Batman-style Portable Torch #phablabs

by PHABLABS in Workshop > Science

575 Views, 7 Favorites, 0 Comments

Batman-style Portable Torch #phablabs

fablab28112018_047.jpg
fablab28112018_070.jpg
batman.jpg
batman2.jpg

Build a torch that projects your personalized design!

Build a torch and personalize it with a stencil designed by you. Construct the electrical circuit and build it into a 3D-printed case. In this workshop, you will learn about lenses and how these help projecting images, and how to build a torch from scratch, including electrical circuits and installing LEDs.

Properties of this workshop:

Timeplanning: Total: 1,5h (3D printing upfront)

1. Introduction lenses: 10 minutes
2. Soldering electronics: 30 minutes
3. Assembling torch: 10 minutes
4. Drawing design for vinyl + vinylcutting: 20 minutes
5. Playing: 20 minutes

Target audience: Young minds (10-14 years old)

Estimated cost: € 28

DISCLAIMER: By using this information you agree to be legally bound by these terms, which shall take effect immediately on your first use of the information. PHABLABS 4.0 consortium and its member organizations give no warranty that the provided information is accurate, up-to-date or complete. You are responsible for independently verifying the information. VUB cannot be held liable for any loss or damage that may arise directly or indirectly from the use of or reliance on the information and/or products provided. PHABLABS 4.0 consortium and its member organizations disclaim all responsibility to the maximum extent possible under applicable laws: All express or implied warranties in relation to the information and your use of it are excluded. All liability, including for negligence, to you arising directly or indirectly in connection with the information or from your use of it is excluded. This instruction is published under the Creative Commons licence CC-BY-NC.

Convex Lenses & Focal Lengths

explanation.png
convex lens.jpg
focal length.jpg

You will learn to build a torch that will incorporate a personalized add-on and a lens so that its shines like the batman light. Photo 1

The principle behind this Batman portable torch is based on the technology of convex lenses and focal lengths.

You will learn 3 main things:

1) Photonics: use, types and printing of lenses

2) Electronics: basic circuit design and creation

3) Core tools in a makerspace: 3D printing and milling machines

Convex Lenses & Focal Lengths

Lenses are everywhere. Take a look around and see how many people you can spot wearing spectacles. Think about how many you can’t spot wearing contact lenses. So what makes a lens?

A lens is a piece of glass or firm transparent material that curves in such a way that it redirects light. There are two main types of lenses: convex and concave.

Photo 2: Light rays through a Convex lens.

Convex lenses are thicker in the middle than at the ends.
Take a look at photo 2. Here, three rays of light are shining through a convex lens. When they enter, they’re all shining straight ahead. As they pass through the lens, however, refraction causes the rays on the ends to bend inwards, towards the lens. This is because the glass of the lens is denser than the air around it.

A convex lens is also called a converging lens because it makes parallel light rays passing through it bend inward and meet (converge) at a spot just beyond the lens known as the focal point. The distance from the centre of the lens to the focal point is called the focal length. Photo 3 shows how the focal length is measured.

Not every convex lens has the same focal length, though. Thinner convex lenses have longer focal lengths. This is because the thicker the lens is, the more it bends the light, so the closer the focal point is to the lens!

Convex lenses are used in things like telescopes and binoculars to bring distant light rays to a focus in your eyes.

Part List

parts.jpg
ICFO_YM_1b_3W_powerled (Large).jpg
ICFO_YM_2a_pcbFR4 single sided (Large).jpg
ICFO_YM_5b_battery snap (Large).jpg
ICFO_YM_3b_toggle switch (Large).jpg
ICFO_YM_4b_resistor (Large).jpg
ICFO_YM_6_9V battery (Large).jpg
vinyl.png

Photonics parts:

*1 3W LED
(optional when no 3D printer for transparent material is missing: acrylic lens OM7a, Focal length: +170.0 mm)

Other parts:

*PCB FR-4 Single Sided
*Battery snap
*Toggle switch
*Resistor (311-1.00KRFCT-ND)
*9V battery
*Vinyl

Tools (for example in Fab Labs):

*3D printer
*(optional: 3D printer for transparent material)
*Milling machine
*Soldering iron
*Vinyl cutter

Don't find the material you are looking for? Via this link you could buy all the photonics material needed for this workshop. http://b-photonics.eu/photonics-toolkit/general-p...

