Inkjet printing requires orders of magnitude more engineering expertise, materials science, industry experience and financial resources than most people imagine. That is the reason, open inkjet printers don't exist despite having been consumer products with the same drawbacks for more than forty years.
That is why this is a pre-crowdfund landing page without a demonstrating a working prototype. I would like to be wrong, but I expect you to be waiting a long time.
An inkjet printer is not a collection of off the shelf parts. It is a machine that operates at the edge of chemistry, fluid dynamics, and electro-mechanical design...you have to place tiny tiny drops of liquid ink on commodity wood pulp with precision under arbitrary environmental conditions, get that ink to dry on the wood pulp, but not in tank or nozzel, while producing acceptable color, durability, and ease of use.
Also lawyers...there are patents.
On the technology side, I'm somewhat hopeful because it looks like they're using off-the-shelf HP ink cartridges for this. HP cartridges embed the printhead into the cartridge itself, and that printhead is arguably the most complicated part of the entire device. Outsource the printhead, and you're just designing a plotter with a PCL interface.
I agree that the bigger challenge is going to be patents.
It also wouldn't surprise me to see HP add DRM to cartridges to authenticate the printer itself if this catches on. (Possibly requiring a printer driver/firmware update.)
The cartridge heads have a super curious digital protocol - the cartridge electronics have no power supply. There is no power rail internally either.
Instead they use the fact mosfet gates have capacitance, and can therefore store 1 'bit' of information. Through a network of hundreds of MOSFETs, the right bits can be put on all the nozzle gates as needed, and then a 'fire' pulse is sent which for around a microsecond turns on a tiny heater (or not, depending on mosfet gate state). The heater boils some ink, making a pressure wave which travels down a pipe and makes a drop of ink fly out towards the paper. That heating and cooling again can happen around 10,000 times per second per nozzle (and there are ~300 nozzles).
I suspect this decision is because the custom silicon process needed to manufacture these nozzles is cheaper if they only have n type MOSFETs - and without p type MOSFETs you can't make a typical push pull logic gate.
The nozzles themselves are quite a lot of silicon - perhaps 100mm^2, with deep etched holes, and are effectively disposable, so I assume huge efforts have been taken to reduce costs - including this curious electrical design.
The protocol also is hugely irregular, which I suspect might be to avoid any wires on the chip needing to cross eachother.
Impression v. Lexmark is directly relevant to the patent situation here; in a case involving reprogrammed ink cartridges, the Supreme Court held that patent rights are exhausted by first sale doctrine; that is, if you sell me something patented, you can't sue me for patent infringement for using the thing you sold me, even if I do something later that makes you upset.
It's also been widely held that ink cartridge compatibility tools/hacks are allowed under DMCA.
However, it does seem likely that there's probably some shenanigan involved in the area - one example I could think of would be if HP have patented the way the ink cartridges are retained in the printer, for example, that would have to be carefully audited. And there will be license and trade secrets issues with the use of the cartridges, although if they were reverse engineered cleanly and the printer doesn't come with cartridges, those are probably pretty easily side-stepped.
These cartridges were first released in 2004, and there don't seem to have been any major design changes since then. The electrical and digital interface for printing has remained the same, as well as the mechanics. There is a new DRM system using another chip, but that is one-way - ie. It prevents an original printer from using the cartridge, but doesn't prevent use of an original cartridge by a third party printer.
Any patents are probably expired or very close to it.
A sea of patents designed to inhibit competition & promote rent extraction, and we are running around in circles chasing our tails wondering how we can compete with China.
China is changing stance on patents... Thier companies are now filing for patents at great speed, and I wouldn't be surprised if they start mass suing American companies for violations.
I could totally imagine a rapid upheaval of the patent system as soon as we see it being used against us.
> I agree that the bigger challenge is going to be patents.
Surely most/all of the patents around the actual inkjet printing function have expired though, right? I had inkjet printers in the mid 00s and if anything I feel like your average inkjet is worse these days.
In medicine, it's a regular trick to find some new patentable formulation or tweak to switch to manufacturing shortly before the original patents expire, so that you continue to have a patent-protected product.
It would not surprise me if something similar was happening here: HP's current cartridges have at least one piece that is under active patent protection and they don't manufacture any designs that have no patent protection. I don't know enough to state that's the case, but it wouldn't surprise me.
Mentioned elsewhere in this thread, but the print heads are a very specialized silicon chip with internal microfluidic passages, microscopic heaters, etc. Who else would even make them? The kind of thing you would need millions of dollars to reverse engineer and replicate just to enter the lucrative market of... making inkjet cartridges.
I would be shocked to discover that there are counterfeit print heads out there the same way there are counterfeit STM32 microcontrollers.
Unless the patents have something to do with the shape of the cartridge or they somehow have a patent on "technique to fill printer cartridge with ink" which would not be so surprising.
Maybe they should have purchased a design from Canon or someone that isn't really in this market anymore. It seems like not only are they locked into a specific older technology generation (which could be ok idk) but they also risk HP just discontinuing that cartridge. It seems like the printers for this cartridge were released around late 2017 so they could deprecate earlier than they normally do. Seems like they provide 10-20 years typically. At the same time , maybe this is just meant for a small user base of nerds and maybe HP wont care.
I did some research on weird inkjet printers a few years ago. We wanted to do stuff like print white[1] graphics continuously onto rolls of black heat shrink tubing.
One thing I discovered was that there's whole Chinese industries supplying this stuff in the forms of industrial printers and the application-specific cartridges they consume. And they all had one thing in common: They were based around the functionality of an HP printer cartridge. That was the universal interface.
This leads me to believe that a print cartridge format can be supported by the marketplace for a very long time whether HP likes it or not.
