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Getting Started with Model States

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说明

The new Model States functionality introduced in Inventor 2022 software has many uses within your Inventor design files. It was introduced as a replacement for the pre-2022 Level of Detail assembly functionality, and also provides an alternative to the iPart and iAssembly functionality. This class will begin by discussing the uses of Model States, from their role in creating component design configurations to improving retrieval times and performance when working with a large assembly. You will also learn how to create Model States in both part and assembly files, and then how to maximize these files in your drawings and presentation files to document their design.

主要学习内容

  • Learn about the uses for Model States in your Inventor designs
  • Learn how to create Model States in Part and Assembly Designs
  • Learn how to use Substitute Model States to simplify Assembly designs
  • Learn how to use Model States in drawing and presentation files

讲师

  • Jennifer MacMillan 的头像
    Jennifer MacMillan
    Jennifer MacMillan holds a mechanical engineering degree from Dalhousie University, Nova Scotia, Canada. For the past 25 years Jennifer has been writing and delivering training content for CAD as well as other technical software platforms. More recently, Jennifer has been enjoying working with clients to design and develop unique learning and documentation solutions to support their end-users with their unique combinations of software, standards, and workflow procedures. She works with the Rand Worldwide division, ASCENT-Center for Technical Knowledge, where she develops and manages the training curriculum used by Autodesk Authorized Training Centers. She also has her Autodesk Certified Instructor (ACI) certification.
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Transcript

JENNIFER MACMILAN: Hello, everyone and thanks for taking the time to join me today. My class is all about how we're going to get started using the new Inventor 2022 model state functionality. My name is Jennifer MacMilan, and I work as the manager for learning content development with Ascent. Many of you may already be familiar with Ascent having used our material in training classes, but we also partner with a lot of software resellers, schools, and corporate companies like yourselves to help develop custom learning content.

Personally, I'm a mechanical engineer, and I have focused my career on the software support, training, and curriculum development for many mechanical design softwares. The majority of my time is spent creating learning content for Inventor. However, I also love giving sessions like these. So with that, let's get started. So this presentation is going to focus on the following four learning objectives. I'm going to begin by introducing you to the uses of model states, show you how you can create them, how you can also create substitute model states, and then how you can leverage all of these model states in your drawings and your presentations.

The format of this class will be a combination of PowerPoint presentation and demonstrations directly in Inventor. So let's get started then with our first two objectives, and those are going to be on the why you're going to use model states and to how you can create them. So the model state functionality is brand new with Inventor 2022 and it has many different uses. First off, it's great for designing and configuring multiple versions of the part in assembly files.

For example, here in my images I have park files at the top of my screen, and I have some assemblies at the bottom. And you can see that model states have been used to create different product variations in the park. So some different material properties, some different lengths. And in the case of the assemblies, I've also controlled the component display of some of the components in the assembly. You can also use model states to document your manufacturing stages by controlling feature level of detail.

And then the final three bullets I have here are all focused around the assembly side of things, where model states can really benefit you when you're working with large assemblies. You can use them to help simplify what's being displayed to help improve your retrieval times, and then they also can be used as a basis for model simplification if you're going to go out and share any of your design IP. So there are a few other things about model states that I'd like to discuss before showing you how to create them, and these next few bullets are really aimed at those of you that have used Inventor prior to 2022 when the model state functionality did not exist.

So first off level of detail functionality no longer exists in Inventor 2022, and it's been replaced with model states. And this is providing an alternative to iParts and iAssemblies. So you can choose to either use model states or you can use the iPart and iAssembly functionality, but you cannot use both. With Inventor 2022, the model state functionality is enabled by default with all of the Autodesk templates. And then if you decide you don't want to use those and you actually want to go back and use iParts and the iAssemblies, you simply have to enable those commands directly on the Manage tab on your ribbon.

So the first question I always get from students is, how do I take my older models from older versions into 2022 and how do they get affected? So there's two scenarios you want to keep in mind here. The first is if you do not have any iParts or iAssemblies in those older models, what happens is that model states does get enabled in 2022, and if you had any levels of detail in those files, they get converted immediately to model states. So when you go into your file in 2022, you will actually have some default model states created.

In the second scenario, if your parts had iParts or iAssemblies, the model state functionality is not enabled, it immediately recognizes you're using iParts and iAssemblies, so that remains the functionality. And then if you had any levels of detail, instead of model states, they get converted into design views. So that's kind of the two scenarios. So next I guess, if you end up loving model states and you actually want to convert your old iParts and iAssemblies in the model states, how is this done? Unfortunately, this is a manual process right now. You have to go in and actually make the changes in the new file to create the model states.

