While woodworking becomes a popular craft, the number of searches for the best free woodworking design software has also increased immensely.
People, who treat this activity as their occupation or as a hobby, need to master particular tools as well as develop a unique style to create original items. Some mistakenly think that woodworking boils down to spending time in a shop, but in fact, you need to constantly learn new programs and hone your skills. If you are on the lookout for the best free woodworking design software, this article is worth reading. We have filtered out paid programs and left only free options that come with all the needed tools and features for the task.
Choose what you like most and let your design talent flourish. Verdict: Fusion is a woodworking design software application for the PC. Many people will probably think that such a product would be hard to come by, but the fact is that Fusion is actually extremely easy to work with and the end result will leave even experienced woodworkers in awe. What is also amazing about this program is that it is available for free!
All you need to get started with is a computer, internet connection and free tools of your choice. This program will help you create some of the most beautiful woodworking pieces that you can find anywhere. If the message does not appear, click Rebuild on the Standard toolbar. The assembly rebuilds with the new dimensions. Save Tutor. Adding Another Drawing Sheet Now you create an additional drawing sheet for the assembly.
If the PropertyManager is still open, click OK to close it. Right-click on any open area of the drawing sheet and select Add Sheet. Another sheet of the same size as Sheet1 is added to the drawing. Click Standard 3 View on the Drawing toolbar.
In the PropertyManager, select Tutor. Reposition the views on the sheet as shown below. You can use Standard 3 View to add all three standard views to a drawing at once, or you can use Model View to add one view at a time. The resulting views are the same. In this topic you add a standard isometric view of the assembly. A closer look at orientations 1.
Under Orientation, click Isometric under Standard views. Under Display style, click Shaded With Edges. Under Scale, select Use sheet scale. The pointer changes to 3. Click in the sheet to place the view. Click Printing the Drawing 1. Click File, Print. The Print dialog box appears. Under Print range, select All sheets to print both sheets.
Click Page Setup. The Page Setup dialog box appears, where you can change printer settings such as resolution, scale, paper size, and so on. Under Resolution and Scale, select Scale to fit.
Click OK to close the Page Setup dialog box. Click OK again to close the Print dialog box and to print the drawing. If the system notifies you that the model referenced in the drawing has been modified, and asks if you want to save it, click Save All.
Close the drawing. You have completed this lesson. Although the two applications are similar in appearance, they do differ. A closer look at the differences between design approaches A closer look at the differences between user interfaces A closer look at the differences between terminology It is recommended that you complete the Lesson 1 - Parts, Lesson 2 - Assemblies, and Lesson 3 - Drawings tutorials before starting any of the AutoCAD lessons.
Creating a Drawing from a 3D Model shows how to add a new drawing sheet and drawing views. You change the size and pattern of the bolt holes in a flange, a task you might typically perform when implementing an engineering change order ECO.
Click Open on the Standard toolbar. When tool images have an orange border, for example , you can click them in the tutorial window to flash the corresponding button in the SolidWorks window. Select The Click Layer Properties Layer toolbar. If the Layer toolbar is not visible, click View, Toolbars, Layer. In the Color dialog box, select dark purple , then click OK. Click OK Editing the Drawing continued Now delete all the small circles bolt holes on the flange except the top one. Zoom in on the flange: a.
Click Zoom to Area View toolbar. Drag a selection box to enclose the flange. Click Zoom to Area again to release the tool. Delete the upper-right circle: a. Drag a selection box to enclose the circle. The circle and center mark are selected. Press Delete. Because you delete the entire note later, it is okay if you delete the arrow now.
Delete the other circles and their center marks except the top one. Click Zoom to Area View toolbar and zoom in on the remaining circle. Press Enter to repeat the last command , which in this case releases the Zoom to Area tool.
Move the pointer over the circle. Select the circle while the pointer is displayed. The Circle PropertyManager appears in the panel to the left of the drawing. The PropertyManager is equivalent to a Windows dialog box; however, a PropertyManager does not obscure your work area. Under Parameters, set Radius to 0. You can type either a mathematical expression or a numerical value for most numerical inputs. Click to close the PropertyManager.
To update the drawing, click Rebuild Standard toolbar. Rebuilding is equivalent to regenerating in the AutoCAD software Creating a Circular Pattern Create a circular pattern of four circles to replace the original pattern of six circles. Click Circular Sketch Pattern Sketch toolbar.
