In 1981 I was an engineering student at Southern Tech in Marietta, Georgia. One of my instructors had married together a milling machine with a rudimentary computer that was programmed by holes in paper tape. At that point all it would do is make monogrammed belt buckles. CNC has come a long way! ……although, now that I think of it, that was 43 years ago. I’m so old.
I'm trying to think of the name for the paper punched controlled machines, they are the pre cnc. The first two letters are NC but I can't think of the third letter. Stands for numeric control. I think CNC stands for computer numeric control. It's been 30 years
@@garymurt9112 Actually i have no idea. I just own an old Pratt and Whitney triax tape o matic i was told was using punched cards for programming. I know it used to have a giant reel to reel tape machine to save the programs on. Since I’ve owned it, it’s been retrofit with a centroid control.
Thanks! This brings back memories of my first factory machine job in 1975 as a radial drill press operator out of high school. I had to lay out by hand bolt circles on flanges all day long. Parts for dredges at Ellicott Machine Company in Baltimore. We had one CNC machine in the whole shop and it was a test mill to see how they liked the new technology. Blue the flanges, lay out the bolt circles and holes with dividers and set it all up manually. Loved that job.
Years ago when I started watching Adam's videos I was impressed with him machining manually, and that's why I kept watching. Now, I'm happy to see him on the cnc path!
Ive done literal hundreds if not thousands of different parts that needed to be clamped down in the machine. If I can say just one thing that will save you a ton of headache; Make sure your clearence height between every operation is higher than your tallest clamp-setup. Depending on your machine it might make the part take a little longer to finish but nobody wants to see the machine try to rapid feed a large drill sideways through a clamp.
@@spikeypineapple552 Oh nice I'm usually hovering at 150mm and yeah youre 100% right - no need to stand there and risk anything. A colleague of mine thinks its wasting time but he has a hard time convincing anyone with the amount of broken drills, clamps and parts that goes in his chip container ^^
I have to admit, I was stuck "old school" mode and being if I had a shop I would lean heavily with the older machines because that was all the interest I had, this episode kinda opened my eyes toward CNC machining. The clarity of your step by step movements showed me a new way of doing things. I appreciate that Adam
I love to see someone my age learning new things. Made me realise that I can still learn new things myself, that the skillset I have isn't set in stone.
Really cool to see you on the cnc again Adam. You’ve clearly learnt a lot and we’re learning from your videos too. A lot of the experienced cnc guys on RUclips gloss over the basics so it’s really good to follow your journey.
very well done Adam. I am super proud of you. It can be rather arduous for people to add different skills especially with people of you mastery of manual machining of all the differing types. I would love to buy you a beer and have a conversation about how fun this kind of learning is. I went from being a mechanical engineer with a degree to going back to college for a Computer Science Engineering degree and now working in this industry since Jan 2005. I know the butterflies in changing lol. So I applaud you and I am proud of you as well. I look forward to so very many more excellent videos from you.
Instructional videos can be very helpful, but seeing someone go through the learning process while both asking and then answering the questions that are going through my head adds a unique quality to your videos. I doubt I'll ever run a CNC machine, but it's fascinating to see. I feel like I have a deeper understanding and appreciation of the process. Excellently done, as always. Also, "pucker factor" is now in my vocabulary.
So glad to see you use those CNC machines. I agree is you have to make a simple "one of" item manual machine is the smarter move. More pieces CNC the way to go. Always enjoy watching how you think.
Very great learning experience for someone like me who used to deliver those machines all over the country but was never to see them in the real world being used.
As a software tester, I love to see manual expertise being applied to automation. Best of both worlds and I see it expanding your skills. Excellent work!!!
ABOM so happy for an hour of content. Loved every minute. That meal is awesome. I love the color too. You are encouraging me to get one.😅 can’t wait for the next lesson learned😮
23:28 i like to do the chamfer before the thread because the tool will create a burr on the thread and also the chamfer will center the tap if its in a floating tool holder.
Everyone chamfers before tapping. It is so obvious that I don't even think it is taught. How has this passed him by for so long. Just swap over the last 2 tools. Better still, use a large spot drill at the start to cut all the chamfers before drilling & lose the last chamfering op. These are not CNC tips, it's established machine shop practice.
Adam, I'm proud of you. In the past I have criticized you for sticking with what you know and not being willing to change your ways. Well, I take that all back. You're really trying to learn your new machines now and that's a good thing.
When I worked for Kawasaki motors in Maryville MO I would use fan tips on the coolant lines. Run them vertical then they cover a wide variety of drill lengths.
