Tag: Improvements

Making the world a better place, one piece at a time

Machine Shop

Simple Pliers Rack

A Round Tuit™ finished this trivial project:

Long-handle pliers rack
Long-handle pliers rack

Yeah, it’s just seven pairs of holes drilled with a 5/8 inch Forstner bit in a scrap 2×4, which was then introduced to Mr Belt Sander to peel off the dust of ages.

There’s a spare set of holes in front because I’m absolutely certain that, without them, another pair of pliers would suddenly pop into existence on the bench.

Electronics Workbench, Home Ec, Machine Shop, Science

Lyme Disease, Now With Bonus Babesiosis

Two weeks of doxycycline should kill off all the Borrelia bacteria responsible for Lyme disease, but a blood test shows the antibodies:

Lyme test - 2021-11-10
Lyme test – 2021-11-10

Those antibodies will gradually disappear during the next few months and, unfortunately, a past Lyme infection does not prevent future infections.

The tick also injected Babesia parasites which do not respond to antibiotic treatment:

Babesia test - 2021-11-10
Babesia test – 2021-11-10

The “titer” refers to the dilution required to produce a negative test result, with the 1:64 reference titer representing six successive 50% dilutions. My blood required ten 50% dilutions to produce a negative result for the IgG antibodies and (presumably) six 50% dilutions from a 20% base for the IgM antibodies.

As I understand the situation, IgM antibodies appear promptly upon infection and IgG antibodies follow along later, so my reaction to the Babesia infestation was ramping up after two weeks.

In the Bad Old Days™, quinine was the go-to treatment for parasitic infections, but it has a host of horrific side effects at the dosage required for traction against actual diseases; tonic water ain’t gonna get you where you need to go.

The new hotness is atovaquone, arriving as 100 ml of a yellow liquid with the consistency of latex paint, (allegedly) the taste of “tutti fruitti“, and a price (modulo your drug plan) making inkjet printer ink look downright affordable. You might expect to get a 5 ml measuring spoon along the the bottle, but suffice it to say it’s an exceedingly good thing I’m well stocked for printer cartridge refilling.

All of the diseases and drugs list “fatigue” / “drowsiness” / “malaise” as symptoms / side effects and I’m here to tell you knocking off a couple of hours in the recliner during the day does nothing at all to disturb another nine hours in the sack overnight.

A few weeks of low productivity in the Basement Shop™ will definitely count as a successful outcome.

Protip: We need permethrin spray. Lots permethrin spray.

Electronics Workbench, Software

Alpha Geek Clock: Radome Update

There being nothing like a new problem to take one’s mind off all one’s old problems:

C-Max CMMR-60 WWVB receiver - D cell display holder
C-Max CMMR-60 WWVB receiver – D cell display holder

It’s a variation on the camera battery and AA alkaline holders for various blinky LEDs:

Astable Multivibrator - D cell WWVB
Astable Multivibrator – D cell WWVB

The little flag holding the C-Max CMMR-60 receiver PCB gets glued to the copper upright to keep it from swiveling in the breeze.

The conical caps on the ferrite bar antenna are glued to the uprights and the antenna, in the expectation this is a one-off build-only project.

Rather than buy specialized D-cell contacts, I used 18650 lithium cell contacts and conjured the bridge by soldering two together:

D cell bridge contact from 18650 contacts
D cell bridge contact from 18650 contacts

It sits on the windowsill, blinks quietly in the dark, and flickers invisibly during the daytime.

Those D cells came from the same batch that powered the previous version for the last five years, so they probably won’t last that long, even with a Nov 2024 date code.

C-Max is apparently out of the WWVB biz, but you can get a similar Canaduino AM WWVB receiver.

The far more complex EverSet ES100-MOD WWVB receiver requires a microcontroller with an I²C interface and very careful power management.

