Tag Archives: Lulzbot Taz6

LED Bridge Lamp Summary

As an engineer I love all things that are shiny and blinky. Like many other engineers I am a cubicle dweller. I wanted to create something in my cube that would brighten up my workspace and make me smile whenever I’m working there. What follows is a series of posts that will guide you through how I designed and built my version of the LED Bridge Lamp which is based off of the LED Bridge Lamp (Universal Segment) by my friend Janis (Opossums) Jakaitis on Thingiverse here. It was a great looking project and would be the perfect addition to any cubicle in need of some blinky.

Side view of my LED Bridge Lamp running a rainbow animation.
Side view of my LED Bridge Lamp running a rainbow animation.

High Level Summary of Changes:

  • Universal Segment Bridge Lamp with 2 horizontal (straight) sections
  • Custom mini light up billboard at the top of the bridge
  • Custom light shades with enclosed channels
  • Custom designed bases with integrated 90lb magnets and adjustable heights for uneven surfaces
  • Custom wifi enabled electronics to control the display
  • Custom power supply with enclosure
  • Each LED strip (2 in the bridge and 1 in the sign) an be controlled independently

 

LED Bridge Lamp Animations Video on Vimeo

LED Bridge Lamp Animations Video on YouTube

3D Models

You can find the 3D models I used to build this project on Thingiverse here. They are free to download, use and modify.

How long did this take to build?

  • Base Height Spacer Tall (Qty 1) 6:40 min (PLA)
  • Base Height Spacer (Qty 1) 2:07 min (PLA)
  • Base Side (Qty 2) 4:15 min each (PLA)
  • Base Side With Power Outlet (Qty 2) 4:15 min each (PLA)
  • Base Center (Qty 2) 5:09 min each (PLA)
  • Base Plate Mama with Cable Hole (Qty 2) 49 min each (PLA)
  • Base Cap Plate (Qty 2) 1:12 min each (PLA)
  • Clips (Qty 3) 10 min each (PLA)
  • Base Height Extension (Qty 2) 3:07 min each (PLA)
  • Electronics Tray (Qty 2) 4:06min (PLA)
  • Magnet Space Filler Block (Qty 2) 1:06 min each (PLA)
  • Sign Holder (Qty 1) 54 min (PLA)
  • LED Light Channel Segment A (Qty 14) 1:33 min each (nGen)
  • LED Light Channel Segment A with Wire Cutout (Qty 2) 1:32 min each (nGen)
  • LED Light Channel Segment B (Qty 16) 1:33 min each (nGen)
  • Straight LED Light Channel with Cover  (Qty 2) 2:47 min each (nGen)
  • Universal Segment Curved Superstructure Set (Qty 16) 2:42 min each (PLA)
  • Universal Segment Straight Superstructure Set (Qty 2) 2:25 min each (PLA) — light channel from set deleted for this print

Total Number of Pieces: 74
Total Print Time: 145 hours!

Estimated 3D Modeling/Design Time: 50 hrs 
Estimated Assembly Time: 12 hrs
Estimated Coding Time: 4 hrs
Estimated Testing Time: 12 hrs

Total Time:  223 hours 

NOTE: The above does not include printing another 25 segments of straight superstructure and light shades, misprints, having 8 segments of assembled PLA superstructure melt by being too close to a radiator, test prints and re-prints. I estimate that I have something around 300 hours into this project.

Build Details (This section will be updated as I publish more related posts):

Take care,
-Bill
@TinWhiskerzblog

For additional posts related to this project check out this the ‘LED Bridge Lamp’ tag. I’ll be adding more posts giving details on how I built my version of the LED Bridge Lamp.

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LED Bridge Lamp Superstructure

The superstructure of the LED Bridge Lamp is one of its most prominent features. I printed mine using Polymaker Polylite Translucent Blue filament.

I started off by printing the standard set of flat printing models from Janis’ universal segment version of the lamp here. I also printed a set of the aligner/clamping rings that aid in assembly.

Printing a single set of the original bridge superstructure along with the aligners/clamps
Printing a single set of the original bridge superstructure along with the aligners/clamps

When I started working on this project it was the middle of winter and I think a combination of room temp and small surface areas caused some issues with pieces warping and even popping off the heated bed plate.

Printing two straight sections of bridge superstructure
Printing two straight sections of bridge superstructure

To remedy this I started printing the superstructure sections with a brim. Around this time I also started to eliminate the printing of the original shade. In Cura I broke the model (which was a group of pieces) into its pieces and would delete the shade. This also allowed me to fit a few more pieces on the build plate. I decided to make my own lamp shade/diffuser which I will cover in another post.

Printing two sets of bridge superstructure with a brim and without the shade
Printing two sets of bridge superstructure with a brim and without the shade

I would clean up the prints with an X-acto knife and square mill file. Each section didn’t need much cleanup. Most of the work was spent testing the tabs on each section and making sure it fit securely onto another section. The focus usually was making sure the corners were flat and that the tabs squarely locked over the end of the next section by filing the underside of the tab. Next I would dry fit the pieces in the assembly rings.

Once dry fit I would slide the top of the superstructure out a bit, apply a drop or two of LocTite 401 to the assembly tabs and slide the piece back into place. I would then remove the lampshade, run a bead of glue down the retaining lip on each side the superstructure and then slide the shade back in so the glue could set. After a minute or so the alignment rings could be removed and you can move on to the next section. By the time the next piece was filed and ready the last one was dry so I only needed one set of the rings.