Love the Pucker Factor...I see workers running at warp speed and can feel the floor vibrating at touch...as a manual guy...I don't even like walking by. Practical Machinist has a great segment on Manual vs. CNC...when things go wrong on the CNC... it's lighting quick. Tool movement...huge pucker factor. The experts count spindle drops and table movement time...I still use a chuck key in my tool changer hand....GREAT JOB Adam!!!
Thank you for making these video's. I haven't done any machining since the early '90s, and to me this is like a cross between technology and witchcraft. You have definitely sated my curiosity.
Adam, I loved every minute of this! This is the first video I've seen that made me think you're going to be a CNC machinist! I have no right to be proud of you, but, damn, man! Well done.
It's really fun to watch a CNC mill tapping holes. It precisely feeds the tap with a servo, using software to match the tool's movement speed with the threads density, instead of using a free-floating quill, as a manual mill or drill press would when you need to tap something, right? I know there's no magic behind this tool control, but it feels like magic anyway.
Adam, when clamp position is operator dependent, ALWAYS use your 'Z' offset for tool clearance!!! The tiny increase in cycle time is well worth reducing the pucker factor.
I understand you were wanting to work more with Fusion 360 but I will say the conversational programming in the Milltronics makes this kind of work super fast and easy. You could have made the clearance and depth changes at the control in about 30 seconds. Great job as always.
If you want to reduce the pucker factor, you can set your retract height in between holes above your clamps. That way if you have your clamps slightly off in between parts you won’t clip it on a linking move. Even slow machines are so fast that it only adds a few seconds the the cycle on each part.
@@MechanicalAdvantage Oh ffs. That’s what I get for commenting before the end of the video. Love your fusion 360 tutorials by the way. They’re super well done.
@@kevind1865 Thank you. Once we got that height changed when he told me about the issue, then he could let things run at full song without worrying about hitting the clamps.
Take full advantage of those rapids and increase your retract height. The extra few seconds on the job are more than worth it to not have to worry about your clamp positions 👌🏻
It's always good practice to set your travels height ABOVE the height of any fixtures when your fixtures aren't permanent / measured & modeled into the cad/cam package before creating tool paths. This will allow you to run at full speed without worrying about crashing into fixtures. Yes, you lost a little bit of time on travels due to the extra height, but you end up saving time and worry because you don't have to babysit the overrides or slow things down "to be safe"
When we programmed this part, he had an idea of how he was going to set these parts up, but nothing was concrete. Spending the time to place the 123 blocks and clamps etc. in this setup is overkill when you could just get it setup and then measure how high the tallest clamp is and not worry about the clamps at all. Especially when he has a reference part that we can use to make sure he doesn't put a clamp where a toolpath needs to go.
Love the CNC content. Hope you don't have any crazy screw ups like me when I was learning on a HAAS and end up running the head into the material/work holding. Almost had one of those moments at 16:55 nearly running into the clamp. Those times get nerve wracking 🤣
It's interesting that some folks asked to see the 3d animation rather than or at least in addition to the actual machining process. I don't think it's an age thing either, I'm 63, retired and enjoy watching both myself!
Hi, as a beginner home machinist. I have never seen any kind of CNC programs, I think this is fascinating, this is such a time saver if you're making more than one piece.
While I'm on the woodworking side of cnc, the one thing all cnc work has in common A cnc machine does EXACTLY what you tell it to, not what you intended it to do. Success happens when intention matches up with the gcode.
I can make that even more generic: any computer code does exactly what you told it to, not what you want. What's why we software developers always have to deal with bugs in the code -- no matter how hard you try, there's always cases where code and intention don't match up, and so so many of them happen in pieces of code you didn't think could be wrong!
Really nice videography and editing on this. The in-picture overlays (e.g., why the shrink fit tool holder beat the collet) were great for explanation!
I’ve been watching you since about 2017. It’s so cool to see what you have been able to build during your career. Congratulations, and I’m sure your success will continue for a long time.
In the future, it is helpful to set your Z clearance to move well above the clamp and then rapid down to .200 above surface then go to machining speeds you will breathe a lot easier
Another A+....nice job explaining the why/how of this process and I liked the video work getting in both the computer screen and the actual work piece. Makes it a lot easier to understand what's happening. Great work!
Hello Adam.I think you made right choice purchasing milltronics vmc and lathe.Milltronics are underestimated but very nice machines,I used to have Rh20 mill and love it.Simple,reliable,easy to use.Nice job by the way😊
I agree with you. Using the Cad/CAM approach will make you a more well rounded. Which I think you want to be. When I had time I even modeled and my clamping tools and hardware and brought them in my Inventor models.