If Circular Sketch Pattern is not visible on the Sketch toolbar, click the button in the tutorial window. This action places the button on the Sketch toolbar and highlights its position on the toolbar or in a flyout menu. In the PropertyManager, if the name of the circle does not appear in Entities to Pattern, then click in Entities to Pattern and select the circle in the graphics area.
The blue circle indicates that the circular pattern will be created around this circle. To change the circular pattern, in the dialog box, under Parameters, set Radius to 1. Changing Note Text Next, delete the old note and insert a new note for the new circular pattern.
Click Zoom to Area View toolbar , zoom to the flange, and press Enter to release the tool. Box select the note and leader as shown, then press Delete. Click Note Annotation toolbar. Move the pointer toward the hole circle. As you move over items in the drawing, the pointer changes. When the pointer is over the circle, it changes to indicating that you are inferencing it. Click on the circle to place the note leader, then click a blank area in the drawing sheet to place the note 6.
Type 4X and a comma , in the note box in the drawing sheet. If you move the pointer over an item in the PropertyManager, a tooltip appears with the name of the box or icon. In the Symbols dialog box, select Diameter in the list of symbols and click OK. The diameter symbol appears in the note in the drawing sheet. Type 0. Add another diameter symbol to indicate the diameter of the bolt circle, and type 3. Click Zoom to Fit View toolbar to view the drawing sheet.
If you zoom in too close to the revision block, press Z to zoom out. If the Drawing View PropertyManager opened, click to close it. In the FeatureManager design tree, right-click Layout1 and select Lock Sheet Focus so you can select items outside the drawing view.
To create another row in the revision block, select the bottom line of the revision block and click Offset Entities on the Sketch toolbar. In the PropertyManager, set Offset Distance to 0. The offset line is added to the drawing Updating the Revision and Title Blocks continued Extend the vertical lines in the table. Click Extend Entities Sketch toolbar. If Extend Entities is not visible on the Sketch toolbar, click the button in the tutorial window. This action places the button on the Sketch toolbar and highlights its position.
Select the lines shown to extend them to the offset horizontal line. A preview of the extension is displayed when the pointer is over the line to be extended. Press Enter to release the tool. Select the text in the REV column as shown. Double-click the pasted text and change A to B. To exit editing mode, click anywhere in the drawing sheet.
To align A and B, first select both annotations while holding down Ctrl. Then use the tools on the Align toolbar Align Left , for example to align the selected annotations. Click anywhere outside the annotations to release the tool. If the Align toolbar is not visible, click View, Toolbars, Align. Aligning the annotations may require some experimentation. You can use Undo on the Standard toolbar to reverse recent changes. You can also drag an annotation to a new location.
Repeat steps 1 through 5 for the other columns until the revision block appears as shown. Pan down in the SolidWorks window to the title block, then double-click the revision letter at the lower-right and change A to B. Click Save Standard toolbar to save your changes. Click Close Standard toolbar and click Yes if prompted to save your changes. Select Import to a new part as and select 2D sketch. Select the Model tab to select that sheet for import.
Select Add constraints to solve all apparent relations and constraints in the sketch. Clear Merge points closer than.
Click Finish. If you are prompted to select a template, click OK. A closer look at constraints The entities in the DWG file are imported to a 2D sketch in a new part document. Click View, Sketch Relations to clear the display of sketch relations icons in the graphics area. Creating the Solid Part 1. Delete all the sketch entities except the upper cross-section and the line beneath it, as shown.
Be sure to delete the entities in the upper cross-section shown on the right. Use box selection and cross selection to select groups of entities. Use the zoom tools to locate other entities. Click Trim Entities Sketch toolbar. In the PropertyManager, under Options, select Trim to closest.
Select the line shown, then click. Why did I trim this line? To fully define the sketch, you must dimension sketch entities and create relations between the sketch and the origin of the part. First, set the units and dimension the sketch. Click Options Standard toolbar , select Document Properties. Select the long side of the sketch of the flange, then click to place the dimension. In the dialog box, set the value to 1. Creating the Solid Part continued Now automatically dimension the sketch.
Select the left endpoint of the centerline and click Align Sketch 2Dto3D toolbar. In the PropertyManager, select All entities in sketch. The sketch entities now all black, indicating that the sketch is fully defined. The sketch is dimensioned to the sketch origin.