[1]: Printing with white is neat. It sounds impossible and there are those who say it can't happen, but it exists. It's just problematic. The head gets perma-clogged with solids within minutes of disuse in open air. So starting a print job is a race: Get everything set up, uncap the cartridge at the last moment, and then put that cap back on ASAP when the job is over.
Are you referring to the numerous Chinese UV printers?
>The head gets perma-clogged with solids within minutes of disuse in open air. So starting a print job is a race: Get everything set up, uncap the cartridge at the last moment, and then put that cap back on ASAP when the job is over
Decades ago I helped manage a local's school IT systems and we had these Epson C84 printers that used a very photo grade ink. The printheads would clog after a year of teachers printing like 1 document in that year. During that time it seemed like regular purging of ink regardless of print or not was what kept the printheads going. Strategies used by third party repair firms included submerging the head in a cleaner to dissolve the ink on the outside, connecting pipes with the same fluid to the inputs of the top to the printhead and then finally pulling pressure to try and dislodge the material through the head. Due to the non removable design of the Epson print heads, my attempts at trying this would destroy many printheads. I'd like to think this would be a solved problem in 2026. In your case why not run a purge liquid the printhead after each print? The printhead could then be primed with fresh ink each time.
We were using fixed-head printers that we found at the bottom of a deep rabbit hole. The work moved through the machine while the printy-bits remained stationary. We were doing this with HP-style monochromatic carts that came loaded with high-solids "ink" (closer to paint, really) that used opaque white pigment.
Unlike Epson's ecosystem, HP carts most-commonly come as assemblies, with a new print head included in the same disposable cartridge as the ink is. The only connection between the carts and the rest of the printer is electrical; there's no plumbing or functional fluids that are external to the carts.
This self-contained nature means that when ink runs out or heads gets clogged, replacement of everything involved with fluids is fast and easy. Production can continue immediately.
It's not problematic at all...other than being expensive. :)
Canon is still in the market, they just supply parts and license IP to the printer manufacturers like HP. They make some high value stuff to sell to the OEMs but I don’t think they can make a whole print head anymore.
Why would they bother? They make all their money on the ink cartridges. If this drives more cartridge sales it’s a win/win for them. They generally don’t make much, if anything, on consumer ink jet printers themselves
This printer will use refilled cartridges. It could even use cartridges that have been sent out under the 'instant ink' subscription scheme. People in that scheme usually end up with a drawer full of spare cartridges, as they send them to you like they are worth the pennies that they actually cost.
People willing to use refilled cartridges will use them regardless of the printer they’re going in, so again it’s no lost sale for HP.
Heck, it may actually save them money. At one point they were losing money on every printer sale and making it back in ink No idea if that’s still the case.
It’s negligible revenue and carries some risk. Say the printer works well, and these enthusiasts drive a couple of thousand more cartridge sales. And that encourages someone to develop an alternative cartridge, which is mechanically and electrically compatible with HP’s.
It just seems easier to fire off a cease and desist than to take a risk of other people messing around with your ecosystem.
The crowdsource page says it has refillable ink tanks rather than cartridges. Unless they are modifying HP cartridges, which is probably not smart from a legal standpoint.
I don’t see why HP would want to do that. They have huge margins on ink, right? I’m sure the increase in cartridge sales would offset lost subscription revenue from useless cloud services, if only because the people who are gonna use an open source printer would never pay for that anyway.
Yea, but then the print head clogs up after the second time you refill it and you buy another expensive print head + ink from HP.
Frankly, I think 99% of the reason they started integrating the print head with the cartridge was to avoid all the problems you so frequently see on printers that don’t use disposable heads.
I noticed that previous post is from a couple of months ago, and it looks like about a week ago they posted a project update and they claim for their current prototype: "We are successfully printing in both black and full color." https://www.crowdsupply.com/open-tools/open-printer/updates/...
Of course I have no way of verifying either way. Still I do think the project looks quite interesting, I'm in the market for a printer and this is certainly the most interesting one I've seen in a while.
Compatible cartridges
HP 63 and HP 63 XL (US)
HP 302 and HP 302 XL (Europe)
HP 803 and HP 803 XL (Asia)
So they just use HP inkjet technology. That makes it less open-source, but even "open source" parts are going to be under non-commercial license (CC BY-NC-SA) anyway.
Remanufactured cartridges for these printers are available. They profit from the first use of the cartridge, but make nothing out of the refilled ones (I've been using them for some time now).
Is there a Linux server run on fully open source hardware (what would that mean btw?)? Should we stop using "open source" because almost all computers are not fully open source?
Quite a lot of open source hardware is licensed under the BY-SA Creative Commons license which is an actual open source license. E.g. the Arduinos and things like the Milkymist One which can actually run linux.
What are you even trying to say? The fact that this is hardware isn't what makes it non-open source, there's plenty of open source hardware out there. The thing that makes it not-open-source is that the license is non-commercial.
If you can't legally use the product, the fact that the source is available is meaningless. CC-NC is a source available license, not an open source license.
No, it doesn't: I can build a machine described in an All Rights Reserved book. CC BY-SA-NC grants additional permissions on top of that, but it doesn't remove any. You're thinking of patents.
99% of this is the printhead and the ink formulation. Assuming you use generic off the shelf solutions for those two components you’re set. All the printer companies do their lock in at the firmware and software layer.
Yeah, I found that original comment to be a bit nonsensical. It would be like arguing you can't build your own PC because the lithography tech needed to make modern ICs is really complicated. I wasn't planning a laying out my own chip, and these guys aren't planning on building their own printhead from scratch.
yes, I was about to build another gaming PC, and then I remembered the ASML machine costs 20 bajillion. Will wait for the ASML machine to come down in price, to around couple of grand.