Download all the software, parts and find information here. An index list of suppliers and components:

-Thor Labs

-Form Labs 2

-Preform

-Onshape

-Rep Rap BCN

-Cura

-Inkscape

-Fab Modules

-Roland MonoFab SRM - 20

-V panel

-Roland Vinyl Cutter

Making the Lens

PHABLABS 4.0 Batman Portable Torch _ starting 3D lense
thorlabs.jpg
onshape.jpg
stl.jpg
stl2.jpg
stl3.jpg
printer.jpg

This step can be skipped if no 3D printer for transparant material is availbale. Then you can use an acrylic lens OM7a.

Download the lens

The lens of the light torch is the main active component. We are using a Form Labs 2 resin based printer to do the prints with clear resin but first we need a file to print. Luckily the Thor Labs web- site offers lenses in a variety of downloadable 3d formats for free. For the Light torch we will be using a convex lens with the number LA1027. You can search the website for preview to find the downloads pages. Photo 1

You will find lots of different 3D file types for the lens which you download, these load into ‘CAD software’ but are not yet ready for a 3D printer ‘CAM software’. We have used some free software to help convert those files into a format ready for a 3D printer: Onshape is a platform that lets you design and share things in the browser online. We have already uploaded the lens to the model page here: Onshape - Light Torch. (photo 2)

You can right click on any component in the model to export it. You will need an STL (Stereoli- thography) file to load into the CAM software.

Prepare the STL print file

Next is to setup the 3D model of the lens in the ‘slicer’ software for the form labs printer. The software is called ‘Preform’ and works by slicing a model into layers that the printer can use to recreate the digital model in resin step by step. Preform is free and works on most operating systems.

After Installing Preform and connecting your computer to the printer we must load in the model and design a build platform to hold the object whilst it is being printed. (photo 3)

Once the model is loaded into the software you have varied options for adjust its orientation and prepare it to print with supports. Use the rotate, move and magic prepare buttons to help you. (photo 4)

Each object is different so this process is both art and a science. We have tried to build as much support for the lens as possible, but avoiding support points touching the faces of the lens. Also positioning the lenses longest side parallel to the build platform will reduce the number of layers needed to print and will speed up the print. (photo 5)

Printing the lens

The Form Labs 2 printer is a STL (Stereolithography) Resin based printer that works by projecting a laser onto a photoreactive layer of resin. The Resin solidifies on contact with laser, the model can then be built up in steps of layers. All of the instructions for setting up the printer and connecting it to your computer are found in the online instructions.

Tip: The Form Labs 2 printer is extremely simple to use and setup. But once you have installed everything and ready to receive the print make sure that you have left the cap of the resin open, remember also to close it after the print is finished. The print will take some hours, this is obviously faster than the months Galileo spent cutting and polishing glass to achieve a similar effect. photo 6

Once the print has finished you should extract it from the build plate in the cleanest and safest way, there are very thorough instructions on the Formlabs website. You will need to dip the print in isopropyl alcohol to clean it before being able to touch or polish it. Remember to use the protection gloves provided.

Polish the Lens

PHABLABS 4.0 _ Batman portable torch _ polishing lens

This step can be skipped if no 3D printer for transparant material is availbale. Then you can use an acrylic lens OM7a.

When the lens is dried and cured from the Resin Printer, it is important to polish the surface to a fine degree. Always it is good to go form a coarse grained abrasive to a finer grained abrasive. There are several methods and ways to do this. Here is what worked for us:

Method 1: Use a Micro drill with a leather head and buffer agent.

We used a Proxon drill with a buffing head and bugger agent as an abrasive to remove most of the tarnish on the lens. Remembering to use gloves and safety glasses. The lens can be safely positioned in a vice. Move the drill in circular motions around the lens face until it is of a uniform polish.

VIDEO: Use of Proxon with a Buffing Agent

Method 2: Use a chemical liquid buffing agent with cotton buds.

This agent should reduce the surface to an even finer finish. Use a similar circular motion around the faces of the lens with the chemical agent until they achieve a uniform polish.