I recently did this with a part file. And what I did was I opened the table in my file, had it for reference, and then I removed the table from my file and then I recreated it, just referencing it. You can also go back and forth and copy and paste from the table because there is spreadsheets as well in model states. However, you have to be really careful with that because the syntax is not quite the same. So you'll certainly want to become familiar with model states before you start doing that kind of large scale conversion.

And then the iParts and iAssemblies get stored in vault as separate part files, and this is actually not the case with model states. They are all stored as separate files within vault. So what you need to do if you actually want vault to recognize all of the unique properties or parameters that gets put into your model states, you're going to want to make sure your Vault Professional implementation leverages items. Without this, you're not going to be able to see all of that data. You're only going to be reading the master data on that file. I'm certainly not a vault expert but I have added a little bit of information on this in my handout.

So before I slip into Inventor, I have one more slide on how you can create your model states that I'd like to just talk through. It's actually really easy and intuitive and really in just simply involves you configuring parameters, features, iProperties. And it's all done directly in the model geometry or using the Inventor interface. So unlike iParts and iAssemblies where you actually had a separate dialog box, you don't have to do that for model states. However, as I mentioned previously, you can leverage the use of spreadsheets.

So to do that, to actually create model states, you simply are going through and you're suppressing or unsuppressing features or components, you're making modifications to iProperties, to parameter values, constraint offset values. And then in the case of part files, you can also assign unique materials. So that's something that can be customized with that. In the model browser I have shown here on the right, you can see I've got a big area circled at the top. And that's my model state node. That's the new node that gets added in 2022.

The very first one is simply the master, that's the default configuration of your model. And then all the others are unique ones that I've created. And you can see that right now I have vise-short enabled. So that's the active one right now. You can see the check mark adjacent to that. And then the last thing I just wanted to quickly draw your attention to is the naming scheme. Really want to make sure that you name your model states to be clear, easy to understand.

And then also if you remember the level of detail functionality, there was a productivity tool called link levels of detail. There's also one now for link model state. So this is where having a consistent naming scheme between all of your sub-components and an assembly are really valuable. And I'll actually show you that in my demonstration. So with that, I want to flip into Inventor now, and we're going to show you a little bit about how you can create these. So I've got just an assembly on my screen here. And you can see that it's a pretty simple straightforward assembly. I have a number of different components, and then I have a sub assembly as well.

So I'm going to go through this and actually create my model states. So before I got started here I did create one. And I did that to show you that your naming scheme of the top level, the assembly, actually always shows in brackets the name of the active model state. So if I was to go back and here now and change back the master, you can see how the name has changed. So I'm going to just leave this for now because what I want to do is I want to start in my part file.

So I have a one part file here, and I have it open already. So I'm going to flip into this part file. And again, you can see the model state node is right at the top, I can expand that out, and I have my master. And right now what I want to do is I actually want to go through and create my model states. So to do that, I'm simply going to go New, and it's going to launch and create it. And now that it's created that, you can see model state one here. I'm going to click New again and New again.

Now I mentioned both the naming scheme so I'm going to show you just-- I'm going to be super original here and we name each of these vise-short, vise-medium, and vise-long. And what we'll do is we'll be varying the length of each of these. So you can see it's a very descriptive naming convention that I'm going to be using throughout my demonstration. So I've got three model states created. I can switch over into the second one that I created then also up to vise-short.

And as you notice, when I flipped between these, nothing happened to my model. And that's completely as expected because I haven't actually customized anything yet. So what I want to do now is actually customize the length of my short model state. And to do that I'm going to go into the parameters dialog box, I have a custom named parameter here called length, and I'm just going to modify that value. It's a really straightforward, it's all intuitive, because it's using the same dialog box that you would make parameter changes in.

And then when I click Done there, it updated to the smaller size. Now if I flip the vise-medium, you can see it's gotten a little bit longer. That's the original size and I'm going to keep that original size, but I'm going to make a change in this third model state. And to do that, instead of going into the parameters dialog box, I actually want to go in and show you how I can make modifications directly in my graphics window. So I'm going to show dimensions, and here instead, I am going to just modify the value here. And this is quite handy if you hadn't renamed any of the parameters. So you might not know what dimension value or parameter name it is. So this is a really easy way for you to know which parameters you're changing.

So I've just modified that. I'm going to update my model, and now you can see I have three different sizes. I have the long, the medium, and the short. So now I have those three versions and what I want to do is actually make another change to the model. And in this, I'm going to actually affect some of the features. So first off though, I do want to show you one little thing here, if you've noticed that this pencil icon is adjacent right now to the vise-short. So that's the active model state. And this pencil is identifying that it's the current model state that's being edited.

