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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.
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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. As designers want to check the manufacturability of their designs earlier in the design process, having an integrated CAM system closes the knowledge gap between the digital design data and how that data will translate into its physical form when it is machined. Another benefit of this integrated CAM system is that it automatically updates toolpaths as changes and updates are made to parts.
It does this by giving users some headroom to learn as they program. You come across a part file created by a designer or an engineer and it has data such as tolerances and dimensions that you can see.
Your job is to prepare the part to be manufactured. Every bit of data about the part is critical for CNC programmers and machinists. The part must be manufactured with total precision for it to pass quality assurance QA. Since data from the tolerances of a part file inform machining decisions, a CNC machinist or programmer will see both symmetric and asymmetric linear tolerances.
Please don't waste your time or money dealing with this guy! If anyone wants to purchase any 4x or lathe post that I have please contact me as I have a few that I'm sure someone could use. Re: Solidcam Postprocessor can you send to rar password? Re: Solidcam Postprocessor rar password please? Re: Solidcam Postprocessor All password protected useless. Re: Solidcam Postprocessor.
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Solidcam 2017 manual free. InventorCAM 2017
Thread: Solidcam Postprocessor. Page 3 of 4 1 2 3 4 Jump to page: Results 41 to 60 of Re: Solidcam Postprocessor again He did an ok job on our first 4th axis processor except it doesn't post correct A axis values when you have 2 drill cycles on different rotations it puts the A rotation after the solidcam 2017 manual free cycle causing a CRASH.
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If anyone wants to purchase any 4x or lathe post that I have please contact me as I have a few that I'm sure someone could use. Re: Solidcam Solidcam 2017 manual free can you send to rar password? Re: Solidcam Postprocessor rar password please? Re: Solidcam Postprocessor All password protected useless. Re: Solidcam Postprocessor. Bir postprocessor'u istedi? Re: Solidcam Postprocessor Karde? Sent from my MI 5s Plus using Tapatalk. Re: Solidcam Postprocessor Could you please send me the password for these files.
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Re: Solidcam Postprocessor need rar pass please. Re: Solidcam Postprocessor hi thank you for your effort but the ecstraction of the file is not working since it has a password can you give it for us. Need help! Replies: 4 Last Post:PM. Replies: solidcam 2017 manual free Last Post:PM. Replies: 2 Last Post:PM. The time now is AM. All rights reserved. This website uses cookies We use cookies to optimize our website for you and to be able to improve it continuously.
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SolidCAM CAM Software: SolidCAM .
On the third day we changed to Steve HSS - he was obviously more experienced and could talk to us on a more industry practical solutions. The Trainers were very good, but the 2. The course was delivered at break neck speed instead of taking a more organic approach and listening to the customers needs and taking into account the differing abilities of the students.
Our instructor was very informative, proffesional and approachable but the first day was all about getting through the whole 3d drawing package, being a novice I was lost after a couple of hours.
This was also the case when I attended a week long course several years ago, it was a complete waste of my time and our companies money, I came away with absolutely nothing even after makning it clear to the instructor that I was lost, she was too intent on completeing working through the course booklet than helping me to learn.
The second was more helpful because we were in the workshop environment and stuck in a classroom. Feedback Response: Hello. Thank you for the feedback on both courses. We do spend considerable time ensuring that the information on our website and course confirmation emails are relevant and up to date, therefore I hope that we have described the course descriptions and agenda accurately so that it is clear what will be covered on a course before attending.
It would seem that you had quite a different experience to one of your colleagues on this same course. We are committed to providing a high level of training on all our courses and will endeavour to implement improvements where possible.
Kind regards — Julie Weir Training Manager. The course was delivered at a breakneck speed. As with my experience with other solidsolutions courses. It was clearly aimed at the fastest person in the group not the slowest. I gave up trying to keep up in the end. Didn't really gain anything from it. Waste of time and money tbh. This was the same as with a previous Solid works course.
So glad I didn't have to pay for the course myself. Thanks for writing this review and for your time on the phone.
Your training experience is very different to that of your colleagues below after having attended the same course. After having spoken with you both, it was nice to hear that you both found the instructor to be knowledgeable and friendly.
We always aim to work to the speed of the slowest person in the class while ensuring that everyone in the class benefits from attending and takes something away. This is a requirement which the instructor must balance and it is important that we get attendee feedback in order to get this right. If I didn't understand something, Stephen was happy to stop and take the time to go back over the topic until I was happy, we would then move on.
