Overview
How to make double wishbone suspension with adjustable ride height and travel.
Introduction
In this guide I will show you how to build engine-powered adjustable double wishbone suspension.
Engine powered suspension has the advantage of being more compact, more effective and also uses less computing power than the stock suspension.
This suspension has the advantage of holding the wheels camber during suspension travel. This will give much better handling during turns.
Do not link the engine that controls your suspension to any drive bearings. Use a seperate engine.
If you would like to try some of the vehicles I have made or want to pull them apart to understand how they work you can download the world file here[s000.tinyupload.com]
If you like this guide, please check out this Adjustable suspension. It is a more simple version of this one which uses only 1 arm. It’s an early design, before the welder was introduced.
****Big thanks to everyone that has rated this up! 4 stars now! 😀 I’m glad you all seem to like it. I hope it has inspired you to build some amazing handling machines. Feel free to share any workshop content links in the comments that use the suspension, and I’ll give them a sub and check them out!****
Building
First we need the base and some bearings for the lower arms
Next add some risers and bearings to attach the upper arms.
Now we add the upper and lower arms and bearings. Longer upper and lower arms will increase the suspensions travel distance, and also soften the suspension.
Now add the uprights.
Now use your welding tool to attach the uprights lower and upper pieces together. Click and drag over the parts to weld them together.
Add some bump stops to the bottom. Top bump stops are not necessary unless you want to restrict suspension travel.
Now we add some axles.
I added some blocks to the rear just for demonstration.
Add some wheels and bearings.
Now add the engine to power the suspension.
Then hook up the engine to the bearings on either the top or bottom. Make sure that the bearings are rotating the correct direction.
Now adjust the engines power to set the stiffness of the suspension.
If you need more power for a heavy object then you can link up all four of the bearings to the engine. This effectively doubles the weight it can handle.
There will be other factors that will affect how much weight it can handle. A vehicle with longer axles will not hold as much weight before the axles give or “break”.
Here is an example of a double wishbone suspension car I have made.