[SolidCAM Gpptool User Guide – replace.me

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
The file [machine. The only difference will be in the angular rotation performed by the axes адрес order to correctly position the linear axes. Machine specifications 3.
 
 

 

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Replies: 2 Last Post: , PM. Increasing the position of the slider increases MRR and machining aggressiveness. For this operation, use the Cutting conditions generated by the Wizard based on the default position of the Machining level slider 3.

Run the operation simulation using the default Host CAD mode to view the wireframe tool path. The simulated tool path is performed as follows: the entire contour is machined with a morphing spiral. Define the finish machining of the outside contour. When the copied operation automatically opens, choose iFinish for the Technology type.

The copied Geometry, Tool and Levels definitions are used for finishing. The default Cutting conditions generated by the Wizard are also used. Run the operation simulation using the default Host CAD mode. The finishing tool path is performed in a single cutting pass.

Define the machining of the center pocket In this step, the machining of the center pocket is defined. For this example, the geometry is defined as a closed pocket. Add a new iMachining 2D operation. Use the default iRough Technology type to define the rough machining of the center pocket feature. Select the lower contour of the pocket for the Geometry definition. Pick the top face of the Stock model for the Upper level definition and the lower face of the pocket for the Pocket depth definition.

Specify the roughing offsets. The default Cutting conditions generated by the Technology Wizard are used. The Link page displays the Ramping angle at which the Helical Entry into the pocket will be performed. This value is automatically calculated based on the aggressiveness of the Machining level slider. An override check box is provided in the instance you want to manually enter a preferred value. Simulate the operation using the default Host CAD mode. The tool performs the Helical Entry into the pocket followed by a morphing spiral to the outer walls.

Define the finish machining of the center pocket. Specify the finishing offsets. The pocket corners are cleared first and then a final pass is taken along the walls. Define the machining of the pocket ledge In this step, the machining of the pocket ledge is defined. For this example, the geometry is defined as a semi-open pocket. Use the default iRough Technology type to define the rough machining of the pocket ledge feature.

Select the lower contour of the pocket ledge and then mark the front edge as open using Mark open edges. Pick the top face of the Stock model for the Upper level definition and the lower face of the pocket ledge for the Pocket depth definition. The tool approaches from the open edge and then performs the roughing tool path, first removing material from the middle of the ledge and then clearing its corners.

After the corners are cleared, the tool finishes the walls of the pocket ledge in a single cutting pass. Verify the tool path and generate GCode In this step, the iMachining tool path is verified.

A GCode file is also generated and the iMachining technology is shown managing the Feed rates with each cutting move. To verify the iMachining tool path for all operations at once, right-click the Operations header in the SolidCAM Manager and choose the Simulate command.

This exercise is based on another SolidCAM Professor video series that uses the iMachining technology to define the machining of the part shown above. During the definition process, the most common need-to-know topics about iMachining are covered in detail.

Adding a new Machine and Material to the iDatabase After the part file is loaded on your computer, the following video demonstrates adding a new Machine and Material to the iMachining Database as well as defining the important parameters that are required by the iMachining technology. Finally, the machining of the outside contour is defined using the iRough and iFinish Technology types in iMachining. Using the iMachining Technology Wizard In the following video, the iMachining Technology Wizard is discussed in detail and some of the different settings are used to control the Cutting conditions calculations.

Using the iRest Technology type prior to finishing With iMachining, it is possible to use iFinish directly after iRough. In the following video however, there are narrow areas and corners inside the pocket where the roughing tool cannot fit.

In such cases, the iRest Technology type is then used to remove the rest material prior to finishing. The importance of the iRest Data is also explained in detail. The Tool definition and its effects on iMachining In the following video, the Tool definition and its important parameters related to iMachining are covered in detail. Also shown is how the Wizard calculates the depths and what the importance of ACPs are when machining.

There are standard 2. Two chains are defined, with the first being the stock boundary and the second being the profile around the part. The stock chain is marked as open, which specifies the tool should start machining from that chain. A Delta depth is specified for both operations, so the tool machines deeper than the part bottom edge. Five chains are defined, which represent the five through pockets. Two boundaries are picked off the edges the make up the chamfers. Since all ten pockets have the same depth, they can all be machined in one operation.

The tool enters the remaining pockets using helical ramping and the defined entry geometry. Customized linking is used to allow short repositions and smooth transitions when starting each cut. Two chains are defined, with the first being the stock boundary and the second being the bottom of the floor radius. The floor radius is not machined at this time. This excess material was used for clamping in the first setup.

In this case, the default allowance can be used since the desired wall was finished during the top side machining. Two chains are defined, with the first being the outside boundary of the face and the second being an offset edge created in SolidWorks.

The chain is defined as the bottom edge of the radius. For additional documentation and many more Professor videos, visit us on the web at www. With its Morphing spiral tool paths, controlled tool load at each point along the tool path, moating of islands to enable continuous spiral cuts, even with multiple islands, and automatic thin wall avoidance, iMachining brings efficiency to a new level for CAM users.

The integration ensures the automatic update of tool paths for CAD revisions. Pular no carrossel. Anterior no carrossel. Explorar E-books.

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Your internet browser will automatically launch and connect to v www. Start by opening SolidWorks. The following steps have to be implemented in order to reach the final CAM-Part: 1. On the iMachining page, disable the Dashboard option. The Stock model and the Target model should be defined as shown. The buttons below the list of machine files enable you to: — Add new machines.

On the Geometry page, click to start the Geometry definition. Click to confirm the Tool definition. Switch to the Levels page to define the Milling levels for the operation.

Define the finish machining of the pocket ledge. You have completed the iMachining Getting Started exercise. Finishing School Brochure. Introduction to CAD. Setting Up PowerMill Defaults. An Outline of Engineering Materials. HAL Approved Vendors. Mach Version Differences Doc a9. List of canned cycle.

Pre Question Bank. Progress V englisch. Technical Information for Toggle Clamps En. Quick User Guide. Elektorde Web. Evokacija Operativna Priprema Proizvodnje. Function Catalogue 1. Ncyclo Fact Sheet. Reseni Zadaci Otpornost Materijala1. Zbirka Zadataka-matematika I. Mitutoyo Projector.