CNC is the future and the youth today learning CNC will be setup for success later. Removing as much human error from manufacturing is one of the goals. It's fantastic that you're stepping into the CNC world and learning more about it. I've seen lots of comments here about how people want to just see everything done by hand, and you do a great mix of both. CNC will replace manual machines in the future, it's just a matter of time :) A horse and buggy was great technology at one point as well, but we've advanced and moved on from that.
CNC has been around for a long time though, it's not some super new thing.. They've been around since the 90s, it's more than industry standard now. Machining has been shedding a lot of young people (in my area at least) due to poor wages, poor environments, and insane work load... You have to fight tooth and claw after many years to get paid what a software engineer gets paid starting out, if you want an idea of how terrible wages are (generally), some places are better than others and do pay fairly but they're a rarity... Then you also have to deal with routine lay offs because it's feast or famine in this industry. Don't get me wrong it can give you an OK to mostly comfortable living depending where you live, but it's definitely not attracting boat loads of young guys. We're competing with developing countries that are running CNCs and paying guys a couple dollars a day. A machine is a machine, the product is more or less the same. It's automation.
Based on the chips, you can increase your feed rate a good bit. Also you can use a deeper peck, if I want to be really safe I'll use half the diameter of the drill, but realistically you can go much deeper. With the carbide drills, they are designed to take straight shots, you don't need to peck. Great job for where you are at in your learning process.
@@ipadize I've seen it be a nerve wracking experience for folks to shift from a manual of bed mill with a quill to full CNC. One of the hardest lessons to learn is an emotional one more than a technique one, and that is that it is often safer to push harder and faster (within reason) than it is to try and be gentle. He seems to be doing all right though and he'll get there. I agree with you about going straight through, it's pretty much always better where you can.
Just a suggestion, In drilling cycle, you should use G98 instead of G97 that way, tools always clear the clamps by your chosen height in line before the canned cycle. Ie. G0 Z3.0; G98 G73 Z-.5 R.2 Q.05 F3.0
IIRC F-360 lets you specify "keep out" areas. Add a rectangle representing the clamps, specify KO, and F-360 will take care of using tool paths that avoid the clamps.
I love watching you do CNC work. Makes me think of my CNC machine, which is only a flatbed router, but it works in a very similar way I'm using fusion 360 to drive it too
What a great job to enhance your CAD/CAM skills.....FYI- you can use the G30 command as a second stop position, so the table comes to the front center of the opening after the last operation, just make sure when you set up the G30 that it slaves your Z axis to home first before it makes the final move in X and Y.
Good work :) I'm always super chicken with those rapids - rather than relying on the straight line path between holes being cleared (at about 15:00) - I'd rather see the safe-z lift between holes totally clear the clamps. Doesn't cost any time on a machine this fast, but saves a tool for the one time the clamp is in a slightly different spot. (inch and a half versus 200 thou isn't worth the risk). Edit: and 26:00 underwear saved. no more panic :D Thank you as always for sharing! Edit the 3: Does this machine have through spindle air? I can hear it has the air to keep the taper clean during tool changes. AvE had a really neat setup where he built a 'tool' that was some tempered copper pipe in a tool holder pinched to form a nozzle, and then the last process after a project is a through spindle coolant rinse to clear chips, then a through-spindle air blast (with the tool spinning) to blow the coolant off the part.
Lockwood lock-line have ben around for forty years , did the job from the start. something finally came along to knock Lockwoods off the mountain. I made them at three different injection molding Companies over 15 years here in Oregon We also maid the innards for the Black n Decker snake lite
Glad you are having fun. In a year you will code that part at the controler in 15-20 minutes. Learn your canned cycles. This part does not need F-360. Retired since '07 and I still can.
For your y home at finish I think you choose that in the post processor menu second tab, lets you pick which axis' and what order they home.. If not just manually edit the end of the program..
You could also make the tool path as a star pattern or skip one, then back, skip one, then back etc. This would keep the tool toward the inside diameter and not coming as a straight line past the clamps. The hop probably takes less time though. Just depends on the piece which one would be more efficient.
5:29 AMAZING, Adam!! ... I have NEVER seen nor even Heard of a "shrink fit tool holder" ever before. It obvious how it works! .. I wonder if it has a limit on how many times it can be used? If you showed it before, I must have missed! .. what a great idea!! Some special alloy steel I imagine??
