A wrench is shown lying on a machinist’s mat. The end of the wrench holds a ratcheting wheel, on top of which are six independent metal blocks arranged into a hexagon.

Building A Shifting Ratchet Wrench

Convenient though they may be, [Trevor Faber] found some serious shortcomings in shifting spanners: their worm gears are slow to adjust and prone to jamming, they don’t apply even force to all faces of a bolt head, and without a ratchet, they’re rather slow. To overcome these limitations, he designed his own adjustable ratchet wrench.

The adjustment mechanism is based on a pair of plates with opposing slots; the wrench faces are mounted on pins which fit into these slots, and one plate rotates relative to the other, the faces slide inwards or outwards. A significant advantage of this design is that, since one plate is attached to the wrench’s handle, some of the torque applied to the wrench tightens its grip on the bolt. To let the wrench loosen as well as tighten bolts, [Trevor] simply mirrored the mechanism on the other side of the wrench. Manufacturing proved to be quite a challenge: laser cutting wasn’t precise enough for critical parts, and CNC control interpolation resulted in some rough curves which caused the mechanism to bind, but after numerous iterations, [Trevor] finally got a working tool.

To use the wrench, you twist an outer ring to open the jaws, place them over the bolt, then let them snap shut. One nice touch is that you can close this wrench over a bolt, let go of it, and do something else without the wrench falling off the bolt. Recessed bolts were a bit of an issue, but a chamfer ought to improve this. It probably won’t be replacing your socket set, but it looks like it could make the odd job more enjoyable.

If you prefer a more conventional shifting wrench, you can make a miniature out of an M20 nut. It’s also possible to make a shifting Allen wrench.

Continue reading “Building A Shifting Ratchet Wrench”

Spotting Scope Mount Makes For More Comfortable Target Scoring

One of the big bottlenecks in target shooting is the scoring process. Even if it’s not a serious match, it’s still important to know where holes have landed because it’s important feedback on technique and performance. A spotting scope, which is really just a kind of telescope optimized for getting a sharp view of a distant target, is often used to see hits on a target without leaving the firing line. Usually they’re mounted on tripods and optimized for seated use, but [Steve Thone] came up with a clever hack for more comfortable use and mounting that works better for him while engaging in bulls-eye shooting from the standing position.

[Steve] took a ratcheting bar clamp and drilled a few holes near the end of the bar. Using these holes, the spotting scope is mounted directly to the bar and the clamp grips a shooting table or bench in place of a stand. He also put a 90 degree twist in the bar so that the clamp and scope could be oriented perpendicular to one another.

The result is a quick and easy-to-use mounting solution that, unlike a tripod, doesn’t eat up precious table space. Stability may be inferior to a tripod, but it’s serviceable enough that other shooters showed up with their own versions the week after [Steve] used his. After all, target shooters tend to be DIY types with an interest in both low-tech hacks like this one as well as higher-tech projects like rifle-mounted sensors.