Alternative lens (commercial)

If you do not have a 3D printer resin base, you can use acrylic lenses. Specifications:

Lens type: C Diameter: 35.5 mm

Focal length: +170.0 mm No 309.OM.7a

The Casing

PHABLABS 4.0_Batman Portable Torch_3D printing torch holder
case.jpg
case2.png
case3.jpg
case4.jpg
case5.jpg
case6.jpg

Download the casing

NOTE : We have designed the case components using the Free online platform called Onshape. This is a very powerful software that allows users to edit designs. If you want to make your own version of the case, or modify it, you can! If you make your own account you will be able to simply ‘Fork’ a new version from our own files. Forking is a way of creating a new version that allows everyone us track changes and collaborate to improve the design. photo 1

You can download any of the components using the same process as that for the Lens from this repository: Onshape - Light Torch. There are three components that need to be printed:
1. Casing (photo 2)
2. Casing bottom (photo 3)
3. Lens insert (photo 4)

Prepare the FDM print file

These case files can be printed using any 3D printer, we are using the Form Labs 2 to print the lenses and this will also work for the case also, however the Resin is expensive and we are using a clear resin to print the lenses. For this reason we choose to use an FDM (Fused Deposition Modeling’ printer like the Rep Rap or Ultimaker for the case.

There are different types of Slicer software or CAM software for the Rep Rap and Ultimaker 2. We use Cura for use with the FDM machines. There is a lot of instructions online for Cura and it is suggested to read that as there are are a lot of options. Again this is just as much an art as it is a science. (photo 5)

TIP: You can print the casing in a vertical position with the widest part at the top, this seems coun- ter intuitive but actually helps with delivering some of the interior parts. We find it best to use PLA filament because it is more ecologically friendly! Also using the Brim setting is sufficient to hold the object to the build plate, it also speeds up the process. Photo 6

PCB

PHABLABS 4.0_Batman portbal torch_Milling machine cutting boards
PCB.JPG
PCB.png
PCB2.png
PCB3.png
roland.jpg

Make PCB cutting files with FAB modules

We want to cut co small round pieces of circuits called PCBs (Printed Circuit Boards). These will help position and hold the LEDs in place. The two PNG files below will be used to generate the machining strategies using Fab Modules. These can be downloaded from the files attached. Photo 1

The PNG files have a page size that will allow the machine to accurately return to the same position between the two processes of first cutting the Traces and then cutting the Profiles and holes. Fab Modules is open Source CAM software designed for the Fab Academy. It allows users to generate machining strategies for lots of different processes and machines, it runs in the browser so there is no need to download it. We will be using the Roland MonoFab SRM - 20 milling machine.

You can load the files from your computer into the software and select the process in a guided steps. The image below shows the settings and tool paths of the Tracing file. We are using a tiny milling bit here and it will only need to remove 0.5 mm of material from the top of the copper PCB blank. Photo 2

Once you have finished setting up the cutting strategy and are happy that the speeds and depths are correct you should save the file. This will download it to your computer as a .rml file.

The next file to be prepared are the Profile or Outlines of the PCBs. We will use a bigger milling bit and this time will cut all the way through the blank. Select the PCB outline option. Photo 3

Photo 4 shows how that the tool paths have multiple levels. The settings show a thickness of 1.8 mm.

Mill PCBs using Roland MonoFAB

The Roland Monofab is a desktop milling machine that cuts material. It moves in much the same way as a 3D printer, but instead of adding material it subtracts it. The CAM software that controls the machine is called V panel, which will use to run the .rml files that we created in the previous step from Fab Modules. Photo 5

First is we will need to secure the Blank PCB to the bed of the monofab with double sided tape. Then by moving the Milling bit at the bottom left corner of the blank we can Zero the X and Y axis using the User coordinate system.

TIP: In the Z axis, bring the milling bit down to a few mm above the blank and then loosen the chuck to let the milling bit drop to the surface. Only then Zero the Z axis.

Stencil in Vinyl

PHABLABS 4.0_Batman portable torch_Vinyl cutter making
vinyl.jpg
vinyl2.JPG
vinyl3.jpg
vinyl4.png
vinyl5.png

Design a stencil

Inkscapeis free open source software for any platform. It allows allows us to make digital drawings in 2D. It is a great tool for any designer to to make vector drawings. There is a lot of information on the web about how to use inkscape.