The OpenSCAD source code as a GitHub Gist:

// Astable Multivibrator
// Holder for Alkaline cells
// Ed Nisley KE4ZNU August 2020
// 2020-09 add LED radome
// 2020-11 add radome trim
// 2021-11 D cells and WWVB receiver
/* [Layout options] */
Layout = "Build"; // [Build,Show,Lid,Spider,AntCap,RecFlag]
CellName = "AA"; // [AA, D]
Struts = -1; // [0:None, -1:Dual, 1:Quad]
WWVB = true;
/* [Hidden] */
NumCells = 2; // [2]
// Extrusion parameters
/* [Hidden] */
ThreadThick = 0.25;
ThreadWidth = 0.40;
HoleWindage = 0.2;
function IntegerMultiple(Size,Unit) = Unit * ceil(Size / Unit);
function IntegerLessMultiple(Size,Unit) = Unit * floor(Size / Unit);
Protrusion = 0.1; // make holes end cleanly
inch = 25.4;
//- Basic dimensions
WallThick = IntegerMultiple(3.0,ThreadWidth);
CornerRadius = WallThick/2;
FloorThick = IntegerMultiple(3.0,ThreadThick);
TopThick = IntegerMultiple(2.0,ThreadThick);
WireOD = 1.5; // battery & LED wiring
WireOC = 8.0; // hole spacing in lid
Gap = 5.0;
// Cylindrical cell sizes
// https://en.wikipedia.org/wiki/List_of_battery_sizes#Cylindrical_batteries
CELL_NAME = 0;
CELL_OD = 1;
CELL_OAL = 2;
// FIXME search() needs special-casing to properly find AAA and AAAA
// Which is why CellName is limited to AA
CellData = [
["AAAA",8.3,42.5],
["AAA",10.5,44.5],
["AA",14.5,50.5],
["C",26.2,50],
["D",34.2,61.5],
["A23",10.3,28.5],
["CR123A",17.0,34.5],
["18650",18.8,65.2], // bare 18650 with button end
["18650Prot",19.0,70.0], // protected 18650 = 19670 plus a bit
];
CellIndex = search([CellName],CellData,1,0)[0];
echo(str("Cell index: ",CellIndex," = ",CellData[CellIndex][CELL_NAME]));
//- Contact dimensions
CONTACT_NAME = 0;
CONTACT_WIDE = 1;
CONTACT_HIGH = 2;
CONTACT_THICK = 3; // plate thickness
CONTACT_TIP = 4; // tip to rear face
CONTACT_TAB = 5; // solder tab width
ContactData = [
["AA+",12.2,12.2,0.3,1.7,3.5], // pos bump
["AA-",12.2,12.2,0.3,5.0,3.5], // half-compressed neg spring
["AA+-",28.2,12.2,0.3,5.0,0], // pos-neg bridge
["D+",18.5,16.0,0.3,2.8,5.5],
["D-",18.5,16.0,0.3,6.0,5.5],
["D+-",50.0,19.0,0.3,7.0,0], // solder +/- tabs together
["Li+",18.5,16.0,0.3,2.8,5.5],
["Li-",18.5,16.0,0.3,6.0,5.5],
];
function ConDat(name,dim) = ContactData[search([name],ContactData,1,0)[0]][dim];
ContactRecess = 2*ConDat(str(CellName,"+"),CONTACT_THICK);
ContactOC = CellData[CellIndex][CELL_OD];
WireBay = 6.0; // room for wiring to contacts
//- Wire struts
StrutDia = 1.6; // AWG 14 = 1.6 mm
StrutSides = 3*4;
ID = 0;
OD = 1;
LENGTH = 2;
StrutBase = [StrutDia,StrutDia + 2*5*ThreadWidth, // ID = wire, OD = buildable
FloorThick + CellData[CellIndex][CELL_OD]]; // LENGTH = base is flush with cell top
//- Holder dimensions
BatterySize = [CellData[CellIndex][CELL_OAL] + // cell
ConDat(str(CellName,"+"),CONTACT_TIP) + // pos contact
ConDat(str(CellName,"-"),CONTACT_TIP) - // neg contact
2*ContactRecess, // sink into wall
NumCells*CellData[CellIndex][CELL_OD],
CellData[CellIndex][CELL_OD]
];
echo(str("Battery space: ",BatterySize));
CaseSize = [3*WallThick + // end walls + wiring partition
BatterySize.x + // cell
WireBay, // wiring bay
2*WallThick + BatterySize.y,
FloorThick + BatterySize.z
];
echo(str("CaseSize: ",CaseSize));
BatteryOffset = (CaseSize.x - (2*WallThick +
CellData[CellIndex][CELL_OAL] +
ConDat(str(CellName,"-"),CONTACT_TIP))
) /2 ;
ThumbRadius = 0.75 * CaseSize.z;
