Another textbook example, showing how design for AM and outside the box thinking results in an optimized product for high demanding applications.
This case concerns an assembly for a steering wheel for professional sim racing teams containing many different parts such as push buttons, an LCD-display and micro switches. The assembly consists of seven printed parts; a housing, two micro switches, two shifter handles and two encoder turn buttons, combined with 2 milled carbon fibre plates.
DfAM was applied for following functions:
- Strain relief:
The cable entry has been drawn from the back and enters with a curve. A recess has been provided in the channel to tighten the cable with a tension strap and the cable relief is integrated into the design. - Positioning slot:
An encoder is mounted on the inside and is always aligned in the right position by applying a recess in the inside. - Overhang:
The design includes overhangs eliminating the need to create two separate parts. - Flipper Axe Holes:
Additive Manufacturing makes it possible to integrate the axe holes and produce in one time whereas it has to be created separately for injection moulding or milling. - Magnet holder:
Magnets are glued into this very accurate ‘chamber’. - M4 threads:
Threads were created as parts of the design. - Cable hole:
The cable hole entry is easy to produce through Additive Manufacturing compared to conventional technologies. - 45° Slope angle:
By applying a 45 degree angle, support structures for printing are not necessary, resulting in less finishing afterwards. - Integrated Push buttons
have been designed with integrated symbols and guidance for perfect alignment and assembly.
Find out more about Design for Additive Manufacturing via sales@temco-ddm.be!