Completed bridge section drying in the clamps
Completed bridge section drying in the clamps

Below you can see me testing a dry fitted piece against a completed straight section of bridge.

Testing to make sure each section fits well into the next
Testing to make sure each section fits well into the next

The above sample pieces have a translucent blue light shade from the original model, but as you’ll see in the upcoming post on the shades I went with an remix that I think you may also like.

Accumulating bridge sections to assemble
Accumulating bridge sections to assemble

As things got up and running I had a little production line going — churning out bridge sections and and assembling as I could find the time.

I wanted to get a feel for how big the lamp would be, beyond the calculated dimensions so I assembled 2/3 of an arc — just the assembled bridge sections without the shades.

Test assembly of the bridge superstructure sections
Test assembly of the bridge superstructure
sections

It was fun to see the project coming together. The above assembly I put to the side in the spare bedroom where I have my 3D printer etc. It was near a window and a baseboard radiator. Given that the PLA is extruded at 210C and at most my sealed baseboard radiator is putting out 100C I wasn’t worried about melting. After a few weeks I thought one of my young kids got to it, but as it turned out the PLA was softened by the sun and/or radiator and 9 assembled sections of the bridge lamp were warped/bent beyond what I was willing to accept so that was a big set back. After another 40 hours or so of printing I eventually replaced all those pieces and was careful to keep the lamp sections away from even that modest source of heat.

I started to stockpile the assembled bridge superstructure sections as I worked on the shades which will be covered in another post.

You can navigate back to the Enhanced LED Bridge Lamp Summary here. 

Take care,
-Bill Rainford
@TinWhiskerzBlog
@TheRainford

My Favorite Print Removal Tool

Removing a print from the bed of your 3D printer can sometimes be a harrowing experience. You wait for hours for the print to complete, maybe even dealing with a few failed attempts and then go on to break or mangle your print trying to get it off the printer bed.

My Lulzbot TAZ6 came with a nice little kit of tools but the print removal tool was basically a clam knife with a thick handle like a steak knife. I tried using that tool to remove my first print and it made the only gash I have in my PEI print bed. I then went on to buy a dedicated print removal spatula for about $8 on amazon. It was incrementally better — looks like a long frosting knife and was a little bit flexible, but was still thicker than I wanted and took some work to get a print off the bed. After looking at that tool I thought about some real nice palette knives I have in my woodworking tool kit that are flexible and machined down to the point that they are almost sharp.

Woodworking Palette Knife
Woodworking Palette Knife

I dashed out to the shop and grabbed one — the shape I least liked and least used for my woodworking was by far the best I’ve ever used for 3D print removals. (See photo above) That sharp corner and VERY thin edge is great for getting up under a print and quickly removing it.

Popping off another print.
Popping off another print.

Since I switched to using this tool with my printer I have not lost a single print due to issues getting if off of the bed. The knife tapers down to 0.008″ (twice the thickness of a human hair) at its thinnest and is about 1/16″ near the tang. This profile with a point off to one side (far right in photo below), along with the ability to easily flex the knife allows the user to easily pop printed items off of the bed. All I do is get the corner under the print and make a quick sweeping motion and the print comes right off the plate.

Palette Knife Kit From Lee Valley
Palette Knife Kit From Lee Valley

If you’d like to get a set of these useful palette knives you can find them at Lee Valley here. The set only costs $11.50 USD and should last a very long time. I also use them a lot for applying wood glue to my woodworking projects.

If you give them a try or have your own tips for consistently getting a print off the printer bed, please leave a note in the comments section below.

Take care,
-Bill
@TinWhiskerzBlog

Who you gonna call?

I grew up during the first wave of Ghostbusters movies and loved the franchise ever since. I had all the toys as a kid. Back then it was a lot harder to make your own custom toys. My first few weeks with my own 3D printer has been the usual stage of ‘print everything I can’ — trying to get as many things off of my long Thingiverse ‘Like’ list as I can.

Personally, I liked the university. They gave us money and facilities, we didn’t have to produce anything! You’ve never been out of college! You don’t know what it’s like out there! I’ve *worked* in the private sector. They expect *results*. — Ray Stanz (Ghostbusters 1984)

The week the new Ghostbusters movie came out in July, I printed out a version of the new Ecto-1 hood ornament in nGen silver metallic filament. It made a great hood ornament for the truck as we went to go see the movie at the drive-in.

 

This week with some red and white filament in hand I printed out the classic Ghostbusters logo — one for my maker workbench at home and one for my office at work. It’s not bad enough to print 1 of everything, lately I seem to be printing lots of stuff in duplicate.

“[as a ghost leaves on the subway] I guess he’s going to Queens – he’s going to be the third scariest thing on that train.” — Patty Tolan (Ghostbusters 2016)

If you want to print either of these models for yourself I posted my settings and tips up on Thingiverse here (for Ecto-1 Hood ornament) and here (for Ghostbusters Logo)

Take care,
-Bill
@TinWhiskerzBlog
@TheRainford

Maker Faire Robots

Got some new filament today and beyond my normal favorite test print of the herringbone gear bearing I printed off a few Maker Faire Robots. It was a fun little print and I like how they look in nGen Yellow filament.

Print Details:
Printed on a Lulzbot Taz 6, Standard Resolution, 20% infill. The robot with his arms down came with support material that was removed during the print cleanup.

Model Location:
From Thingiverse here.

Maker Faire Robots
Maker Faire Robots — Yeah!

If you’d like to see more of the fun random things I print out (And yes others are more interesting than the ubiquitous model below I promise) please check out my Thingiverse profile here.

Take care,
-Bill