You don't need ASML machines. There are labs all over that can build chips. I know of one near me that has a license to make the Pentium I chip (or possibly a similar chip - the exact chips classified, but I know can make the electronics for the Tomahawk missile thus ensuring that in case of war there is supply chain redundancy) - they need to get $30,000 each for them just to break even on labor costs since they don't have mass production.
Which is to say you can make your gaming PC at home as a one-off if you want. Though personally I won't get near the toxic chemicals used.
There's also the long term strategy where if they can sell enough printers, they may at some point in the future do get the budget needed to make their own print head. It's not like printers were invented in 2026.
At the 2400 DPI that an HP printer can handle, the printer needs to place the head at 1/100 mm precision three times for every single dot on the page, and not smear them, despite not knowing what thickness or weight or finish the paper has. That is not trivial.
Yes. There's the obvious difference of "it's a working printer" and desirable and useful product. You don't need to be state of the art to be in the first category was my thought.
The fact the campaign is run on crowdsupply makes me a lot more hopeful it'll get to market vs a site like kickstarter. Crowdsupply requires a working prototype before launching and they provide all the expertise to actually get projects to market, off the top of my head I don't believe any crowdsupply project has failed to deliver.
I have enormous respect for dot matrix printers. They're easy to repair and service, the tech is relatively simple, it's cheap, it's parts are cheap, its supplies are cheap. It's way more sustainable than any other printer: both the printer itself in its manufacturing and the ribbons themselves. The waste they produce is also much less polluting than any other printer.
They also kind of suck. I'm not one for "the latest and greatest", but their output quality is atrocious compared to modern printers, they're loud AF, and I'm guessing it may have existed but I never saw a dot matrix that didn't have the perforated edge for feeding.
There was no reason to sell a dot matrix printer that wasn't compatible with tractor feed. Especially when some of the biggest uses of those printers required that stock. Doesn't mean they required tractor feed paper to operate.
A Matrix printer is essentially a typewriter with extra steps and typewriters had been eating any paper for .. a century before?
Are you thinking of Daisy wheel? Dot matrix uses a set of pins arranged in a matrix that they ram forward to press the ribbon against the paper. Daisy wheel uses a raised character glyph and slams it forward into the ribbon. Every typewriter I've used has full glyphs.
Dot Matrix are still used in outdoor / high humidity environments in USA.
A lot of car shops with regular 100% humidity conditions will swear by dot matrix + tractor for feeding paper + printing. Plus, the carbon copy forms are guaranteed to be exact carbon copies which also leads to legal guarantees about copies of paper being provably exactly the same in the court of law.
Pen plotters could accept sheets of A4 and very precisely position them since at least the 80s. I'm surprised that dot-matrix printers didn't adopt similar technologies sooner, though it could be because by the mid-80s dot-matrix printers were the budget option, fanfold paper with the tractor strips was still abundant, and it was much easier to just stick with the cheaply manufacturable technologies rather than take the risk of innovation with a product that wouldn't sell upmarket anyway.
Were A4 plotters that much of a thing? I'd thought plotters were usually larger format (A0-A2 sort of size) for engineering drawings etc. Also iirc they were insanely expensive compared with your standard microcomputer dot-matrix printer.
The most popular pen plotter, and sort of the "holy grail" among hobbyists for this sort of thing, is the HP-7475A, a desktop model which could accept A4 or A3 sized paper (or US A or B size). It cost $1895 upon release in 1984, so yeah, pretty expensive when compared to the $650 an Epson MX-80 (best known dot matrix printer) cost. But there was so much more to the plotter than its paper-feed technology; it was much more a precision instrument in a variety of ways.
I have all Brother printers too, they seem to be the only brand that's not actively trying to screw their customers. My B&W laser at home is on its second drum and still soldiering on, we got an A4 colour laser multifunction for work which does double sided document scanning and printing and it was... I think $380 or something, five years ago. Would buy again. I don't really need colour but it's nice.
I'd have to buy a printer tho. The one I have has done its job for a decade and I think I've bought a grand total of one offbrand toner cartridge in that time.
Except when you need to ocassionally print/copy in color, in which case inkjets are more economical.
Even if you can afford a color laser, the problem is a color MFP (ie including a scanner) occupies a lot more space compared to a equivalent inkjet, and for some people this could be a deal breaker.
Extremely little? High quality inkjets may make sense for corporate or industrial uses, but the majority of home/consumer use cases probably print very infrequently these days. In that scenario inkjet is pretty bad because the ink dries out between uses - there is a reason it's such a common trope that inkjets never work right when you need them.
I switched to laser because I only print like maybe once a month on average (but when I need it, I need it). I'm not the slightest bit worried about the delta energy usage between my laser printer or the inkjet, and I'm sure the inkjet came out worse given the number of cartridges I had to throw away or paper I wasted printing diagnostics.
None, in the months (sometimes years) it spends switched off (off, not standby) between print jobs. It's a quarter of a century old and I can still get replacement cartridges when I need them.
The single hardest part is the print head. If you can reuse an existing one, and you can, then you're most of the way there.
The paper path itself is mechanically involved, but not to an impossible degree - it's hard to make it work, but it's not MEMS magic, it's manufacturable in the same way advanced 3D printers are manufacturable.
I certainly don't have deep knowledge in this area but my understanding is that the cartridge is basically a cavity with a small hole at the bottom and a piezo electric element at the top to sputter liquid down. The tolerances are tight but considering how advanced manufacturing is, I would imagine someone competent could design and prototype it with the tools and manufacturing ecosystem that's available now.
There's at least one project that has tried to design an actual DIY/open-source inkjet printer [0], along with inkjet print heads [1].
The ink most likely need some special sauce? But I imagine there's many organizations that can specialize in making the ink so that it can be treated close to a commodity. If not, maybe this can also be engineered?