I'm going to click on this Toggle at its scope button. And when I do so, it's telling me that I've enabled my factory scope. And now you can see I have pencils beside all of the model states. And what this means is that if I make any kind of change to my model at this point, it's going to change all of the model states. So you just have to be really aware of what your intention is with the change you're making and make sure your model state scope is set properly. So for my change, I actually only want to make it in the vise-short. So I'm going to toggle off that button so I know I'm only editing the short version.

And I'm going to go to the whole feature down here, and I'm going to suppress it. So for this short version, I don't need those mounting holes, so I've just removed them in that version. If I flip to vise-medium, you can see those holes still exist, they're still available there. And also in vise-long, I also have the holes. And I can actually make another change to these holes. And what I want to do is show dimensions here. And I'm going to change this again just to a different dimension value, update my value. And you can see just with that longer version, it just created a little bit larger mounting holes. So now I have the three different versions of holes through each of my model states.

So back at my short now, what I want to do is I want to show you how in the park model you can actually change up the material type. So right now, you can see Castile is set, that was the material that was set with the master. So I'm going to go in and choose copper cast for this version, and you can see how the material is updated. For my vise-medium I'm going to activate that and change that one to cast iron. And then with the vise-long, I'm actually just going to leave that as the default, which is just that Castile. I'm fine with that one.

Then I'm going to return back up into vise-short here. I'm always just going to the top just to keep track of where I am. There's no need to do this. You can flip around as much as you want to make your customizations. And what I want to change here is my iProperty value. Right now, each of the model states relies on the master for its iProperties. So I can actually go in and customize the properties.

So with it active, so I have an active right now, I can go into iProperties, and I can go let's change the part number. And right now you can see it's reading base, that was the value for the master. And again, with my very original naming convention, I'm just going to name that vise-short, then click OK. So now there's a custom iProperty assigned to that short one. Now I could go into each individual model state here, double click, right click on the top, going to iProperties and make those changes. But I want to show you the spreadsheet at this point.

So I'm going to right click on the node , click Edit spreadsheet, it's going to open up the spreadsheet. And if you've used iParts before, you can see it's very similar. Like I said, the convention is a little different in some situations so you want to really be careful with the copy and paste. But I'm going to draw your attention to each column is all of the unique properties that I've assigned throughout this part file.

And in this last one you can see that I have the iProperty set here for my part number, and I'm just going to change up these others to modify them here. So you can see in some situations it actually might be a little bit more efficient to go through. And once you've signed the very first one and it gets added into the Excel spreadsheet, you can go in and manually do the remaining customizations. I could also create unique model states directly in here. So using row 6 here, I could customize a brand new model state as well. I'm not going to do that right now. I'm just going to hit Save and Close this up, and go back to my model.

So now you can see if I was to go into vise-long here, take a peek at my properties, you can see that that customized version that I just modified in the spreadsheet has been updated here. So now what I want to do is just save this part file. And I'm going to return back up to my top level assembly, and you can see immediately that I need an update. So that's fine, I expected that. So now I have this part file, and if I expand out this node, you can see that all of those unique model states that I just created are all visible now in my part file.

So to actually control them at the top level, I have to go in and create model states at the top level nodes. So I've already got one here. It hasn't been customized at all yet but I'll create two additional ones as well, and I'll go through and name these again. And again, with the consistent naming scheme-- and then the third one here, vise-long. So I'm not going to change anything at the component level right now. What I want to do, though, is I want to show you how-- right now, I have vise-short actives at the top level, what I have to do is actually enable the model state out my component level as well.

So all I have to do that is ensure that the right one is active at the assembly, and then I just have to activate the one at the at the park level. And you can see that it's done because now you can see that I have that other material type now that color has changed on my model. So I did that so it would be really obvious to show that it's been updated. Again, vise-medium, I would match that up with my vise-medium down at the park level, and I'll do the same thing for vise-long.

So I mentioned about the naming scheme and about that productivity tool linked model states, I'm going to use that in a moment to show you how you can use this, but I also want to show how you could manually do it. And in this situation where I only have one sub-component that has model states, I find myself that just the manual activation is just as quick. So that's what I wanted to just quickly show you there. So the other thing to keep an eye on is I just compressed that component node there. You can see how-- you know that the correct model state is active because of the brackets at the end of the part file. If I switch to vise-medium, you can see how the right name is there. So it's a good double check for you to make sure that everything's good.

So with this vise-long active, I just want to draw your attention to the model, because we actually have a bit of an interference going on here. So this sub assembly right here, you can see is interfering with that base model. So what's really happening is that that sub-component, this vise screw component is not long enough for the change that I made in that base file. So prior to this demo, I actually went in and actually created these just to kind of speed things up because really we just created a part file and model state. So I did the exact same thing here.

