Backspace does not erase
Friday, July 17, 2026
Comptometer E - part number J281 celluloid window
Saturday, July 4, 2026
Blickensderfer ink idea - more testing
Having found a cheap and plentiful source of very small quantities of oil-based ink, some more experimenting was done. Especially some colored inks; a discount-store had a brand set of colored ballpint pens for a few Euro.
These are very easy to take apart - twist and pull gets the top off and it all comes apart. The nib can be pulled out of the white tube easily (and pushed back too, they re-assemble equally easily).
The typing quality is definitely not on the level of a typebar machine with ribbon inking. On the other hand the typewheel used here is new, made with a 0.08 mm layering. (The Attic typeface used here is also a bit too ornate for typewriters perhaps.) Earlier experimenting with water-based ink and heavy inking gave much better writing, but were impractical because of soaking through the paper and drying out within the day (or hour!).
Looking closely at an original typewheel's type ('slug'), the top is not sharp as a typebar machine's type, but has a definite flat surface facing the paper. That flat surface is probably by-design. That surface is there to take the ink and act as the stamp. Ribbon-inked machines that work on impact do not need this flat surface, the impact onto the ribbon material presses ink onto the paper.
The needs of the 'stamping' process will be behind the typing advice given in the Blickensderfer instruction manual. On a regular ribbon-inked machine the typing is 'staccato'; the fingers strike the keys to fling the type against the ribbon and paper at speed, to rebound immediately. The inking is done by impact; near-instanteneous. On the Blickensderfer typing should be not by striking the keys, but rather by pressing them down - the type should be pressed against the paper to act as a stamp. This will be needed to give the ink time to transfer onto the paper, as in stamping. It's explained in the manual: the key must be followed down until the type is stopped by the paper.
Even though pens give low-cost oil-based inks (which oil?) and do work, the ink of these particular colored pens is not great - too runny and relatively light on colorant. Current impression is that the BIC Cristal inks are better suited for the Blickensderfer; thicker, sticky and very dense. Also the type itself on newly-made wheels can perhaps be optimised for the printing process.
Another realisation is that ribbon-inking is a very good, robust solution for typing.
More tinkering (playing) may be possible on getting this Blickensderfer 5 to type as it would have done 120 years ago :-)
Sunday, June 28, 2026
Blickensderfer ink idea
An idea: very cheap (or free!) ink that is widely available and ideally suitable for using on a Blickensderfer typewriter.
On this Blickensderfer No. 5, the 'tinkering machine', the platen was replaced with a new one. The paper is modern, sold as suitable for both inkjet and laser printers. For the type, we've a few original wheels and a near endless supply of new typewheels to optimise the type-design. Remains the ink - several were tried and they did work, but none were ideal.
From gun-cleaning felts and a bit of brass tubing, new felt-rollers can be made. A bit of superglue (slightly viscous, not the very runny) to the sides helps give the felt firmness and keep it in its shape. For the inking then, generally a stamping ink is used. Modern stamp inks are usually water-based, although oil-based metal-stamp inks are also available.
Water-based stamp ink does sort-of work on the Blickensderfer, however, the roller dries out very quickly (in a day). And with the level of inking that's needed to get a good imprint there will be bleeding of the ink through the paper. For example; here the reverse of a page with one line written with a water-based ink:
Oil-based inks are thicker and don't bleed through quite as easily.
However, oil-based stamp inks are less easily found and small bottles are surprisingly expensive. Oil-based black ink works on this machine, although still sensitive on inking-levels for the felt. The colored oil-based inks are all too runny with not enough colorant. I.e. the colored inks splatter; lots of small droplets around the typed character.
Thinking about the inking process of the Blickensderfer typewriter, it is perhaps a bit like a miniature paint-roller. Thick 'wall paint' rolled onto the type, before it gets pressed onto the sheet.
Not having the original specification of the Blickensderfer Manufacturing Company for the ink, it probably specified:
- an oil-based ink,
- very dense in colorant,
- very thick (high viscosity), much thicker than stamp inks,
- slow to evaporate, slow to migrate in dense felt,
- and probably, ideally a bit sticky.