This printer uses HP 502 cartridges. Readily available, but don't expect to save on ink costs compared to a regular HP printer.
They do claim that this printer will print in black when the colour cartridge is empty, which they imply is not possible with common printers. The only time I ever encountered that I simply removed the colour cartridge and the printer was happy to print in black.
Is laser printing more feasible? I've had the same Brother black & white laser for almost a decade and it's more than adequate for everything I do. If I ever need color, I send it off to a service that has much nicer printers than most people would ever want in their homes.
Which is why its more surprising this was first announced last year and there's no Proof of Concept demo yet?
But really, I've given up on ink jet printers, and have gone the cheap B&W laser route for anything I need to print at home (In the past year, 2 times, a backup ticket and some paperwork that needed a real signature sent back).
But when I had them, the thing that went bad 99.999% of the time was the cartridges or a clogged nozzle on the head. So the advantage here, on the repairability side not DRM, is the rails and motors?
Also that cutter is going to be a pain, having worked on Lightjet printers, that cutter was nearly all field service issues until the FEs started leaving the "laser" key so lab managers could reset the blade themselves.
An open source all-in-one-printer would be a great device to have. For eg I would love to have the scanner include a camera. So I can get “instant scans” most of the time, and a higher res scan when needed. Maybe the camera could also notice when the person making copies or scans forgot their original and ping them?
You'd probably need some basic custom lens (not crazy $$) that would distort the heck out of the image, but you could correct the shape in software. Given that GP wanted this to be the "low quality / high speed" secondary scanning option, the inevitable loss of quality would be acceptable.
Seeing chromatic aberration on a document scan would be strange, but this is basically how many document scans are created today (using phone camera + software correction). It's just the lens effects from this cheap lens would be a lot worse than what Apple/Samsung/Google can do with their super expensive to design custom lens stacks.
Lol then 3D printing must be space technology that only the most advanced materials labs in the world can achieve, yeah inkjet is not simple, but it’s also not magic,
The issue is mainly the nozzle. Ironically 3D printers are a lot easier there, since you just need to melt a thick wire, and not worry about microscopically small droplets.
Makes sense, presumably if the project is well enough supported then they can move on to cartridge/head production, or modify to use whatever heads are available.
Out of ignorance, I wonder how IPR will work with interoperability rights. Patent rights seem like they might not be exhausted when you buy a spare part to use in third-party device, vs when you buy a spare part for an OEM device.
I'm guessing all the tech here has aged out of patent protection though?
Generic inkjet cartridges (including the nozzles) and ink are readily available. The head movement and is easier then a 3d printer, the will be some learning's for the paper handling but seems very achievable to me.
Color laser printers (MFPs with ADFs to be exact) aren't exactly cheap. Last I checked they were 2-3x more expensive than equivalent inkjets, and occupied a lot of space too.
My Brother inkjet with an ADF is smaller than a microwave and super cheap. Not something you'd ever see in a typical office. If I could buy a color laser printer with similar features, dimensions and price, I'd buy it in a heartbeat.
interesting that on the front page at this time is https://news.ycombinator.com/item?id=48757900 "The Age of Personalized Hardware Is Coming", which, it seems that it may be, but not for inkjet printers?
yes but the parent commenter asserts that an open source inkjet will never happen which I take to mean that a customized inkjet is not happening either.
Try to find an typical consumer inkjet printer on AliExpress, you won't find any, or if you do, it will be someone reselling the usual brands like HP or Canon. You will find label printers, industrial printers, 3D printers, thermal printers, and all sorts of weird stuff, but none of them able to put ink on a stack of A4 paper.
If the Chinese, who are known for being able to make knockoffs of everything are not able to make inkjet printers, this should tell you how hard it is.
It addition to the print head, reliable paper transport is also really hard. That problem is often sidestepped by using a paper roll or by printing one sheet at a time, as it is the case for the Openprinter.
A more likely explanation has to do with the economics of ink jet printers. The ink sales are so profitable that HP and other manufacturers subsidize their printers. This leads to prices at or near cost.
Since Ali express vendors can't count on follow on ink sales, they can't compete on price. And competing on price is Ali express's reason for existence.
So, ink jet printer are harder to find on Ali express. At least, low end consumer focused ink jet printers.
Laser printers, which aren't subsidized are common
Several Chinese companies have their own domestic laser printers, claiming of in-house components and development (Cumtenn, ZoneWin), and one company does inkjet printers in addition to lasers (Deli Printer).
ZoneWin, a laser printer company, made a clone of both HP LaserJet 1020 and LaserJet M1005, which reuse most of the original/compatible parts (Q2612A cartridge). They claim it's 100% domestic parts only.
Well, the same thinking was going on when Mr. Daniel Gelbart [0] started Creo. In all the videos I've seen from Gelbart, he always repeats that many things are being done wrong, he has some answers, but people keep copying bad design.
Saying "no way you will succeed, is way too difficult! look how hard is it for HP" is absolute non-sense.
Also, if the whole printing head is from HP, and they sell it for the price they do, I do not think is the most advanced science the mankind achieved. I would have such doubt maybe if somebody wants to compete with ASML. But Inkjet? really? such an old technology with all patents expired?
I think the top-ranking comment about complexity is off base: they're not inventing inkjet printing from scratch. It's basically a bunch of existing modules in a new package, presumably with the promise that you will not need to buy subscriptions or DRMed ink cartridges.
Is robustness and reparability a compelling pitch? If I'm counting right, I owned eight different printers in my life. Dot matrix, dye sublimation, inkjet, laser. I don't think a single one ever required any serious repairs beyond replacing consumables, clearing paper jams, and pulling out lint. I upgraded as the technology improved. My first laser printer needed about 4x as much desk space as the current one.