Another great video Adam. I don't know what you would charge for that job but it is a lot of work and well worth it. You are getting the CNC down and only will get better from here. I definitely enjoyed watching as I do all of your videos. Keep up the great work!
Nice job, there is always a balance between making the perfect set-up and program, and just getting it good enough to get a small batch of parts out the door. I think you hit that balance pretty nicely in this Job. If you want the table to move a specific position at the end of the program that will be an edit you will need to make to your post processor. Also those carbide drills don't really like peck drilling that much, i know you don't have thru tool coolant but i would at least make the pecks a bit longer to try and maintain the life of the drills.
He used the same toolpaths as the HSS steel drills and just changed out the drills and adjusted the feeds and speeds. He didn't adust the peck. One thing to note about the peck is that it has a 0 retract distance, so it isn't doing a true peck drill.
dont you have a chuck for the mill table to hold round parts? i feel like a lathe chuck mounted vertically on the table would be nice for projects like this
Having grown up in the manual world I would think you can appreciate the value of CNC for production work. I’ve enjoyed your journey. Those rapids make me cringe too….😅
Yep. Those flanges are a perfect example of a slow and tedious part to run on a manual mill, but fast and effortless on a CNC. An order for 30 more would take only a little longer than the 5 or 6 he machined.
Nice video! A good walk through of the prove-out process. Makes me almost miss my programming days. (take it or leave it) With carbide drills, you can usually skip the peck drilling and use a standard drilling cycle. It can help minimize tool wear as long as you're getting the chip control you need. Understandable starting point since the first one was HSS and material is obviously 'a little stringy'. One thing you could do to get the table parked in a more convenient load/unload position is to have a sub-program/macro or a custom G-code that parks it centered on the door. You could also look to embed that into the post for your CAM software. The advantage of having a little sub-program (vs. a custom G-code) is it's easy to edit from job to job.
everything i know about milling n lathe i learned from your channel ! which is barily zero butits something lol ! you are good and thats why 3rd gen ppl are set if they pay attention n like what they do....
When performing this type work I always prefer to have the retract height set to approx. 2" to clear all the clamps, you are doing great!
from one Old Learner to another: yes, doing is the best training; making mistakes is the very best teacher
In 1981 I was an engineering student at Southern Tech in Marietta, Georgia. One of my instructors had married together a milling machine with a rudimentary computer that was programmed by holes in paper tape. At that point all it would do is make monogrammed belt buckles. CNC has come a long way! ……although, now that I think of it, that was 43 years ago. I’m so old.
I'm trying to think of the name for the paper punched controlled machines, they are the pre cnc. The first two letters are NC but I can't think of the third letter. Stands for numeric control. I think CNC stands for computer numeric control. It's been 30 years
are you following new technology like metal 3D printing?
@@garymurt9112 Actually i have no idea. I just own an old Pratt and Whitney triax tape o matic i was told was using punched cards for programming. I know it used to have a giant reel to reel tape machine to save the programs on. Since I’ve owned it, it’s been retrofit with a centroid control.
I am proud of you Adam!!! Progressing nicely into the previously unknown!!
Thanks! This brings back memories of my first factory machine job in 1975 as a radial drill press operator out of high school. I had to lay out by hand bolt circles on flanges all day long. Parts for dredges at Ellicott Machine Company in Baltimore. We had one CNC machine in the whole shop and it was a test mill to see how they liked the new technology. Blue the flanges, lay out the bolt circles and holes with dividers and set it all up manually. Loved that job.
I always do the high clearance plane when using strap clamps. Less drama. You need a backside chamfer tool for one and done.
Years ago when I started watching Adam's videos I was impressed with him machining manually, and that's why I kept watching. Now, I'm happy to see him on the cnc path!
This is the best part of the day for me, sitting down and watching one of Adams EPIC videos! keep them up!!
Ive done literal hundreds if not thousands of different parts that needed to be clamped down in the machine. If I can say just one thing that will save you a ton of headache; Make sure your clearence height between every operation is higher than your tallest clamp-setup. Depending on your machine it might make the part take a little longer to finish but nobody wants to see the machine try to rapid feed a large drill sideways through a clamp.
I just stick in 200mm if i have clamps on the table. No point in puckering it.
@@spikeypineapple552 Oh nice I'm usually hovering at 150mm and yeah youre 100% right - no need to stand there and risk anything.
A colleague of mine thinks its wasting time but he has a hard time convincing anyone with the amount of broken drills, clamps and parts that goes in his chip container ^^
Adam's talking the language, confidence is growing. I predict he will become obsessed with CNC, and become proficient with it within 6 months.