StrutOC = [IntegerLessMultiple(CaseSize.x - 2*CornerRadius -2*StrutBase[OD],5.0),
IntegerMultiple(CaseSize.y + StrutBase[OD],5.0)];
StrutAngle = atan(StrutOC.y/StrutOC.x);
echo(str("Strut OC: ",StrutOC));
LidSize = [2*WallThick + WireBay + ConDat(str(CellName,"+"),CONTACT_THICK), CaseSize.y, FloorThick/2];
LidScrew = [2.0,3.8,7.0]; // M2 pan head screw (LENGTH = threaded)
LidScrewOC = CaseSize.y/2 - CornerRadius - LidScrew[OD]; // allow space around screw head
//- Piranha LEDs
PiranhaBody = [8.0,8.0,8.0]; // Z = heatsink fins + plastic body + lens
PiranhaPin = 0.0; // trimmed pin length beyond heatsink
PiranhaPinsOC = [5.0,5.0]; // pin XY distance
PiranhaRecess = PiranhaBody.z + PiranhaPin/2; // minimum LED recess depth
BallOD = 40.0; // radome sphere
BallSides = 4*3*4; // nice smoothness
PillarOD = norm([PiranhaBody.x,PiranhaBody.y]) + 2*WallThick;
BallChordM = BallOD/2 - sqrt(pow(BallOD/2,2) - (pow(PillarOD,2))/4);
echo(str("Ball chord depth: ",BallChordM));
RadomePillar = [norm([PiranhaBody.x,PiranhaBody.y]), // ID = LED diagonal
PillarOD,
FloorThick + PiranhaRecess + BallChordM]; // height to top of ball chord
echo(str("Pillar: ",RadomePillar));
RadomeBar = [StrutBase[OD]*cos(180/StrutSides),StrutOC.y,StrutBase[OD]/2];
Tape = [RadomePillar[ID],16.0,1.0]; // sticky tape disk, OD to match hole punch
//- WWVB receiver hardware
Antenna = [10.0 + 0.5,14.0,60.0 + 2.0]; // ferrite antenna bar with clearance
AntCapSize = [Antenna[ID] + 1.0,Antenna[OD],5.0]; // LENGTH=insertion
RecPCB = [24.0,16.0,5.0];
//----------------------
// Useful routines
module PolyCyl(Dia,Height,ForceSides=0) { // based on nophead's polyholes
Sides = (ForceSides != 0) ? ForceSides : (ceil(Dia) + 2);
FixDia = Dia / cos(180/Sides);
cylinder(r=(FixDia + HoleWindage)/2,h=Height,$fn=Sides);
}
// Spider for single LED atop struts, with the ball
module DualSpider() {
difference() {
union() {
for (j=[-1,1]) {
for (k=[-1,1])
translate([0,j*StrutOC.y/2,k*RadomeBar.z])
rotate(180/StrutSides)
sphere(d=StrutBase[OD]/cos(180/StrutSides),$fn=StrutSides);
translate([0,j*StrutOC.y/2,0])
rotate(180/StrutSides)
cylinder(d=StrutBase[OD],h=2*RadomeBar.z,center=true,$fn=StrutSides);
}
cube(RadomeBar,center=true); // connecting bar
cylinder(d=RadomePillar[OD],h=RadomePillar[LENGTH],$fn=BallSides);
translate([0,0,-RadomeBar.z/2])
cylinder(d1=0.9*RadomePillar[OD],d2=RadomePillar[OD],h=RadomeBar.z/2,$fn=BallSides);
}
for (j=[-1,1]) // strut wires
translate([0,j*StrutOC.y/2,-3*StrutBase[OD]/2])
rotate(180/StrutSides)
PolyCyl(StrutBase[ID],2*StrutBase[OD],StrutSides);
for (k=[-1,1]) // LED wiring through bar
translate([0,k*(StrutOC.x/2 - 2*RadomeBar.x),-RadomeBar.z])
rotate(180/6)
PolyCyl(StrutBase[ID],2*RadomeBar.z,6);
translate([0,0,BallOD/2 + RadomePillar[LENGTH] - BallChordM]) // ball inset
sphere(d=BallOD);
translate([0,0,BallOD/2 + RadomePillar[LENGTH] - BallChordM - Tape[LENGTH]/2]) // tape inset
intersection() {
sphere(d=BallOD);
cylinder(d=Tape[OD],h=2*BallOD,center=true);
}
translate([0,0,RadomePillar.z - PiranhaRecess + RadomePillar.z/2]) // LED inset
cube(PiranhaBody + [HoleWindage,HoleWindage,RadomePillar.z],center=true); // XY clearance
translate([0,0,StrutBase[OD]/4 + WireOD/2 + 0*Protrusion]) // wire channels
cube([WireOD,RadomePillar[OD] + 2*WallThick,WireOD],center=true);
}
}
//-- WWVB antenna support cap
module AntennaBar() {
rotate([90,0,0])
union() {