> I don't think a single one ever required any serious repairs beyond replacing consumables
I think your experience has been an outlier. I've had several printers from different brands also, and have had some that last a long time, and still print with decent quality even with off-brand ink/toner. However, quite a lot have also failed due to bad capacitors, bad power modules, or the printer or it's firmware just refused to work/print for whatever reason and the manufacturer response was: "buy a new one." There's definitely planned obsolescence built into these machines, and that's why people dislike them, aside from the fact they can be a pain to configure. That's in addition to the ink DRM and other shitty cartel like bs from printer manufacturers.
I owned a Brother inkjet for some time. I'd print maybe a few times a year. But it seemed like every time I needed to print, the printer was out of ink. Granted I used an ink service (ie not official brother ink) but still where the heck was the ink going?
I've since switched to a Brother LaserJet and I'm still on the starter toner after a couple of years.
An inkjet printer has to be used at least monthly if not more often. If you left it plugged in, the printer was likely squirting ink in to a waste tank to prevent the nozzles from drying out and ruining the printer.
Laser toner can sit unused without drying out (it's dry powder already).
I realized just a couple weeks ago that I've had my Brother laser printer for 10 years, and I've only changed the toner once -- so long ago that I don't remember when that was.
Tracking dots (or lines, or barcodes, or whatever other technique) are not unique to laser printers. They are also not the only surveillance technology built into printers. There's digital watermarking, steganography, CDS, telemetry, and even logs kept in local memory/storage.
I would highly recommend getting a laser, especially if she isn't doing a huge amount of printing. You can leave them forever without printing and they'll just spin up and work in an instant. Both B+W and color ones are really decently priced these days.
If she wants to print words or shapes on paper, then a laser printer is perfect. If non-photographic color is also useful, then a color laser printer is fine. They're happy with heavy usage, and ~zero usage, and everything in between. Brother is the answer here; they tend to be low-bullshit.
If she wants to print color photographs regularly and absolutely doesn't want to wait for them, then: Some manner of inkjet. Brother inkjets take care of themselves (as long as they're powered up) with a ~daily automated song-and-dance to help avoid the head-clogging issue that many other inkjets face, but even then it's a more fickle technology than laser printing is.
It's also important to compare the price/convenience of printing photos at home to having someone else do it. Buying high-quality prints (whether from online services that deliver by mail or from the local pharmacy or big box) can be cheaper and better quality than doing it at home, and make maintaining the printing machine someone else's problem.
(edit- I unintentionally left it to implication, but: If she wants to print color photographs only once or twice per year, then... she's probably way, way better off by not doing that at home. At all.)
I never had problems with Brother for laser and Canon for inkjet. The models I have are no longer being manufactured, so I can't recommend anything specific. I did my best to stay way from HP for inkjet, they always had bad rep.
> Is robustness and reparability a compelling pitch? If I'm counting right, I owned eight different printers in my life.
Like the other commenter mentioned, I think your experience is likely an outlier. But more to the point, the way printer companies make money (lose money on the printer, make it up on ink), the couple times my printer has broken, I just bought a brand new printer. I'm sure the printer probably could have been easily fixed but it wasn't even like that was a decent option.
This printer probably isn't for everyone but there are enough of us who are so fed up with "subscription fatigue" and locked down devices that having a tool that I fully own and could fix if necessary is appealing.
> With Openprinter, you are free to choose between standard sheets or a roll of versatile paper.
A few other comments have concentrated on the printer head and ink cartridge, but the roll vs sheets interests me. Manipulating sheets of paper is actually quite a difficult problem to solve - and there is only a demonstration of paper placement. Loading page after page is actually really not easy at all. There is no example of it printing.
I see they got a nomination for a design award [1], which in my personal experience has been a negative signal for successful projects. On the same page they mention that they also mention that they don't even know how much this will cost yet:
> We know this is your most frequently asked question! Final pricing depends on a moving puzzle of production volumes, BoM costs, industrialization expenses, regulatory certifications, and final engineering developments.
On the crowd funding page it mentions for parts [2]:
> Main board: Raspberry Pi Zero W
> Cartridge board: STM32 MCU
Not a specific MCU variant, and the specifics of the Pi variant (i.e. RAM) are not mentioned. I would expect these parts would be locked in by now. I have a feeling that this is not quite as ready as made out - I think there is still R&D going on.
> I agree with the rest but Pi Zero W is a specific machine with 512 MB RAM:
I thought they came in different variants - my meat-based LLM must have hallucinated it.
> It's also the one everyone can buy online for $19, not Pi Zero 2 W (always out of stock)
I get the impression that they don't actively manufacture Pi Zero W anymore and it's all old stock. Rapid for example say they have an availability of 761 (at time of writing) [1], but are those all within Rapid's control, or what is reported at Raspberry Pi's remaining stock? If you sell 1k printer units, can you put a Pi Zero W in all of them?
Compute modules are probably a bit more reliable and there is some capability with other modules, specifically the DDR2 form factor ones [2] (which is my favorite form factor). For example, ClockWork sold their own compatible compute modules [3].
An ESP32 is way cheaper and has Wifi and BLe as well. I updated a label printer with an ESP32-S3 to add wifi[1] and it has plenty performance. It is even available with dual-band wifi 6[2]. Most processing is done outside the printer on the sending party anyway.
Unless I'm missing something using this in a commercial application would be a license violation:
> Open Printer is distributed under the Creative Commons BY-NC-SA 4.0 license.
> This means that everyone is free to use, share, and modify the project, provided they credit the original author, share derivatives under the same license, and do not use it for commercial purposes.
It's also not opensource yet, there's a vague mention of "when its ready" it'll be released.
What about that license makes you think you can't use the device (i.e. print things) for commercial purposes?
The license applies to the thing, not the thing you print using the thing. Me writing software or prose on a computer running Linux using a GPL editor wouldn't change that the copyright of what I write belongs to me, the author.