He is proving An old saying wrong can't teach an old dog new tricks lol
working with clamps it worth having your retract to 2" in travel, peace of mind and cheaper then breaking tools
You should be proud in your continuing education journey! I'm 59 and the best part of my job is having to learn something new. 😊
I have to admit, I was stuck "old school" mode and being if I had a shop I would lean heavily with the older machines because that was all the interest I had, this episode kinda opened my eyes toward CNC machining. The clarity of your step by step movements showed me a new way of doing things. I appreciate that Adam
I love to see someone my age learning new things. Made me realise that I can still learn new things myself, that the skillset I have isn't set in stone.
Really cool to see you on the cnc again Adam. You’ve clearly learnt a lot and we’re learning from your videos too. A lot of the experienced cnc guys on RUclips gloss over the basics so it’s really good to follow your journey.
Went from pucker to relief and cut cycle time in half in one job. That's a win. Fun to watch this new chapter for Booth Machine. 👍
WOW Adam, I am so proud of you. You got it figured out buddy. I love watching your progress. Thanks for sharing
very well done Adam. I am super proud of you. It can be rather arduous for people to add different skills especially with people of you mastery of manual machining of all the differing types. I would love to buy you a beer and have a conversation about how fun this kind of learning is. I went from being a mechanical engineer with a degree to going back to college for a Computer Science Engineering degree and now working in this industry since Jan 2005. I know the butterflies in changing lol. So I applaud you and I am proud of you as well. I look forward to so very many more excellent videos from you.
Instructional videos can be very helpful, but seeing someone go through the learning process while both asking and then answering the questions that are going through my head adds a unique quality to your videos. I doubt I'll ever run a CNC machine, but it's fascinating to see. I feel like I have a deeper understanding and appreciation of the process. Excellently done, as always.
Also, "pucker factor" is now in my vocabulary.
So glad to see you use those CNC machines. I agree is you have to make a simple "one of" item manual machine is the smarter move. More pieces CNC the way to go. Always enjoy watching how you think.
Very great learning experience for someone like me who used to deliver those machines all over the country but was never to see them in the real world being used.
It’s fun to go along with you on this ride. Gaining confidence in the process and learning it. You are definitely improving, great work
As a software tester, I love to see manual expertise being applied to automation. Best of both worlds and I see it expanding your skills.
Excellent work!!!
Very well said!
ABOM so happy for an hour of content. Loved every minute. That meal is awesome. I love the color too. You are encouraging me to get one.😅 can’t wait for the next lesson learned😮
23:28 i like to do the chamfer before the thread because the tool will create a burr on the thread and also the chamfer will center the tap if its in a floating tool holder.
Everyone chamfers before tapping. It is so obvious that I don't even think it is taught. How has this passed him by for so long. Just swap over the last 2 tools. Better still, use a large spot drill at the start to cut all the chamfers before drilling & lose the last chamfering op. These are not CNC tips, it's established machine shop practice.
Adam, I'm proud of you. In the past I have criticized you for sticking with what you know and not being willing to change your ways. Well, I take that all back. You're really trying to learn your new machines now and that's a good thing.
When I worked for Kawasaki motors in Maryville MO I would use fan tips on the coolant lines. Run them vertical then they cover a wide variety of drill lengths.
Love the Pucker Factor...I see workers running at warp speed and can feel the floor vibrating at touch...as a manual guy...I don't even like walking by. Practical Machinist has a great segment on Manual vs. CNC...when things go wrong on the CNC... it's lighting quick. Tool movement...huge pucker factor. The experts count spindle drops and table movement time...I still use a chuck key in my tool changer hand....GREAT JOB Adam!!!
Thank you for making these video's.
I haven't done any machining since the early '90s, and to me this is like a cross between technology and witchcraft. You have definitely sated my curiosity.
Adam, I loved every minute of this! This is the first video I've seen that made me think you're going to be a CNC machinist! I have no right to be proud of you, but, damn, man! Well done.
It's really fun to watch a CNC mill tapping holes. It precisely feeds the tap with a servo, using software to match the tool's movement speed with the threads density, instead of using a free-floating quill, as a manual mill or drill press would when you need to tap something, right? I know there's no magic behind this tool control, but it feels like magic anyway.
If this looks like magic search for speedio drill and tap then your mind will be blown
so cool to see that carbide. Been watching for what seems like a decade, amazing to see how far you have come. Thanks for all the content
Adam, when clamp position is operator dependent, ALWAYS use your 'Z' offset for tool clearance!!! The tiny increase in cycle time is well worth reducing the pucker factor.
