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Autodesk inventor 2015 frame generator free

Autodesk inventor 2015 frame generator free

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Frame Generator - Mastering Autodesk Inventor and Autodesk Inventor LT () - {{l10n_strings.ADD_TO_A_COLLECTION}}



  Collection by Eddy Castro. Metal Gates. This allows your design to be managed properly in the detailing and revision stages.    

 

Autodesk inventor 2015 frame generator free. Mastering Autodesk Inventor 2015 and Autodesk Inventor LT 2015 (2014)



   

If you start a project the first day they are already breeding in your neck and wanted to see the results. If possible with a bom and the construction drawings spick and span ready for the workshop. SO you can forget iPart libraries. I work 7days a week and about 10 hours a day. And last but not least for my friend Raygyver I know 3d sketch in Inventor is a pain in the proverbial!

All his videos are very nice. Take a look at it and maybe it will release you of your agony. I finally installed ASI-Profile. It works like a charm!!!

IT is adaptive it is intuitive it is parametric it makes correct bill off materials even if you change lengths of profiles during the design. AND if you put two connection plates on a profile the profile length automatically adapt itself and it does it also in the bill off material. I will continuing working and experimenting with it and I will post you some updates in due course. For those who need bolted structural design in Inventor this is the way to go.

It pays itself in one job. Even though that I was the moron they pulled me trough and the job was finish in a minimum of time. Send me a mail on francis. Take care. Inventor Forum. Share your knowledge, ask questions, and explore popular Inventor topics.

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Message 1 of Preview file. Message 8 of Thanks again! Message 9 of Message 10 of Message 11 of Hi Engineer Thank you very much. Is that right? Message 12 of Also be generous with Likes! Thank you and enjoy!

Message 13 of Hi, The problem is the software also puts the same number 63 on pieces that have different lengths. Message 14 of Message 15 of Thanks Can i get that blueprints? I also want to see the full map! Post Reply. See the Help topic Frame Generator browser. Be sure to check out the guided tutorial gallery for hands-on experience creating and analyzing frames. You can either: Create a model to use as a frame skeleton and place it in an assembly file Place Component. Define the structure of a frame in the context of the assembly Create Component.

Frame member reuse You can reuse identical straight frame members to cut down on the total number of identical files. Note: Stock Number is also used for parts list roll up in drawings. If you publish structural parts you have used in the past, the stock number can already be defined. Note: The Content Center must be connected, and the libraries involved must be attached to the current project.

When you are not connected to the Content Center, the Insert and Change commands are not available in Frame Generator. Driven Length feature A driven dimension feature called Driven Length is added to frame members during the authoring and migrating process in Frame Generator.

What can I do with Frame Generator? Create frame members from vertices and edges of existing subassemblies. Build framing directly from other machine components within an assembly. Use multiple skeletal models in an assembly. Create frame members between skeletal models. Define frame end caps, cross-sections, and notch profiles and place them in the Content Center. What are the commands within Frame Generator? Insert Defines a frame member to insert into an assembly.

So if you applied a mm extension value, the frame member would grow mm on both ends for a total of mm. If you enter a negative value, the frame member will be shortened. You should spend time planning your frame design to minimize the number of end treatments required because each end treatment is an opportunity for the model to fail if a change is made. For example, if you create a skeleton to the inside dimensions of a frame, you can offset members during placement so the members butt against one another without adding end treatments.

When you use the Insert Frame tool, Inventor creates a new part file for each new frame member you insert. This allows you to create separate part files that allow separate end treatments. For instance, you might initially insert two identical frame members but then choose to miter both ends of one but only one end of the other. Having two separate part files allows this. However, there are often times when you might want to reuse the same frame member over and over.

In these cases you would prefer not to have separate part files and could use the Reuse tool to ensure that the same part file is being reused as needed. To see the Reuse tool in action, follow these steps:. Click the longer sketch line to use as the Placement selection, but be sure to select it at the end of the line furthest from the existing short member near the sketched arc.