You can't make a commercial competitor of this printer using their design, but using the printer for its intended purpose (printing) is obviously unrelated to that.
> You can't make a commercial competitor of this printer using their design
Which means it's not open source. Open source means you have the right to distribute work however you want, including commercially, provided you also provide the source under the same license terms as the original.
The second you slap a non-commercial limitation on there, it ceases to be open source.
I didn't plan to go into the printer manufacturing business, and there's nothing more open, AFAIK. HP won't let you fix it when they brick your printer for not using their more expensive than blood ink.
It may be using a CC license, but nothing that's marked NC is meaningfully part of the commons. Yes, some guy can make a part to fix his printer, but that guy can't sell those parts to other people.
The existence of a service manual doesn't mean you can get parts once the company disappears or loses interest.
but conditions apply to that. Those rights you mention are not available in every circumstance, specifically in commercial settings in this case. That's the point being made; why many consider that not an open source license (not saying I agree or disagree)
This is probably inevitable at this point and at least it's a legit licence and not the weird sad bespoke wobbly nonsense Prusa went with. They clearly need something like this for exactly the same reasons.
This is interesting, but it seems to be a crowdfunding campaign only. I wish them the best of luck (the cause is worthy for sure), but buyer beware at this point.
(I myself don't 2D print enough that an ink based printer makes sense for me. Ink tends to dry, so for me a laser printer that can sit for months at a time makes more sense. I use the scanner as well as my 3D printer far more often.)
I wonder how they will handle the nonsense around yellow tracking dots[1] etc. Hopefully that doesn't become a problem.
Unfortunately they mainly use Discord and Instagram. They post updates on Instagram regularly but are quite active on Discord and often ask for community feedback there and post updates there as well. I've been closely following them for a few months
The printer surveillance is my main draw to this project. EFF basically came to the conclusion that all Western printers likely have some sort of surveillance like that. I've confirmed with them on the Discord that they are not required to implement any such surveillance
National security letters or old boys network or maybe just fat bribes to the right engineer. Could be a requirement for government procurement too, so not a law, just the requirement of a huge customer with deep pockets and negative price sensitivity.
Counterfeiting was a big worry as high-resolution color printers became cheap. They did it motu proprio just like today ~all AI gen services watermark their outputs.
Unlike now, where instead of saying your hypothesis you're just letting every reader come up with what they think is a crazy conspiracy theory and ascribe it to you?
The blueprint will be open source and you could technically build it yourself if you have the patience. They are quite proud of how few parts are actually involved in it
I respect that point of view. But to me, it being easily hackable and lacking the surveillance features of all other modern printers[0] is still a strong selling point and I hope for the project to succeed.
And that's entirely fine; it can a positive thing without being open-source. An institution can be a positive thing without being democratic. A food can be delicious without being a meat.
As much as this is nice protect, and physical one so different things any, still you cannot give/sell some software/design/media and restrict who, where and how someone can use it (noncommercial, not in this country, not at that phase of moon) while calling it open source, public domain, or similar.
As long as softwsre isn't going to be proprietary, it is a good idea just shouldn't misguide about being open source.
I had an Epson Ecotank for a couple of years. The printer heads got clogged all the time. We bought a series of cleaning products to address it, they often solved the problem for only a few prints. We finally gave up and bought a Brother laser printer.
This project seems like it's trying to address a similar market to the Ecotank. What assurances can the project team provide that OpenPrinter will have better reliability?
I have an Ecotank and my parents have one too (data set size of 2 :). I've had it for 4-5 years now and it's superb for my simple use case (occasional low cost printing at home).
I did initially run into clogged heads too, until I scheduled a test print every month which uses all colors. That way no single color stays unused for too long, and it's been working like a charm ever since.
If the heads are already "degraded" there are two (or more?) cleaning programs available from within the official printer driver settings dialog. They did resolve my initial issues.
Epson could definitely do a better job of informing users though by slapping a big warning on the thing saying "you need to print something every X days to avoid issues".
If you print occasionally then laser is the best option. It's just not usable for photo printing. You ideally want to be using the printer every week or two with inkjet.
and the product browsing page crashes when i apply more than 2 filters or attempt to sort by price. half of the visible products are out of stock or no longer manufactured. really enjoyable experience.
I also had an Epson ink-tank printer (I don't think it was an Ecotank model name, but similar idea) for several years, battled print head clogs all the time. Found that Windex worked pretty well for dissolving the clogs. (The dad from My Big Fat Greek Wedding was right about something!) But what eventually got me to switch was that the maintenance cartridge — the big sponge under the printer that soaks up the ink pushed through the heads during a head-cleaning operation — was getting full, and it's not a user-serviceable component in Epson printers! They wanted me to ship it off to their service center, and pay who knows how much to swap out the maintenance cartridge. Nope, not gonna do that.
Ditched Epson for Canon. I've had my Canon ink-tank printer for a couple years now. Had ONE serious clog that required multiple flushes to clear the clog, but mostly it's been clog-free. But the best part is that I can just order a new maintenance cartridge from Canon for about $12 + shipping. So when it fills up (probably in another couple years) I can just swap it out myself and keep on printing.
Won't ever buy another Epson printer again. Canon has been great so far.
It sounds like OpenPrinter will be using existing ink cartridges with the print heads built-in; I presume they will therefore have the same reliability.
Ecotank printers are worse in terms of clogging problems, because there is a tank and a hose vs a sealed cartridge. The ink has to flow through the entire system and that means you will have to print at least once a week.
I really love the idea of a paper roll rather than individual sheets. Being able to print out to the size you want rather than only in pre-set sizes is quite cool.
yeah, I have a cheap brother laser printer, I don't print that much, but it's been solid for several years. I did have an HP, but it was incredibly problematic, would jam rather easily. Works fine under linux as well.