So I created three different model states, each of them with a little bit longer component length. Now what I want to draw your attention to here is really important. It might be hard to see but these are all grayed out, which means I actually can't activate them at this level. And this is intended functionality with model states. And the same holds true for right clicking inside of a sub assembly. You can see here I've right clicked, I don't have any access to that new functionality. I can't create a new model state.

So when you're in a park file, you can activate those, but when you're in a sub assembly, you need actually to create them. You need to go outside the file and create those. So what I've actually done to speed this demonstration up a little bit is I have actually already created this sub assembly with all of the proper model states. So I'm just going to go in here and quickly replace the components. So now I've just replaced it with another version of it. And in this version, you can see that I now have those three model states and they would link up with the model states in this bottom version. Sorry, this [INAUDIBLE] part. So that's what I wanted to show you there.

Now I'm going to go back up to this top level, so you can see vise-long right now it's activated the right one here, but you can see that it hasn't done it here. So manually, if you go through and do those things, this is where I really want to show you the benefits of that link functionality. So with that, this is why the naming scheme is important. So vise-long, I want to connect with any other model states throughout my design that also have the same name. So I'm going to click OK here, it's basically saying that it's going to change my model state. And now you can see that there's no more interference, it's actually pulled in the right version of that assembly as well as the right version of that part file. And it did that simply with that linking.

Vise-medium, I'm going to do the exact same thing. So this is where you can see the benefit. When there's multiple levels of components, this link model states is a very handy functionality. So now you can see I've got very short actives, you can see the naming conventions in the model browser, how it all works there. So lastly, before I go back to the presentation, I just want to make one more change here. So we've changed features within parts, but I also want to actually just suppress a few components here. So with the vise-short active, I'm going to right click on this and just suppress some features here. And you get this dialog box that comes up. And really it's just telling you that it's going to recognize that the bill of materials is going to reflect the fact that you're actually suppressing those components. So I'm going to click OK, and with vise-short active, I'm actually going to open my bill of materials and confirm that you can see here that there are zero quantity of those components showing. If I go over in device medium and run my bill of materials as well, you can see now I have all four components visible.

So the bill of materials always reflects what's happening in your model state. So it's an active representation of your assembly. So with that, I'm going to go back over into my presentation, and what we're going to do is we're going to focus now on the third objective, which is with respect to using the substitute model states within your assemblies. And you can use these to help you simplify your designs.

So a substitute model state enables you to swap out a complex component or assembly for a simpler part file that represents it. The substitute still contains all of the bill material information that's normally associated with the assembly as well as any physical information like the center of gravity, or your mass, those types of things. Using substitute parts reduces the amount of components that get loaded into memory. So it's a great tool for working with large assemblies.

In the images I have here shown, you can see that on the left I have a master model here, where I have some fan blades at the front, and then on the right hand side, I've actually just created a really straightforward substitute model state, where I've replaced those blades with a new part file. And you can see how that's-- now it's still giving me the space claim for the extent of those blades but it's not giving me all the detail. So quite simple example there.

So in terms of creating a substitute model state, this is all done at the assembly level. And it's done by right clicking on the model state node as I have shown here. And instead of clicking New, you click New substitute, and then you have three different options that you can use to create that substitute. Just before I go to the next slide though, I just want to draw your attention to step 2 in my list there. There is an optional step that you can create a model state as well in there. And in the demonstration, I'll show you why that can be really beneficial for you in working with substitute model states.

So on this slide, I have screen captures of those three options that we just mentioned. The derive assembly option simplifies the assembly using the pre-existing derive functionality that you might already be very familiar with. And the result is simply it generates a park file that is then used in the substitution. And the Select part file option enables you to actually just replace the components with an existing part file. So something you already have on your hard drive. And you basically are given the option to navigate to that file and insert it to create your substitute model state.

And then that third option here, this property's panel, this is called the simplify command. This is a new name for what was previously called shrink wrap. So now in Inventor 2022, shrink wrap has been moved into this property's panel. And it has a lot of the same functionality, but I want to use this example in my demonstration to show you a little bit about that and how we can use the simplified command to create that substitute.

So now again, I'm going to go back over into Inventor, and we're going to move on to the next assembly. So I'm going to flip just to my next window here. Again, I like to keep it simple. This is a really straight forward assembly file, has a bunch of different parts, and also one sub assembly down here. So I'm to open this sub assembly, and this sub assembly is pretty straightforward, it's only got three simple little parts. And then I'm going to open up this part file as well. So this is what I want to highlight and show you what you can do to simplify it.