Glad to see you thought to make those changes!! I made my comment before the end of the video.
I understand you were wanting to work more with Fusion 360 but I will say the conversational programming in the Milltronics makes this kind of work super fast and easy. You could have made the clearance and depth changes at the control in about 30 seconds. Great job as always.
Make your clearance plane like 2 inches above the part and your rapid moves will clear and you don’t have to pucker up so much!
Yeah no reason to cut it so close
If you want to reduce the pucker factor, you can set your retract height in between holes above your clamps. That way if you have your clamps slightly off in between parts you won’t clip it on a linking move.
Even slow machines are so fast that it only adds a few seconds the the cycle on each part.
Right on. We got that changed for the later runs so it wasn't an issue.
@@MechanicalAdvantage Oh ffs. That’s what I get for commenting before the end of the video. Love your fusion 360 tutorials by the way. They’re super well done.
@@kevind1865 Thank you. Once we got that height changed when he told me about the issue, then he could let things run at full song without worrying about hitting the clamps.
Take full advantage of those rapids and increase your retract height. The extra few seconds on the job are more than worth it to not have to worry about your clamp positions 👌🏻
Yes Yes Yes
It's always good practice to set your travels height ABOVE the height of any fixtures when your fixtures aren't permanent / measured & modeled into the cad/cam package before creating tool paths. This will allow you to run at full speed without worrying about crashing into fixtures. Yes, you lost a little bit of time on travels due to the extra height, but you end up saving time and worry because you don't have to babysit the overrides or slow things down "to be safe"
When we programmed this part, he had an idea of how he was going to set these parts up, but nothing was concrete. Spending the time to place the 123 blocks and clamps etc. in this setup is overkill when you could just get it setup and then measure how high the tallest clamp is and not worry about the clamps at all. Especially when he has a reference part that we can use to make sure he doesn't put a clamp where a toolpath needs to go.
Love the CNC content. Hope you don't have any crazy screw ups like me when I was learning on a HAAS and end up running the head into the material/work holding.
Almost had one of those moments at 16:55 nearly running into the clamp. Those times get nerve wracking 🤣
set the default tool retract on all tools to 2" or buy yourself some rubber underpants, also consider chamfering all holes before tapping, Great show
It's interesting that some folks asked to see the 3d animation rather than or at least in addition to the actual machining process. I don't think it's an age thing either, I'm 63, retired and enjoy watching both myself!
Hi, as a beginner home machinist. I have never seen any kind of CNC programs, I think this is fascinating, this is such a time saver if you're making more than one piece.
While I'm on the woodworking side of cnc, the one thing all cnc work has in common
A cnc machine does EXACTLY what you tell it to, not what you intended it to do. Success happens when intention matches up with the gcode.
I can make that even more generic: any computer code does exactly what you told it to, not what you want. What's why we software developers always have to deal with bugs in the code -- no matter how hard you try, there's always cases where code and intention don't match up, and so so many of them happen in pieces of code you didn't think could be wrong!
Really nice videography and editing on this. The in-picture overlays (e.g., why the shrink fit tool holder beat the collet) were great for explanation!
I’ve been watching you since about 2017. It’s so cool to see what you have been able to build during your career. Congratulations, and I’m sure your success will continue for a long time.
Good learning experience,Adam.Thank you.
In the future, it is helpful to set your Z clearance to move well above the clamp and then rapid down to .200 above surface then go to machining speeds you will breathe a lot easier
If you watch farther, this is exactly what he does in the second iteration of the program!
Another A+....nice job explaining the why/how of this process and I liked the video work getting in both the computer screen and the actual work piece. Makes it a lot easier to understand what's happening. Great work!
Hello Adam.I think you made right choice purchasing milltronics vmc and lathe.Milltronics are underestimated but very nice machines,I used to have Rh20 mill and love it.Simple,reliable,easy to use.Nice job by the way😊
Proud of you buddy. You have made great strides in your CDC machining journey.
I'm a little goofy about one thing I love hearing you talk in time lapse it sounds really neat to me.makes me chuckle.
You are getting there Adam , a great job 👍🍺🍺🥇
15:57 .. I remember on the CNC lathe I ran .. over 40 years ago! :) .. the program code for "Coolant On" was M08 :)
I agree with you. Using the Cad/CAM approach will make you a more well rounded. Which I think you want to be. When I had time I even modeled and my clamping tools and hardware and brought them in my Inventor models.
