Making a LEGO Walkie Talkie Live Stream Controller (Bluetooth) | I Like To Make Stuff
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We made a life-size Lego walkie-talkie controller for our Twitch Stream! Sponsored by Skillshare. The first 500 people to click skl.sh/iliketomakestuff3 will get their first 2 months free!
TOOLS & SUPPLIES USED IN THE VIDEO (affiliate links)
kit.co/iliketomakestuff/lego-w...
kit.co/iliketomakestuff/my-woo...
kit.co/iliketomakestuff/shop-s...
CODE RESOURCES
Adafruit: learn.adafruit.com/bluefruit-n...
Github: github.com/iliketomakestuff/Le...
MUSIC: share.epidemicsound.com/iltms
Because I wanted this life-size prop to match the dimensions of the original tiny toy, Josh made a 3d model of the LEGO piece and scaled it. You can also do this on paper by mathematically calculating the ratios and drawing out the shape. He measured the walkie talkie with some calipers and scaled the model to fit an adult hand.
Now that the shape of the full-sized toy was made, he used a plug-in for Fusion 360 made by Shaper to get a 2-d image of the faces. We printed out those templates on sticker paper and placed them on our material.
I know, I know, you made be asking, "why did you use a 3d model to make a paper template to cut things out by hand?" And the easiest answer to that is, because not everyone has access to 3d printers or CNC machines, and honestly, I think it is faster to cut the layers out of thinner wood. The model was scaled so that we could make this toy out of 3 layers of 1/4" MDF. I cut the blocky shapes with the bandsaw, but a jigsaw would work just fine.
The antenna was made from 3/4" scrap wood turned on the lathe to match the toy's profile. This could have also been done in the same sandwiching method as the rest of the body and rounded-over with a router bit. The larger LEGO studs were cut from 3/4" MDF using the drill press. I clamped the board down to the drill press table and first hogged out the middle with a 1-1/4" forstner bit. The outsides were cut using a 2-1/8" hole saw. All of these pieces were simply CA glued together and the face snapped on with some small, but strong, magnets.
To make the toy buttons actually work, I planned on adding some small microswitches inside the walkie talkie. To press them, I planned on using some squishy EVA foam that looked like the actual buttons. I punched out the circular buttons with a metal piece of scrap pipe, pressed into the foam. I simply cut a rectangular piece of foam for the larger paddle button.
In order to make this prop remotely control a Twitch stream, I had to add some electronics with Bluetooth capability. I used the Adafruit Feather microcontroller to act as a simulated keyboard that would send key commands wirelessly to the computer running our Twitch setup. There is a really simple code setup on our Github page if you are interested in recreating this on your own. Also
I soldered three separate small, tactile buttons onto the board as inputs and connected a small LiPo battery to power the whole thing. Using hot glue, I mounted the board, battery, and buttons inside of the painted Walkie Talkie and snapped the lip closed. I hot glued on the foam buttons and the Bluetooth life-sized LEGO Walkie Talkie Twitch stream controller was ready to test.
The basic concept for this controller is quite simple. I used a piece of software called OBS to capture video feeds from separate cameras set up in my shop. This software allows you to switch from camera to camera by using hotkeys. I can assign a random keyboard button to control individual cameras. So, if I were to press the letter A, then I can make a camera in the metal-working area the live image. This LEGO Walkie Talkie and its three buttons will send those keyboard commands to OBS instead of pressing the buttons on my keyboard.
During our weekly live shop build on Twitch, I assigned the hotkey commands to the three LEGO buttons and it almost worked. The small tactile buttons I soldered to the board weren't responding consistently, so I swapped them out with some larger microswitches. These new input switches worked much better and the toy remote was super responsive and switched the cameras around perfectly!
Subscribe: bit.ly/ILikeToMakestuffSubscri...
Check out my TopVideos!: bit.ly/ILikeToMakeStuffTopVide...
Learn 3d modeling, get digital plans, and cool merch at
iliketomakestuff.com
Want to support ILTMS? Get exclusive content and more...
iliketomakestuff.com/patreon
FOLLOW:
instagram.com/iliketomakestuff
twitter.com/iliketomakestuff
facebook.com/iltms
About I Like To Make Stuff:
We have lots of projects including woodworking, metalworking, electronics, 3D printing, prop making and more!
