Just starting on Fusion360. For the last couple of years I have been on FreeCAD as I am pretty much only on Linux. I recently got a mac for a work machine and decided to see if I could learn more about Fusion360.
Current Project:
I am working on designing some weld together suspension brackets for my project I am building in the garage. I can only show pictures of other brackets here in an effort to explain where I need some help in planning.
I would like to end up with a bracket similar to this one:
Bracket is available here for purchase: https://artecindustries.com/collections/axle-brackets/products/adjustable-link-tower-single. I am not trying to make money, and won't be selling what I make, it is only for my purposes.
So my design needs to be taller (longer distance between top of axle and center of bolt hole), provide for larger bolts with adequate steel between the holes. (This bracket is built for 9/16" bolts, I am using 3/4"). These issues are relatively easy to handle in a new design.
The two issues that I am having trouble with are:
- Bending the outer plates outward to provide a wider base
- Knowns:
- I know the radius of the bends I can achieve with my finger brake press.
- To use a FreeCAD term, I know that I need to execute a "Boolean operation" after the bends are drawn up (an operation where shape of one part is removed from another) to make sure the coping on the bracket will form more of an elliptical shape to sit on the axle.
- Unknowns/assumptions:
- Im assuming that I can "un-bend" the plates after all this is done so I can provide an accurate drawing to my buddy with the plasma table. Is this true?
- I do not know what the operation is called described above in #2. Can someone point me toward where I can look this up?
- Knowns:
- Bracket needs to be rotated on axle
- Knowns:
- The artec bracket above assumes that the control arm connected to it comes in at a perpendicular angle to the axle when viewed from above.
- My brackets need to point "outward" at approximately 13 degrees (when viewed from above referencing a direction starting at the axle and ending at the chassis).
- This rotation will necessitate the sides of the bracket to not be symmetric in their outer shape as the "outer" side will be more toward the front of the axle, and the "inner" side will be more toward the back of the axle (when viewed from above).
- The rotation needs to be based on the center of the bolt or at least the calculated position of the center of the bolt.
- This rotation will affect the coping for the axle bracket as well so it must happen before.
- Unknowns:
- How can I learn about rotating an entire "object" that is comprised of several sketches/ pads (is this a fusion 360 term?)/objects.
- FreeCAD has a "formula editor" where you can manipulate constraints in a mathematical way and, more importantly, reference other sketches. Can this be done in Fusion 360? I feel like this will become important when it comes time to rotate, but please correct me if I'm wrong.
- Knowns:
Current plan of action in order of the way I think I should do this:
- Create the axle tube as a cylinder centered on origin.
- Draw one of the side plates to my required specs.
- Replicate the above and set its' position on the axle tube based on inside distance from the other.
- Bend each plate at a specific line so they have that "outward angle".
- Create the adjoining front and rear plates between the inner and outer ones (hoping to use a little tab and slot for easy assembly)
- Rotate the entire assembly 13 degrees "outward".
- Adjust the Inner and outer plates to compensate for rotation (assuming they wont have good contact with the axle tube on the sides that rotated off)
- Use a method to "remove" the space the axle tube takes up from the other parts of the drawing for coping.
- Flatten all bent plates and figure out how to extract them individually so they can be used in a plasma table.
EDIT: after reading this, I feel like step 5 needs to come after step 7. No reason to create those sides before I know Im going to have to change them.
Does the above seem like a reasonable way to tackle this? Any suggestions?
Steel/Plasma table related concerns:
- I do not think I should make the bolt holes exactly 3/4". This is not a laser cutter or water jet and I expect them to not turn out perfect. I have an annular cutter in my drill press, and would like to use a centering tool on it to hit the mark. I feel like I should take advantage of using CAD to give myself a mark where to center the hole rather than trying to measure it out after the fact. I have read all the arguments about smallest reliable holes size based on thickness of steel. Is that basically the size of the hole I should try to make so I have something to center my annular cutter on?
- Still researching this, but Im not sure what an acceptable amount of play should be for tab and slot. When I look that up, I get into a bunch of engineering related reasoning, which makes sense. However, I am really just using the tab and slot so I can assemble the bracket easily before welding it together. Any suggestions here?
Thank you so much, sorry for the swarm of questions, but I figured I would just put them all into one post.
EDIT: I figured why not include a couple pictures of my project currently!
This was about a year ago...
Current state in testing, notice my very much prototype only upper axle brackets... 😎
