wow! I can't believe what I just read. what are all these people listening? mate, you have an exquisite taste of music and the video is just great. thank you for sharing
Haleluja ! mein lieber Herr Temmerman ! Sie sind ja offensichtlich ein ausgebildeter Profi-Mechatroniker der Neuzeit hahaha ! Also die Ausbildung hinter Ihrer persönlichen Leidenschaft schöpferisch zu sein und zu wirken, hat sich wirklich gelohnt, Bravo ! ............................................................. Ich danke Ihnen für diese tolle Arbeit , und mache mich sofort fertig, nach Ihrem Model 1:1 es nachahmen. Die Details + das Ergebnis werde ich ihnen später natürlich mitteilen, mit der Hoffnung einen Vorschlag im nahliegenden Bereich zu machen. Also bis bald und bleiben Sie gesund. Alles Gute
PLEASE continue to make videos with this wonderful style. The music is a fantastic break from the usual style of music on machining videos, and you let your work do most of the talking, which makes it great to just put on in the background while I work.
Nice bracket build but why not just add an encoder to the back of a double shaft step motor? All off our low cost double shafted stepper motors are pre-drilled and tapped to accept two common bolt circles for encoders. Jim at Applied Motion.
Wow.. this is cool. What's funny is I'm using that EXACT same rotary encoder hacked into a USB ball-style mouse for playing MAME games like Arkanoid. Now I can buy 3 more and upgrade my CNC router :)
Music remembers me of my lectures of Boris Vian’s novel “L’écume des jours”and his pianocktail he designed. It maybe my imagination but when reading that book I was earring that kind of music wondering what kind of cocktail it might have given.
Thanks for a great presentation! I did not watch the video for its music content, although I guess the Jazz fans aren’t exactly speaking out in support of your choice of background music. I was looking into the trade-offs between the effort needed to use an encoder on a lead screw to compensate for backlash in a geared stepper, but it adds more complexity than my simple project requires. Sometimes there is no substitute for using directly-coupled stepper motors, but I can see use-cases where this would be necessary for machines that must not skip any steps, and/or for applications requiring extreme precision.
Something about the jazz sounds sinister. Combined with my brain thinking about the backlash in the gears, I feel weirdly uncomfortable right now. What about gt2 pullies instead of gears? Also, I can't tell if you have piercings on your hand, or just metal chips stuck to you.
Kris, you do really pretty work and I was interested in your video. But the music was so loud and such a distraction that I had to stop mid-way through the video. Not that I matter, but I suggest you consider dropping the music altogether.
Nice video - VERY clean fabrication! For the record, I like the music - reminds me of a modern-day Brubeck arrangement - Kris, really like that spindle on your CNC mill - can you tell me about it?
I believe this is a great video, I know little of the electrical world so is this correct or no, if I mounted a rubber wheel to this then I would not need a lead/ballOr any other driven screw belt or rack and pinion correct?
could you put a CAD template file up for the plate you made up? and some gear ratios? What is the crazy music? I love it (now), however the link doesn't work
Nice video :) How do you use the router with aluminium? Is it a dedicated router or home made? Is a special kind of aluminium needed and we're do you get this from? Special Mills? Sorry for the amount of questions:)
Hey, was een of andere biologische afbreekbare cutting oil (rook naar frituur olie als het te warm werd ), lokaal gekocht. Maar die is ondertussen op. De laatste tijd gebruik ik geen smeermiddel meer, enkel een permanente luchtstroom om chips weg te blazen. Is goed genoeg en is veel properder :)
Bedankt voor je antwoord, gebruik ook geen smeer middel maar vroeg me af of het niet beter was om het wel te gebruiken!niet dus;) en trouwens, ze hebben wel gelijk. Die muziek kan echt niet:)
I'm curious to know how to generate the pulses for the stepper drivers, pwm I mean I'm trying with interrupt timer handler , I'm trying with internal pwm but I'm not able to read the pulses somewhere , now I'm thinking about to generate pulses by using a VCO but I have to rea the pulses too....ufffff
Walter Porcellini Hi Walter. You probably don't need PMW to controle your driver? You just have to set the drive pin to HIGH and LOW at a relative slow pace. good luck!
Hi Mr.Kris Temmerman! My name is Hoa, I am from Viet Nam, Your video very helpful, could you give me the address where I can buy the plastic gears. Thank you very much.
Lol, no offense, do you mean you have to Ignore the music. I guess it's not my kind of music. But I really wanted to know what a closed loop stepper is. So if you mean I'm know-nothing at this topic you're right ;)
TuningGuide007 It's OK, luckily, tastes are different! Some music needs to get acquainted with, unlike the "easy listening" stuff blaring out of the radio 99.9% of the time.
@@TuningGuide007 lmao doesn't even know what the word "ignoramus" means... it means you're a simpleton, mate. The music is fantastic, it's not in your face and distracting.
+ah lee The stepper motor receives a pulse, but the motor doesn't move. You now have a missed step, throwing off the accuracy. The best way I can think of to describe what may cause this issue, is if you are working with wood, for instance. The toolbit is moving along just fine, and all of a sudden it comes in contact with a dense knot in the wood. The toolbit attempts to advance to make the cut, but instead remains in position, thus causing a missed step. There are several reasons why this may happen. You may be trying to take too deep of a cut, or you haven't set the spindle speed to the proper setting for the material you are working with, or you are advancing the motor faster than the toolbit can clear out the swarf. Sometimes simply changing the bit from a 2-flute to a 4-flute can remedy this, otherwise, slow down your cuts. Haste makes waste. In a closed-loop system, the encoder sends a feedback pulse back to the control software for each advancement of the motor letting it know if the motor actually moved. If not, the control software will make another attempt at making the cut. If your control software allows for it, you can set it up to halt the operation at that position. In this manner, you can make proper adjustments to the CNC machine, then continue on from there, thus avoiding ruining the part that you are cutting out. :
You can detect when you stall it. Running open loop in something like a CNC machine can result in position errors and ruined parts...or worse. With open loop the controller says, "move 10 steps" and assumes it happens, but has no way to be sure. If the load exceeds the torque during the move, so the stepper actually only does 5 steps, the controller now is off 5 steps worth of motion. The error can accumulate it it keeps happening so you end up cutting where you hadn't planned to. Ruined work, broken cutters, ruined hold downs, parts flying.... With closed loop the controller can tell when the motor stalls. It can command the motion again, shut down and call for a human, take a lighter cut or whatever else you write the software to do, but t isn't blind to what's really happening. -- Mike