cylinder(d=Antenna[ID],h=Antenna[LENGTH],$fn=BallSides,center=true);
cylinder(d=2*Antenna[OD],h=Antenna[LENGTH] - 2*AntCapSize[LENGTH],$fn=BallSides,center=true);
}
}
module AntennaCap() {
rotate([90,0,0])
intersection() {
translate([0,-Antenna[LENGTH]/2 + AntCapSize[LENGTH],0])
difference() {
hull() {
rotate([90,0,0])
cylinder(d=AntCapSize[OD],h=Antenna[LENGTH],$fn=BallSides,center=true);
for (j=[-1,1])
translate([0,j*StrutOC.y/2,0])
rotate(180/StrutSides)
cylinder(d=StrutBase[OD],h=1*StrutBase[OD],$fn=StrutSides,center=true);
}
for (j=[-1,1])
translate([0,j*StrutOC.y/2,-Antenna[OD]/2])
rotate(180/StrutSides)
PolyCyl(StrutBase[ID],Antenna[OD],StrutSides);
AntennaBar();
}
rotate([-90,0,0])
cylinder(d=Antenna[OD],h=Antenna[LENGTH],center=false);
}
}
//-- WWVB PCB support flag
module RecFlag() {
difference() {
hull() {
rotate(180/StrutSides)
cylinder(d=StrutBase[OD],h=RecPCB.x,$fn=StrutSides);
translate([0,RecPCB.y,0])
rotate(180/StrutSides)
cylinder(d=StrutBase[OD],h=RecPCB.x,$fn=StrutSides);
}
translate([0,0,-Protrusion])
rotate(180/StrutSides)
PolyCyl(StrutBase[ID],2*RecPCB.x,StrutSides);
translate([0,StrutBase[OD]/2,-Protrusion])
cube([StrutBase[OD],RecPCB.y,2*RecPCB.x],center=false);
}
}
//-- Overall case with origin at battery center
module Case() {
union() {
difference() {
union() {
hull()
for (i=[-1,1], j=[-1,1])
translate([i*(CaseSize.x/2 - CornerRadius),
j*(CaseSize.y/2 - CornerRadius),
0])
cylinder(r=CornerRadius/cos(180/8),h=CaseSize.z,$fn=8); // cos() fixes undersize spheres!
if (Struts)
for (i = (Struts == 1) ? [-1,1] : -1) { // strut bases
hull()
for (j=[-1,1])
translate([i*StrutOC.x/2,j*StrutOC.y/2,0])
rotate(180/StrutSides)
cylinder(d=StrutBase[OD],h=StrutBase[LENGTH],$fn=StrutSides);
translate([i*StrutOC.x/2,0,StrutBase[LENGTH]/2])
cube([2*StrutBase[OD],StrutOC.y,StrutBase[LENGTH]],center=true); // blocks for fairing
for (j=[-1,1]) // hemisphere caps
translate([i*StrutOC.x/2,
j*StrutOC.y/2,
StrutBase[LENGTH]])
rotate(180/StrutSides)
sphere(d=StrutBase[OD]/cos(180/StrutSides),$fn=StrutSides);
}
}
translate([BatteryOffset,0,BatterySize.z/2 + FloorThick]) // cells
cube(BatterySize + [0,0,Protrusion],center=true);
translate([BatterySize.x/2 + BatteryOffset + ContactRecess/2 - Protrusion/2, // contacts
0,
BatterySize.z/2 + FloorThick])
cube([ContactRecess + Protrusion,
ConDat(str(CellName,"+-"),CONTACT_WIDE),
ConDat(str(CellName,"+-"),CONTACT_HIGH)
],center=true);
translate([-(BatterySize.x/2 - BatteryOffset + ContactRecess/2 - Protrusion/2),
ContactOC/2,
BatterySize.z/2 + FloorThick])
cube([ContactRecess + Protrusion,
ConDat(str(CellName,"+"),CONTACT_WIDE),
ConDat(str(CellName,"+"),CONTACT_HIGH)
],center=true);
translate([-(BatterySize.x/2 - BatteryOffset + ContactRecess/2 - Protrusion/2),
-ContactOC/2,
BatterySize.z/2 + FloorThick])
cube([ContactRecess + Protrusion,
ConDat(str(CellName,"-"),CONTACT_WIDE),
ConDat(str(CellName,"-"),CONTACT_HIGH)
],center=true);
translate([-CaseSize.x/2 + WireBay/2 + WallThick, // wire bay with screw bosses
0,
BatterySize.z/2 + FloorThick + Protrusion/2])
cube([WireBay,
2*LidScrewOC - LidScrew[ID] - 2*4*ThreadWidth,
BatterySize.z + Protrusion
],center=true);
for (j=[-1,1]) // screw holes
translate([-CaseSize.x/2 + WireBay/2 + WallThick,
j*LidScrewOC,
CaseSize.z - LidScrew[LENGTH] + Protrusion])
PolyCyl(LidScrew[ID],LidScrew[LENGTH],6);
for (j=[-1,1])
