Wednesday, June 15, 2011
Patriot SDHC Card
One of my handy SD memory cards decided to crack open and stop working. I considered this a perfect opportunity for a quick CAD session, as well as a way to learn decaling skills. The following is the end result:
Sunday, May 15, 2011
Senior Design Project
Having spent many long nights working on our senior design project this semester, it was finally completed a little over week ago. To put it simply, the project is a lifting platform operated by a ducted fan, controlled with feedback from an IR sensor. More can be read about it in our final report:
Finalized SolidWorks model
Operational Enclosure
Exploded view
Final product
Tuesday, April 19, 2011
RBSP Devices
I've realized that I never put up the designs that I initially worked on at the Space Sciences Lab. The first is a testing system for the Spin Plane Boom to be deployed in the RBSP (Radiation Belt Storm Probes) NASA mission. Most of the system was already designed, but I made several enhancements and added a few sensors to the system for proper testing:
Operational position. The SPB is placed on the bottom and controlled by the motor on the side.
Safety sensors near LVDT (Linear variable differential transformer)
The device is operated by the outer motor and a motor on the inside which
winds the wire on SPB. This is all controlled by a program written in LabView. After making necessary design changes, we built a brand new 2nd system to do simultaneous testing.
The following is another testing device that I made a few adjustments to and built a copy of.
Thursday, April 7, 2011
Just for fun...
I haven't done a design for fun lately because I've been focusing so much on school projects and such. Therefore, I thought I'd give it a shot:
Tuesday, April 5, 2011
TQCM Mount
Just a small side project at work that took about a week to finish:
This is a simple mounting system for a TQCM (Thermoelectric Quartz Crystal Microbalance). It is meant to interact with the systems inside of one of our huge chambers, and there was a very tight space into which we could fit it. The main goal was to have variable adjustment in all three coordinate systems. Also, The TQCM is mounted through its heat sink, so we needed to use a material for the mount that had a high thermal conductivity yet strong enough to support the weight (went with 6063 Aluminum).
This is a simple mounting system for a TQCM (Thermoelectric Quartz Crystal Microbalance). It is meant to interact with the systems inside of one of our huge chambers, and there was a very tight space into which we could fit it. The main goal was to have variable adjustment in all three coordinate systems. Also, The TQCM is mounted through its heat sink, so we needed to use a material for the mount that had a high thermal conductivity yet strong enough to support the weight (went with 6063 Aluminum).
Saturday, February 12, 2011
Helmholtz Coil Chamber
For the past 6 months, I've been working on designing and building a calibration chamber at my current job with the UC Berkeley Space Sciences Lab. The chamber itself is currently in production and should be shipped to us within a couple of weeks. The support structure and the Helmholtz coil mechanism, however, is all manufactured. I hope to commence assembly pretty soon, so I can finally get my hands dirty. Below are a couple of screenshots of the finalized SolidWorks model.
The support structure was built out of 80/20, which is very convenient and sturdy for these kinds of projects. The Helmholtz coils were manufactured off site, but will be welded to the support tabs in house. This is one of the most fulfilling parts of working on an engineering project: designing everything as a 3D model and actually seeing it come to life.
Sunday, October 31, 2010
Finite Element Analysis
After hearing so much about it, I finally got the chance to do Finite Element Analysis. I've gotta say it helps out A LOT during the manufacturing process. I've been using Solidworks Simulation, which isn't as sophisticated as other FEA programs, but it gets the job done for now.
I have attached four project reports that I've done so far in my ME128 class that deals with the application of FEA:
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