This is certainly not a large assembly. You wouldn't get any kind of benefit from doing this in terms of resources, that type of thing, but it's making it simple so that you can see how this functionality works. So I'm going to begin by creating a new model state directly up the part level, and I'm going to rename this to suppressed grip features. So again I'm being really original. I find it really the best thing is to make it obvious what your model state is. So that if anyone is going to be grabbing this file downstream that they'd be able to figure out and know what you have done.

And with this, I'm going to suppress some geometry. So I'm going to basically simplify this model and I'm going to suppress this just so I've removed kind of the cross cuts in this. So you can see that it's just a little bit more visually different than the first master model state. I'm going to click-- I've return master just to be sure you see the difference between the two, so the master and the suppressed. We're going to click Save on this file, close it up. And now at the housing level, again, if I was to extend the grip, you can see that there is a model state down here, but I need to create it another model state at this top level so that I can actually control it.

And this what I'm doing here is actually that optional step 2. I'm creating the model state for leverage when I create the substitute actually. So with that, I'm going to just double click down here. So I'm manually going to activate it. So now I have a master model state and the suppressed grip features model state. I'm going to return to the master for continuing here and you'll see what I'm doing in a moment here. So there's another folder in here, this is the substituents folder. And it is simply a folder, it's simply to help identify the differences between the substituent model states and the other regular type model states.

So I'm going to right click here, and I'm going to show you the difference in terms of creating. So we're not going to click New, we're going to click New substitute, and here are those three options that I just talked about, and we're going to click simplify. And this is that dialog box that you're going to use, and this is the replacement for the shrink wrap functionality. If you just wanted to use what was previously called shrink wrap, you can absolutely do that outside of substitute model states. It's using this simplified command up here on the ribbon. So it's on the simplification panel. So you can access the exact same commands.

So when you create your substitute model state using simplify, you want to work from top down. So I'm going to expand out this input area. And this is where that optional model state really comes in handy here. So I am going to actually leverage the use of that model state in the creation of my substitute. So now what it's doing is it's going to leverage that as the starting point geometry. I could also have customized a design view or a positional representation, but right now I'm just sticking with the model state.

Just like shrink wrap, you can replace with envelopes. I'm not going to do that at this point, you can exclude components. So if you had a really large assembly, you could certainly go through and remove any maybe internal components, things that you don't need to show to help you simplify the geometry that's going to be created. Now the next one is this remove features. And this is where creating that model state prior to doing the simplification is really important. You can see the list of feature types here, the holes fillets chamfers. It's really allowing you to customize certain types of features and certain types of geometry shapes. However, it doesn't give you the ability to actually go through and say, well, I'm going to turn off this extrusion and this circular pattern.

And if you remember, that's what I did in suppressing the features in that model state I created. So instead of customizing the remove features there, I did the exact same thing with more flexibility, with the geometry types by creating this model state. So that's why it's optional. You don't have to do it, but it is a nice way if you wanted to remove features that don't get grouped in with the remove features area. I'm not going to remove any features so I'm just going to close that up. And then finally the output area, and this is really where you're going to create the file.

So I'm going to go in here and I'm just going to quickly select the default template. I'm going to leave the default name, location, but keep the bomb structure as normal. And I'm just going to generate this as surface geometry. So you'll be able to see the difference in the icons when I create this. Then click OK, and you can see how it's generating that substitute. Now you can see over in the browser again, lots of stuff happened. The substitute folder now has a substitute model state, and that's that default name that I just used when I created it. And more importantly, what you can see here is I have a single part file now.

So this housing simplify is actually a part file that was created and exists now on my hard drive. It's a service model as you can see from the icon. If I was to flip back up into master, you can see that it goes back to those three components. So that's what that optional is really valuable for is that when you're to simplify and remove some of the features that don't get grouped inside the remove features area. So I hope that explains it for you. So now I'm just going to save this and return back up into the top level pencil. And here now you can see that I have all those model states existing. I have this substitute down there, everything is happening within here. But again to control it from the top level I'm going to have to create a new model state up here.

I'm not going to rename that just for sake of getting through this. But what I can do here is I could use the link model states to activate the right simplification, or I can just double click on it. So now you can see that with this model state-- maybe I'll just quickly rename it housing simplified, --you can see that this housing gets brought in. And you can see by the icons it's a single part file instead of all of the components. If I go back to master, you can see how the icon changes and it's showing that it's a sub assembly again with multiple components.

So this is how you can use the substitute model states to help work with large assemblies in your company setting. So now again, I'm going to flip back over into my presentation, and we'll continue on with our next objective, and this is actually the final objective. Now that we have learned how to create parts in assembly design model states, I want to show you how you can leverage those inside of your drawings and your presentations.