translate([-(BatterySize.x/2 - BatteryOffset + WallThick/2), // contact tabs
j*ContactOC/2,
BatterySize.z + FloorThick - Protrusion])
cube([2*WallThick,
ConDat(str(CellName,"+"),CONTACT_TAB),
(BatterySize.z - ConDat(str(CellName,"+"),CONTACT_HIGH))
],center=true);
if (false)
translate([0,0,CaseSize.z]) // finger cutout
rotate([90,00,0])
cylinder(r=ThumbRadius,h=2*CaseSize.y,center=true,$fn=22);
if (Struts)
for (i2 = (Struts == 1) ? [-1,1] : -1) { // strut wire holes and fairing
for (j=[-1,1])
translate([i2*StrutOC.x/2,j*StrutOC.y/2,FloorThick])
rotate(180/StrutSides)
PolyCyl(StrutBase[ID],2*StrutBase[LENGTH],StrutSides);
for (i=[-1,1], j=[-1,1]) // fairing cutaways
translate([i*StrutBase[OD] + (i2*StrutOC.x/2),
j*StrutOC.y/2,
-Protrusion])
rotate(180/StrutSides)
PolyCyl(StrutBase[OD],StrutBase[LENGTH] + 2*Protrusion,StrutSides);
}
translate([0,0,ThreadThick - Protrusion]) // recess around name
cube([51.0,15,2*ThreadThick],center=true);
}
linear_extrude(height=2*ThreadThick + Protrusion,convexity=10) {
translate([0,-3.5,0])
mirror([0,1,0])
text(text="softsolder",size=6,spacing=1.20,font="Arial:style:Bold",halign="center",valign="center");
translate([0,3.5,0])
mirror([0,1,0])
text(text=".com",size=6,spacing=1.20,font="Arial:style:Bold",halign="center",valign="center");
}
}
}
module Lid() {
difference() {
hull()
for (i=[-1,1], j=[-1,1], k=[-1,1])
translate([i*(LidSize.x/2 - CornerRadius),
j*(LidSize.y/2 - CornerRadius),
k*(LidSize.z - CornerRadius)]) // double thickness for flat bottom
sphere(r=CornerRadius/cos(180/8),$fn=8);
translate([0,0,-LidSize.z]) // remove bottom
cube([(LidSize.x + 2*Protrusion),(LidSize.y + 2*Protrusion),2*LidSize.z],center=true);
for (j=[-1,1]) // wire holes
translate([0,j*WireOC/2,-Protrusion])
PolyCyl(WireOD,2*LidSize.z,6);
for (j=[-1,1])
translate([0,j*LidScrewOC,-Protrusion])
PolyCyl(LidScrew[ID],2*LidSize.z,6);
}
}
//-------------------
// Show & build stuff
if (Layout == "Case")
Case();
if (Layout == "Lid")
Lid();
if (Layout == "AntCap")
AntennaCap();
if (Layout == "RecFlag")
RecFlag();
if (Layout == "Spider")
if (Struts == -1)
DualSpider();
else
cube(10,center=true);
if (Layout == "Build") {
rotate(90)
Case();
translate([0,-(CaseSize.x/2 + LidSize.x/2 + Gap),0])
rotate(90)
Lid();
if (Struts == -1) {
difference() {
union() {
translate([CaseSize.x/2 + RadomePillar[OD],0,0])
DualSpider();
translate([-(CaseSize.x/2 + RadomePillar[OD]),0,0])
rotate([180,0,0])
DualSpider();
}
translate([0,0,-2*CaseSize.z])
rotate(90)
cube(4*CaseSize,center=true);
}
}
if (WWVB) {
for (i=[-1,1])
translate([i*(Antenna[LENGTH]/2 - AntCapSize[LENGTH]),CaseSize.x/2 + Antenna[OD],0])
AntennaCap();
translate([0,CaseSize.x/2 + Antenna[OD],0])
RecFlag();
}
}
if (Layout == "Show") {
Case();
for (j=[-1,1])
color("Brown",0.3)
translate([-StrutOC.x/2,j*StrutOC.y/2,Protrusion])
cylinder(d=StrutDia[ID],h=3*CaseSize.z,$fn=StrutSides);
translate([-(CaseSize.x/2 - LidSize.x/2),0,(CaseSize.z + Gap)])
Lid();
if (Struts == -1)
translate([-StrutOC.x/2,0,3*CaseSize.z])
DualSpider();
if (WWVB) {
for (j=[-1,1])
translate([-StrutOC.x/2,,j*(Antenna[LENGTH]/2 - AntCapSize[LENGTH]),1.5*CaseSize.z])
rotate([-j*90,0,0])
AntennaCap();
translate([-StrutOC.x/2,,-(StrutOC.y/2),2*CaseSize.z])
RecFlag();
}
}
view raw Astable Multivibrator - Alkaline Batteries.scad hosted with ❤ by GitHub
Electronics Workbench, Machine Shop

