Solidcam 2017 tutorial 無料ダウンロード.Documentation

 

Solidcam 2017 tutorial 無料ダウンロード.

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Documentation.SolidCAM 5 Axis Tutorial SolidCAM CAM (SolidCAM 5轴教程SolidCAM凸轮).pdf

 
 
重要なお知らせ. 技術的な重要情報を提供します。 solidworks sp における不安定動作: (/11/2)(/11/9 up). solidworks 以前のバージョンで作成された「日付」タイプのプロパティを含むファイルにおいて、ユーザー定義プロパティを編集・追加する際に solidworks が強制終了する問題が報告さ Download the latest Documentation for your current SolidCAM Version. In order to access all documentation you must be a Customer on Subscription. Press the User Login at the top left corner, in order to enter your User Login data and have full access to all documentation. SolidCAM SolidCAM SolidCAM チュートリアル. SolidWorks では、SolidWorks をマスターするための無料のリソースを提供しています。以下に示す資料は、SolidWorks ソフトウェアについて学び、設計、シミュレーション、解析、ドキュメント作成、プレゼンテーションの高度なスキルを習得するのに役立ちます。
 
 

Solidcam 2017 tutorial 無料ダウンロード.solidcam tutorial pdf

The hallmarks of SolidCAM are its ease-of-use combined with its powerful CAM functionality and customized post-processors that generate ready-to-go AM is widely used in the mechanical manufacturing, electronics, consumer products, medical, machine design, automotive, and aerospace industries as well as in mold&die and rapid giáo trình revit architecture pdf. Trimble is an international company focusing on positioning-related technology for different industries. Tekla software solutions for advanced building information modeling and structural engineering are part of Trimble offering. giáo trình revit architecture pdf SolidCAM 5 Axis Tutorial SolidCAM CAM (SolidCAM 5轴教程SolidCAM凸轮).pdf,SolidCAM 5 Axis Tutorial Volume 1 – Beginner 1 Goals of this Tutorial To understand post settings and machine simulation settings To understand the advanced concepts of 5 Axis To understand the basic parameters used in defining the toolpath T
 
 
 
 

原创力文档 知识共享存储平台. 内容提供方 : jiupshaieuk12 大小 : 3. 想预览更多内容,点击免费在线预览全文 免费在线预览全文 . SolidCAM 5 Axis Tutorial SolidCAM CAM (SolidCAM 5轴教程SolidCAM凸轮). SolidCAM 5 Axis Tutorial Volume 1 — Beginner 1 Goals of this Tutorial  To understand post settings and machine simulation settings  To understand the advanced concepts of 5 Axis  To understand the basic parameters used in defining the toolpath  To understand the parallel strategy of 5 axis machining  To create machine simulation 2 Part file used in this exercise: Basic Training.

SLDPRT part. To do the settings: Click SolidCAM tab in SolidWorks. Click SolidCAM Settings. But, it is a good practice to create sepa- rate folders in the root directory for the post processor and the machine simulation.

The advantage of creating separate folders is that the post processor and machine simulation files remain intact even when the SolidCAM version is uninstalled or upgraded. Click OK to exit the SolidCAM Settings window. Click the SolidCAM tab. If the Use Model file directory check box is checked, SolidCAM saves the entire project in the location of the SolidWorks part file.

It is recommended that you select Use Model file directory check box. Name of the CAM part. The name of the part is always derived from the SolidWorks part file name.

If a CAM part already exists, then SolidCAM uses the suffixes -1, -2 to create alternate names. Path and Name of the SolidWorks part file. Click OK to continue. Although a standard Table-Table Ma- chine would serve the purpose, it is better to machine this on a Head-Table configuration of the machine.

As we have a cylindrical part, it is advisable to use the DMU Mon- oblock kind of a machine which has a tilting head and a rotary table. In our case, the rotary axis of the table is around X axis. This axis is also known as the A axis. So, this machine will have A and B axis. Coordinate System Definition The coordinate system on the part must reflect the machine axis. In our case, we have a cylindrical part, and one of the axis of the machine is rotating around X axis. Thus, the X axis of our coordinate system must be the rotating axis.

Do the following: Click the Define button on the Coordinate System tab. A window opens which has the options to define a coordinate system.

