Mary chased a small rabbit out of her garden a few days ago, whereupon we up-armored a few vulnerable parts of the fence. The culprit turns out to be insufferably cute:
Young Rabbit – at the gate
You cannot be annoyed with something like this:
Young Rabbit – alert
Oh, yes, you can. Rabbits are basically eating machines:
Young Rabbit – grazing
They’re welcome to all the greenery in the yard, just nothing in the garden:
Young Rabbit – overcompressed A
It’s known as a 2×2 Bunny, because it can fit through that size opening in a chain link fence while traveling at a dead run.
This one has yet to learn about being wary around the Big People:
Young Rabbit – overcompressed B
The alert reader will have noted the crappy quality of the last three pictures, at least in comparison with the first two. It’s the difference between digital zoom on my Pixel 3a phone applied to a zoomed-all-the-way image and optical zoom on a “real” camera (admittedly, an old Sony DSC-H5). On the other paw, I had the phone in my pocket when Mary spotted the bunny on the driveway, which counts for everything in similar situations.
JPG compression doesn’t handle hair particularly well, so the low-res bunny wears a rather artistic brush-stroke coat; it’s OK if you like that sort of thing.
One of the good things about building your own stuff is that you have all the parts when something breaks:
Helmet Mirror – damaged parts
The decorative M2 screw and insert pulled out of the ball. The rim of the nail set punch (intruding from the top) just barely caught the edge of the stub inside the ball, so a few taps could extract it. A Dremel cutoff wheel peeled the crumpled end off the stalk.
Reassembly proceeded without incident:
Helmet Mirror – installed
The bizarrely blurred mirror over on the left comes from the Pixel phone camera app deciding this was a Portrait, applying a background blur, and running into trouble with those hard edges in the foreground. The camera app has a distinct Portrait mode that, perhaps, I inadvertently engaged while fumbling around.
My old Aceco FC1002 frequency meter stopped working without being plugged into the charger. It runs from a quartet of NiMH cells taped into a tray I made seven years ago:
The faceplate bears the scars of its cracked acrylic (?) coating, so I pushed it out, traced the outline on a flat piece of polypropylene clamshell packaging, cut it out, and stuck it in place with tapeless sticky:
Aceco FC1002 – polypropylene faceplate
That removes the branding, but IMO improves the appearance.
It should continue working for another half decade or so!
Playing with Evaluating a recently arrived MakerBeam Starter Kit revealed swarf snarls in the tapped end holes. After giving up on a needle-nose tweezer, a compressed air blow gun expelled the mess from a handful of short beams:
Makerbeam – internal swarf A
A scrap of acoustic foam backstopped the rest of the assortment:
Makerbeam – internal swarf B
Which doesn’t account for the scattering of swarf and oil blown elsewhere in the Basement Shop.
Perhaps a bad day in the MakerBeam factory?
Protip: wear eye protection when using compressed air!
We recently installed a Dripworks drip irrigation system for Mary’s garden and, of course, pre-assembled the emitter / dripline tubing, fittings, and supply / filter / plumbing for each of the beds in the Basement Shop. A few days after burying the main lines, plumbing the filter + pressure regulator, and plugging in half a dozen bed assemblies, Mary noticed some emitter tubes weren’t delivering any water and other beds seemed too dry.
N.B.: We bought everything directly from Dripworks. This is not counterfeit crap from a sketchy Amazon seller.
I cut the dripline just downstream of the Micro-Flowvalve on a completely dry bed, whereupon no water emerged. Cutting the supply tube just upstream of the valve produced a jet squirting halfway along the bed. I tried and failed to blow air through the valve: it was completely blocked despite being in the “open” position. I installed another valve and the emitter tube started working properly.
I sat down at the kitchen table with a bag of unused valves and peered through them (the pix are through the microscope):
Dripworks valve – mostly open lumen
That’s one of the better-looking valves, with only a little mold flash in the lumen.
Partially occluded lumens were more typical:
Dripworks valve – partially occluded lumen
Quite a few were almost completely obstructed:
Dripworks valve – mostly occluded lumen
For lack of better instrumentation, I blew through the valves and sorted them by effort:
Dripworks valve – sorted by blockage
Two of the valves in the group on the left are completely blocked, with the others mostly blocked.
The middle group has enough mold flash to produce noticeable resistance to the air flow. I think water would have more trouble getting through, but the emitters would at least look like they’re delivering water.
The group on the right has mostly unblocked valves, with visible mold flash but little restriction.
I have no way to measure the actual water flow, so it’s entirely possible the QC spec allows considerable blockage while still delivering enough water to the emitters. More likely, the spec assumes a clear lumen and the mold flash is a total QC faceplant; it’s obviously not a controlled quantity.
Well, I can fix that:
Dripworks valve – drilling
That’s a 2.3 mm drill going straight through the valve body. I drilled the valves from both ends and blew out the swarf:
Dripworks valve – drill swarf
That produced twenty valves with clear lumens. Of course, the drill leaves a slightly rough interior surface, but it’s now much easier to blow air through them.
We hadn’t installed the driplines in two beds with three emitter tubes per bed. I cut out those six unused valves and sorted them by resistance:
Dripworks valve – six samples
Both of the valves on the left are blocked, the three on the right are mostly OK, and the one in the middle is partially blocked.
With two dozen repaired valves in hand, we returned to the garden, I cut 22 valves out of the installed driplines and replaced them under field conditions. Returning to the Basement Laboratory, I blew the water out (*), sorted them by resistance, and produced a similar distribution, albeit with no pictorial evidence. Although we have no immediate need for the used valves, they’re drilled out and ready for use.
In very round numbers, you should expect:
A third of Dripworks valves will pass (close to) the expected flow
A third will have a minor flow restriction
A quarter will have a severe flow restriction
One valve in ten will be completely blocked
Plan to drill out all the Micro-Flow valves before you assemble your driplines.
AFAICT, none of the other ¼ inch fittings we used have any interior flash, so it’s only a problem with the valves.
A rainy day finally produced an opportunity to install the rear fender bracket on my bike:
Tour Easy Rear Fender Bracket – improved
It’s actually another iteration, tweaked to hold the fender snugly against the bracket, because it’s tucked in a location where I can’t measure anything.
The brake noodle isn’t connected yet, but it has plenty of room in front of the fender block.