LED-ified Halogen Desk Lamp: DC LED Driver

Feeding half-wave rectified 12 V AC into the 4 W LED lamp I hung on the end of the halogen desk lamp worked at human scale, but produced dark bars across images made with my Pixel phones. Having solved that problem for the LED lighting on Mary’s sewing machines, I replaced the OEM transformer with a 12 VDC power supply:

LED Desk Lamp - Driver installed
LED Desk Lamp – Driver installed

The steel lump inside the base is the OEM weight that, in addition to two pounds of transformer, kept the whole affair from toppling over.

The transformer inside the DC supply weighs basically nothing:

LED Desk Lamp - Driver PCB
LED Desk Lamp – Driver PCB

The original 12 VAC transformer powered a 50 W halogen bulb and loafed along at 14.7 VAC (yes, RMS) into the 4 W LED. The light is somewhat dimmer at 12 VDC, but not enough to worry about.

Aaaaand the photo bars are gone!

Electronics Workbench, Oddities

Alpha Geek Clock: Battery Refresh

A pair of D cells can power an obsolete / out of production C-Max CMMR-60 WWVB receiver for about five years and, having the plastic pieces for a blinkie at hand, junking the faded case in favor of a test lashup seemed appropriate:

C-Max CMMR-60 WWVB receiver - AA alkaline test setup
C-Max CMMR-60 WWVB receiver – AA alkaline test setup

Given the fragility of that ferrite bar, I should conjure a wide D-cell base, a bar holder to cover the ends, and a PCB mount of some sort.