Holding the tube vertical over the felt roller, the ink will drop slowly onto the felt.
To pause, place the tube horizontal again, the ink will stay/withdraw into the tube.
The ink very slowly infuses the felt - it will take a day to fully migrate into the roller.
Even with the ink only in the outside of the roller, the ink does stick to the type for printing onto the sheet.
After inking a roller or two, the tip can probably be pushed back onto the tube and fitted into the pen again. Ready for writing, or inking another roller.
More experimenting to be done, but it seems a promising source of ink for the Blickensderfer typewriter! After letting the ink diffuse into the felt for a day, may apply one more drop to it.
Some even cheaper pens or some free advertising pens still to be tried perhaps. (Although the quality control of a reputable brand feels good to have for this; the ink will be better, of consistent quality and be free from harmful components.)
And to experiment with colours! Some brands make these pens in many colours; finally a purple writing Blick, or brown, or ...
An idea!
(So silly not to have thought of this before. Oil-based ink was right there all the time, scattered all around the house!)
Friday, June 19, 2026
Manufacture of platens and Durometer values and Durometer Types
The manufacture of typewriter platens is described in an article in the June 10, 1919 issue of The Rubber Age.
The article is written by and for those deeply familiar with the rubber manufacturing industry, it is filled with jargon and technical terms. Typewriter-related, it explains the function of rubber as the platen material.
A bit further on, after delving into manufacturing, the desired hardnesses of the platens is mentioned too.
When Shore Durometer values for typewriter platens are mentioned today (or yesterday, for that matter), the values are generally in the 87 to 97 range. Those are Shore (A) values, this A is not always added, but to be unambiguous it should be added. There is a wide variety of different Shore scales and the letter is needed to identify on what scale the value should be interpreted, or pur another way; to identify what instrument was used to read the value.
The actual hardness needed in 1919 is surely not different from the hardness needed on a typewriter today; so the article must be meaning different durometer values than the default, usual Type A Durometer.
Readings with the original tester on hard rubber, i.e. with values over 90, were advised to be unreliable. Another method, or instrument, would be needed to measure hard rubber. The solution that was taken by Shore was to create a hard rubber tester by changing the flat-tipped indenter-pin of the Durometer for a pointed pin. This sharper, pointed pin was already in production for the Elastometer, so this would have been a simple, obvious step to take that required almost no effort or costs.
Another conclusion from this is that within a few years from the introduction of the Shore Durometer, already a second type of Shore Durometer was introduced. (For such a common and even standardized instrument, not all that much of its history is available - perhaps not surprising, a deeply niche subject :-)
The Shore Type A Durometer is the original instrument of 1915, the Type B is a second, hard rubber instrument that was in use already in 1919.
Tuesday, June 16, 2026
Remington Portable early model
First new typewriter in a while! Although early Remington Portable typewriters are not particularly rare, they're not too common in Europe. So when the opportunity came along to get one, for a reasonable sum too, sprang for it.
Not sure if these are very 'collectable', but I'd say it's a notable 'milestone' typewriter design. It represents an impressive feat of engineering that -accelerated by well-funded and good marketing- arguably defined the portable typewriter category for decades. (So deemed it worth finding that little bit of extra shelf-space for.)
This is not the very first model of the Portable, this machine NV10943 dates from July 1921 and the outer housing had just switched to flat-bottom with rubber feet instead of the dimples with cotter-pins. This specimen also has the second style of 2-hole type-guide, this update being phased in on-off over the July production (i.e. there are later July 1921 machines that have the early style).
One sign of an early Portable still there: no exposed shift-stop screws, plain side-wall of the outer frame.
On these early Portable machines, the serial number is stamped in the frame part of the machine, instead of in the outer shell - sensible. Also visible is another feature of all #1 Portables, the rear carriage rail is short - maybe even will allow for the bearing-cage to be slid off without completely loosening the rear rail.
