Joel diagnosing a commercial printer with Duet.
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Good point .... but I would be afraid that it would need a lot of tweaking and ironing before you end up with a reliable passable product. I would hope that I can plug in the $38000 printer and produce reliable good prints from print #1. Sure I'd like to tweak it after the fact but the first print should come out perfect.
If you look at the cost of the printer and say to yourself "I can do better for less money" then you either have a LOT of experience or you do not value your time at all. Either is fine but sometimes you just want a product you can plug in and use.
If I would calculate my labour at minimum wage and multiply that by the hours I spent screwing around with my printers, I would probably be rather comfortable right now
Rethinking this a bit ... it's difficult to separate the hours I have spent based on hardware issues vs all the other issues that crop up so I don't know ....Hmmmm .... might be an interesting exercise to build as if money was no object with only the best of all components used.
Did they say 2000 lbs in the video for that printer? That is a lot of weiht unless there are concrete blocks in it to increase mass!
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I would hope that I can plug in the $38000 printer and produce reliable good prints from print #1.
products can be expensive for many reasons, quality and ease of use is one of them, but just because a product is expensive, doesn't mean it's easy to use. That's a very prevalent consumer fallacy. The cost of this particular printer comes from the sheer size of it (large cabinet, heavy gantry, expensive shipping and packaging, massive borosilicate bed, custom extruders, etc etc). I would argue that in this case not a lot of time and effort has been put into making it easy to use at all. They validated a firmware version, wrote the manual and documentation, and stuck with it. They likely provide hands on service and training for the end user and maybe even sell a service contract with it. The fact it's used in larger industrial scale shops proves that it does work and can work reliably, but it's definitely not easy to use.
Case in point, I would say a very easy to use printer is the Prusa mini and it is not expensive at all. Ease of use is one of it's design goals.
TL;DR Expensive != Easy
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Fair point ....
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I've worked on these machines a bit. The company who builds these started out of a linear motion component manufacturer, so the mechanics are pretty bulletproof. They have a dry teflon-type coating on the lead screws with wear-compensated anti-backlash nuts, it's a good setup. I think the main idea is for the machine to run reliably for a long time with minimal maintenance.
It would be possible of course to design and build something better, but it will certainly cost more money if you're paying someone else to do it, and good luck on docs/support/service. For most companies it's probably not worth the risk compared to buying this machine, bigrep, or another from an established player with everything already in place.
I would love to tackle a build on this scale, but then I would have a project rather than a printer. Not to mention I have no space remaining in my apartment to put it
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@nhof I think that's your comment in the resume.g file in Joel's video
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@elmoret said in Joel diagnosing a commercial printer with Duet.:
@nhof I think that's your comment in the resume.g file in Joel's video
Good catch. At the 3:16 mark.
It's a small world.
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@nhof said in Joel diagnosing a commercial printer with Duet.:
I would love to tackle a build on this scale
I build 100x100x100cm printer some 8 years ago, used it for a year and then had to move (purchased new appt) and I had to rip it to pieces as the darn thing was not able to go trough any door/window in the old apartment ... used the parts for other projects, thrown case into the garbage, learned few very important lessons
- MDF is awesome build material but you have to glue and paint it. It is strong, dampens vibrations crazy good .. it's wooden pandan for cast iron
- when you are building something you ever plan to move make sure it can go through a bloody door
- having huge volume will attract attention (clients - both for making printers and for 3d printing service) as it is a great showcase of what one can do but in reality you almost never need more than 30x30x30 ... 80% of jobs will fit 10x10x10
- if you are making a big volume printer, make an automatic toolchanger
there should be some documentation about that printer on reprap.com, it was called "cut&paste" 'cause I had both extruder and milling head on it with idea to one day write a slicer that will trim the printed part, drill holes to size etc etc .. but while it worked awesome as printer and as cnc I never managed to write software to use it for intended "cut&paste" work
now wrt "38k", for e.g. that printer cost about 6 months of work and about 5000eur in parts, 80% of which did not end up in the printer. final "BOM" value for the printer was around 3000eur for a device that prints in 60C enclosure, heated bed that goes up to 150C, milling head that can cut plastics and soft wood, in theory it worked on aluminium too but you would need mist cooling or something and I doubt MDF would last long with that even with a strong poliuretane coating that I had there..
so the dev cost, let's take the low end engineer price here of 2k/m x 6 months is 12k + 5k for parts used, I was renting the appt where taht was build cheaply for 400e/m so another 2k4 .. ignoring 12h workdays, weekends, cost of tools, friends helping out.. etc etc ... development of that machine is roughly 20keur .. and that's "single guy in the garage", no company that need to pay taxes, salaries, sick days, vacations, parking ... money goes super fast when you are designing things, every single "lets try this" can cost thousands, and to be sure what's the best course you have to try a lot of things... and you still end up with fails (this printer from this example I count as fail as it did not manage to do the cut&paste job it was made to do and 'cause it had to be destroyed after I left that appt) ... you learn from these fails but they cost
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@droftarts ha, that's the page Sebastian created for me pushing me to document the darn thing, looks like I never copied the data from my dead wiki
past the initial data (that image on the page is also not of that printer btw, just a placeholder Sebastian put there) ... there were some images on the google picassa I think, from what was not destroyed in a fire in 2013 (had a fire in my new appt, fileserver burned down, lost 30 years worth of projects, documents, images... on the blood sugar meds since then ) but all that is now gone too .. I have few of them on the temp upload folder but nothing from that big one... I found some of the pages from the old, dead, wiki are available on the webarchive but I can't find the pages about that printer even there ... anyhow not many pictures were ever made as I was staying away from smartphones for a long time and prefered my EOS REBELG (35mm camera) so with limited number of images per film one do not snapshot images of unfinished products like you do with unlimited storage and digital camera IIRC Sebastian Bailard or David Buzz gave me the idea to integrate the milling head so I can do "cut & paste" ... too bad I never got the software to produce anything useful
.. I still think it is a great ideaEDIT: def Sebastian, just found the email
2010-09-25 07:59AM ...
n : print, clean-up outline with milling cutter,
n+1: print,. etc.cut-and-paste reprapping is a much better name than shape deposition
manufacturing, but it may be difficult to get the community to adopt
this name.
... ah, the history -
@arhi said in Joel diagnosing a commercial printer with Duet.:
had a fire in my new appt ...
Anet A8?
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@zapta said in Joel diagnosing a commercial printer with Duet.:
@arhi said in Joel diagnosing a commercial printer with Duet.:
had a fire in my new appt ...
Anet A8?
oh no, nothing related to the 3D printers