Very cool Adam, really appreciate your honest as you go through your learning with CNC/Fusion360.
CNC still looks like magic to me. Very cool tools you have there.
CNC is the future and the youth today learning CNC will be setup for success later. Removing as much human error from manufacturing is one of the goals. It's fantastic that you're stepping into the CNC world and learning more about it. I've seen lots of comments here about how people want to just see everything done by hand, and you do a great mix of both. CNC will replace manual machines in the future, it's just a matter of time :)
A horse and buggy was great technology at one point as well, but we've advanced and moved on from that.
CNC has been around for a long time though, it's not some super new thing.. They've been around since the 90s, it's more than industry standard now. Machining has been shedding a lot of young people (in my area at least) due to poor wages, poor environments, and insane work load... You have to fight tooth and claw after many years to get paid what a software engineer gets paid starting out, if you want an idea of how terrible wages are (generally), some places are better than others and do pay fairly but they're a rarity... Then you also have to deal with routine lay offs because it's feast or famine in this industry. Don't get me wrong it can give you an OK to mostly comfortable living depending where you live, but it's definitely not attracting boat loads of young guys.
We're competing with developing countries that are running CNCs and paying guys a couple dollars a day. A machine is a machine, the product is more or less the same. It's automation.
Very nice. Getting better each time.
So far as the CNC goes, this vid was the most interesting for me.
Im gonna save this to watch at work tonight yep
thx for this 🏅 .... a very profound & very detailed explanation for a noob like me 👏🏻
No critique from me. I am so proud of your advancements in tech and making it work. Keep on charging Bro!
Just raise the clearance height to clear the tallest clamp.
Nice Adam, I'm glad you're having fun :)
It's pretty exciting to watch you learn.
❤❤ Your definitely learning how to run a CNC MACHINE.
PARTS LOOK GREAT AND MADE FAST.
Based on the chips, you can increase your feed rate a good bit. Also you can use a deeper peck, if I want to be really safe I'll use half the diameter of the drill, but realistically you can go much deeper. With the carbide drills, they are designed to take straight shots, you don't need to peck. Great job for where you are at in your learning process.
on these thin plates i would just drill through without pecking but then also using a carbide drill
@@ipadize I've seen it be a nerve wracking experience for folks to shift from a manual of bed mill with a quill to full CNC. One of the hardest lessons to learn is an emotional one more than a technique one, and that is that it is often safer to push harder and faster (within reason) than it is to try and be gentle. He seems to be doing all right though and he'll get there. I agree with you about going straight through, it's pretty much always better where you can.
I watch with great attention and curiosity Adam... thanks for sharing your journey...
Just a suggestion, In drilling cycle, you should use G98 instead of G97 that way, tools always clear the clamps by your chosen height in line before the canned cycle. Ie. G0 Z3.0;
G98 G73 Z-.5 R.2 Q.05 F3.0
Commenting to support the channel
Very nicely done Adam. Great job 👍
I love to see an old dog learn new tricks
IIRC F-360 lets you specify "keep out" areas. Add a rectangle representing the clamps, specify KO, and F-360 will take care of using tool paths that avoid the clamps.
It will currently only do that for 3D toolpaths. The drilling toolpath doesn't have any options for that.
I love watching you do CNC work. Makes me think of my CNC machine, which is only a flatbed router, but it works in a very similar way I'm using fusion 360 to drive it too
What a great job to enhance your CAD/CAM skills.....FYI- you can use the G30 command as a second stop position, so the table comes to the front center of the opening after the last operation, just make sure when you set up the G30 that it slaves your Z axis to home first before it makes the final move in X and Y.
19:41 .. I LOVE how you can pause everything! .. The old CNC I ran?? If you hit pause?? It started over from the very start :(
Good work :) I'm always super chicken with those rapids - rather than relying on the straight line path between holes being cleared (at about 15:00) - I'd rather see the safe-z lift between holes totally clear the clamps. Doesn't cost any time on a machine this fast, but saves a tool for the one time the clamp is in a slightly different spot. (inch and a half versus 200 thou isn't worth the risk). Edit: and 26:00 underwear saved. no more panic :D
Thank you as always for sharing!
Edit the 3: Does this machine have through spindle air? I can hear it has the air to keep the taper clean during tool changes. AvE had a really neat setup where he built a 'tool' that was some tempered copper pipe in a tool holder pinched to form a nozzle, and then the last process after a project is a through spindle coolant rinse to clear chips, then a through-spindle air blast (with the tool spinning) to blow the coolant off the part.