So in terms of a drawing, you can use model states to create drawing views simply by selecting the name of the drawing view in the drawing view dialog box. So you can see on the left hand side here, I have a pull down list active, it highlights all the model states that I have existed. So your drawing view can represent any one of those model states. And then additionally, if you then use one of those drawing views to create a parts list, that parts list accurately reflects the information from that parent view.

So in the image I have here, I have a couple of different parts lists here. And you can see one of them has four vises assemble. One of them has only one vise and the parts list update. And that was both done with model states. In terms of a part file, so if you actually are representing a part file inside of your model, you can also leverage the use of general tables to create a table that actually details all of the information that was customized in the different model states.

So I've shown a little example here. You can see the three different sizes of vise base that I brought in here. And you can see the different material types that have been assigned, as well as the different links, whether the holes have been suppressed and then if they exist what size the holes are. And that's all. I'm done with general tables. And then finally, the last one here, how to use model states in a presentation. You can absolutely create every scene in your presentation with a unique model state. So if you already have an assembly open, you'll want to activate the model state, and then if you simply right click to Create the presentation, it automatically will create that first scene with the active model state.

Now if you're actually creating your presentation using the file new option and then selecting the presentation template, you can select the model that you want, and then you can go into the Options dialog box and actually select the actual model state that you want to use in this scene. In addition, as you want to add more scenes to your presentation, you can also leverage picking different model states. So it's a great way maybe to show different design variations on manufacturing stages, that type of thing.

So now again, want to go back into Inventor and just finish up this presentation. And what we're going to do here is we're going to focus on the drawing side of things. I'm going to go back up into the vise assembly, and I'm going to open up the vise short model state. And doing that, I'm just going to right click Create drawing view, and I'm just going to use the default template here. And I'm just going to add a couple of quick views here. And you can see here, the model state because I created the drawing with that model state active, it automatically defaults to this.

I can certainly choose a different one if I wanted to. For now I'm just going to leave the default there and click OK. And now you can see some views have been added. I'm also going to add my parts list in here, and I'm just going to choose that base, view and place my view. And you can see how the parts list reflects accurately what's going on. So if you see here this quantity is zero, if you remember back when I created the model states at that assembly level, I suppressed some of those components, those internal screw components in that vise-short.

Now if I maintain in the drawing here and I want to go over and modify this, I'm going to change this over to vise-medium, you'll see the view got a little bigger, material properties changed, yes I want to replace things. Now if I Zoom in here, you can see that I actually have the four components again. So as I mentioned in the presentation, the parts list always accurately reflects the information in the model state.

And then lastly, I'm going to just flip over into a drawing. I've already created the views on, and you can see this is just the three model states for that base. And here what I want to do is just show you that general table functionality. So I'm going to just click General table, select one of these as the parent view, I'm going to go in and decide and assign what my columns are going to be. So add them all for now.

To customize my table, click OK, and then place my table, and now you can see how the table has come in with that information, with everything that I wanted to see. Just like any general table, I can go in and customize this, and customize the headers. I could rename things, change them to some kind of custom. Instead of hole four, I might want to say mounting holes. I can make all those changes. I can go in, remove one of the columns if I wanted to simplify things. So that same functionality that's always been available inside general tables is available when you're leveraging the data from your model states. So with that, I'm going to flip over and finish things up.

So the final presentation there ended kind of-- brought everything together with how we could leverage the model states into drawing. So we went through and we talked about how you create them both in parts and assemblies. We talked about the nuances of if you're going to be creating model states within a sub assembly, how you actually have to go and specifically open that sub-assembly in another window and create the model states there. We talked about the linking. So manually linking them by simply double clicking or more importantly, the linked model states, which is super valuable if you have lots of model states and multiple levels of your assemblies.

And then we also focused on the substitute model states, and we specifically focused on the simplify functionality that replaced shrink wrap. So a really nice functionality there. The other two options that derive assembly and the select part file, those two functionalities were also there as well for levels of detail. So there's no differences there, really it was the simplify that's changed up with the fact that shrink wrap has been removed. So I certainly want to spend time on that.

So with that, I hope that we covered everything you wanted to learn. And thank you so much for taking the time to watch my presentation, and I hope it really gives you a better understanding of this new functionality of model states. As a reminder, please take a look at my [INAUDIBLE] handout. There's lots of great information in there for you to review and it's available on my class page. And thanks again, and I really hope that I get to see you in person next year.

