- Some random brackets, nuts & bolts
- An old electric heater
- An old 12V 850mA transformer
This is a tool that I've been missing for far too long. With all the styrofoam I have been hoarding for years it was time to make a hot knife, so I could start carving up patterns, prototypes and molds for lost foam casting. As it turned out I had everything I needed on hand. I started with a 12Vdc 850mA transformer wired to each terminal, but burnt up three before I found a 9Vdc 750 mA transformer that worked more consistently. Even with the 9 volt power adapter the transformer gets too hot to hold after about 45 seconds of use. I decided to use my adjustable power supply, which proved to be the superior choice for extended use of the hot knife.
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The ATX power supply can be found in many old desktop computers. Mine came from an old PC that was running windows ME. The ATX has 12Vdc, 5Vdc & 3.3Vdc terminals ready to go. It also has built in overload protection, making it an ideal power supply for prototyping. I decided to integrate a old multimeter I had laying around Into my power supply. This will be handy when troubleshooting new circuits. I was able to salvage the origal connector from the PCs motherboard. To attach both the multimeter and the connector to my project enclosure, I used an old tip on my soldering iron and welded the plastics together. To make the most of my power supply, I decided to add some AC voltage as well. I included a 120V to 24V AC transformer and a 120V outlet connected through a dimmer switch, which gives me a range of about 80V-120V. Finally, I squeezed in a couple of USB ports connected to the ATX 5Vdc terminals and a 12Vdc automotive power socket connected to the 12Vdc terminals of the ATX.
A Better Power SupplyWith this power supply voltage is adjustable from 0-23Vdc and amperage is adjustable from 0-3 amps. Inspired by _http://www.instructables.com/id/DIY-Small-Bench-Power-Supply/ With the ability to dial in voltage and make adjustments to amperage this power supply is a huge improvement over the ATX power supply, although both have their place in my workshop.
I came across the InMoov project while I was browsing Thingaverse for something to 3D print and knew immediately I would have to accept the challenge of building the hand. If you have never heard of InMoov you can check it out Here on the InMoov Home Page. To get started, I decided to try the finger starter. I figured if I could get the index finger to work then the hand should be doable. I had the parts for the index finger and the finger sarter base printed and I set up an Arduino Uno with a servo. I was able to thread fishing line through the finger and attach to the servo. With a simple sketch uploaded to the Arduino, I had the index finger working with three types of control. With the index finger a succes, it was time to move forward with the hand. Since I have no 3D printer, I had to use a combination of 3Dhubs.com and the local library MakerSpace to get the parts printed. I've found 3Dhubs to be a great resource for affordable printing services, with hubs in my local area and more than 10,000 hubs globally to choose from. However, I had the parts for the right hand printed for 5 cents a gram at the MakerSpace in my local library. Keeping the parts organized is key here. After hours of careful sanding and drilling, I had all the parts fitting together nicely and moving freely. A little epoxy and 100lb fishing line and the hand was taking shape. I don't have the forearm and servo bed printed yet, but can't wait to start animating the hand. After building the 3x3 LED cube I thought I'd attempt a (POV) or persistence of vision project. I found a simple 5 LED POV using Arduino on Instructables. SIMPLE POV LINK This was a great place to start. I originally built the simple POV on a glove that could be waved to display text. Once I got the simple POV working it was time to up the ante. I had seen many POV projects on cieling fans and bicycle wheels, but thought I could build a ring to make a spherical display. Since my display was a sphere a globe seemed like an obvious choice. POV GLOBE INSTRUCTABLE Be the Master of the House with this home automation device. Use your Android device to remote control four separate 115V appliances. For this project I am using the bareduino plus kit from virtuabotix, a 4-channel relay board from Sainsmart, an HC-06 bluetooth module and an old power strip. I am also using an android app and arduino sketch called Ardudroid by TechBitar that can be downloaded from the Google Play store. After disassembling an old power strip for parts I modified my project box to fit the outlets, power switch, reset button and cord. With some careful forming of the neutral wires I was able to connect and fit the relay board in place. Build up the Bareduino so I can have the functionality of an Arduino without giving up my precious. You can get more info about the build on my Instructable |
AuthorAs a midnight maker I am inspired by the open source community to contribute and share some of the projects I have attempted. Categories
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