Archive for category Recumbent Bicycling

Turkeys in the Snow

These guys looked completely disgusted with the situation:

Turkeys on rail fence in snow

Turkeys on rail fence in snow

They’re about 130 feet away in a heavy snowstorm that eventually deposited about a foot of wet snow on the area.

The top rail really does slant downward: the tenon on the right end broke and fell out of the mortise.

The DSC-H5 carries the 1.7× teleadapter, zoomed all the way tight through two layers of 1955-ish window glass, hand-held, braced against the pane.

The day before that snowstorm, we biked 18 miles out-and-back over the Walkway in beautiful, sunny, mid-50s (°F) weather:

KE4ZNU-9 - APRS track - 2017-02-08

KE4ZNU-9 – APRS track – 2017-02-08

We ride when we can and shovel when we must!

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Truth In Labeling: Bike Tube Division

The lumpy surface of the Michelin Pro-Tek Max tubes now in the back tire of our bikes can’t be patched, which means (being that type of guy) I must carry along a spare tube in addition to a handful of CO2 cartridges. So, having cleaned out my tube stash, I ordered a pair from an Amazon supplier, not my usual bottom-dollar eBay suppliers, clearly described as fitting the Schwalbe Marathon Plus 700x35C tires.

The Amazon listing and the box label agreed, but (being that type of guy) I just had to extract the tube to see what I got:

Meetlocks tube size mismatch

Meetlocks tube size mismatch

Huh.

According to the seller, who speaks and writes English far better than I can handle Mandarin (or whatever):

Yes, you are right, you also didn’t bought wrong items for your tire. we marked the 700×28-32, just for our manufacture to difference from another big size from 700/35-45C, because if we marked the size 700×28-35C, sometimes , the worker will packing 700×35-45c into the packing, and let the tube can not used for the 700x35c customer..

Huh.

It turns out the tube has 35-38 embossed into the rubber, so it’s not obvious the tube would fit into the smaller  28-32 size tires as labeled. It all depends on what you trust: the mold, the tube’s stamp, the box label, or the advertising.

Next time around, an event I hope (but do not expect) lies far in the future, I’ll spend a bit more for what will undoubtedly be the same tube from the same factory, but from a vendor buying enough QC to ensure the workers know what they’re packing. Having all the labels match would be a definite bonus.

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Schwalbe Marathon vs. Glass Chips, Yet Again

We biked to some errands on an unseasonably warm 4 January and, a few days later, I noticed the rear tire on Mary’s bike was flat. A bit of Quality Shop Time later:

Brown Glass Chip

Brown Glass Chip

On the upside, I found it in the garage and fixed it in the basement.

The chip emerged from one of two adjacent gashes in the middle of the tread, but hadn’t quite cut through the tire. A somewhat larger chip (that’s a 0.1 inch grid) in the other gash cut through the Schwalbe Marathon’s protective belt to puncture the tube, then fell out.

The rear wheel of her bike now sports a Michelin Pro-Tek Max tube inside a Schwalbe Marathon Plus tire, as does mine. The wheel + tube + tire probably weighs as much as some entire carbon-fiber bikes, but it doesn’t matter.

Searching for the obvious keywords will produce many other instances…

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ATX Lithium Ion 18650 Cell Capacity

The 2016-11A and 2016-11B cells produced the overlapping red and green curves, with the gritty section due to crappy battery pack connections:

Li-Ion 18650 cells - ATX prot - bare - Ah scale - 2016-12-17

Li-Ion 18650 cells – ATX prot – bare – Ah scale – 2016-12-17

The lower curve comes from an old unprotected cell harvested from a defunct media player and retrieved from the to-be-recycled pile.

I picked 1 A as a reasonable value for their intended use in flashlights and maybe a helmet camera. Unlike some other cells in the recent past, these deliver 3.0 A·h, reasonably close to their rated 3.4 A·h capacity at a (presumably) lower current.

Replotting the voltage vs. energy delivered doesn’t show any surprises:

Li-Ion 18650 cells - ATX prot - bare - Wh scale - 2016-12-17

Li-Ion 18650 cells – ATX prot – bare – Wh scale – 2016-12-17

The voltage declines more-or-less linearly, without the relatively flat discharge curve for smaller cells, which explains why the J5 V2 flashlight becomes seriously dim after a few hours. On the upside, that allows a reasonably accurate state-of-charge display.

