One issue I have with the stator winder is that the wire is being twisted during each turn without the twist being relieved. This will inevitably weaken the wire on a large number of turns and potentially cause premature failure. All commercial winding machines take account of this by having the bobbin feeding the winder rotate as well, thereby relieving the wire of any twist at all.
Are you seriously comparing commercial grade machines to an arduino project? Okay then little Jimmy just needs a gas powered V8 in his soap box derby car for the down hill meet on Saturday. Goofball.
@@mezmerizer0266 no I'm not! I'm comparing an Arduino project's output to what is required! If all that is going to be done is just twist the wires then why waste time, money and effort on an Arduino ... A standard old fashioned hand twist drill can do the same thing, otherwise get the Arduino doing something of real value! Bozo!
@@mezmerizer0266 No! A good design of arduino winder can solve this problem! I found some video doing the similar winder or cutter in very precise way!
I liked how the different projects were built to use the Arduino micro controller. It takes dedication to built the peripherals to work with the Arduino, and a lot of time getting all of them to work and be timed properly. Your imagination is the only thing you need. Thumbs Up!
This video beats all the other Arduino projects vids I've ever watched. Would I use any of them? Probably not. But the level you took each project to is absolutely impressive. 👍 Thanks for sharing it.
Barny the hamster here - i,d like to thank all the people who try to make these tool items but ends up building Hamster tables & swings & catapults wheely bins and wotnots cheers :)
Aren’t you the lil genius! Mind telling me where I may get the plans and sketchers to build some of your projects, or are they private? Either way thanks for sharing. It is obvious that you have put quite a bit of time and thought and effort into projects themselves.
I'm thinking of getting into thee Arduino after the holidays. I have a project in mind for next Xmas. I want to make an array of 16 X 16 LEDs that I can hang - maybe on a window. I want to be able to turn individual array (elements) on or off. By doing this, I want to be able to design patterns using the LEDS, maybe cycle through a list of patterns I design. Perhaps, later-on, cycle through so much that it appears to be in motion - like changing the position of a snow flake, so that it appears to be falling (in motion). Maybe this is something you could do and I can see how you approach it - - again I am just starting off so this project may be beyond me ' right now.' Maybe you can scale it down to a demo version more suitable for your channel & your audience.
@@anandjoshi8554 If by that you mean will it still have a program to run after power loss, then yes it will. It doesn't need battery backup. If you mean it will remember it's last state while it was running, that depends on the program and whether it was written to store it's last state in memory. You have to remember, this is just a simple microprocessor and not a PLC which are two radically different things. (A retired AB RSLogix500 & RSLogix5000 PLC programmer for 40 years.)
Top 20 projects? Hardly. Half of these are 'Measure & Cut' or Wire Winding machines, which are basically 'measure and cut'. Are they cool? Sure. But not 'Top-20' material.