Choose the member you just created and then click the Reverse Member Direction button; then click the OK button to see the change. Notice the direction of the holes again. Click the Miter tool and select the ends of the two original frame members when they come to an intersection and then click Apply.

Still in the Miter tool, click the remaining end of the short member and the corresponding end of the new long frame member even though it is already mitered and then click the OK button. Choose the remaining straight sketch line for the Placement selection and then click the OK button to create the new frame member. Click the Change Reuse button, select the new short frame member, set Orientation Angle to degrees, and then click the OK button.

Click the Miter tool and select the unmitered end of the original longer member and the corresponding end of the shorter member; then click the OK button to create the miter. The Reuse and Change Reuse tools offer powerful options for working with repetitive frame members in your frame designs.

Keep these tools in mind when working with frame design, and you can likely simplify your frame bill of materials and save yourself some work along the way. When you've finished exploring the Reuse and Change Reuse tools, you can close this file without saving changes and continue to the next section. Maintaining existing assemblies can be time-consuming. Frame Generator provides several tools that help streamline the process of modifying end treatments and determining how frames were originally designed.

The Remove End Treatments tool removes all end treatments from a selected frame member. You can also select multiple members for the batch removal of end treatments.

This is handy if you need to change the end treatments on a few members or if you have to rebuild a frame. You can find the Remove End Treatments tool in the Frame drop-down list indicated by the small black arrow on the Frame panel of the Design tab.

See Figure The Frame Member Information tool is used to query frame members. It displays the family and size information, mass properties, and material. This is a useful tool because it quickly gives you information about a member. For example, it can help you quickly determine the difference in the wall thickness of two similarly sized hollow tubes. Since the tool filters for only frame members, you can use it at any level of the assembly.

You can find the Frame Member Information tool in the Frame drop-down list indicated by the small black arrow found on the Frame panel of the Design tab. The Refresh tool is a Content Center tool.

It checks Content Center for the latest revision of the members in the frame. If a newer version is available, it will prompt you to replace it. End treatments are retained during refresh, but other features, such as holes, are not carried over to the new member. You can find the Refresh tool in the Frame drop-down list indicated by the small black arrow on the Frame panel of the Design tab.

Frame Generator uses an algorithm to create default filenames. You can rename the files as you create them, when prompted by the Frame Member Naming dialog. But often this slows the design process and requires you to enter information you may not currently know. Another approach is to let Inventor apply the filenames automatically. To do so, you can uncheck the filenaming prompt check box in the Insert Frame dialog box, and Inventor will create the filenames and save the files to the location specified when the frame subassembly and skeleton files were initially created.

It is a good idea to set the frame subassembly and skeleton filenames and locations to use a well-planned naming scheme, whether you specify the frame member names or let Inventor do so. If you decide to accept the default filenames, it is a good idea to use the BOM Editor to set the part number iProperty for each file to match your standard. In this way, you have a unique identifier for each part member. You can set two identical frame members to have the same part number so they are rolled up together in the BOM.

Using part numbers you can think of them as mark numbers , rather than the filenames, to manage the frame members provides a more flexible and real-world workflow for the typical frame design.

Once part numbers have been defined, you can also set the assembly browser to use the part number rather than the filenames. This allows you to quickly index individual frame parts more easily.

Do this by selecting the Assembly tab, clicking the drop-down list on the Productivity panel, and choosing the Rename Browser Nodes tool.

Although Frame Generator can create frames and therefore a lot of part files quickly, once the frame is modeled, you should slow down and take the time to manage part numbers.

This allows your design to be managed properly in the detailing and revision stages. These calculators are design accelerator tools that can do a simple stress analysis. The Beam And Column Calculator, for instance, can analyze a single beam or column, but it assumes a uniform cross section, so it does not take into account holes or end treatments.

If you have Inventor Professional or Inventor Simulation, you can use the Frame Analysis tools that are part of those packages. You can find the Beam And Column Calculator tool in the Frame drop-down list indicated by the small black arrow found on the Frame panel of the Design tab.

