The platen of a Blickensderfer is a bit different from most typewriter platens, in that it has threaded rod-ends instead of a through platen rod. Also unusual is that its rubber surfacing is edged with metal side plates and it has a recessed diameter section for the line-ruler to run in.
The platen of a Blickensderfer is invariably rock hard. Even though the metal end plates and the recess make it a bit more tricky, Blick platens can be professionally re-surfaced for sure. Before perhaps doing that, first wanted to do some testing with new reproduction platens.
Wanted to find out if platen hardness has a noticeable impact on writing and if so; what hardness works well for the Blickensderfer. (The Blickensderfer with 'pressing down' of a Vulcanite type onto the paper is a different process than a typebar slamming a metal type onto the paper -and may have different requirements on platen.)
Using steel threaded rod as the basis, a new replacement platen construction was designed to allow different surfaces/sleeves to be tested. The two componenst that make up the 'core' are 3D printed in PLA - that is a very strong material at room temperature. Brass bushings cut from 4.5 mm OD by 4 mm ID tube form the bearings. For the threaded rod, M4 was used. It should be American UNF 8-36 thread; this is still common and widely available in the US, but simply cannot be had elsewhere. M4 is a close match and will take an 8-36 nut. (It is UNF 8-36 and not UNC 8-32 as had thought! Thanks GC for alerting me!)
The two component parts of the core, the main (green) and cap (pink), have threaded sections near the sides. The thread could be printed, but cutting makes for a cleaner and stronger thread in the plastic.
The threaded rod length is 268 mm with a hole of about 2 mm diameter drilled through at 27 mm from one end. This rod is screwed into the main core part to stick out from the flange-side about 8mm. A brass bush is then inserted, leaving a length of 3 mm sticking out. A small drop of cyanoacrylate glue on where the bush goes into the core will fix it in place.
The smaller core part, the 'cap', is also tapped and the brass bush inserted, leaving about 5.5 mm sticking out. With the sleeve and a nail, the new platen can be assembled.
The typing surface is a sleeve of rubbery material, i.e. a 3D printed tube from TPU of varying grades. The nail through the rod is used to positively lock the rod against rotating in the core. This way the plastic thread only needs to lock against sliding left-right and will not be loaded from rotating the platen. (Normal paper feeding could be fine, but e.g. when straightening paper by rotating the platen whilst holding the sheet the load on the rod is much larger than what a plastic thread could take.)
The brass bushes form the bearings of the platen in the carriage brackets (holes of about 4.8 mm). The core is held only at the threaded sections at both ends. Over most of the platen width, the threaded rod is free inside a larger hole, only loaded near the ends. In section mid-width, the new reproduction platen looks like this:
When the sleeve is over the core, the nail is locked in place. The right-hand 'cap' fixes everything in place with friction on the ends of the rubber sleeve. Everything can still be taken apart again. However, to eliminate any remaining rotation-play between rod and core, a drop of cyanoacrylate can be dropped into the nail-hole. The rod is then permanently fixed in the main core-component, but sleeves can still be exchanged.
Using the above construction a set of new, replacement Blickensderfer platens was made:
From left to right
- an original rock-hard platen,
- new TPU Shore 98
- new TPU Shore 95
- new TPU Shore 90
- new saturated cork
Note that even though the TPU rubber platens look credible (from a distance), they require a lot of work to remove or lessen printing artefacts. There are of course the lines from the stacked layers of material, with 0.15 mm pitch this is not too bad and easy to mitigate.
Flexing is however a bigger issue. Because the material is rubbery, the part starts to flex under the printing-head drag as it gets taller. This means that towards one end the surface becomes less defined - it is rough, wavey. Another hard-to-avoid artefact is a bulge from the z-step of the printer, this will need to be filed away. (TPU does not like filing.)
After the artefacts have been mitigated a surface layer of black paint is applied plus a fine sanding to finish. This way a reasonably smooth, cylindrical surface can be achieved. It is nowhere near the quality of a professionally re-surfaced platen, but good enough for a typing surface -and testing.
Exchanging the platen on a Blickensderfer is unfortunately a bit involved. The left carriage bracket has to be taken off and the linespacing mechanism on the right-side of the platen also has to be removed. There are also washers to be placed back in the right order. (Note that one washer between right-flange of the platen and the carriage bracket.)
Testing the new platens, the results varied.
The cork platen worked, but only when taking care and typing very lightly. A press that is only a little too hard would cause adjacent characters to smudge the paper. It is too soft for typing, even on a Blickensderfer (as others have noted too). Making a platen with cork probably is possible, but will require extra infusing of the cork and stiffening of the outer surface.
The Shore 98 platen is almost as hard as the original. It may be TPU, but there is hardly any trace of resilience left. Finger-nail test fail. Also in writing with it on the machine there is no difference with the original rock-hard rubber platen.
The Shore 95 platen feels very stiff, but definitely is resilient. The Blickensderfer types quite well with the 95 platen, a noticable difference with the hard, original platen!
Also with the more legible typeface of a wheel 407 it types quite well. And less worry about the wear on an original typewheel, because the surface does conform. I.e. it passes the finger-nail test.
The Shore 90 platen felt very rubbery resilient, yet still firm. It is clearly softer than the 95 platen, just going by finger-nail measuring. The typing on this platen however was much less distinct than on the Shore 95 surface. That was not expected, this nicely rubbery surface was expected to be best for writing with the Blickensderfer.
Quickly swapping back to the Shore 95 TPU platen, this looks the most promising sleeve material hardness.
Outcome of the testing, answers to the questions!;
- yes, new rubber does make a difference for typing.
- Shore 95 TPU is a good hardness.
There are still many details to be worked out on e.g. exact diameter of the sleeve, thickness of the sleeve itself and method of surface finishing. Things can be further optimized, e.g. the clunky nail-locking could perhaps be re-designed with captive steel nuts to take the torque. Another new platen knob with proper M4 thread perhaps to be made. And perhaps invest in importing a UNF 8-36 threaded rod all the way across the ocean :-)
Regardless, already a better typing Blickensderfer!
