I made a Kirby Diorama!
Summary
TLDRIn this video, the creator embarks on a DIY adventure to craft a charming diorama featuring Kirby riding a star through clouds. Using a 9-volt battery, copper PCB, LEDs, and a 3D-printed star, the project is brought to life with glowing effects. The tutorial covers designing a battery compartment, setting up an electric circuit, soldering LEDs, and assembling the scene. The creator also shares a 3D-printed star and LED filament techniques, culminating in a delightful, glowing miniature that's both colorful and fun.
Takeaways
- 🎮 The video is about creating a diorama featuring Kirby from a video game, riding a star through clouds.
- 🔩 The creator uses a 9-volt battery, copper PCB, and LEDs to light up the star.
- 🌟 A 3D printed, smaller version of Kirby is used to fit the diorama, with clear orange resin to allow internal lighting.
- 🔌 The battery compartment is designed to be changeable, despite space constraints.
- 🛠️ Soldering is used to connect the LEDs in parallel to the copper PCB, and to create a plug for the power supply.
- 🔵 The LEDs are connected in such a way that they each receive the full 9-volt power supply.
- 🧵 Wireframes are used to position Kirby and the LEDs, with the LEDs being attached using double-sided tape.
- 💡 LED filaments are used to create a glowing effect, and are connected in series to the power supply.
- 🌌 Stars are 3D printed with clear orange resin to match the LEDs and complete the scene.
- 🖌️ The diorama is painted with layers of color, and the eyes of Kirby are painted last to bring the miniature to life.
- 🙏 The video creator thanks patrons for their support and hints at another upcoming video.
Q & A
What is the main objective of the project described in the script?
-The project involves crafting a diorama featuring Kirby riding a star through glowing clouds, incorporating LED lights and various electronic components for visual effects.
What materials are used in the project?
-Materials include a 9-volt battery, copper PCB, 5mm and 3mm orange LEDs, LED filament, a 3D-printed Kirby figure made of clear orange resin, shrinking tubes, double-sided tape, sturdy wire, hot glue, and clear orange resin for stars.
Why was a smaller 3D-printed Kirby figure used instead of a plushie?
-A smaller 3D-printed Kirby figure was used because it allowed the star to be lit up from below, creating a glowing effect.
What challenge was encountered with the battery, and how was it solved?
-The 9-volt battery was too large to fit into the display, so a custom-designed bottom part was 3D-printed with black PLA to hold the battery and cables, making it easier to change the battery when needed.
How is the electrical circuit for the LEDs set up?
-The power supply is connected to a plug, with the power switch attached to the negative terminal of the battery. LEDs are soldered onto the copper PCB in parallel to receive the same 9-volt power supply.
Why were shrinking tubes used in the project?
-Shrinking tubes were used to insulate the soldered connections, providing a clean and secure way to protect the wires and prevent accidental electrical contact.
How are the LED filaments powered?
-The LED filaments require a 3-volt power supply, but instead of using a separate power source, the filaments are connected in series to share the 9-volt power supply, effectively dividing the voltage among them.
What issue occurred with the light being visible from beneath Kirby, and how was it resolved?
-The light from beneath Kirby was still visible after the initial paint job, so the creator repainted the figure with black paint to block the light and achieve a better effect.
What finishing touches were applied to the project?
-The project was finished by painting the Kirby figure in multiple layers, adding colors like purple, pink, and red, and detailing the eyes to bring the miniature to life. Additionally, 3D-printed stars were incorporated with LEDs for extra decoration.
What tools and techniques were used to assemble and secure the components?
-The project involved soldering, using shrinking tubes for insulation, applying hot glue to secure the wireframe and LEDs, and using double-sided tape to attach the PCB to the diorama.
Outlines
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