______
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Salesforce Live Agent
我们通过 Salesforce Live Agent 收集与您在我们站点中的活动相关的数据。这可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID、您的 Autodesk ID。我们使用此数据来衡量我们站点的性能并评估联机体验的难易程度,以便我们改进相关功能。此外,我们还将使用高级分析方法来优化电子邮件体验、客户支持体验和销售体验。. Salesforce Live Agent 隐私政策
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我们通过 Typepad Stats 收集与您在我们站点中的活动相关的数据。这可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID、您的 Autodesk ID。我们使用此数据来衡量我们站点的性能并评估联机体验的难易程度,以便我们改进相关功能。此外,我们还将使用高级分析方法来优化电子邮件体验、客户支持体验和销售体验。. Typepad Stats 隐私政策
Geo Targetly
我们使用 Geo Targetly 将网站访问者引导至最合适的网页并/或根据他们的位置提供量身定制的内容。 Geo Targetly 使用网站访问者的 IP 地址确定访问者设备的大致位置。 这有助于确保访问者以其(最有可能的)本地语言浏览内容。Geo Targetly 隐私政策
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我们通过 Google Optimize 测试站点上的新功能并自定义您对这些功能的体验。为此,我们将收集与您在站点中的活动相关的数据。此数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID、您的 Autodesk ID 等。根据功能测试,您可能会体验不同版本的站点;或者,根据访问者属性,您可能会查看个性化内容。. Google Optimize 隐私政策
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Google Analytics (Web Analytics)
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AdWords
我们通过 AdWords 在 AdWords 提供支持的站点上投放数字广告。根据 AdWords 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 AdWords 收集的与您相关的数据相整合。我们利用发送给 AdWords 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. AdWords 隐私政策
Marketo
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Doubleclick
我们通过 Doubleclick 在 Doubleclick 提供支持的站点上投放数字广告。根据 Doubleclick 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Doubleclick 收集的与您相关的数据相整合。我们利用发送给 Doubleclick 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Doubleclick 隐私政策
HubSpot
我们通过 HubSpot 更及时地向您发送相关电子邮件内容。为此,我们收集与以下各项相关的数据:您的网络活动,您对我们所发送电子邮件的响应。收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID、电子邮件打开率、单击的链接等。. HubSpot 隐私政策
Twitter
我们通过 Twitter 在 Twitter 提供支持的站点上投放数字广告。根据 Twitter 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Twitter 收集的与您相关的数据相整合。我们利用发送给 Twitter 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Twitter 隐私政策
Facebook
我们通过 Facebook 在 Facebook 提供支持的站点上投放数字广告。根据 Facebook 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Facebook 收集的与您相关的数据相整合。我们利用发送给 Facebook 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Facebook 隐私政策
LinkedIn
我们通过 LinkedIn 在 LinkedIn 提供支持的站点上投放数字广告。根据 LinkedIn 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 LinkedIn 收集的与您相关的数据相整合。我们利用发送给 LinkedIn 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. LinkedIn 隐私政策
Yahoo! Japan
我们通过 Yahoo! Japan 在 Yahoo! Japan 提供支持的站点上投放数字广告。根据 Yahoo! Japan 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Yahoo! Japan 收集的与您相关的数据相整合。我们利用发送给 Yahoo! Japan 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Yahoo! Japan 隐私政策
Naver
我们通过 Naver 在 Naver 提供支持的站点上投放数字广告。根据 Naver 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Naver 收集的与您相关的数据相整合。我们利用发送给 Naver 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Naver 隐私政策
Quantcast
我们通过 Quantcast 在 Quantcast 提供支持的站点上投放数字广告。根据 Quantcast 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Quantcast 收集的与您相关的数据相整合。我们利用发送给 Quantcast 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Quantcast 隐私政策
Call Tracking
我们通过 Call Tracking 为推广活动提供专属的电话号码。从而,使您可以更快地联系我们的支持人员并帮助我们更精确地评估我们的表现。我们可能会通过提供的电话号码收集与您在站点中的活动相关的数据。. Call Tracking 隐私政策
Wunderkind
我们通过 Wunderkind 在 Wunderkind 提供支持的站点上投放数字广告。根据 Wunderkind 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Wunderkind 收集的与您相关的数据相整合。我们利用发送给 Wunderkind 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Wunderkind 隐私政策
ADC Media
我们通过 ADC Media 在 ADC Media 提供支持的站点上投放数字广告。根据 ADC Media 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 ADC Media 收集的与您相关的数据相整合。我们利用发送给 ADC Media 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. ADC Media 隐私政策
AgrantSEM
我们通过 AgrantSEM 在 AgrantSEM 提供支持的站点上投放数字广告。根据 AgrantSEM 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 AgrantSEM 收集的与您相关的数据相整合。我们利用发送给 AgrantSEM 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. AgrantSEM 隐私政策
