I don't know the dimensions of the bolt stop pivot pin and the supporting geometry, but if it's a 0.125" pin in double-shear, then applying a 1000lb force still keeps the average stress at about 1/5th of the ultimate yield. Things get a bit more complicated if we're looking at fatigue life, but the take-away should be that it's probably pretty fuckin' robust and the chances are kinda low than anyone will rip their way past it.
Really looking forward to seeing the DVP&R for this thing, including the official THEIS bolt cycle ultimate load test Back in my college days, I interned at a company that made automotive transmission shifters. The lab manager was a burly powerlifter with the initials KC, and the "KC 101" test was simply his attempt to bend the lever on whatever assembly was bolted to the bench. Yeah, sure, we also had a variety of test apparatus capable of applying substantial loads, but this test was a good way of confirming that the part would survive in the field.
Really looking forward to seeing the DVP&R for this thing, including the official THEIS bolt cycle ultimate load test Back in my college days, I interned at a company that made automotive transmission shifters. The lab manager was a burly powerlifter with the initials KC, and the "KC 101" test was simply his attempt to bend the lever on whatever assembly was bolted to the bench. Yeah, sure, we also had a variety of test apparatus capable of applying substantial loads, but this test was a good way of confirming that the part would survive in the field.