Use the most relevant option for cylindrical parts. The most relevant option is to align one axis along the axis of revolution of the cylinder. Select Center of revolution face from the drop-down for defining Place CoordSys origin to. Select this face The coordinate system is now set with one of the axis.

In our case, the Z axis is aligned to the axis of revolution of the cylinder. And, the Z axis must denote the depth axis. In short, we need to swap the place of Z axis with X axis and the place of Y axis with the Z axis. You can do this using the Flip functionality available in SolidCAM. To get the X axis in place of the current Z axis, you must flip the axis around Y. Click the Flip Around Y button.

The coordinate system will look like this: 13 Now, the X axis is aligned to the axis of revolution of the cylinder, the Z axis is pointing to the depth, and the Y axis is denoting the tilting head. The re- sultant coordinate system will look like the below image: Final coordinate system Click icon. The following dialog box appears: Click icon to return to the Milling Part Data.

Revisit Machine Setup , when you are about to simu- late using the machine. Click icon to return to the Milling Part Data. SolidCAM has already defined the target by selecting the available geometry. Click icon and we are now ready to define our first 5 Axis Toolpath. End of Chapter 2 15 Chapter 3 Creating 5 Axis Toolpath 16 We will now create our first 5 Axis Toolpath and learn some basic functionality in SolidCAM 5 Axis Simultaneous Milling.

Do the following: In the toolpath manager, right click Operations. Click Add Milling Operation. Select Multi Axis Milling. You can also select the 5 Axis function by selecting the SolidCAM Operations tab and then selecting the Multi-Axis icon. Right Click Select Option 1 Select Option 2 17 The following dialog box appears: Template Strategies Special Functions Full Functionality For this exercise, we will use the template strategies and learn about the special func- tions in our next training volumes.

The template strategy used in this exercise is Paral- lel cuts. Do the following: Select Parallel cuts in the Technology section. For this exercise, we will follow a chronological order of parameter definition. This will help you understand the functions in a better way.

Geometry Selection 2. Tool Selection 3. Clearance Area Setting levels 4. Toolpath Parameters 5. Tool Axis Control 7. Gouge Check Parameters 8. Roughing 9. Motion Limits Control Misc Parameters 18  SolidCAM 5 Axis always works with the 1st position of any coordinate system. For exam- ple, MAC1 POS1 , MAC2 POS1 , MAC3 POS1 etc. It never allows you to select any other po- sitions of the coordinate system.

Click Geometry. The following dialog box appears: The Geometry area is subdivided into 3 groups. Geometry selection area 2. Work type 3. The area to be cut and other parameters Select the geometry to be cut. From now on in SolidCAM 5 Axis Milling, all the geometry to be cut will be referred as Drive surface. Click New icon under Drive surface. Geometry selected area 19 Select the highlighted face. The face is displayed in the geometry selected area on the left side.

The outer direction and the inner direction. Depending on which side of the part has to be machined you can select the direc- tion. However, if there is a solid model, then the outer direction is automatically set. Select the Show direction for selected faces checkbox to show the direction. SolidCAM shows the outer direction of the surface.

This direction is also the side which will be machined. Click icon. Set the Work type. The following options are available to us: Around “X” Axis Around “Y” Axis Around “Z” Axis Around “X” Axis : The cuts must be normal to X Axis Around “Y” Axis : The cuts must be normal to Y Axis Around “Z” Axis : The cuts must be normal to Z Axis To set the Work type, do the following: 20 In Around axis, select X-Axis from the drop-down.

Select the Linear radio button to define an angle on the plane that is normal to the selected axis. For example, Linear Option for Around X Axis allows you to define an angle in the YZ plane. Linear Option for Around Y Axis allows you to define an angle in the ZX plane. Linear Option for Around Z Axis allows you to define an angle in the XY plane. For this example, we will use the Constant option for Around X Axis. Select X Axis. By default, the Constant is selected.

Select Select the Type in the Area section. This option allows us to set how much area of the drive surface should be machined. Following three options avail- able for the selected strategy i. Parallel cuts :  Full, avoid cuts at exact edges  Full, Start and end at exact surface edges  Limit cuts by one or two points. Let us examine the three scenarios. Full, avoid cuts at exact edges: This option creates a toolpath for the entire surface.

However, it avoids creating the toolpath at the trimmed edges of the surface.