@Lenard Born I managed to tune the PID values of the rocket the past week. I had to make some sort of a gyro/rig to hold the rocket in it's centre of gravity while still being able to have 2 degrees of freedom. So the past few days i managed to get it into a stable hover. Yesterday i made a launch platform and i'm planning to perform it's first maiden flight outside this evening when the wind starts to settle down.
@@niggy. Elon musk chan is that you senpai?* (Corrections powered by autotech. To learn more about us, go to ruclips.net/video/dQw4w9WgXcQ/видео.html .)
I might be wrong but it looks like your jet vanes lack a bit of chamfer. The vanes controlling pitch seem to get in the way if the vanes controlling yaw, impeding both axes from being controlled at the same time (or at least limiting their control authority). Awesome project btw, keep it up!! 👍
Yes i noticed this too, it looked good on paper tho ;-) We'll see how it goes and if it doesn't work out i'll print another set. Already did a quick hover test without the flight computer attached, just spun up the motor, and it just stayed in place with no control input, so i guess (hope) i don't need a lot of throw on the vanes for basic controll of movement.
Ongelooflijk wat je doet door ook mijn hobbies samen te brengen: RC, 3D printing en electronica. Ik kan niet wachten tot deel 2. Geabonneerd met heel veel interesse vanuit België.
Love the project; you did a great job! I was wondering if you'd consider adding your own twist to it by using two servos instead of four--using one servo to deploy a leg and its opposing leg. Or even using a single servo, via a worm gear, to deploy all legs at once. Since scaling down motors is impractical, I figured you could reduce your weight by using some different mechanics for similar results!
I agree with this idea and maybe add in a barometer with a bottom optical flow or if you're feeling froggy a 4K optical sensor lol Or something for when it gets close to a certain height off the ground it will automatically deploy them in unison and to mitigate failure upon return landing.
Your work is an amazing man! You fly on mode two thoughhhhhhhhhhhh. ARGHHHHHHHHH. I feel inspired to make my own! Let's see if fully manual control wont end in tragedy!
Fantastic work man. Not sure what you are planning for it (obviously not flights) but how about a ducted fan in front, and pump in some thick smoke, then you can show the flow control visually after the vanes. Probably add a laminar flow generator between the fan and the duct first.
Bro this video is an inspiration for me. I always love to do hands-on projects. And this is the thing of my taste haha! Can I ask you tho, what did you study to be able to work on such an interesting project? Btw great work man, seriously! I'm impressed. You gained a sub aswell ;)
Thanks for the sub man, appreciated. I studied Electromechanical engineering with specialisation in automation, but really almost all the things you see in the video they don't learn you at school. You can learn this yourself by watching a lot of RUclips tutorials and google is your friend ;-)
haha bwa ja "youtuber" zet er af en toe een video op ;-p, heb gezien dat je ook wel een interessant kanaal hebt ivm mechanical engineering en electronica, met bijhorende voice over. Ben al een tijdje aan het twijfelen om ook met een voice over te beginnen ;-). PS: heb me ook even op je kanaal geabonneerd, 1000 abonnees ga je zeker halen. veel succes!
@@BrianBrocken voice over werkt idd wel goed. Enorm bedankt dat je geabonneerd bent! 👍👍😁 RUclips is mijn hobby maar ik wil toch wel die 1000 abonnees aantikken en mss dan de doorbraak maken... En hopelijk heb jij tegen dan ook wel 10.000 abonnees 😉
Çok başarılı ve basit bir model olmuş. Çok hoş olmuş. İzlediğim videolardan 2 şeyi fark ettim. Ağırlık dengesi üst kısımda toplanmış gibiydi. Birde denge için aletin içine dönen bir teker jireskop etkisi eklersen dengeli olur gibi geldi.
Thanks so much for uploading. I had the opporunity to witness a rocket launch in 2018. Amazing experience. I uploaded a pretty cool video of the experience to my channel.
Well made, but I like to mention: To much weight for the wires and all the stuff. A EDF is not so powerfull. So lowering the weight of all this "copper" stuff may be a good idea, Some times ago I made some experiments with EDFs and many of them did't have enough power to lift themselfs and a battery in a VTOL situation. My goal was > 3 Minutes of flight time. I didn't found a motor which could deliver this. I hope you will have a success. (Then I will buy such a motor :-) )
Very nice engineering. Just heat those connecting pins a bit more before flowing the solder in, the solder filler it supposed to flow smoothly into the metal of the pin.