For this design process we will be making drawings that will be loaded into Fab Modules CAM software and will then run the Roland Vinyl Cutter.

TIP: Images can be downloaded and traced into a vector image using the tool shown in photo 1.

The images that we draw should be made within 30mm by 30mm circles. The lines that are made should be 0.5 pt and should be unbroken. (The batman image has broken lines). The files can be saved in .svg format. Photo 2

CNC vinyl cut a stencil

The Roland Vinyl cutter is a CNC machine for cutting signs, stickers, circuit boards and any 2D shapes. It uses a small knife to cut into rolls of material. We will use the drawings that we made with inkscape to load into Fab Modules. These will be the .svg files.

This documentation from the Fab Academy archive is helpful. Photo 3

Once you have cut the Vinyl stencil you will need to remove the sticker from the rest of the vinyl roll. This process is called weeding and can best be achieved with a pair of tweezers.

Once the Sticker is complete it can be stuck directly to the back of the lens, or to a disk of transparent acrylic.

Optional: Vinyl cut as stencil

If you do not have a laser cutter, you can cut the stencils with the vinyl cutter and paste them directly to the flat part of the lens, as shown in the photo 4&5.

Solder an LED Circuit

PHABLABS4.0_Batman portable torch_Step 1: Soldering the Circuit
PHABLABS 4.0_Batman portable torch_Step 2: Solder the Switch
PHABLABS 4.0_Batman portable torch_Step 3: Connect the battery
solder.jpg
solder2.jpg
solder3.png
solder4.png

Photo 1: We will now need to place and Solder the white clear 3W LEDs (Light Emitting Diodes) to the PCB and connect the 9v battery to and switch to the circuit also. We have made the PCBs to help locate into the case and distribute heat from the power LED. The PCBs are made to help make the assembly and soldering process more stable and simple. The most important factor of this is to know that the LEDs have a polarity with a positive and negative side.

TIP: The + side of the the LED is the Positive side.

First, push the longer legs of the six LEDS through the locating holds of the first PCB. This will help keep them in place. Make sure that the Longer legs are rotated towards the centre.

Next is to solder the Legs to to the PCB traces checking that you have created. To do this you will need to have a Soldering Iron, a roll of Solder and some flux to help you with the connections.

The Soldering operation will happen in 3 steps.
1 > The first objective is to cover the connection with Silicon Thermal paste
2 > Second is to solder the both Red and Black wires to the switch and to the battery socket and to the 150 ohm resistors.
3 > The final step then is to Solder the Black and Red wires to the circuit board with the Red positive placed in the center.

TIP: Make sure that the Red and Black wires that you use to connect the switch to the LED circuits are long enough to extend the length of the Torch case.

Once you have soldered the LED legs to the the circuit board you can remove some of the extra length of the legs to LED legs by cutting them off with some clippers. Photo 2

To Solder the switch it is more simple to solder both the wire and the battery cable to the pins at the same time. There are holes in the pins that you can push the wires through.

Optional: LED + resistor

If you do not have a precision milling machine CNC, you can always solder a resistance directly to the led, as shown in the photo 3&4.

Assemble the Light Torch

PHABLABS 4.0_Batman portable torch_Step 4: Assembling the Torch
PHABLABS 4.0_Batman portable torch_Step 5: Lens insert
PHABLABS 4.0_Batman portable torch_Step 6: Connecting torch battery

You will now have all the components that you need to be able to assemble the Torch.

You will start by pushing the Switch all of the way through the casing housing so that it protrudes through the bottom hole.

TIP: Use some string to pull the switch and guide it through the casing and out of the hole.

End Result

batman3.jpg
PHABLABS LOGO_large V4 (Medium) (Small).jpg
PPP logo.jpg

ABOUT PHABLABS 4.0 EUROPEAN PROJECT

PHABLABS 4.0 is a European project where two major trends are combined into one powerful and ambitious innovation pathway for digitization of European industry: On the one hand the growing awareness of photonics as an important innovation driver and a key enabling technology towards a better society, and on the other hand the exploding network of vibrant Fab Labs where next-generation practical skills-based learning using KETs is core but where photonics is currently lacking. www.PHABLABS.eu

This workshop was set up by the Institute of Photonics Sciences, ICFO in close collaboration with Fab Lab Barcelona and Tinkerers Lab.