Does the ink ever dry? That’s my biggest problem with non-lasers - I print maybe 10-100 pages a year but every time I need to change the toner because it’s too dry. And do you print color or no?
I follow this project thanks to CrowdSupply from which I regularly buy open hardware.
Honestly I'm torn on this one. I will probably buy it but from a purely philosophical standpoint. Why? Well I do have a black & white HP laser printer that I've been using with my Linux devices for years now. It just works. There are a lot of terrible printers out there with wacky firmwares pinging home to their manufacturers. Some require ink with DRM, some companion apps, etc.
But... and that's my main point, are just basic printers that work anywhere with anything. There are quite a few to the point that among peripheral printers might be one of the safest one can safely "yeah it will probably work with open system no problem" relatively confidently (still do check first).
So... yeah it's cool but in terms of openness of our entire IT ecosystem printing doesn't appear to me as the priority gap to fill.
In all honesty for years I had one in my small home office, and every time I printed something I could smell it in the room afterwards for an hour, sometimes even getting headaches from this. Switched to inkjet a few years ago and will never look back.
Samsung ML-1630. I had it for a really long time. I had opened it up to solder the page counter to ground so it always thought it was on page 0, instead of demanding to replacement. And I had manually refilled the toner many times into the toner cart. But I don’t think the smell is because of that, it’s the same laser printer / photocopier smell you smell in all print shops. I believe it is small aerosolized toner particles, makes me wonder if long term print shop workers have a higher cancer rate.
Possibly ozone, generated by the corona wire - the printer will have a filter which is only good for some (large) number of duty cycles.
Very few domestic / small office printers will ever hit that number, but for a ~20 year old model, it's possible yours has. The service manual suggests it's rated for 50,000 pages (as are the drum and roller), but unfortunately isn't replaceable.
Time for a new model?
(The canonical print shop smell is ozone - imagesetters produced way more than a laser printer - together with solvent from the inks and lots and lots of stale coffee. Possibly mixed with cigarette smoke, depending on just how long ago you're talking about...)
It's interesting how that has changed. Printing used to soak up a big part of corporate IT's time and budget. It was generally thought of as the most annoying part of the job.
Cool, unless you sometimes go weeks or a couple months without printing and everything gums up... I've never seen an ink printer that doesn't. I tend to favor laser, only because I can go months without printing and then fire off a print job, and it comes out without issue.
The continuous feed is nice though... I can see this used for banners like in the old sheet fed dot-matrix days... Print Shop Pro FTW!
TL;DR: I'm surprised this isn't a laser printer, as those are actually quite a bit easier to design and manufacture, especially if you can use a cheap, older, commonly available, remanufacturable toner cartridge.
There are still quality laser printers on the market without extortion and surveillance built-in, unlike inkjets. The need for an open laser printer is less dire than for an open inkjet.
And not a single solid-ink-onto-paper sublimation printer, that I'm aware. There are badge printers still using a dye-sub ribbon, but the Tektronix Phaser, later the Xerox Phaser, is completely gone.
I wonder why. Were the consumables too cheap and the printers too reliable to be commercially viable? Did color laser printers catch up in terms of print quality? Did it have some other fatal flaw?
Hot melt ink/solid ink has a laundry list of problems that complicate it.
- A single ink clog can destroy a printhead.
- partial clogs can result in ugly messes with ink smeared all over the pages and the assembly further smearing on later prints.
- the printer has to be calibrated to the specific formulation of solid ink to work properly. A bad ink batch or calibrating to the wrong formulation (or a drift in specs on the formulation) can cause clogs, print head failures, etc.
- solid ink printing massively complicates lamination if that's something you need to do (ex in an office).
Overall it's a far more unforgiving process. You can't really have aftermarket inks like you can with modern inks and even variations in the first party manufacturing process can have catastrophic effects on the print hardware.
I only used one for a few years, and never thought to laminate the pages because they didn't need it -- dye-sub wax-printed pages were already suitable for outdoor maps because the wax repelled water, and they held up where inkjet pages became a smeary mess immediately.
We definitely did wash our hands before and after loading ink blocks, I remember being cautioned about that.
Oh well. I guess my memories are better than the tech deserved. Won't be the last time.
Every manufacturer volunteered to rob their own customers of anonymity. Even at the OS and application level (Adobe) people are being tagged with robust watermarks. In general, still no one cares. =3
The unique properties of every imaging/printing system are usually robust in identifying specific devices. Not really anonymous if eventually registered, compared, or metadata indexed.
It is also common for people to create urban legends rather than discuss how to actually fix legal policy failures. As previously stated, consumers implicitly gave permission though sustained inaction on industry volunteering to help track customers.
An OSS printer would be cool from a standards/driver perspective, but microfluidics are a nontrivial technology. Bloomberg also paid lobbyists >$23m to try to mandate "AI" R.A.T. installation (company associated with Palantir) on 3D printers to attempt convincing criminals to care about laws again.
It is unclear if such action is consistent with constitutional legal precedents, but it is certainly hilarious to see kids figure out the mess a prior generation creates. Best of luck, =3
I don't get why this isn't an ink tank printer. Yes, those HP cartridges are technically refillable, but the printheads tend to clog up after a few refills, and then you are stuck paying retail for another cartridge.
It would be a lot more aspirational to figure out how to build a tank-based printer (although maybe its not possible to compete with the incumbents on price in this space)
Printheads are nanotechnology with extreme precision requirements. The rest of the printer is a few well-timed stepper motors, simple in comparison. HP cartridges including the printheads will take a lot of complexity away from the open design.