Brian Brocken I have garage full of racing drones and have put the dji digital FPV system on everything rc planes/cars/boats! Which leads me to mention what I’m doing.. the dji system is almost perfect but I needs a WiFi module that will allow you to stream/upload videos.. also I would really like to be able to use the dji controller for my planes so I’m working on what I call the “plane plug” which will allow you to plug in servos like a regular receiver utilizing the receiver embedded in the dji air unit/caddx vista.. you really caught my attention with that chip design also I do a lot of CAD work so I was impressed by that as well! If you’d be interested in helping me make the plane plug I’d be happy to pay you or partner up.. lmk
Looks pretty nice, but I have a few recommendations (from tvc on rocket motors). First off, I would highly advise against using a nano. The nano has a very slow speed and other alternatives (mainly the teensy series, the 3.2 and 4.0 are a similar size with WAY more power under their belt and great support, but also stm based boards) would provide much-needed speed especially when working with thrust vanes. A nano is a little underpowered for the necessary control loop that is running. Secondly, you should not have the servos directly taking the impact of the landing legs. When this happens, the servos use more current to maintain their position and can easily burn the traces on your pcb or pull too much current from your regulator. Also What was the point of all of the potentiometers(?). You can easily adjust the code to move their set points instead and you would save space on your board. Looks pretty cool, I looks forward to you taking my suggestions into account and finishing the project.
Hello Andy, 1: The arduino is only being used to control the speed and position of the landing legs, No tvc. 2: the landing legs are designed in a way that they lock in place. This means that when the legs are fully extended, the forces from the landing legs are in a direct line with the shaft of the servo. So no matter how hard you push, there will be no torque exerted on the shaft of the servo. 3: The purpose of the potentiometers is to fine tune the max and min position for each individual landing leg. This can be done in software like you say but using potentiometers it's a lot faster and easier to fine tune the positions. In the case you need to change out a servo you can easilly adjust it's possitions with this instead of having to connect your nano to the computer. Personal preference.
Wow this is a very cool project. I am trying to do something similar with an EDF and I was wondering how you plan to compensate for the gyroscopic precession. Can't wait for the future parts!
Yes I was thinking about this, but this also adds a lot of complexity to the build because everything has to fit nicely together. I now barely managed to do this but the heat wave we got here in Belgium warped some of the plastic a little bit and some legs now already struggle to close properly.
Haha just had er geen erg in Walter. Heb het nog niet op thingiverse gezet omdat het nog niet volledig af is. Projectje ligt nu even stil omdat ik een nieuwe flight controller moest bestellen. Degene die ik ging gebruiken was een veroudert model en ondersteunde geen single copters. De nieuwe zou dat wel moeten kunnen ondersteunen. Voor de rest ziet de thrust/weight ratio er veelbelovend uit 😉👍
How'd you capture the timelapse? My best guess is that after finishing the entire project, you stepped through each command, and screen recorded that. I'm super interested in doing something similar, great content!
Absolutely BEAUTIFUL build, sir!!! Now then, could you make it shuffle-walk? Without "knee" or "ankle" joints, animal type "walking" is not possible. But you could make it "waddle" on a flat surface - similar to a duck or the "Charlie Chaplan Walk"? Are you up for the algorithm and/or coding challange ;) Also, did anyone else think of 1990's California Court TV upon seeing the black gloves ;)
Excelllent work, although I was starting to experience a sense of 'dread' as the motors were mounted (4) and a honking battery. What is weight of that thing? Would one motor with wires to the actuatorls on one side and battery to balance it out on the opposite side work?
I think you mean the servos? in this case i even have 8 of them ;-), they weigh about 9 gram each without leads, the electric ducted fan is able to pull 2.5 kg so the weight of the servos shouldn't be any problem. The battery of course is just for testing purposes so that i don't have to charge it that often while I'm testing out the bottom part of the rocket. I'll be using a 6s 1000mah battery in the first test flight. You want to use 1 servo for all the actuators?
OMG the jitter on that servos are pretty wild specially in the landing legs at the begging of the video, I don't know if it's the type pf servos or maybe your 5V rail needs some more caps, some ceramic ones for HF noise and also bundling all the signal wires together without any shielding or filtering it's a no no, I mean it works and it's a pretty nice designs but it's lacking smoothness.
