If you are interested in everything that has something to do with technology, arduino's, robotics, soldering, pcb design, programming, 3D modeling, 3D-printing and much more, than this is the place to be!
In this channel I will post videos of my DIY projects. These projects can go from 3D printable bearings to robotic arm projects. Most of my projects use 3D-printed parts so you will see a lot of 3D-modeling and printing in my video's. You can also see some basic electronics, programming of different arduino's and some soldering (simple circuits and diy pcb's on prototype boards). I hope you like my video's. If not, feel free to leave a comment on what could be improved. This really helps me to create better videos. I would say like and subscribe but most importantly enjoy!
Hey man did you use just one battery for it? How long does it last on one charge? I used your files to print it and I'm just figuring out electronics and stuff, and I'm thinking of going with a 300 mah 2s instead of 3s because I'll be using a much much heavier blade and a higher KV motor
i remembered after graduating university, i worked as an engineer in a local sheet metal stamping factory. the CNC turret punch still uses floppy disc for the program..we had to transfer the files from a crappy pc into the disk and hand the disk over to the operator.
Very cool but ... shouldn't you get rid of the Payload before landing lol? Might make it a bit easier. That and get one of those Gyros that dude that built the Starship model with. Can't think of his name and the gyro board he Deved but...its like wicked smart!
Of course you would have to print it thicker, that's exactly what i did with my previous aluminium frame (see my latest Delorean build video) and that's also why it was to heavy and why i'm now making the frame out of carbon fiber. It's just a comparison to show the strength of 2 identical parts, one 3D-printed and the other made out of carbon fiber.
Thanks man, yes it's always a mess to get the chopped carbon fiber and resin into the mold but it always turns out OK, even on the first try which was a surprise to me.
Hola, Excelente trabajo. puedes facilitarme los datos de tu cortador y tus parámetros de corte. Quiero darme una idea, para poder maquinar en plata, por favor.
I am following along for several reasons. Mostly I appreciate the skill with EPS. I have been utilizing this material for 40+ years. Try some Carbon tubing.
if you sawp the printed frame joints for binding with carbon tow and epoxy -the frame would be Much stiffer but also lighter- even if you kept the alu box section
Thanks for the suggestion (and subscribing). I'm currently working on a full carbon fiber tubular frame with forged carbon fiber corners to keep everything together.
Great Scott ,This project is awesome 👍 hopefully finished drones will have ""Transparent Propellers"" in fact most outside tubing hopefully will also be Transparent , , tons of good luck on your cool project 😸👍👍
Thanks, the frame will be underneath and inside of the car, so out of sight. The propellers are concealed under the hood louvers. They only open for flight.
Over the past few years there havebeen many prototypes of drones big enough to carry a person, Who knows this idea might even catch on, once a full proto type is oneday made..
It's amazing how people can't comprehend simple physics. A round wheel on a flat floor has almost no friction and requires almost no force to get moving, and when it gets moving it requires even less force to keep moving. Here is my pinned comment in case you missed it: "It appears a lot of people seem to think that the part in the video where i pull the car forwards is fake, which is understandable but not true. Pulling a car forwards on a flat floor really doesn’t require that much force, maybe 25-50kg max. Using a shaft with a radius of 1 cm equals to a torque of about (max) 50kg*cm required to pull the car forwards. The third test where i was able to reach a torque of about 132kg*cm was actually a lot harder but obviously seemed a lot easier because you’re “only” lifting 22kg at 6cm (132kg*cm) instead of pulling a big heavy car on wheels where you actually only require 50kg (max) at 1cm (50kg*cm)."
@@BrianBrocken I’m saying it’s fake because you’re pulling it by attaching your rope to the decorative front cover which is fragile and not designed for that. A car has very strong attachment points on the bottom which attach to the car’s frame, like when your car is towed by a tow truck. You’re pulling it by something that would definitely break off. That’s why it looks fake like your car is running and the motor is turning the wheels to make it more forward because it would break off from where you’re attaching your rope.
Nothing about this gearbox is designed to be decorative, only functional. Where are you from? Send me an email, we'll arrange a meeting. I will give you a live demonstration and show you how fake it is.
@@BrianBrocken sigh.... the front grill on the car. those are decorative, usually fiberglass... and you're supposedly pulling the whole car by that decorative fiberlass plate??? that would snap off for sure. FOR SURE. The bumper on my cargovan is METAL.. and I would never pull tha van from a METAL bumber...let alone from a fiberglass grill... get real man
Lol didn't know what you were talking about. If you would've looked closely at 07:00 you would've seen I screwed in the cars towing hook, of course I'm not going to pull it by it's front grill that's just ridiculous. You're still welcome for a visit for a live demo, I'll tow your car.
Hey, i have bought the materials and the STL files, im just wondering How long are the steel shafts? i bought a 1m rod and i need to cut them to length, cant see it listed anywhere on here :) thanks!
Hello @batuzs, thanks for the support, you need 2 6mm stainless steel shafts cut to 81mm and 104mm for the 2 gear shafts. These dimensions are listed in the components list on Hackaday: hackaday.io/project/173854/components Good luck with your build!
I have a few ideas how you can make a real flying car. But I think it would take some serious cash and engineering. I think the design of the flying delorean in BTTF is sound. Just the problem has always been the technology. But that tech at least in pieces exists today. Someone just has to have the right ideas, and the right motivation to do it. What you do is you create a light weight frame, thats touch and can withstand major impacts. You use super light super strong materials to reinforce the frame, and the passenger areas. This should be a major precaution since crashing will be much crazier if it anything fails. Once you have a frame, and body, you engineer the axles and propulsion system. Engineer a hydraulic joint in the wheels, that when the car lifts, the wheel turn horizontal just like in the movie. But heres the trick. You take a bunch of those miniature jets they are using for jet packs, and you engineer them at key points all over the car, and underneath it. You would have to build a splash guard that will house the jets, and protect the bottom of the vehicle. And then you put 1 jet in the center of each wheel. You make the wheels out of light weight, no air tires. and in the spokes or center of the rims, you put in the most powerful wind turbines that you can find. Just like a jet plane that uses jets and a stablizing propeller. But you put the turbines in the wheels. So when the car lifts with the rockets and while stationary, the wheels turn horizontal, and they they start spinning as wind turbines. They have to spin fast enough to take the strain off the jets, but still work in tandem. In the center of the wheel propeller hybrid, you put in a jet. So it not only has lift from the many jets underneath it, but also in the wheels themselves. The wheels should be engineered in a way that they are able to control the direction of movement by pointing away from the direction you wish to go. Then the final piece. Ion PRopulsion. Something we are rarely utilizing in any real meaningful way. ITs not hover technology, but it could be eventually, But you put iol propulsion all around the car and any place you need it. this will help with lift, but also stablizing and steering the craft. So if you have all these major technologies working as one, you can create a hover car. Maybe its best hover cars would need more power to fly so we could keep our air space the same. I think a car that hovers above ground is good enough. We dont need something that can flying around like a plane. Just lift your vehicle off the ground enough to to justify calling it a hover car, and stop there. Work on safety features. Mini jets, wind turbines, and ion propulsion. Add them all up you get a hover car.