In theory you could probably modify one of these by grabbing an HP cartridge and slapping an ink tank on top with the right sponge for transferring the ink over. Selling parts from HP printer cartridges might creep a little too close to HP's patent lawyers, though, and having users open cartridges to extract the print heads themselves sounds like a messy solution that would reduce the appeal.
I'm sure that given time, someone will 3D print an ink tank holder that will let you use cheap ink supplies through the expensive HP cartridges.
>HP cartridges including the printheads will take a lot of complexity away from the open design.
Yes, but it also means it won't be cheaper or more reliable than a regular printer. The print head is what fails most often and you'll still have to buy a new one.
This is all great, but, really, "Open" in "Openprinter" is enough of a sales pitch, because we all know what's the problem with all other printers. I don't need to scroll through all these pretty pictures of hands and tables to get me ready to hear the main thing. Even if I am ready to believe that you can deliver (which is a big if), the only things I am interested in are "how much" and "when do you promise it". And when I scroll all the way through and click on crowdfunding link, it turns out that "This project is launching soon".
What's even the point of this landing page in this state?
This feels like a bit of a "you must exist in society" situation. If you rule out every company that does any business with Israel you will have a hard time buying anything.
First time I'm hearing of BDS. Looks like they want to boycott companies that help oppress Palestine (just going off of their homepage here). Since I don't know them, I'll speak generally of boycotts such as against e.g. Nestlé: Saying it's futile because you can't do it perfectly seems silly to me. You can't do everything right in life but you can try right? Minimise harm (as you see it) even if you can't take it away fully
The suggestion here is to boycott a printer because it uses a print head part from HP who sells servers to Israel.
The number of steps here is enough that you could rule out everything. And anything you think is left is just something you aren’t aware of a chain that links them.
Good thing they're not selling a printer then, they're selling a parts kit that you have to flash an open source controller firmware to and assemble yourself. Or you may just source them in any way you want. You can't really "outlaw" open source, we had this whole song and dance with https://en.wikipedia.org/wiki/Export_of_cryptography_from_th...
Been waiting for framework to make a regular 2D printer, of any kind, would buy at least two instantly. I will never, never, never buy a fing printer from hp/canon/epson/brother/etc with anti-consumer tech, I rather die.
You can buy bottles of ink on Amazon. Tank printers, jerryrigging, and people refilling cartridges have all been decently common for a long time, so there are plenty of random companies selling it.
I was hoping to see a printer that say a prepper could build from scratch. This design 100% depends on commercial print cartridges containing the actual print-head. Once that clogs, you need to get another one, good luck getting one once production has stopped.
Also, if you wanted to avoid yellow dots, not sure if this is built into the cartridge or the firmware of the rest of the printer.
Now, I understand that would be hard to pull off. Maybe one could build a deskjet500 equivalent one.
Laser printers are quite complex as well, you need too many non-easy to build from scratch parts.
Maybe a dot matrix printer is possible.
I know for sure you can retrofit older electric typewriters, and those are pretty repairable.
"From scratch", ie raw materials only, probably limits the results to plotters until you've bootstrapped some presicion machinery. And electronics. How many parts you're allowed is going to be an arbitrary choice anyway.
But the heads being disposable and one day unavailable is kind of a valid concern if a new source doesn't eventually turn up.
I had thought about a post-apocalyptic prepper printer once, my conclusion was that you can just have a fax machine and a laptop. They're considered thoroughly obsolete, and almost free to take in used markets as well.
close, but not quite. I suppose in the way that originally set him off, yes.
It looks like they're using the Creative Commons BY-NC-SA 4.0 license so restricting commercial use which I think would run afoul of the purists definition of Freedom?
It's a cool printer, and I'd much rather have something like this!
To be less facetious though, this seems like a nice project (*), but I print so much less these days than in the past. I printed a lot of color stuff when I was in school; but these days I just settle for black/halftoning from a laser printer, for when I actually need something printed, and color on screen only.
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(*) - except perhaps for the NC restriction in the license.
It's such a good idea as a project and by the looks of things well executed. I also feel the style of the printer and the fact it can be a roll of paper will lead to interesting project ideas.
>Please don't complain about tangential annoyances—e.g. article or website formats, name collisions, or back-button breakage. They're too common to be interesting.
I don't think they need to ship the cartridges themselves. Customers can just go to any store selling printer ink and get the cartridges. It's a bit steep to also need to buy the money-making product HP wants to earn on, but you can just refill them with cheap ink when they're empty so it's not as big an issue in the long term.
HP could stop selling ink cartridges to stores, but they'd be shooting themselves in the foot as well.
Does "open source" even mean something anymore, or should we give up and just accept it as common catch-all phrase for everything that suck less, without one definition?
Open source AI without a source. Open source software, oh but only up to 4000 users after two years of release for people on south hemisphere. Now open source hardware but your copies of design are for noncommercial use, only our copies are not restriced.
If they don't do this (noncommercial, patent), the lesson is that a succession of Chinese vendors will take it and perhaps even secure patents on top of their work. They want time to finish it their way.
My point is not whenever this is good or bad, hardware tools cannot by nature be self-replicated like software tools, but they should not call it open source.
Inkjet printing requires orders of magnitude more engineering expertise, materials science, industry experience and financial resources than most people imagine. That is the reason, open inkjet printers don't exist despite having been consumer products with the same drawbacks for more than forty years. That is why this is a pre-crowdfund landing page without a demonstrating a working prototype. I would like to be wrong, but I expect you to be waiting a long time. An inkjet printer is not a collection of off the shelf parts. It is a machine that operates at the edge of chemistry, fluid dynamics, and electro-mechanical design...you have to place tiny tiny drops of liquid ink on commodity wood pulp with precision under arbitrary environmental conditions, get that ink to dry on the wood pulp, but not in tank or nozzel, while producing acceptable color, durability, and ease of use. Also lawyers...there are patents.
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