To move a dimension, drag it to a new location. Click in Axis of Revolution , then select the centerline. Clear the Thin Feature check box.
Click in Selected Contours and select inside each portion of the enclosed sketch. A preview of the revolved feature appears in the graphics area. In the FeatureManager design tree, expand the Revolve1 feature to see the absorbed feature , Model.
Creating the First Bolt Hole Next, add the bolt holes on the flange. To create the first bolt hole, use the Hole Wizard tool. You define the type of hole you want to make, select a location for the hole, then the Hole Wizard inserts the hole.
Click Left Standard Views toolbar. On the Type tab, under Hole Type, select: a. Hole b. Ansi Inch in Standard.
Screw Clearances in Type. Under Hole Specifications, select 12 in Size. Under End Condition, select Through All. Next, you add a sketch point on the face to indicate the center point of the hole. Select the sketch point for the hole origin, then click to place the dimension. In the Modify dialog box, set the value to 1. Click to close the PropertyManagers. A closer look at the Hole Wizard Creating Additional Bolt Holes Now use a circular pattern to create additional uniformly-spaced bolt holes.
Circular patterns require an axis, which you create in this example using the Axis tool. You can also use temporary axes to create circular patterns.
Click Isometric Standard Views toolbar. Click Axis Reference Geometry toolbar. In the graphics area, select the cylindrical face of the flange as shown for Reference Entities.
Click Circular Pattern Features toolbar. Select Axis1 for Pattern Axis. If Axis1 is not already selected, then select it in the flyout FeatureManager design tree. Set Number of Instances to 4. Select Equal spacing 3. Under Features to Pattern, click in Features to Pattern , then select the inside face of the bolt hole. Click to create the circular pattern. Saving the Part Save the part as a SolidWorks part document. Click Save Standard toolbar and save the part as flange12CHole 2.
Click Close Standard toolbar to close the part. Click here: to open Right-click in the sheet tab area below the graphics area and select Add Sheet. A new sheet named Sheet 1 is added to the drawing document. Right-click in the drawing sheet and select Properties. In the dialog box: a Type Flange for Name. A closer look at sheet formats 5.
The sheet is now B landscape size and named Flange. Inserting a Block Now add a point and insert a block inferenced to the point. Click Point Sketch toolbar. Click in the lower left corner of the drawing sheet to place a point. Click Insert Block Blocks toolbar. Select the point to insert the block with its base point at the sketch point.
Click View, Toolbars, Customize. On the Keyboard tab, select Tools in Category. All of the commands in the Tools menu appear in the Command column. Scroll to Block and select Make. Type b. Do not press the Shift key. The SolidWorks software automatically creates this shortcut key as an uppercase B. The letter B appears under Shortcut s. Select Show only commands with shortcuts assigned to see the tools with shortcut keys. You can print the list currently displayed, or copy it to the clipboard to paste into other documents.
Working With Blocks Edit the inserted block and change its attributes. Zoom to the title box in the lower right corner. Rebuild icons are displayed in the FeatureManager design tree. Click Rebuild Standard toolbar to clear the icons.
SolidWorks auto-trace Source. When all is said and done, uploading a PDF image to trace and model in SolidWorks is a straight-forward and simple process. Take a screenshot of the part of the PDF you want to use as a SolidWorks reference and save it in a file format that the software can handle. If you ever find yourself in need of a conversion program for PDF files, a quick Google search will net you with pages upon pages of results for online conversion tools.
But for anything more, your best option would have to be specialized desktop programs such as Scan2CAD. Scan2CAD specifically even has a day free trial period for you to try and see if the program is worth the payment. For vector data: Simply open up the vector data and then save it as a workable file type. We have plenty of information on these processes in the form of tutorials and articles if you want to learn more about how to use Scan2CAD.
It will warn you to overwrite if a file with that name already exists. No changes will be made to the active document itself. This macro contains example code that shows you how to apply multiple mates between an o-ring and the groove. It selects the adjacent faces of the bottom of the groove for adding a symmetric mate. The macro presents the user with a form so they can enter as many configuration names that are required to be added to their part or assembly. With a click of the button, each entry will result in a new configuration being created in the active document.
This is a great example of a recursive function to process a directory and all sub-folders. Your email address will not be published. Save my name and email in this browser for the next time I comment. This site uses Akismet to reduce spam. Learn how your comment data is processed.
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