Building a VeloMobile - Page 1 of 13


Figure 1

AtomicZombie has decided to build a velomobile! The following will be an ongoing build log updated every two weeks, detailing every step of the journey that will result in the creation of a practical and easy to build velomobile. I am taking a different approach to building the trike body, so I am not sure what the end result will be, but I do hope you enjoy reading about the journey as things progress. There is also a great discussion on our Builder's Forum for this ongoing project, so feel free to drop in and share your thoughts and ideas on the subject.

Every time I find myself standing at the gas pump, holding down the lever while the dollars spin past, I begin to wonder if there is a better way. Let's face it, the cost of using a gas guzzler adds up to a lot more than just a dent in your wallet each time you fill 'er up, although the pain you feel at the pump is certainly instant. How about all of the effects to the environment? Using a gas powered vehicle to pick something up from the store a few blocks away is certainly convenient, especially on a cold day when you can just press a button on your remote starter and let the interior heat up for you. But, with millions of people doing this, what is the net cost on the environment? Call me paranoid, but with the crazy worldwide weather we have been experiencing in recent years, I think the answer is obvious. From this point forward, I will use the word "car" to refer to all gas guzzling ground transportation vehicles.

Environmental issues aside, there are many good personal reasons to be leaving the gas guzzler parked more often. My health has been impacted by the convenience of the car since the first day I passed my road test. How did I all get around in the days before becoming enslaved to my car? Well, besides begging for a ride, I got around on foot or by bike! I remember how simple things were back then. My main concerns were usually how long it would take to get from point A to B and making sure that my tires had air. I had no repair budget, no insurance costs, no parking problems, and didn't have to work overtime just to pay for fuel. Ironically, I had more free time even though it took a lot longer by bike because I didn't have to schedule in time for exercise because it came with the lifestyle! That extra body weight was a direct result of using a car, too. Sure, the car helps me get around in a hurry, but I end up either wasting more time and money to sweat over a treadmill or consulting with a doctor on how to fix my health.

Seems as though in our later years we have things backwards, don't you think? "DING!"Oh, hold on a minute, the truck is filled now. I have to go give the attendant another $80 bucks!

I have decided to get a grip on my shrinking wallet and ever expanding waistline, and find a practical way to leave the car at home as much as possible. Now, the key word here is "practical". Living in a rural area of Northern Ontario means that I will always need a reliable car or truck to move large cargo and to travel large distances to town in the winter, but having a few local stores within riding distance means that a bike could certainly be used for many journeys. For those who live in the city, a practical human powered vehicle with some cargo capacity could also be used for many local trips, such as grocery runs or social calls. For me, practical also means affordable and robust, which almost always translates to home built, which to us DIY types is great news. Of course, there are commercially available human powered vehicles "velomobiles" for those who can afford them, but since they tend to be as costly as a decent used car, they are out of reach for most. Here are a few commercially produced velomobiles that certainly inspire ideas.

Figure 2

All of these velomobiles are obvious works of art, but there is no way I would ever part with ten grand for something that I could build myself. Obviously, there will be tradeoffs between cost and aesthetics, but there is no reason why a very practical and sturdy velomobile could not be built using readily available parts by anyone with a few basic tools and a lot of motivation. In fact, I have seen some home built velos that are streamlined works of art, but often the cost of materials used and the skill set needed are beyond most of use weekend garage hackers, and the end product is more like a hotrod than a bike you would want to take out in traffic or ride around in the rain.

Figure 3

The yellow streamliner called "Barracuda" was designed and built from scratch by Warren Beauchamp, and has always been one of my favorite racing machines, capable of speeds normally reserved for cars on the highway. If speed was my primary goal, then my velomobile would defiantly take inspiration from the Barracuda, but this time I am after something more practical for everyday use.

My goal is to build a body using basic materials that is both aesthetically pleasing yet at the same time tough enough to live in the real world. Living in the real world means taking Mother Nature's wrath of rain, sleet, hail, wind, and constant bombardment of UV radiation. Living in the real world means surviving the odd ding, dent, or scratch from crowded urban environments, being able to bounce over a curb and take the abuse of a poorly maintained road without shaking to pieces. Living in the real world also means living in the urban jungle, so the vehicle will need to be visible in traffic and include the usual safety gear such as rear view mirrors, brake lights, head lights, turn signals and a horn. Living in the real world means offering the pilot some shelter from the elements without requiring any acrobatic maneuvers to climb in and out of the vehicle. And of course, living in the real world means that the vehicle must include some practical cargo carrying capacity for such things as groceries, a battery pack, and personal items.

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You can build it yourself from our easy to follow DIY plans!