SolidCAM + SolidWorksThe complete i

SolidCAM + SolidWorks
The complete integrated Manufacturing Solution
MILLING TRAINING COURSE
2.5D Milling

SolidCAM 2012
Milling Training Course
2.5D Milling
©1995-2012 SolidCAM
All Rights Reserved.

Contents
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Contents
1. Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
1.1 About this course.......................................................................................................................3
1.2 Basic Concepts..........................................................................................................................5
1.3 Process Overview......................................................................................................................5
2. CAM-Part Definition. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Exercise #1: CAM-Part Definition............................................................................................... 9
3. SolidCAM 2.5D Operations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Exercise #2: Cover Machining..................................................................................................... 30
Exercise #3: Cover Machining..................................................................................................... 84
Exercise #4: Bracket Machining................................................................................................155
Exercise #5: Electronic Box Machining...................................................................................157
Exercise #6: Clamp Machining..................................................................................................160
Exercise #7: Basic Part Machining............................................................................................168
Exercise #8: Cover Machining...................................................................................................172
Exercise #9: Mounting Base Machining...................................................................................179
Exercise #10: Support Machining.............................................................................................189
4. Indexial 4-Axis Milling. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 197
Exercise #11: Frame Machining................................................................................................201
Exercise #12: Mounting Machining..........................................................................................220
5. Indexial 5-Axis Milling. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 227
Exercise #13 : Clamp Machining..............................................................................................231
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6. ToolBox Cycles. . 235
Exercise #14: Standard Cycles Machining...............................................................................240
7. Automatic Feature Recognition. . . 253
Exercise #15: Pocket Recognition.............................................................................................255
Exercise #16: Mounting Box Machining.................................................................................262
Exercise #17: Drill Recognition................................................................................................264
Exercise #18: Electronic Box Machining.................................................................................288
Document number: SCMTCENG12000
Introduction
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1. Introduction
1.1 About this course
The goal of this course is to teach you how to use SolidCAM to machine various parts using 2.5D
Milling technologies. This course covers the basic concepts of SolidCAM 2.5D machining and
is a supplement to the system documentation and online help. Once you have developed a good
foundation in basic skills, you can refer to the online help for information on the less frequently
used options.
Course design
This course is designed around a task-based approach to training. With the guided exercises you
will learn the commands and options necessary to complete a machining task. The theoretical
explanations are embedded into these exercises to give an overview of the SolidCAM 2.5D Milling
capabilities.
Using this training book
This training book is intended to be used both in a classroom environment under the guidance of
an experienced instructor and as self-study material. It contains a number of laboratory exercises
to enable you to apply and practice the material covered by the guided exercises. The laboratory
exercises do not contain step-by-step instructions.
About the CD
The CD supplied together with this book contains copies of various files that are used throughout
this course. The Exercises folder contains the files that are required for guided and laboratory
exercises. The Built Parts folder inside the Exercises contains the final manufacturing projects for
each exercise. Copy the complete Exercises folder on your computer. The SolidWorks files used
for the exercises were prepared with SolidWorks 2012.
Windows 7
The screenshots in this book were made using SolidCAM 2012 integrated with SolidWorks 2012
running on Windows 7. If you are running on a different version of Windows, you may notice
differences in the appearance of the menus and windows. These differences do not affect the
performance of the software.
4
Conventions used in this book
This book uses the following typographic conventions:
Bold Sans Serif
This style is used to emphasize SolidCAM options,
commands or basic concepts. For example, click the
Change to opposite button.
10. Define CoordSys Position The mouse icon and numbered sans serif bold text
indicate the beginning of the exercise action.
Explanation
This style combined with the lamp icon is used for
the SolidCAM functionality explanations embedded
into the guided exercises. The lamp icon is also used
to emphasize notes.
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1. Introduction
1.2 Basic Concepts
Every manufacturing project in SolidCAM contains the following data:
• CAM-Part – The CAM-Part defines the general data of the workpiece. This includes the
model name, the coordinate system position, tool options, CNC-controller, etc.
• Geometry – By selecting Edges, Curves, Surfaces or Solids, define what and where you
are going to machine. This geometry is associated with the native SolidWorks model.
• Operation – An Operation is a single machining step in SolidCAM. Technology, Tool
parameters and Strategies are defined in the Operation. In short, Operation means how
you want to machine.
1.3 Process Overview
The major stages of the SolidCAM manufacturing project creation process are the following:
CAM-Part definition
This stage includes the definition of the global parameters of the Manufacturing
Project (CAM-Part). You have to define a number of Coordinate Systems that describe
the positioning of the part on the CNC-machine.
Optionally, you can define the Stock model and Target model to be used for the rest
material calculation. The Stock model describes the initial state of the workpiece that
has to be machined. The Target model describes the one that has to be reached after
the machining. After every operation, SolidCAM calculates how much material was
actually removed from the CAM-Part and how much material remains unmachined (rest
material). The rest material information enables SolidCAM to automatically optimize
the tool path and avoid the air cutting.
Operations definition
SolidCAM enables you to define a number of milling operations. During an operation
definition you have to select the Geometry, choose the tool from the Part Tool Table
(or define a new one), define a machining strategy and a number of technological
parameters.
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CAM-Part
Definition
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8
The CAM-Part definition process includes the following stages:
• CAM-Part creation. At this stage, you have to define the CAM-Part name and location.
SolidCAM defines the necessary system files and a folder to allocate the place to store
SolidCAM data.
• CNC-controller definition. Choosing a CNC-controller is a necessary step. The controller
type influences the Coordinate System definition and the Geometry definition.
• Coordinate system definition. You have to define the Coordinate System – the origin
for all machining operations of the CAM-Part.
• Stock model definition. SolidCAM enables you to define the stock model that describes
the initial state of the workpiece to be machined.
• Target model definition. SolidCAM enables you to define the model of the part in its
final state after the machining.
CAM-Part creation
Coordinate system definition
Stock model definition
CNC-controller definition
Target model defintion
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2. CAM-Part Definition
Exercise #1: CAM-Part Definition
This exercise illustrates the CAM-Part definition process
in SolidCAM. In this exercise, you have to create the CAMPart
for the cover model displayed and define the Coordinate
System, the Stock model and Target model that are necessary
for the part machining. The CAM-Part will be used in the
exercises further on.
When you start to program a CAM-Part, you have to decide
what workpiece you are going to use. This decision determines
the number and the type of operations that are used to reach
the final part shape.
In this exercise, the box stock is used. The box dimensions include offsets from the actual model.
At the next stage, you have to decide on what
type of CNC-machine you are going to use
(3-, 4- or 5-axis). In this exercise, a 3-axis
CNC-machine is chosen for the machining.
With a CNC-machine of this type, all the
required faces of the cover part can be
machined using a single positioning.
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1. Load the SolidWorks model
Load the Exercise1.sldprt model located in the Exercises folder.
This model contains a number of features forming the solid body of the cover.
2. Start SolidCAM
To activate SolidCAM, click the SolidCAM field in the
main menu