As with other design accelerator dialog boxes, the message pane at the bottom and the calculation results pane on the right side can be opened and closed by clicking the small symbols. You can drag the splitter bar double gray lines to resize the panes, or you can double-click the splitter bar to open or close the panes.

Take a moment to open this file from the Chapter 15 directory to become familiar with it. You will use this file to complete the exercise steps presented later. In this assembly, the Beam And Column Calculator might be used to calculate the loading on the power roller supports. When one of the gold tubes is selected, the calculator automatically loads the section properties from Content Center, as shown in Figure Although Content Center has most of the section properties, be aware that some data is missing.

You can use several methods for determining the properties. Inventor has a tool to calculate the properties of a closed sketch profile. If you want to use this tool for the section properties of a frame member, you can open the frame member, place a sketch on one end, and project the face.

Once you have the profile, select the Inspect tab, and click the Region Properties tool on the Measure panel. Select the profile you want to analyze and click Calculate. The basic region properties for any closed loop are calculated. You can then calculate the rest of the properties based on those results. The region properties are calculated with respect to the sketch origin. Depending on the profile, you may have to edit the sketch coordinate system to locate the sketch origin at the center of the profile.

Another option for calculating section properties is to use the Section button in the Beam And Column Calculator. When you click the button, a list of geometric shapes appears. When you select a shape, a dialog box like Figure The calculated properties assume sharp corners and constant thickness, so the results won't be accurate for profiles with tapered flanges but may be good enough for many applications.

The Flip Section button is used to change the orientation of the x- and y-axes. The z-axis is always in the direction of the extrusion. Gravity is always in the negative y-axis direction, so it is important to make sure the calculation coordinates match the assembly coordinates. If the beam is at an angle, you have a couple of options for handling gravity. You can place a copy of the beam horizontally in the assembly.

If you want to ignore the effect of gravity, there is an option on the Beam Calculation tab to turn the gravity load off. Both Beam and Column calculations are available. The Beam calculations focus on deflection based on loads and supports. The Column calculation checks for buckling. You can select Beam, Column, or both calculation types. The Calculation tabs are turned on and off based on the selections.

The default material properties do not correspond to a material style and are not linked to the style library in any way. Instead, these materials provide you with a starting point and an example of the required properties.

You can enter properties for a particular material, or you can select one of the generic materials listed. When you check the box, a dialog box appears with materials such as gray cast iron, steel, and aluminum. These properties can be used for initial calculations, but for more accurate results, you should enter the properties for the particular alloy you are using.

Follow these steps to enter the member data into the dialog box:. Recall that this button can be found in the drop-down list indicated by the small black arrow on the Frame panel of the Design tab. If necessary, click the padlock icon for the Section Length row in the table, thereby unlocking it for editing. Change the value to 12 inch. In the Rectangle dialog box, enter the tubing dimensions. Enter 1. Then click the OK button. Click the check box next to the Material field to launch the Material Types dialog box.

Select Steel and click the OK button. Leave this dialog open because you will use it in the next set of steps, where you'll work with loads and supports.

The coordinate system alignment is correct for this example. So in this case, gravity could be ignored, but having the correct orientation simplifies adding the loads and interpreting the results. The dialog box should look like Figure Note that all the section properties except Shear Displacement Ratio are calculated.

This property is optional for the calculations. Comparing the calculated values with the original ones, Section Area and Moments Of Inertia are close but higher. The Beam Calculation tab, shown in Figure The Engineer's Handbook hidden away in the Power Transmission panel drop-down list; it's called Handbook contains the equations used in the calculations. You might want to review those equations before using the calculator.

All of the controls can be accessed by using the buttons at the top or by right-clicking and choosing them from the context menu in the browser pane area.

The drop-down menu switches the browser between Loads view and Supports view. The controls, shown in Table Adds a torque load—a twisting force around the z-axis.

Two equal and opposite torque loads are required.



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