Source: KennyOMG via Wikimedia
Yes, even after enduring 5,000 years of sandstorms and erosion the Pyramids at Giza still stand tall and proud… but they could have been built even better. Instead of four sides, Egyptian engineers could have used a tetrahedron--a three-sided pyramid on a triangular base.
The stability of a tetrahedron would have made the pyramids even more durable… and maybe even useful. Think of the metrology applications of using that solid structure as a base!
With minimum play, the TetraLock portable stand supports laser trackers, articulating arms, laser projectors, scanners, total stations, theodolites, and more, steadily holding instruments up to 125 lbs (56.7 kg). Users' CMM readings are consistent and reliable when mounted on this sturdy workhorse.
Designed to be light weight but strong and easily portable, the TetraLock features collapsible legs. Historically, this has been a weakness of portable metrology stands. The mobility of the joints adds unwanted play to a structure that, in metrology applications, requires maximum stability.
But you still need those pesky mobile joints if your tetrahedron is collapsible.
Brunson engineers cleverly utilized spherical connectors that lock the cross braces into the legs creating a positive stop. The stress induced by the internal force of the braces wrings out all play in the joints.
Once they're locked into place, the TetraLock stand has no plane of instability, and this key feature is a core element of the TetraLock patent. And with positive stop connections, play in the TetraLock is reduced to just one variable: material performance.
Learn more about TetraLock here.To learn more about the great Pyramids of Giza, despite the design flaw (!), go here:
Source: MesserWoland via Wikimedia