The jitter you see is because i programmes the legs to come down slower than full speed and because the weight of the landing legs itself. When they are at full speed they are as smooth as butter. I’m using a non shielded network kabel at the moment but I should’ve had used a shielded one.
Thank you! And yes, lars christensen has some great tutorials for fusion 360. Very informative and easy to follow. You can find them here: ruclips.net/user/cadcamstuff
You should collaborate with the hacker Glytch, who is making a search and rescue drone that's fired out of a grenade launcher. Combine these two mechanisms, you have a high efficiency long range transport system for small payloads.
This has got to be one of the coolest things I’ve seen
Yep
The Nano is one snappy micro. Makes dev very fast and easy.
I wish I found this in 2 years so I would not have to wait for the uploads
This is really cool
When is the next part to this?
Haha thanks, I'm trying to get it out next week.
We don't know where we will be tomorrow^^
@@BrianBrocken How is everything going? Really looking forward to part 2!
@Lenard Born I managed to tune the PID values of the rocket the past week. I had to make some sort of a gyro/rig to hold the rocket in it's centre of gravity while still being able to have 2 degrees of freedom. So the past few days i managed to get it into a stable hover. Yesterday i made a launch platform and i'm planning to perform it's first maiden flight outside this evening when the wind starts to settle down.
Wow, that's sick! Impatiently waiting for part 2! Will you be able to control it from your smartphone?
Haha thanks man, no it will be controlled with a Spektrum DX6 RC transmitter.
Elon Musk ????????
@@niggy. It's not Elon. It's his evul twin brother he doesn't have.
@@niggy. Elon musk chan is that you senpai?* (Corrections powered by autotech. To learn more about us, go to ruclips.net/video/dQw4w9WgXcQ/видео.html .)
Eeeeeelllloooooonnnnn you da bomb
That Ethernet trick is pretty cool.
I might be wrong but it looks like your jet vanes lack a bit of chamfer. The vanes controlling pitch seem to get in the way if the vanes controlling yaw, impeding both axes from being controlled at the same time (or at least limiting their control authority). Awesome project btw, keep it up!! 👍
Yes i noticed this too, it looked good on paper tho ;-) We'll see how it goes and if it doesn't work out i'll print another set. Already did a quick hover test without the flight computer attached, just spun up the motor, and it just stayed in place with no control input, so i guess (hope) i don't need a lot of throw on the vanes for basic controll of movement.
@@BrianBrocken Hahah I know the feeling 😉 Love it to finally see some cool engineering projects in Belgium, goe bezig!
hahaha zal wel zijn, merci Evert 😁👍
I want to understand what you said , can you explain ?
Without hesitation i have subscribed to your channel just after seconds of your video
woow looks great, waiting for part 2
you are one crazy genius dude.....awesome. Everything starts with an idea.
Captain Hindsight: You should have made a power distribution board to reduce those wire runs.
lol, Amazing work! Great production
Keep it up bud.. you will working at NASA before u know it..
He deserves too be.
Great content! I'm excited to see how you will work on the challenge of flying / landing the rocket.
That's very cool. Great mechanism.
This is the first video of yours that I've seen and now I'm subscribed. Very interested in your work. ✌🏼👍🏼
Haha thanks for the sub Michael, this really helps ;-)
Subscribed and liked. Can't wait for part 2.
Very nice project! Waiting for part 2
Great work Brian, keep going on !
Wow great video!
I love all the great works you put into the project.
hey man , plz put the second part.......... Can't wait for it .
Love that unsafe puffed lipo@ 5:18!!
oops haha already forgot that one made it in the video haha I only use this one to power electronics and experimental setups that might blow up ;-p
i really like your work , good job bro❤
Good job. I waiting for part 2and love from India 🇮🇳
Ongelooflijk wat je doet door ook mijn hobbies samen te brengen: RC, 3D printing en electronica. Ik kan niet wachten tot deel 2. Geabonneerd met heel veel interesse vanuit België.
Bedankt Thomas 😁👍
Great talent 👌👍 super excited about next stage
Love the project; you did a great job! I was wondering if you'd consider adding your own twist to it by using two servos instead of four--using one servo to deploy a leg and its opposing leg. Or even using a single servo, via a worm gear, to deploy all legs at once. Since scaling down motors is impractical, I figured you could reduce your weight by using some different mechanics for similar results!