These videos are our attempt inspire and empower others to make the stuff that they want to have. Hopefully you'll see something here that will inspire you to make something that you're passionate about!
TOOLS & SUPPLIES USED IN THE VIDEO (affiliate links)
kit.co/iliketomakestuff/lego-w...
kit.co/iliketomakestuff/my-woo...
kit.co/iliketomakestuff/shop-s...
CODE RESOURCES
Adafruit: learn.adafruit.com/bluefruit-n...
Github: github.com/iliketomakestuff/Le...
MUSIC: share.epidemicsound.com/iltms
Because I wanted this life-size prop to match the dimensions of the original tiny toy, Josh made a 3d model of the LEGO piece and scaled it. You can also do this on paper by mathematically calculating the ratios and drawing out the shape. He measured the walkie talkie with some calipers and scaled the model to fit an adult hand.
Now that the shape of the full-sized toy was made, he used a plug-in for Fusion 360 made by Shaper to get a 2-d image of the faces. We printed out those templates on sticker paper and placed them on our material.
I know, I know, you made be asking, "why did you use a 3d model to make a paper template to cut things out by hand?" And the easiest answer to that is, because not everyone has access to 3d printers or CNC machines, and honestly, I think it is faster to cut the layers out of thinner wood. The model was scaled so that we could make this toy out of 3 layers of 1/4" MDF. I cut the blocky shapes with the bandsaw, but a jigsaw would work just fine.
The antenna was made from 3/4" scrap wood turned on the lathe to match the toy's profile. This could have also been done in the same sandwiching method as the rest of the body and rounded-over with a router bit. The larger LEGO studs were cut from 3/4" MDF using the drill press. I clamped the board down to the drill press table and first hogged out the middle with a 1-1/4" forstner bit. The outsides were cut using a 2-1/8" hole saw. All of these pieces were simply CA glued together and the face snapped on with some small, but strong, magnets.
To make the toy buttons actually work, I planned on adding some small microswitches inside the walkie talkie. To press them, I planned on using some squishy EVA foam that looked like the actual buttons. I punched out the circular buttons with a metal piece of scrap pipe, pressed into the foam. I simply cut a rectangular piece of foam for the larger paddle button.
In order to make this prop remotely control a Twitch stream, I had to add some electronics with Bluetooth capability. I used the Adafruit Feather microcontroller to act as a simulated keyboard that would send key commands wirelessly to the computer running our Twitch setup. There is a really simple code setup on our Github page if you are interested in recreating this on your own. Also
I soldered three separate small, tactile buttons onto the board as inputs and connected a small LiPo battery to power the whole thing. Using hot glue, I mounted the board, battery, and buttons inside of the painted Walkie Talkie and snapped the lip closed. I hot glued on the foam buttons and the Bluetooth life-sized LEGO Walkie Talkie Twitch stream controller was ready to test.
The basic concept for this controller is quite simple. I used a piece of software called OBS to capture video feeds from separate cameras set up in my shop. This software allows you to switch from camera to camera by using hotkeys. I can assign a random keyboard button to control individual cameras. So, if I were to press the letter A, then I can make a camera in the metal-working area the live image. This LEGO Walkie Talkie and its three buttons will send those keyboard commands to OBS instead of pressing the buttons on my keyboard.
During our weekly live shop build on Twitch, I assigned the hotkey commands to the three LEGO buttons and it almost worked. The small tactile buttons I soldered to the board weren't responding consistently, so I swapped them out with some larger microswitches. These new input switches worked much better and the toy remote was super responsive and switched the cameras around perfectly!
Subscribe: bit.ly/ILikeToMakestuffSubscri...
Check out my TopVideos!: bit.ly/ILikeToMakeStuffTopVide...
Learn 3d modeling, get digital plans, and cool merch at
iliketomakestuff.com
Want to support ILTMS? Get exclusive content and more...
iliketomakestuff.com/patreon
FOLLOW:
instagram.com/iliketomakestuff
twitter.com/iliketomakestuff
facebook.com/iltms
About I Like To Make Stuff:
We have lots of projects including woodworking, metalworking, electronics, 3D printing, prop making and more!
These videos are our attempt inspire and empower others to make the stuff that they want to have. Hopefully you'll see something here that will inspire you to make something that you're passionate about!
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