Sheet Metal Nesting and Contour Cutting in PTC Pro_ENGINEER - CAD CAM Australia3
Transcript of Sheet Metal Nesting and Contour Cutting in PTC Pro_ENGINEER - CAD CAM Australia3
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Sheet Metal Nesting and Contour Cutting in PTC Pro/ENGINEER
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Note: To proceed to this part you must have completed the parts required for the assembly and have also save the
sheet metal parts in their flatten forms.
This is image above here is a quick panel on what we will be covering this section for Pro Engineer Sheet metal Nesting and Tool
path /Post processing. The nesting process is done by specifying the parts in which are going to be used in the assembly needs
to be cut out the patterns for the assembly to be made again.
Now to create a nesting pattern as well as setup for the laser cutter, you will need to go to the new icon. Select Manufacturing>
Go to sheetmetal and give the file a name and click okay. A window on the right should appear similar to the window show on the
right here:
Within the fields setup the materials that are going to be used as well as the dimensions of the raw materials that are used in the
cutting process. Ensure that the size of the material that you are going to be using for the design fits onto the material
dimensions. Next click on the automation button. This will open a new panel and re-orientate the material sheet into a top view inthe workspace.
Before we begin with the nesting process, we will have to setup the machine operation in which the material is to be cut. We do
this by going to the wrkcell tab. Here, the settings for the machine operation can be configured for cutting, punching via flame or
laser. Parameters for the machining operation can also be configured at the parameters button. As well as the Machines
operational zone (co-ordinate system, start and finish positions, depth as well as Zone offsets) can be configured by going to
Mach Zone-->Modify and changing the required settings.
To Start with loading the parts for the nesting process, go to the Order tab, click the load button and select load parts without NC
Sequence. Click okay to complete and you will see it appear into the Automation panel under order tab. Next select the amount
of times you want the parts to be cut from the material by entering the value in the order cell next to the specified part. Next list
the order in which the parts are to be nested on the material, 1 being the highest of all priories to be nested on the material.
To see what the nesting process will look like click the preview button and the layout will be shown in the workspace given. Note
that there will be a green or pink circle next to the parts in the nesting process under the order tab. Green circle icon indicates
that the nest process can be completed to the specified repeated amount. The pink circle icon shows that the process cannot be
completed to the amount required and the number next to the icon tells how many can be cut from the material space given.
In the Order Tab, you can configure the offset of each part to be set a specific distance. To do this, Go to the setup button in the
middle of the Order List and go to the outer offset and use user defined value then okay. Note also that you will need to click the
preview button once again to see the new changes made to the nesting process. Once completed proceed to the defaults tab and
here you can optimize the nesting process.
Select the clustering Function as well as use holes option. This will allow for nesting process to use as much of the space
available which are within in the off-cuts of certain designs with holes. The clustering function allows for the parts to be sorted in a
fashion that the maximum amount of space is used up to cut complete sheet metal parts from the material itself.
Next we will start the cutting process for the machine. Ensure that the settings for the machine operation are set to the required
cutting or punching process (for laser cutting set to laser). Once done go to the NC Sequencing tab in the SMT MFG dialog
box. Next setup the machines settings and configuration through. Next Select Go to the tools button, select and a new dialog
should open asking you to specify the turret that is used for the laser cutter and its settings for it. To Set a new turret File, go to
the new button, select new contouring tool and fill in the appropriate fields. Note that the Die Clearance must be specified for the
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tool to register in ProE. Once
completed click done.
Another dialog box will open giving
you the option to choose to define
the contouring definition via sketch
mode or selecting an edge for the
toolpath.Select the Use edge and
another dialog box will open. Set
the options for include, loop and
press select button in the dialog.
Next select any edge on the
nesting design and notice how thewhole design is highlighted. Next
press okay, done and proceed to
the next dialog box to specify the
direction of the cutter on the
design. Note in the window you can
specify where the cutter can start as well as the start and finish position
of the cutter. Once completed click done and done again to return back
to the NC sequencing screen.
