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More Payload. More Rigidity.

Vention releases a heavy-duty profile for their extrusion system. Discover the story behind this new extrusion profile and the related benefits for your heavy-duty applications

Maxime Lavigueur Mechanical Engineer / Jan 29th, 2019

 

Our heavy-duty T-slot extrusion profile is now available in the parts library and in the MachineBuilder. The new heavy duty profile allows for quick and easy design of projects with heavier payloads and requiring more rigidity. Applications like extra large machine frames and industrial robot cells will directly benefit from this latest addition. Discover the story behind this new extrusion profile and the related benefits for your heavy-duty applications

Our Strongest Profile to Date

The new profile is the strongest in the Vention modular system. The new larger extrusion profile has dimensions of 90mm x 90mm, maintains the patent-pending v-groove. It is compatible with:

  • Fasteners
  • Assembly plates
  • Modular components.

This means that you can easily mix multiple profiles in a single design, while maintaining ease of assembly.

 

Supporting Heavier Payloads

The latest T-slot extrusion profile can support up to 6 times our standard 45X45 profile. It has 66% higher moment of inertia than the 45X90 while being only 50% heavier - even though we doubled its outer dimensions. Given most of our user applications require a safety factor of 2, it is capable of supporting loads of up to 1,200kg on a 1m long extrusion.

45mm by 45mm

45mm by 90mm

90mm by 90mm

400kg max payload

1,500kg max payload

2,400kg max payload

 

*Results based on simply supported beam calculations for 1m long extrusions. Safety factor is 1.

 

Designing and Testing Extrusions at Vention

We initially started thinking about new extrusion profiles when we saw the potential for our users wishing to design for heavy-duty applications. Imagine large palletizers, long 7th axis, or oversized material handling equipment. 

Designing an extrusion profile isn’t as easy as it may appear in the first place. All design parameters are highly intertwined. Moment of inertia, surface area, strength to weight ratio, torsion performance, fastener compatibility, surface coefficient of friction, etc. The complexity of this optimization problem is often amplified by the non-linear nature of aluminum extrusion assemblies. So how do we test all of this? Despite our FEA simulations, we still rely on destructive testing to confirm our model predictions.

Working with one of our academic partner's lab, at ETS in Montreal, we developed test procedures for assembly joint characterization, coefficient of friction test, fastener pull-out test and more.  This ensure our application engineering team can effectively guide you in your design choices.

Need more information about Vention’s patent-pended extrusion profile? Contact our application engineering team on the live chat.

 

Open-Source Designs

There are already designs featuring this latest addition to our hardware system available in the public library of designs. Get inspired or even jump start your project today from an existing design.

 

 

 

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