Lockwood lock-line have ben around for forty years , did the job from the start. something finally came along to knock Lockwoods off the mountain. I made them at three different injection molding Companies over 15 years here in Oregon We also maid the innards for the Black n Decker snake lite
Glad you are having fun. In a year you will code that part at the controler in 15-20 minutes. Learn your canned cycles. This part does not need F-360. Retired since '07 and I still can.
Race ya :)
For your y home at finish I think you choose that in the post processor menu second tab, lets you pick which axis' and what order they home.. If not just manually edit the end of the program..
You could also make the tool path as a star pattern or skip one, then back, skip one, then back etc. This would keep the tool toward the inside diameter and not coming as a straight line past the clamps. The hop probably takes less time though. Just depends on the piece which one would be more efficient.
Ridgid tapping is so COOL!
Next lesson is Thread Milling 😮
And that's how its done, sweet!
5:29 AMAZING, Adam!! ... I have NEVER seen nor even Heard of a "shrink fit tool holder" ever before. It obvious how it works! .. I wonder if it has a limit on how many times it can be used? If you showed it before, I must have missed! .. what a great idea!! Some special alloy steel I imagine??
There is a video of Adam using the tool to heat up and cool off those shrink fit tool holders. Very neat!
Exellent video as always. In the NC post you will find "Home position" uncheck the top one an leav the bottom one.
This! Will this bring the bed to where he wanted it after the program has run?
Good to see you gaining experience. Now you mastered one at a time, try stacking 2 of them. Now you are fast and productive.
Another great video Adam. I don't know what you would charge for that job but it is a lot of work and well worth it. You are getting the CNC down and only will get better from here. I definitely enjoyed watching as I do all of your videos. Keep up the great work!
42:30 .. I think it's amazing they can put coolant holes in a solid carbide drill!!! .. mean how do they even DO that!!
They are molded like a sintering process. There are wires that are inserted that create the through coolant passages.
Nice job, there is always a balance between making the perfect set-up and program, and just getting it good enough to get a small batch of parts out the door. I think you hit that balance pretty nicely in this Job.
If you want the table to move a specific position at the end of the program that will be an edit you will need to make to your post processor.
Also those carbide drills don't really like peck drilling that much, i know you don't have thru tool coolant but i would at least make the pecks a bit longer to try and maintain the life of the drills.
He used the same toolpaths as the HSS steel drills and just changed out the drills and adjusted the feeds and speeds. He didn't adust the peck. One thing to note about the peck is that it has a 0 retract distance, so it isn't doing a true peck drill.
Thanks for the show Adam 🍻 🇦🇺
Ecellent work Adam. Very good .I like . All good for you.👍👍👍👍👍👍👍👍👍👍
Lil' bit late but I wish you and your family a Happy New Year. Greetings from Germany.
G'day Adam. Nice demo, showes all the pro's & con's, while using the CNC. Give it 12 months & you will be Super Proficient.
Well done
Nice work. Just wondering why you did not defined Z clearance much higher in Fusion 360, then the clamps wouldn’t get in the way for any operation.
He did.
dont you have a chuck for the mill table to hold round parts? i feel like a lathe chuck mounted vertically on the table would be nice for projects like this
Use a G59 code at the end of the program and set the coordinates to where you want the table to go after the program.
Another easy way is to use a g53 x y as a makeshift homing blocks
Great job. Thank you 😊
Having grown up in the manual world I would think you can appreciate the value of CNC for production work. I’ve enjoyed your journey. Those rapids make me cringe too….😅
Yep. Those flanges are a perfect example of a slow and tedious part to run on a manual mill, but fast and effortless on a CNC. An order for 30 more would take only a little longer than the 5 or 6 he machined.
Nice video! A good walk through of the prove-out process. Makes me almost miss my programming days. (take it or leave it) With carbide drills, you can usually skip the peck drilling and use a standard drilling cycle. It can help minimize tool wear as long as you're getting the chip control you need. Understandable starting point since the first one was HSS and material is obviously 'a little stringy'. One thing you could do to get the table parked in a more convenient load/unload position is to have a sub-program/macro or a custom G-code that parks it centered on the door. You could also look to embed that into the post for your CAM software. The advantage of having a little sub-program (vs. a custom G-code) is it's easy to edit from job to job.
Such a bad ass program. Nice work sir.
everything i know about milling n lathe i learned from your channel ! which is barily zero butits something lol ! you are good and thats why 3rd gen ppl are set if they pay attention n like what they do....