Hey everyone! Wow, what a first day. Thanks to your support, we hit our goal in just 16 hours!
Help us to keep the momentum going by sharing our campaign with your friends and family. Here are some things you should know/check out:
1) A new video!
Check out this carving of a relief we did on the LongMill! All of the CAM was done on CAMLab and we found the model for free and others at https://cults3d.com/en/3d-model/art/ram-agorbar. Keep out for a tutorial/webinar in the future on how to make 3D reliefs on your LongMill.
For taking the time to write articles about and mention us on their social media.
3) We’re going to be at MRRF2019 this weekend!
If you don’t know MRRF (Midwest RepRap Festival), it’s the largest 3D printer and reprap festival in the world! We’ll be there from Friday to Sunday, so make sure to come say hi if your in the area.
We were invited to do a workshop in conjunction with the Design Fabrication Zone at Ryerson University on Monday for students and faculty. We’ll be covering the basics of CNC and dabbling with design and CAM.
We currently have about 50 people signed up (capped at 50) but we’re letting more people attend via the interwebs.
We’ll be livestreaming this event on Youtube (follow our channel at https://www.youtube.com/siencilabs) so make sure to follow us there to get notified when the livestream starts.
Midwest Reprap Festival, the worlds largest festival for Reprap machines and 3D printers, is happening in just a few weeks! Well, we’re happy to announce that we’ll be heading down for the festival!
Us at MRRF2017
MRRF2019 happens from March 29 to 31st.
Now you might think, “Well, don’t you guys make CNC machines? Isn’t this for 3D printers?”
Well, you’d be sorta kinda right, but hear me out.
Reprap, or in its full form, describes any replicating-rapid-prototyping machine.
As the Reprap wiki describes, “RepRap is about making self-replicating machines, and making them freely available for the benefit of everyone. We are using 3D printing to do this, but if you have other technologies that can copy themselves and that can be made freely available to all, then this is the place for you too. “
With our aim to create open source machines in a way that is easily manufacturable, and because the Mill One and LongMill are able to replicate its own parts like gantries, beds, and probably with a bit more work, brackets and mounts.
We’re super excited to go down to mingle with all the other reprappers! We’re sure that we’ll have some great chats with other makers, designers, engineers, and all sorts of folk interested in the Reprap movement.
If you’re gonna be there as well, make sure to stop by and chat with us at our booth!
I thought I would share this since it is making its rounds on Hackaday and Hackster.io.
One of the main uses for CNC machines like the Mill One is of course, isolation milling, which uses very fine bits to cut traces for circuit boards. There are a few ways to do this, one of which is to use FlatCAM.
Looks like according to comments online that the next frontier to getting good milled circuit boards is to use a mesh leveling system. This would of course map out all of the points on the PCB and automatically raise and lower the Z axis to compensate for any irregularities in the thickness of the board.
Chuck, from CHEP3D, also covers PCB milling on the Mill One, with his own way of using Easel.
Hey guys. We’ll be at the Toronto Woodworking Show (Feb 22 – 24) at the International Centre in Mississauga this weekend!
We’ll be bringing our LongMills and Mill One to the show, and Greg from Greg’s Reinventions, who has been a beta tester of the LongMill and professional woodworker, will be with us over the weekend as well. We’ll be bringing new projects and samples made by us and our community as well to check out.
Make sure to join us, and stop by to learn more about how CNC routers can help take woodworking to the next level!
Some users of Kiri:Moto and CAMLab may have noticed that if you try to mill details that are shallower than the specified stepdown does not generate code to mill those details.
What should be happening is that shallow details should be milled at a smaller step down, and features that are deeper than the specified step down should be milled with several passes at either the step down or less.
Since this was not working properly, users would need to either 1) use a step down that was smaller than any feature, or 2) generate separate gcode files with different specified step downs.
Obviously, doing that is a lot of work and inefficient.
Kiri:Moto users should find that the fix is working. We will push the fix onto CAMLab as soon as we can.
A lot of folks have been talking about adding a laser to their Mill Ones. Although I have heard of a couple people have made the mod work, Francisco’s shared his mod on the Facebook Group and I wanted to share it on the blog for anyone who might not be a part of the group yet.
Francisco uses a laser module that can be found on Ebay. His laser specifically is a 450nm 15W laser module that looks sort of like this.
Setting $32=1 in the EEPROM (send the command $32=1 through your gcode sender, or $32=0 to deactivate), will activate the Z minus end stop pin to turn the laser on and off.
Francisco uses LaserGRBL to control the machine and the laser. And the results look pretty great!
It’s Andy here! I hope everyone had a pleasant and relaxing holidays. I just got back to the office ready to start a new year.
First order of business is to ship out the new orders, answer emails, and continue development on several ongoing projects. Chris will be here in a few days to join me as well, and then things will be back at full swing.
A lot happened in 2018.
Here are some big things that happened this year (in no particular order):
Development and release of CAMLab, a simple and easy to use STL based 2.5D and 3D CAM software.
Version 2 to Version 3 improvements on the Sienci Mill One. Improved ease of assembly and rigidity.
We will be out of the office from Dec 22 to Jan 1 for winter break. Here’s what you should know.
We’ll be reachable via email, however, I (Andy) will be out of the country and will have a somewhat spotty connection to the internet. I will try to respond to everyone as quickly as possible.
Orders received after Dec 21st will be shipped after Jan 1. If you need to make other arrangements, please get in touch with us.
I hope everyone has a safe and happy end of the year!
It’s been just about two months since we released the first LongMill beta machine out into the wild.
We’ve gone through many changes, iterations, and struggles to improve the machine. Thank you to all ten of our testers for bearing with all the hurdles.
One of the testers provided us with feedback that made me pretty happy, especially since he kind of bashed on the X Carve (one ouf our competitors).
Here it goes:
Hello Andy,
I want to give you my initial impressions on the Longmill, now that I’ve had time to work with it.
1. Stepper calibration. This is something I do every two weeks on the X-Carve XXL. Belts stretch and need constant tightening. While I don’t expect this to be a problem with a screw-driven CNC, I didn’t expect the XY to be accurate “out of the box”! This is 31” on the X and 32 on the Y.
2. Tool changes. Totally worry-free and zero movement on the axis. With the X-Carve, it’s like trying to disarm a bomb, as the slightest exertion of force on the collet can knock the XY out of zero.
3. Rigidity. Isn’t bit chatter normal? It is with the X-Carve. I have yet to hear a sqeaak while carving with the Longmill.
4. Simplicity. I’m still amazed at how simple this design is compared to the X-Carve and Shapeoko. Yet despite this, it just feels so much more capable and solid. The only people who will be disappointed are those who enjoy spending an average of 10 hours assembling the multiple bags of parts they get with the X-Carve. Carbide 3D has gotten this down to three hours on average by preassembling some of the machine before shipping.
I’ll be running the Longmill hard all weekend as I prepare for a maker’s market on Dec. 7.
Other testers have been busy making stuff as well, such as guitars, woodworking joints, and signs.
Chris was also able to chew through a slab of aluminum to make a relief of a T-rex as well, proving that the LongMill is a very sturdy machine. Video to come out soon.
There are still a couple loose ends to tie up before calling the beta testing program a success, but I will be working with the testers as best I can to make sure all the machines are working the way they should, and everyone is happy!