Some of the #1 machines seen online are missing one of the 3-hole half-spools; they may actually only be missing the spool flange. This has come unstuck from its core and it's only luck that it is still with the machine.
Even though it already has some of the later features, this machine does still have the curved paper-table and doesn't have any supports.
Unfortunately, the line-spacing sprung roller is missing. Only the base of the spring is still there; broken off. The line-release lever had been replaced with a much later, #2 Portable lever (removed in above picture). This may be the cause of the line-spacing roller breaking, perhaps there are subtle differences in design beyond the length of the lever.
The early lifting-tray slides very smoothly in its guides, no play at all. The mounting to the lifting arms is different from later #1 models. The early mounting has a hex-nut.
For comparison, the #1 from 1924 in below picture has the lever fixed much the same way as the #2 Portable:
This above view of a late #1 also shows how the outer frame now gives access to single screws of the shift-stops. The #2 model also exposes the adjusting screw, so two screws per shift-stop. (Well, one is the baseline stop and the other is the shifted-stop, but let's call them both stop-blocks.) Just visible too is the sloped face of the ribbon-reverse knob -the early Portable has no automatic ribbon reverse (hence 3-hole spools are handy to show the user when it's time to reverse).
The shift-lock key has its own key-lever, entirely separate from the shift-key's lever.
Another quirk is that this machine has a regular, international keyboard with accents. The accent keys are however not dead-keys - typing an accent grave will index the carriage. In practice this won't have been an issue; to type e.g. "é" first press down the spacebar, then type e and then the accent and then let go of the spacebar.
The typewriter was briefly taken of its base to remove some dust.
Surprisingly, whilst the carriage rails are brightly nickeled, the internal mechanism of this specimen is mostly blackened. The bell, spring-drum and most of the rods and spacers are black.
As is to be expected, it shows signs of having been serviced such as that wrong long-lever line-release, and also has several spots where thick black paint was used to re-touch.
This Portable has, of course, a rock-hard platen and no functional line-feed, but other than that it all seems to work. Robust machines :)
Maybe to scout-round for a replacement line-feed roller and a correct pattern release lever, but first it goes on the storage shelf. Wrapped in plastic to await a later full cleaning and touching-up (and perhaps full repair, new rubber?).
So finally got one! An early Remington Portable, the start of a very long line of robust personal writing machines.
:-)
Monday, June 15, 2026
Snagged one!
Arrived last weekend - need to take more pictures, but already sneak peek.
More pictures to come -and discovering the state it's in :-D
Wednesday, June 10, 2026
Fixing-up a Shore hardness tester (Type "T")
However, having gained some more confidence and because of the platen-testing with the Blickensderfer, it was taken down again and opened up. Normally wouldn't dare take apart such an instrument, but it was broken anyways so nothing to lose.
The spring-assembly was taken out and the small bearing in the lower-left corner that holds the axle of the pointer was screwed-out. That allowed the pinion to slip a tooth with the rack-segment on the horizontal 'weighing-bar' that holds the pin. (No idea how that got out of sync, it must've had quite some mistreatment!)
Re-assembly is -as they say- the reverse of disassembly.
First-off, the pin should be exposed 0.1" from the base (abutment). This is unlikely to be out of adjustment, but astonishingly this one was. The pin can be screwed in or out and is fixed with a tiny set-screw (orange). Vernier-calipers should be fine for now. Then the spring constant should be adjusted to be about 74 gf per 10 on the scale (that is for medium-spring Durometers - there's a world out there!).
Then the absolute level of force for the values has to be set. That can be done by changing the pre-load with the distance-bush. Use small pliers or a tiny wrench to rotate the bush until right (purple).
After reading more about Durometers, it's become clear that this set is a hodgepodge - it is wrong. The check-block has serial nuimber 6622 and the instrument is 13764 - the check-block should be with instrument 6622 and 13764 lost its own check-block. The black leather box likewise is wrong for the 1940s crinkle-black instrument, probably it's the box of the 6622 instrument.





















