I agree with this idea and maybe add in a barometer with a bottom optical flow or if you're feeling froggy a 4K optical sensor lol Or something for when it gets close to a certain height off the ground it will automatically deploy them in unison and to mitigate failure upon return landing.
This is sick...cant wait for part 2.......
Subscribed! Can’t wait to see that thrust vectoring
Your work is an amazing man! You fly on mode two thoughhhhhhhhhhhh. ARGHHHHHHHHH. I feel inspired to make my own! Let's see if fully manual control wont end in tragedy!
So beautifully build🌟🌟
Fantastic work man. Not sure what you are planning for it (obviously not flights) but how about a ducted fan in front, and pump in some thick smoke, then you can show the flow control visually after the vanes.
Probably add a laminar flow generator between the fan and the duct first.
Ah, okay I see in the description you will use the edf to do flights. Awesome stuff
Yes i do intend to get it airborne 😉👍
I’m going to use a 6s 80mm fan for it which has about 2.5kg of max thrust. The weight of the 3D printed parts is currently well below this.
Very good sir ! Waiting for next episodes ! :)
Can't wait to see the rocket flies!
Although the project is very cool i dont think is intended to flight. Forgive if i'm wrong, first view on this channel
@R dM yes it is 😜 ruclips.net/video/41UrzTPhG0g/видео.html
@@BrianBrocken wow congrats then
Look forward for your next part 2 video :D
That is so cool. At the end of the series would you be able to do a video run down of what you needed to build the whole thing?
Thanks.
I’m going to post all the parts, schematics, code,... on hackaday once the project is finished.
Bro this video is an inspiration for me. I always love to do hands-on projects. And this is the thing of my taste haha! Can I ask you tho, what did you study to be able to work on such an interesting project? Btw great work man, seriously! I'm impressed. You gained a sub aswell ;)
Thanks for the sub man, appreciated. I studied Electromechanical engineering with specialisation in automation, but really almost all the things you see in the video they don't learn you at school. You can learn this yourself by watching a lot of RUclips tutorials and google is your friend ;-)
Dude, nice freaking job man!
This looks super cool!
You should call it art, and it's gonna value a lot in few years.
Really cool mechanism ... keep going buddy! ;)
That's amazing 👍
Mooi gedaan Brian 👍👍
Haha bedankt 😁👍
@@BrianBrocken je maakt echt wel toffe video's 👍
Leuk dat je ook een Belgische RUclipsr bent 😁
haha bwa ja "youtuber" zet er af en toe een video op ;-p, heb gezien dat je ook wel een interessant kanaal hebt ivm mechanical engineering en electronica, met bijhorende voice over. Ben al een tijdje aan het twijfelen om ook met een voice over te beginnen ;-). PS: heb me ook even op je kanaal geabonneerd, 1000 abonnees ga je zeker halen. veel succes!
@@BrianBrocken voice over werkt idd wel goed.
Enorm bedankt dat je geabonneerd bent! 👍👍😁
RUclips is mijn hobby maar ik wil toch wel die 1000 abonnees aantikken en mss dan de doorbraak maken...
En hopelijk heb jij tegen dan ook wel 10.000 abonnees 😉
Nice job! That's impressive.
Really inspired. Hats off!
Thank you! This vid is what I need!
Çok başarılı ve basit bir model olmuş. Çok hoş olmuş. İzlediğim videolardan 2 şeyi fark ettim. Ağırlık dengesi üst kısımda toplanmış gibiydi. Birde denge için aletin içine dönen bir teker jireskop etkisi eklersen dengeli olur gibi geldi.
That is so awesome!!
Looking forward to do the same projects than you!!
Such neat work 👏
This was so an awesome video cant wait to see if it flies!
Bps space has joined the chat.
Thanks so much for uploading. I had the opporunity to witness a rocket launch in 2018. Amazing experience. I uploaded a pretty cool video of the experience to my channel.
Oh man I wished I could see one in real life to, you lucky guy 😜👍
Well made, but I like to mention: To much weight for the wires and all the stuff. A EDF is not so powerfull. So lowering the weight of all this "copper" stuff may be a good idea, Some times ago I made some experiments with EDFs and many of them did't have enough power to lift themselfs and a battery in a VTOL situation. My goal was > 3 Minutes of flight time. I didn't found a motor which could deliver this. I hope you will have a success. (Then I will buy such a motor :-) )
i have to agree with that, but, still a awesome random projetct.