Bidtellect
我们通过 Bidtellect 在 Bidtellect 提供支持的站点上投放数字广告。根据 Bidtellect 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Bidtellect 收集的与您相关的数据相整合。我们利用发送给 Bidtellect 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Bidtellect 隐私政策
Bing
我们通过 Bing 在 Bing 提供支持的站点上投放数字广告。根据 Bing 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Bing 收集的与您相关的数据相整合。我们利用发送给 Bing 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Bing 隐私政策
G2Crowd
我们通过 G2Crowd 在 G2Crowd 提供支持的站点上投放数字广告。根据 G2Crowd 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 G2Crowd 收集的与您相关的数据相整合。我们利用发送给 G2Crowd 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. G2Crowd 隐私政策
NMPI Display
我们通过 NMPI Display 在 NMPI Display 提供支持的站点上投放数字广告。根据 NMPI Display 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 NMPI Display 收集的与您相关的数据相整合。我们利用发送给 NMPI Display 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. NMPI Display 隐私政策
VK
我们通过 VK 在 VK 提供支持的站点上投放数字广告。根据 VK 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 VK 收集的与您相关的数据相整合。我们利用发送给 VK 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. VK 隐私政策
Adobe Target
我们通过 Adobe Target 测试站点上的新功能并自定义您对这些功能的体验。为此,我们将收集与您在站点中的活动相关的数据。此数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID、您的 Autodesk ID 等。根据功能测试,您可能会体验不同版本的站点;或者,根据访问者属性,您可能会查看个性化内容。. Adobe Target 隐私政策
Google Analytics (Advertising)
我们通过 Google Analytics (Advertising) 在 Google Analytics (Advertising) 提供支持的站点上投放数字广告。根据 Google Analytics (Advertising) 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Google Analytics (Advertising) 收集的与您相关的数据相整合。我们利用发送给 Google Analytics (Advertising) 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Google Analytics (Advertising) 隐私政策
Trendkite
我们通过 Trendkite 在 Trendkite 提供支持的站点上投放数字广告。根据 Trendkite 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Trendkite 收集的与您相关的数据相整合。我们利用发送给 Trendkite 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Trendkite 隐私政策
Hotjar
我们通过 Hotjar 在 Hotjar 提供支持的站点上投放数字广告。根据 Hotjar 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Hotjar 收集的与您相关的数据相整合。我们利用发送给 Hotjar 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Hotjar 隐私政策
6 Sense
我们通过 6 Sense 在 6 Sense 提供支持的站点上投放数字广告。根据 6 Sense 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 6 Sense 收集的与您相关的数据相整合。我们利用发送给 6 Sense 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. 6 Sense 隐私政策
Terminus
我们通过 Terminus 在 Terminus 提供支持的站点上投放数字广告。根据 Terminus 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 Terminus 收集的与您相关的数据相整合。我们利用发送给 Terminus 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. Terminus 隐私政策
StackAdapt
我们通过 StackAdapt 在 StackAdapt 提供支持的站点上投放数字广告。根据 StackAdapt 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 StackAdapt 收集的与您相关的数据相整合。我们利用发送给 StackAdapt 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. StackAdapt 隐私政策
The Trade Desk
我们通过 The Trade Desk 在 The Trade Desk 提供支持的站点上投放数字广告。根据 The Trade Desk 数据以及我们收集的与您在站点中的活动相关的数据,有针对性地提供广告。我们收集的数据可能包含您访问的页面、您启动的试用版、您播放的视频、您购买的东西、您的 IP 地址或设备 ID。可能会将此信息与 The Trade Desk 收集的与您相关的数据相整合。我们利用发送给 The Trade Desk 的数据为您提供更具个性化的数字广告体验并向您展现相关性更强的广告。. The Trade Desk 隐私政策
RollWorks
We use RollWorks to deploy digital advertising on sites supported by RollWorks. Ads are based on both RollWorks data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. This information may be combined with data that RollWorks has collected from you. We use the data that we provide to RollWorks to better customize your digital advertising experience and present you with more relevant ads. RollWorks Privacy Policy

是否确定要简化联机体验?

我们希望您能够从我们这里获得良好体验。对于上一屏幕中的类别,如果选择“是”,我们将收集并使用您的数据以自定义您的体验并为您构建更好的应用程序。您可以访问我们的“隐私声明”,根据需要更改您的设置。

个性化您的体验,选择由您来做。

我们重视隐私权。我们收集的数据可以帮助我们了解您对我们产品的使用情况、您可能感兴趣的信息以及我们可以在哪些方面做出改善以使您与 Autodesk 的沟通更为顺畅。

我们是否可以收集并使用您的数据,从而为您打造个性化的体验?

通过管理您在此站点的隐私设置来了解个性化体验的好处,或访问我们的隐私声明详细了解您的可用选项。