The cutter was only setup for
one part design to be cut from
the material at this point.
Repeat the process for
different parts which are
nested on the material thatneeds to be cut. Once
completed, to repeated
cutting process on all of the
other duplicated parts which
are nested on the material, go
to populate and select create
Next double click the items in
which are presently lis ted in
the main dialog box that just
open. This will include the
cutting process to be
repeated on the necessary
design parts. Note that Pro
Engineer provides the ability
to use subroutines allow the
user to create specific orders
as well as
arrangements for parts
to be cut out in a
specific order if
required. Once
completed, the preview
button on the bottom of
the populate dialog box
will allow the user to
see the cutting
process in action.
This is the NCL Player
which allows the userto see the estimated
time it will take for the
cutting process as well
as the pattern in which
the cutter I will take on
the material based on
the inputs and the
priorities set for
specific parts to be cut. Press the play button to see the
process in action and to speed up the view press the fast forward button. Press close to return back to the NC sequencing page.
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The next step is to optimize the NC process. To do this, go to optimized and
press create. On the optimized dialog, select remove duplicated cut lines and
confirm. Next select the order button Tool travel Specify and another dialog box
will open. Here in this window, you will be able to prevent the flexing of the material
sheet as parts are cut off as well as specifying the areas in which not to cut, for
example the clamping areas.
To do this, select the following
options, reduce Y moves
BothMax X Max Y and press okay
until you are back at the NC sequence window.
Now since that the sheet metal design has been nested, setup for machining and
optimized to minimize waste, the design now can be previewed once more before
we put it out to G-Code for post processor. To do this in the NCL player, go to file
select post process done and select the appropriate Post processor code. We
enter in the program number and then 00 behind it. Hit enter and the G-code or
.tap file will be saved to the set directory in Pro Engineer.
Demonstration 3:
Now after creating the assembly with no problems to the design, we will proceed
directly importing our designs to some sheetmetal. Now we follow the basic steps
to nesting as shown above.
We will be be using a sheet of 30 gauge of stainless steel, which we will specify
with the dimensions that we are given. For this particular design, we will be using
a laser cutter machine for the translating to G-Code for the post processor. Now
that we have added in the parts via the automation button and selected the amoun
required for each part to be cut out from, double check that the priority of each parhas been numbered ( 1 to 3 in this example). Next we will enable clustering as
well as using the holes in the nesting process by going to the default tab in the automation dialogue. This completes the nesting
process of the parts, and the nesting is ready to be applied with cutting path for the laser cutter.
To do this, setup the populate feature up with the appropriate machine
settings for each tool path cut as shown above. Once completed, run the
NCL player to see how long it will take the cutting process to take. As we
can see 56.54.03 time is given here for the process. Now we will optimize
the tool path to see if we can save some time in the process. We go to
the NC sequence dialogue and select the optimize button. We tick off the
remove duplicated cut lines and confirm. Next we select the Order button
and select the boxes for the tool and part order to be specified. For both
options, tick the reduce Y moves and tick the box with MinX MinY for thestart corner.
Figure 3.1- Toolpath for sheetmetal tutorial without optimizing
Click okay to complete and preview the cutting process using the NCL
player. Note the amount of time required for the process has been
reduced down to 43.12.37. Now we save the NC file accordingly and go to
the Post Process in the File menu and select the Verbose option for the
post process. Now we will be using the UNCXO1.P11 code option for the
translation here. We enter in the program number with the start of 00 and
the enter. Now you will find the code saved as a 2 file. Open the code in word pad to see the contents.
Figure 3.2- Toolpath for sheetmetal tutorial without optimizing.
Note the difference in the estimated finishing time.This completes the Sheetmetal tutorial for designing, assembly, Nesting and
Translating to G-code for the post processor. It is worth taking note that there are a lot of options which are available for nesting
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as well as the design process
Toolpath for sheetmetal tutorial without optimizing. Note
the difference in the estimated finishing time.
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