Eliminate one leg. You don't need four. Three is enough. Structurally, triangle is stronger and more stable than other forms.
Good luck.
Flight time is only about 1 min, but still better than i anticipated: ruclips.net/video/41UrzTPhG0g/видео.html
Very nice engineering. Just heat those connecting pins a bit more before flowing the solder in, the solder filler it supposed to flow smoothly into the metal of the pin.
Waiting for part two!!
Brilliant work mate. Just wondering how many hours you put in
To many 😅
Awesome engineering!
I have a project you might really be interested in
I'm all ears.
Brian Brocken are you familiar with fpv?
Yes i am i have one racing drone and once mounted a set to my 3D printed tank.
Brian Brocken I have garage full of racing drones and have put the dji digital FPV system on everything rc planes/cars/boats! Which leads me to mention what I’m doing.. the dji system is almost perfect but I needs a WiFi module that will allow you to stream/upload videos.. also I would really like to be able to use the dji controller for my planes so I’m working on what I call the “plane plug” which will allow you to plug in servos like a regular receiver utilizing the receiver embedded in the dji air unit/caddx vista.. you really caught my attention with that chip design also I do a lot of CAD work so I was impressed by that as well! If you’d be interested in helping me make the plane plug I’d be happy to pay you or partner up.. lmk
Great video. 👍👍
That's freaking awesome!
Congratulations you got new 👍
Looks pretty nice, but I have a few recommendations (from tvc on rocket motors). First off, I would highly advise against using a nano. The nano has a very slow speed and other alternatives (mainly the teensy series, the 3.2 and 4.0 are a similar size with WAY more power under their belt and great support, but also stm based boards) would provide much-needed speed especially when working with thrust vanes. A nano is a little underpowered for the necessary control loop that is running. Secondly, you should not have the servos directly taking the impact of the landing legs. When this happens, the servos use more current to maintain their position and can easily burn the traces on your pcb or pull too much current from your regulator. Also What was the point of all of the potentiometers(?). You can easily adjust the code to move their set points instead and you would save space on your board. Looks pretty cool, I looks forward to you taking my suggestions into account and finishing the project.
Hello Andy,
1: The arduino is only being used to control the speed and position of the landing legs, No tvc.
2: the landing legs are designed in a way that they lock in place. This means that when the legs are fully extended, the forces from the landing legs are in a direct line with the shaft of the servo. So no matter how hard you push, there will be no torque exerted on the shaft of the servo.
3: The purpose of the potentiometers is to fine tune the max and min position for each individual landing leg. This can be done in software like you say but using potentiometers it's a lot faster and easier to fine tune the positions. In the case you need to change out a servo you can easilly adjust it's possitions with this instead of having to connect your nano to the computer. Personal preference.
clever stuff buddy, well done.
Great content!
Love the rubbers!
😲 that's amazing. Will it be able to take flight or is it just a model?
I hope it takes flight but i can't promise anything.
@@BrianBrocken 🤞I hope so too. Good luck.
keep it up brother
Disappointed you didn't use lego axles haha. Amazing!
lol 😂😂
Very cool! Great job!
Waiting for part 2
Wow this is a very cool project. I am trying to do something similar with an EDF and I was wondering how you plan to compensate for the gyroscopic precession. Can't wait for the future parts!
Esta excelente, es un muy buen trabajo!!! 👏👏👏🎉🎉
I am more exciting for next vedio
Awesome bro.... Waiting for next part??? ❤❤❤❤❤❤❤❤
Yeah i was hoping to get it out by next week but unfortunately i had to order some additional parts and i have to wait for them to arrive
Impressive ! Does it have a battery management system ?
hmmm so normally id be skipping a video when there is no talking but, this was good and so im subscribed for next episode
You got some talent sir. Hope you will get there. Be unique, just like Elon👍
Ongelooflijk knap gedaan!
Bedankt Kris! 😉👍
This looks sick 🤣 Maybe you could add some sort of compression spring in series with the landing leg to help absorb landing impact !
Yes I was thinking about this, but this also adds a lot of complexity to the build because everything has to fit nicely together. I now barely managed to do this but the heat wave we got here in Belgium warped some of the plastic a little bit and some legs now already struggle to close properly.
