Jump to content

Wake Lamp: Difference between revisions

From Squirrel's Lair
Ttenbergen (talk | contribs)
Ttenbergen (talk | contribs)
No edit summary
 
(12 intermediate revisions by the same user not shown)
Line 1: Line 1:
A ceiling lamp based on a resting rowing shell from underwater.
{{Project
|shortDescription=Ceiling lamp based on what a resting rowing shell would look like from under water.
|longDescription=I reviewed videos and photos to understand what this would actually look like. Then I [[3D modelled]] the belly of a rowing shell and the blades of some oars and [[3D printed]] them. I [[Laser cut]] (or rather engraved) the shapes of the waves around the shell and the oars out of a sheet of translucent acrylic. I glued the 3d printed parts on the bottom of the acrylic sheet.
Then I built the body of the lamp, and installed RGB LEDs against a randomly reflective background out of crushed up aluminum foil. I then programmed an [[Arduino]] to create the appearance of the change of colour and flickering under water in the LEDs.
|skillSet=3D Modelling; 3D Printing; Arduino; Laser Cutting; Shape Extraction
|projectType=Personal Project
}}
* [[File:Wake Lamp.mp4|Here is a video]], but the camera actually processes against the subtle changes in lighting, so not a very good representation.  


== Size ==
[[Category:Personal Project]]
23" diameter circle-ish; that means 75.4" circumference, ie 1.9m
[[Category:Arduino]]
* also see [[#Power Supply]]
[[Category:Laser Cutting]]
 
[[Category:3D Modelling]]
== Electronics ==
[[Category:3D Printing]]
LEDs and Arduino ordered from adafruit, order 469886, justthis1please!
[[Category:Rowing]]
=== Arduino ===
* [https://www.adafruit.com/products/1315 Arduino Micro w/o headers] - $24.95
==== Arduino Size ====
0.7" x 1.9" x 0.4" (17.77mm x 49.52mm x 11.59mm)
 
=== LEDs ===
==== white ====
white colour backlight
* [https://www.adafruit.com/products/357 warm white LED strip] - $24.95
** 1.2A/m at full brightness
 
==== colour LED WS2812B ====
* 34 LEDs installed
* somewhere I have a reference of 60mA/each --> 2040mA
** well, what the hell was I thinking?
 
* datasheet: https://www.adafruit.com/datasheets/WS2811.pdf
* bought on ebay [http://www.ebay.com/itm/50Pcs-WS2812B-LED-With-Heatsink-10mm-3mm-DC5V-5050-SMD-RGB-WS2811-IC-Built-in-/281270793101?pt=US_Lighting_Parts_and_Accessories&hash=item417d0bb38d]
 
=== Power Supply ===
* need 2A for each 5V (colour), 12V (white)
* 0.5A, so 60W
* ebay [http://www.ebay.com/itm/12V-5V-AC-Adapter-Hard-Disk-Power-Supply-For-Hard-Disk-Drive-Black-T1K-/380647145774]  
* 10.7 x 4 x 3cm

Latest revision as of 19:51, 2021 October 27

Projects
Project: Wake Lamp (I)
Description: Ceiling lamp based on what a resting rowing shell would look like from under water.
Skillset(s) :

3D Modelling 3D Printing Arduino Laser Cutting Shape Extraction

Project Type(s) :

Personal Project

I reviewed videos and photos to understand what this would actually look like. Then I 3D modelled the belly of a rowing shell and the blades of some oars and 3D printed them. I Laser cut (or rather engraved) the shapes of the waves around the shell and the oars out of a sheet of translucent acrylic. I glued the 3d printed parts on the bottom of the acrylic sheet. Then I built the body of the lamp, and installed RGB LEDs against a randomly reflective background out of crushed up aluminum foil. I then programmed an Arduino to create the appearance of the change of colour and flickering under water in the LEDs.



  • Cargo


  • Categories


  • Default form


  • File:Wake Lamp.mp4, but the camera actually processes against the subtle changes in lighting, so not a very good representation.