The receiver data pin drives the red LED of an RGB piranha through a 2.2 kΩ SMD resistor, so it’s visible in a dim room. Given that the thing flickers constantly during WWVB’s poor-reception daylight hours, reducing the LED current counts for almost everything.

The antenna has a cap under that heatshrink tubing, which called for a resonance check:

C-Max CMMR-60 WWVB receiver - antenna peaking - driver coil
C-Max CMMR-60 WWVB receiver – antenna peaking – driver coil

The blue dingus is an RF sniffer driven three orders of magnitude below its frequency spec:

C-Max CMMR-60 WWVB receiver - antenna peaking - function generator
C-Max CMMR-60 WWVB receiver – antenna peaking – function generator

The antenna response peaks where you’d expect:

C-Max CMMR-60 WWVB receiver - antenna peaking - scope
C-Max CMMR-60 WWVB receiver – antenna peaking – scope

Given the broad peak and typical tolerances, it’s spot on.

Machine Shop

CNC 3018 Tool Clamp Rehabilitation

The CNC 3018 Z-axis stage has a plastic clamp holding the spindle motor, so I just duplicated the motor diameter in the mounts for my diamond drag bit, cheap pen, and fancy pen holders. For obvious reasons, I tend to err on the small side for anything intended to fit into anything else, which led to each of the holders sporting a small strip of tape to soak up the difference.

While poking around the 3018, I once again noticed the clamp’s crappy fit around the holder:

CNC3018 tool clamp - top
CNC3018 tool clamp – top

The inside should be circular, but it’s definitely not:

CNC3018 tool clamp - top detail
CNC3018 tool clamp – top detail

The end of the 30 mm M3 SHCS bottoms out before the clamp closes, although I’ve managed to crank the screw tight enough to put enough of a dent in there to snug the clamp:

CNC3018 tool clamp - side
CNC3018 tool clamp – side

Some awkward scraping and filing eroded enough of the plastic to let a 25 mm SHCS close the clamp firmly around the holder:

CNC3018 tool clamp - revised
CNC3018 tool clamp – revised

The tool holders now slide in easily with the screw released and fit firmly with the screw tightened a reasonable amount, minus the tape snippets shimming the difference.

If I had the courage of my convictions, I’d take it all apart, bore the clamp out to a circular profile, realign the clamp screw passage to suit, then rebuild all those tool holders for the new diameter; it now works well enough to tamp that project down.

Administrivia, PC Tweakage

Clearing the Noto Font Clutter: Again

Installing Atkinson Hyperlegible reminded me to clear out the Noto font clutter in this (relatively nerecentw) Manjaro installation. Of course fonts now appear in slightly different locations with slightly different names, so this remains just a serving suggestion:

cd /usr/share/fonts/noto
sudo chmod a-w NotoSans-*
sudo chmod a-w NotoSansMono*
sudo chmod a-w NotoSansDisplay*
sudo chmod a-w NotoSansMath*
sudo chmod a-w NotoSansSymbol*
sudo chmod a-w NotoSerif-*
sudo chmod a-w NotoSerifDisplay*
sudo chmod a-w NotoMusic*
sudo chmod a-w NotoMath*
sudo find . -perm /u=w -name \*ttf -delete

Get rid of some other clutter:

cd ../TTF
sudo chmod a-w DejaVu*
sudo chmod a-w Inconsolata-*
sudo find . -perm /u=w -name \*ttf -delete
cd ../droid
sudo chmod a-w DroidSans-Bold.ttf 
sudo chmod a-w DroidSans.ttf 
sudo chmod a-w DroidSansFallback*
sudo chmod a-w DroidSansMono.ttf 
sudo chmod a-w DroidSerif-*
cd ../adobe-source-han-sans
sudo rm *otf

For unknown reasons, we now have two font cache updaters:

sudo fc-cache -v -f
sudo fc-cache-32 -v -f

Now font selection in, say, LibreOffice doesn’t involve paging through a myriad fonts in languages I cannot recognize, let alone read. Admittedly, Inconsolata does have more variations than I’ll ever use.