All topics were explained really well. I thoroughly enjoyed the course thanks to Stephen. The software is good but very intuitive - I felt the material can be covered in a much shorter period of time and condensed into fewer sessions.
Also not a great food selection for lunch, sandwiches are fine but cold food that is typically served warm is not great. Great experience as usually with Solid Solutions! Course was well taught with plenty of good examples. The trainer was very helpful and was able to answer all of our queries. Taught the course to match the needs of everyone attending, with no rushing or delays.
If Gary could not answer at the time he endeavoured to find out and let us know later that day. Trainer very knowledegable about product, a little too quick at times albeit helpful when the need arose. I found Gary to be very informative and answered any questions i had, and showed examples, which i found very helpful.
Gary is really easy to get on with, which made the training so much easier to absorb. The course instructor was good, he spent time with individuals answering their query's and generally covering all aspects of the course well. Gary was very polite and extremely helpful. He went through the course very thoroughly and gave a good understanding of what it was about and how it worked.
As ever very knowledgeable guys giving first class training. Steve Abbott was very professional, knowledgeable and patient. GPP] file. Note that it is sufficient to give the name of the machine; the GPP extension is automatically added.
Note that it is sufficient to give the name of the machine; the DPP extension is automatically added. This part of the holder belongs to the machine. Note that it is sufficient to give the name of the tool table; the TAB extension is automatically added. If there is a split, the name will be built from the first characters of the part and the number of the split. All the spaces are deleted from the part name. The name of the folder is the same as the GCode segment file name.
Fast Gcode Generation 3. If this parameter is set to Y, SolidCAM preforms the output of the actual G-code command in the G-code block only in case when the G-code command is changed from the previous G-code block.
Machine Initialize 3. It can be changed in the home definition dialog for current home. This parameter is not relevant for turning machines without milling capabilities.
Max value is 5. This option is disabled in the Transform menu. The reason is that the homes are saved relatively to no of axis definition. Others - Z. The default axis is ZYX.
CCW is a default value. In this fashion we emulate a six axis, generic machine that enables SolidCAM to derive an output compatible with all machines regardless of machine kinematics. G68 X0. There are CNC controllers that are capable of receiving three angular displacement values as input values and converting them into a two angle rotational displacement compatible with the machine kinematics. MillPlus, Heidenhein, Sinumerik. The tradeoff is that this option serves a machine or group of machines with identical kinematics.
Purpose: 1 2 3 To make the Solid Verify Simulation the Coordinate System dialog visually compatible with the machine kinematics. To obtain the proper positioning displacements of the rotational axes when orienting the workpiece from one coordinate system to another. Alternatively, the user can define a coordinate system using a SolidWorks sketch drawn on a the workplane in the desired orientation. Up until the development of this option this was the mode in which users would define a coordinate system such that there would be no need to employ a program rotation macro function eg.
The following is the coordinate system data for coordinate system number two: Figure 2: Coordinate System Dialog for ZYX instance Note that in order to position from coordinate system number one to coordinate system number two, SolidCAM calculates the axial rotations necessary around each of the three linear axes. In other words, the part is oriented according to the ability of the two rotational axes to position the workplane normal to the tool axis.
Figure 4: configuration 4 Coordinate systems oriented according to the ZY The following are the axis Rotations calculated by SolidCAM in order to orient the workpiece in moving from coordinate system number one to coordinate system number two: Chapter 3 Pre-Processor Parameters Note that there is no rotation defined around the X axis.
This notifies the post processor that the machine does not have a rotary axis capable of rotating about the X axis. This being the case, the rotation around the X axis is clamped to zero and the resulting rotations are calculated around the Z and Y axes such that they will position the XY plane normal to the tool axis.
The only difference will be in the angular rotation performed by the axes in order to correctly position the linear axes. Note also that the orientation of the second coordinate system in the ZX scenario is perpendicular to that which was obtained in the ZY scenario. The physical significance of this is that the rotary axis that rotates about the Y axis tilts in the opposite direction when positioning the axes workpiece according to an indexed coordinate system.
Changing ZY to ZX. Within a given kinematic setup eg. This is due to the fact that the coordinate system is essentially built in the opposite direction.
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