D is the total depth, r is the radius of the tool,
and angle is the included angle of the v-tool tip.
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The Pocketing Parameters Page

Pocketing Parameters
 None: If no pocketing is necessary, leave this button set. If some of the toolpath
generated for the feature is unexpectedly too deep for the tool, the V-Carve toolpath will
behave as if Use V-Tool is set.
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
Pocketing Parameters
 Use V-Tool: If the user wishes to use the V-tool to perform any pocketing toolpath that
the feature will need generated, set this button.
 Pocket Depth: This item sets the maximum depth to plunge before any pocketing is
performed.
 Depth of Cut: This item sets the maximum Z axis step down. This value is obeyed
even if the tool can empty the material in a single pass at any portion of the geometry.
 V-Tool Stepover: This item sets the maximum amount that will step the tool sideways
when pocketing with the V-tool.
 Pocketing Parameters
 Use Endmill: If the user wishes to use an end mill to perform any pocketing toolpath
that the feature will need generated, set this button.
 Pocket Depth: This item sets the maximum depth to plunge before any pocketing is
performed.
 Depth of Cut: This item sets the maximum Z axis step down. This value is obeyed
even if the tool can empty the material in a single pass at any portion of the geometry.
 Endmill Cutter Width %: This item sets the maximum amount that will step the tool
sideways in relation to the tool diameter when pocketing with a mill.
 V-Tool Cleanup Parameters
 V-Tool Cleanup Stepover: On the V-tool passes of pocketing with an end mill, this
item sets the maximum sideways stepover for the V-tool.
To perform a quick V Carving operation, do the following:
1. Open a new workspace. To do this, left click on the File menu at the top of the screen and then
left click on New.
2. Click on the Text icon on the Drafting toolbar or select the Text function from the Text menu.
3. The Data-Manager will be populated with fields for user input.
4. The prompt line will read: "Enter Values into the Data Entry Field, and then Left Click the OK
Button."
5. In the dialog:
a. Click the Windows Font button to display all of the TrueType fonts that are installed in
Windows.
b. In the Font field, select Book Antiqua.
c. In the Text field, type in BobCAD-CAM.
d. Make the Text Angle 0.0.
e. Input 2.0 for the Text Height.
f. Unselect the Drag option.
6. Click OK.
7. The text will have been placed in the workspace.
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8. To end this function, click Cancel in the Data-Manager, or right click anywhere in the
workspace and choose Cancel in the pop-up menu.
9. Click on the CAM Tree tab at the bottom of the Data-Manager to show the tree.
10. Right click on Milling Stock. Under Mill 3 Axis, choose V-Carve. A new featured called Feature
V-Carve will be inserted in the tree.
11. Right click on Geometry under the new feature and choose Re/Select.
12. Click on the text just placed in the workspace to highlight it. Right-click anywhere in the
workspace and choose OK from the menu that will appear. The text will be set as the geometry
for the feature.
13. Right click on V-Carve in the feature and choose Edit. The V-Carve dialog will appear.
14. Click on V-Tool from the categories on the left.
15. Set the Diameter of the tool to .5, then click OK.
16. The feature will be set up. Right click on V-Carve again and choose Compute. The generated
toolpath will appear as illustrated below.
4.6 Pocketing with V Carve
The V Carving functionality that BobCAD-CAM offers also provides a pocketing strategy that is built-in
as an option. Follow this tutorial to learn how to use it.
1. Open the “Carve Example.bbcd” file in the BobCAD-CAM installation folder called
“Examples.” Click on File in the main menu and then click Open.
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2. Click on the CAM Tree tab at the bottom of the Data-CAM Tree Manager. From the tree, right
click on Milling Stock and hover the cursor over Mill 3 Axis, then choose V-Carve from the list.
A new V-Carve feature will be added to the tree. Right click on V-Carve under the new feature
and click on Edit.
3. You should now have the Edit box open. The first page is the Approach and Entry Page.
This will not need to be changed.
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4. Click on the Parameters Page. Enter the following values:
V-Tool depth of Cut: 0.35
V-Tool Roughing Step Over: 0.005.
5. Now click the Pocketing Parameters page. In the Pocketing Parameters page, select the Use
EndMill button. Set the Pocket Depth to 0.35, the Depth of Cut to 0.175, and the V-Tool
Cleanup Stepover to 0.005.
6. Select the Rough Page and enter the following values: For the Rough tool definition, set the
Diameter to 0.125. This is the tool that will be used to pocket out the shapes.
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7. Now select the V-Tool Page and enter the following value: Set the V-Tool Diameter to 0.100
and the Included Angle to 60. Then click OK at the bottom to set everything.
8. Right click on Geometry under the feature and choose Re/Select. Now click and drag a
selection box over the entire part in the workspace. Release your mouse when you have
selected everything in the window and everything will highlight and turn red. Place your
cursor anywhere in the workspace and right-click your mouse. Click OK from the popup
menu.
Right click on V-Carve in the tree and click on Compute Toolpath. BobCAD-CAM will compute
the toolpath and display it along with the drawing.
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5.1 Verification
BobCAD-CAM’s verification engine uses a custom Predator™Virtual CNC®OCX control for highly
accurate part cutting simulation. The new verification system simulates machine cutting based on the
computed tool path, the chosen tools, and on the rectangular size of the milling stock. In this way, it is
possible to simulate part cutting for any machine that BobCAD-CAM can generate code for, and it can
do it before the code is even produced.
5.2 Starting the Simulation
Before simulating any cutting features, the tool paths must first be calculated using either Compute
under each feature or by selecting Compute All Toolpath under the right-click menu for CAM Part. To
simulate a machine running a program, right-click on Milling Stock under CAM Part in the Cam Tree
tab of the Data-CAM Tree Manager. Choose Verify from the list. The simulation window will
immediately appear with a block the size of the part in it.
5.3 Controlling the Simulation
There are quite a few ways of controlling the simulation. The 6 main controls at the bottom of the
window are:
 Start: Click this to start the simulation.
 Step: Click this to step through the simulation one machine move at a time.
 Stop: Click this to stop the simulation. This will not start it over from the beginning; rather, it
operates as a pause.
 Restart: Click this to start the simulation over from the beginning.
 Speed Slider: This controls the speed of the simulation. To the left is slower, to the right is
faster.
 End: Quit the simulation.
The simulation can also be controlled with the mouse:
 Left-Click + Drag to Rotate the view
 Wheel Up to Zoom Out
 Wheel Down to Zoom In
 Right-Click to show the verify pop-up menu
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This pop-up menu carries a host of options:
 Zoom: This sub menu contains all of the functions for zooming in and out.
 Pan: Click this and then left-click + drag in the verify window to pan.
 Materials: This displays properties for the simulated material, such as color, etc.
 Copy to Clipboard: This function copies a screenshot of the current view in the verify window
to the clipboard. It can then be pasted into any image editing program for saving, etc.
 View: All of the pre-defined viewing options are listed in this sub menu, i.e., Top, Bottom,
Isometric views, etc.
 Go: Runs the simulation.
 Step: Single-steps each machine move.
 Stop: Halts the simulation.
 Restart: Resets the simulation back to the beginning.
 Speed: This sub menu contains all of the options related to the speed of the simulation.
 Visibility: This contains settings for the translucency of the image.
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