This was really cool! Do you also have plans to use a rocket engine in future versions?
I might, we'll see how it goes ;-)
Excelente.!!!
Saludos.
Nu pas ontdekt , eindelijk de openbaring van dit eperiment, grt WDP
Haha just had er geen erg in Walter. Heb het nog niet op thingiverse gezet omdat het nog niet volledig af is. Projectje ligt nu even stil omdat ik een nieuwe flight controller moest bestellen. Degene die ik ging gebruiken was een veroudert model en ondersteunde geen single copters. De nieuwe zou dat wel moeten kunnen ondersteunen. Voor de rest ziet de thrust/weight ratio er veelbelovend uit 😉👍
Great job
This is awesome
Awesome work again. If you dont mind, can you upload a schematic of how you connected the servo flaps to the pixhawk?
Bravo, great video.
Mecanismo fantástico!
Abraço 😷
That's so cool! How did you manage to 3D print the flaps?
Wow amazing keep up the good work. Btw how do you simulate these connections at the servo in fusion 360?
Thank you. I did this with the help of joints and motion links.
How'd you capture the timelapse? My best guess is that after finishing the entire project, you stepped through each command, and screen recorded that. I'm super interested in doing something similar, great content!
Absolutely BEAUTIFUL build, sir!!!
Now then, could you make it shuffle-walk? Without "knee" or "ankle" joints, animal type "walking" is not possible. But you could make it "waddle" on a flat surface - similar to a duck or the "Charlie Chaplan Walk"? Are you up for the algorithm and/or coding challange ;)
Also, did anyone else think of 1990's California Court TV upon seeing the black gloves ;)
Elon musk: Hey i have seen this. I have seen this one before.
When you love SpaceX and Lakey Inspired at the same time
Excelllent work, although I was starting to experience a sense of 'dread' as the motors were mounted (4) and a honking battery. What is weight of that thing? Would one motor with wires to the actuatorls on one side and battery to balance it out on the opposite side work?
I think you mean the servos? in this case i even have 8 of them ;-), they weigh about 9 gram each without leads, the electric ducted fan is able to pull 2.5 kg so the weight of the servos shouldn't be any problem. The battery of course is just for testing purposes so that i don't have to charge it that often while I'm testing out the bottom part of the rocket. I'll be using a 6s 1000mah battery in the first test flight. You want to use 1 servo for all the actuators?
OMG the jitter on that servos are pretty wild specially in the landing legs at the begging of the video, I don't know if it's the type pf servos or maybe your 5V rail needs some more caps, some ceramic ones for HF noise and also bundling all the signal wires together without any shielding or filtering it's a no no, I mean it works and it's a pretty nice designs but it's lacking smoothness.
The jitter you see is because i programmes the legs to come down slower than full speed and because the weight of the landing legs itself. When they are at full speed they are as smooth as butter. I’m using a non shielded network kabel at the moment but I should’ve had used a shielded one.
I was originally going to use a shielded network cable but bought the wrong one and didn’t want to go back to the store specially for another cable
Nice one!
Very nice modeling! Any Fusion 360 tutorials you recommend?
Thank you! And yes, lars christensen has some great tutorials for fusion 360. Very informative and easy to follow. You can find them here: ruclips.net/user/cadcamstuff
@@BrianBrocken Thanks a lot!
Sure man, no problem ;-)
You should collaborate with the hacker Glytch, who is making a search and rescue drone that's fired out of a grenade launcher. Combine these two mechanisms, you have a high efficiency long range transport system for small payloads.
Get the fairings on and grid fins on and then am sold! Lmao
Haha unfortunately the grid fins aren’t that effective at this scale 😅 but i might add them purely for the looks 😜
Excellent
Nice.... r u using pixhawk autopilot???
Yes I’ll be using something similar, an ardupilot APM 2.8 flight controller
@@BrianBrocken i have not seen the firmware for SpaceX, r u going to use heli or vtol or copter firmware with your ardu??
Great man !
Smart people are amazing!
And what's more amazing than that, is the smart ones that know how to take a sincere compliment. How refreshing! Thank you... 👍🏼
Do any of y’all know when part 2 comes out?! I’m so exited to see it!
Hello Noah, i had to order some additional parts and i now have to wait for them to arrive so I’m doing a smaller project in the meantime.