Assuming the Sony HDR-AS30V camera burns 0.1 W·h/min while recording (which is a fancy way of saying it dissipates 6 W), then it should run for (10 W·h)/(0.1W·h/min) = 100 min from one of these cells fitted as an outrigger. The best of the NP-BX1 cells for the camera delivers something like 90 minutes from a measured capacity of 4 A·h at 500 mA; I don’t know what to make of those numbers. Perhaps the camera runs the NP-BX1 cells below the 2.8 V cutoff I’ve been assuming?

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Left on Maloney Rd from Rt 376: Eyes Right!

We’re waiting for oncoming traffic to clear before making the left turn from Rt 376 onto Maloney, on our way to the rail trail:

Maloney Rd Intersection Conflict - 2016-12-07 - waiting

Maloney Rd Intersection Conflict – 2016-12-07 – waiting

Traffic’s clear, we have the green, we’re turning, and the car exiting the gas station starts accelerating directly at us:

Maloney Rd Intersection Conflict - 2016-12-07 - turning

Maloney Rd Intersection Conflict – 2016-12-07 – turning

Mary shouts, I jam to a stop, the driver jams to a stop, I proceed, the driver then proceeds to turn in front of the truck behind us:

Maloney Rd Intersection Conflict - 2016-12-07 - rear view

Maloney Rd Intersection Conflict – 2016-12-07 – rear view

There’s no signal aimed into the gas station, so you must use your best judgement to determine when to enter the intersection. I’m not in enough of a hurry to (try to) ace out a truck, but ya never know …

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Sony HDR-AS30V vs. Lithium Ion 18650 Cells

These items came near enough to produce an irresistible force:

Sony HDR-AS30V vs 18650 cells - side view

Sony HDR-AS30V vs 18650 cells – side view

How can you look at that layout and not jump to the obvious conclusion?

The front view suggests enough room for a stylin’ case:

Sony HDR-AS30V vs 18650 cells - end view

Sony HDR-AS30V vs 18650 cells – end view

You’d need only one cell for the camera; I happened to have two in my hand when the attractive force hit.

The camera is 24.5 ⌀ x 47 tall x 71.5 overall length (67.8 front-to-door-seating-plane).

The ATK 18650 cells are 19 ⌀ x 69 long, with the overlong length due to the protection PCB stuck on the + end of the cylinder. You can get shorter unprotected cells for a bit less, which makes sense if you’re, say, Telsa Motors and building them into massive batteries; we mere mortals need all the help we can get to prevent what’s euphemistically called “venting with flame“.

Although I like the idea of sliding the cell into a tubular housing with a removable end cap, it might make more sense to park the cell over the camera in a trough with leaf-spring contacts on each end and a lid that snaps over the top. That avoids threaded fittings, figuring out how to get an amp or so out of the removable end cap contact, and similar imponderables.

think it’s possible to drill a hole through the bottom of the camera at the rear of the battery compartment to pass a cable from a fake internal cell to the external cell. Some delicate probing will be in order.

In round numbers, those 18650 cells allegedly have three times the actual capacity of the camera’s flat battery and cost about as much as the not-so-cheap knockoff camera cells I’ve been using.

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J5-V2 700 lm Flashlight: QC FAIL

So I picked up a J5-V2 Tactical Flashlight as a possible bike headlight, on the basis of a 750 (“max output”) lumen LED, zoomable beam, and use of standard 18650 lithium cells (rather than USB charging). The geometry required to stick it on the Tour Easy remains a puzzle, but an az-el dingus replacing an upper fairing mount may work well enough.

Anyhow, it seems the LED in this flashlight fell on the floor during assembly, where the (silicone?) LED emitter lens picked up a remarkable amount of dirt:

J5-V2 Flashlight - LED crud

J5-V2 Flashlight – LED crud

The inside of the front focusing lens carries an array of scratches or, perhaps, a greasy fingerprint that serves the same purpose:

J5-V2 Flashlight - internal lens scratches

J5-V2 Flashlight – internal lens scratches

All vendors tell you to contact them before posting a critical review, although they often don’t provide much in the way of contact information. I sent a note with photos to J5 through their website’s contact info; having not heard anything after three days, I’ll fire up the Amazon return process …

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