hobbit
Well-Known Member
So I haven't kept up with things here very well recently, as ownership has
been pretty stable and uneventful over the last 40,000 miles or so [as it
should be!]. But over the last few months I had started to notice a kind of
"wub-wub-wub-wub-wub" sound in the cabin, seeming to come from the rear of
the car. My first thought was "huh, am I losing a wheel bearing?" ... but
it seemed to come and go depending on what kind of pavement surface I was on,
and I had been noting its existence for *over 10,000 miles*. A bearing
would have gone critical long before then. So I figured it must have something
to do with the fact that I hadn't rotated the tires on this car for at least
35,000 miles, if I in fact ever did, and cannot remember if these tires got
any attention or were just in the same positions as when I'd bought the car
in 2021.
Anyway, today I finally set to and did the all-around rotate + brake caliper
cleaning/refresh routine, to make sure the slide-pins were in good condition
and the pads would slide reasonably freely. As I pulled the rear wheels off
to cross-move them to the front, I took a hard look at their tread blocks, and
finally understood what was likely going on. It took this many miles to get
to the point of being really noticeable, since I run all four around 60 PSI
anyways and that, plus my general driving technique, always makes any typical
wear take a lot longer for me to manifest.
View attachment 24120
[ higher-res link: http://techno-fandom.org/~hobbit/cars/ev/76rearwear.jpg ]
The Kona comes by default with quite a bit of negative camber in the rears.
Just viewing the car from a ways behind it makes that fairly obvious. For
what reason, I cannot imagine; it's not like anyone is taking Konas out
to Track Day, so why does it get factory-set as if it would be subject to
frequent hard cornering? The inner sides of both long-time rear tires were
clearly feathered a bit, and that's likely what was causing the noise into
the cabin. Those are on the fronts as drives now, which have essentially no
camber either way, so that should slowly work to fix them. Meanwhile, a
short test run already returns that the newly-placed rears run quieter.
This *will* be load-dependent, as the camber adjusting bolts inboard of the
rear suspension members are at different offsets from the car's centerline.
If only one of each rear wheel's pair is adjusted, that will also affect toe,
so to *only* adjust camber, both bolt spacers per side would have to be
moved the same distance. Since it's taken this long with no rotation for me
to notice any effects at all, I'm not going to eff with it. I'm to the point
that I should probably get all new feet for this beast anyways, but the three
crappy factory Nexens + one oddball-replacement still have enough handily
legit tread depth so I can probably hold off longer. Yes, after 40k+ miles.
I don't thrash them...
The second weird event came as I was wrapping up this work; I went to fire
up the car and take a quick test drive to settle wheel weighting and listen
for any differences, but found that the car was *completely* dead when I
slid into the driver's seat. Not even the logo showing the door open. The
12V battery had somehow gotten down to like 5 volts, and wouldn't power up
any part of the car. I immediately recalled all the "dead 12V" InsideEVs
postings and the careful research folks had done. Okay, so a OEM "Rocket"
unit dropped into a 2021 MY car had evidently flown its trajectory and was
already dead in mid 2025, which I frankly don't think is reasonable but we
all know the factory-issue batteries are garbage. So now I guess it's time
to go find a decent replacement.
_H*
been pretty stable and uneventful over the last 40,000 miles or so [as it
should be!]. But over the last few months I had started to notice a kind of
"wub-wub-wub-wub-wub" sound in the cabin, seeming to come from the rear of
the car. My first thought was "huh, am I losing a wheel bearing?" ... but
it seemed to come and go depending on what kind of pavement surface I was on,
and I had been noting its existence for *over 10,000 miles*. A bearing
would have gone critical long before then. So I figured it must have something
to do with the fact that I hadn't rotated the tires on this car for at least
35,000 miles, if I in fact ever did, and cannot remember if these tires got
any attention or were just in the same positions as when I'd bought the car
in 2021.
Anyway, today I finally set to and did the all-around rotate + brake caliper
cleaning/refresh routine, to make sure the slide-pins were in good condition
and the pads would slide reasonably freely. As I pulled the rear wheels off
to cross-move them to the front, I took a hard look at their tread blocks, and
finally understood what was likely going on. It took this many miles to get
to the point of being really noticeable, since I run all four around 60 PSI
anyways and that, plus my general driving technique, always makes any typical
wear take a lot longer for me to manifest.
View attachment 24120
[ higher-res link: http://techno-fandom.org/~hobbit/cars/ev/76rearwear.jpg ]
The Kona comes by default with quite a bit of negative camber in the rears.
Just viewing the car from a ways behind it makes that fairly obvious. For
what reason, I cannot imagine; it's not like anyone is taking Konas out
to Track Day, so why does it get factory-set as if it would be subject to
frequent hard cornering? The inner sides of both long-time rear tires were
clearly feathered a bit, and that's likely what was causing the noise into
the cabin. Those are on the fronts as drives now, which have essentially no
camber either way, so that should slowly work to fix them. Meanwhile, a
short test run already returns that the newly-placed rears run quieter.
This *will* be load-dependent, as the camber adjusting bolts inboard of the
rear suspension members are at different offsets from the car's centerline.
If only one of each rear wheel's pair is adjusted, that will also affect toe,
so to *only* adjust camber, both bolt spacers per side would have to be
moved the same distance. Since it's taken this long with no rotation for me
to notice any effects at all, I'm not going to eff with it. I'm to the point
that I should probably get all new feet for this beast anyways, but the three
crappy factory Nexens + one oddball-replacement still have enough handily
legit tread depth so I can probably hold off longer. Yes, after 40k+ miles.
I don't thrash them...
The second weird event came as I was wrapping up this work; I went to fire
up the car and take a quick test drive to settle wheel weighting and listen
for any differences, but found that the car was *completely* dead when I
slid into the driver's seat. Not even the logo showing the door open. The
12V battery had somehow gotten down to like 5 volts, and wouldn't power up
any part of the car. I immediately recalled all the "dead 12V" InsideEVs
postings and the careful research folks had done. Okay, so a OEM "Rocket"
unit dropped into a 2021 MY car had evidently flown its trajectory and was
already dead in mid 2025, which I frankly don't think is reasonable but we
all know the factory-issue batteries are garbage. So now I guess it's time
to go find a decent replacement.
_H*
