Build a Wind Turbine from a Cordless Drill/Driver- v2.0
This video just covers the basics and like many of the Cedar Workshop videos, it's for learning and having fun. But, it could make a trickle battery charger, remote water pump or run some LED lights.
A neighbour gave me one of their 12 volt cordless drills. Eventually, the batteries lost their charge and had to purchase a new battery from the hardware store. But, as usual, a newer model was on the shelves, this model of drill and battery was discontinued. After watching another video done be the Doug Daniels, I decided to take the drill apart and see if I could make a mini wind power generator.
Started out removing the leads to the trigger, made a hub from a 4-1/2" v-belt pulley, attached blades, and ran some drill press tests. The factory gearing on the small DC motor presented some interesting results. To simulate a high speed wind turbine, the cordless drill was attached to a drill press running at 792 rpm. The results were interesting. The low (driver setting) produced 4+ amps and just over 18 volts, but was hard to turn. The high speed setting (for drilling) produced a low 6 volts and a dismal .8 amps.
The next step is to mount it to a pole and get some real world feedback.
This video and blog post is about a Vertical Axis Wind Turbine (VAWT) made from mostly a wood called Western Red Cedar. It has contains images from the first attempt 2 years ago and video update of of the second attempt with modified blades/airfoils.
The parts where various materials for around the shop:
- Two rare earth ring magnets (ebay), thin vinyl sheet for the blade scoops and assorted screws.
One of the blade scoops was on the VAWT was damaged slightly when it "moved" by a family member.
Future plans: Brace the struts, upgrade the shaft, create a better mount and somehow add a generator. Hopefully with the second tower in the making, I get the chance to test it out.
Shaping the blades
Adding struts to the hub
Right angle bracket for the blade
Close up of cedar strut. Cut from the thicker section of a 1 x 8 cedar siding plank
Shows how it was joined
High tech level system for blades. Sits on a spine of a VHS tape case.
Birds eye view of the blades shape and mounted
Sandwiched the struts between the plywood cable spool
Shelf bracket for more support
Top of dismantled cable spool
Another shot of the shelf bracket. Wanted to allow space for blade angle, etc.
Shaft, locking collar and magnets inserted on the shaft. Ah, yes, I did add an extra bearing just underneath the reducing bear. Maybe a bit of my over engineering!
The reducing bushing fits nicely into the floor flange. Tighten and you have the plywood, struts all wedged together. Plus the shaft and slide inside.
Erected on tilt up wind turbine tower.
Not too high, but I wish it was! My noisy neighbour would report me for some height violation bylaw.
At least it looks scary...
Can't really see it from the road. The trees really kill the wind.
Adding the airfoils to create a Lenz style of airfoil
The Cedar Workshop was originally an online company that sold cedar adirondack chairs and pergolas. Due to lack of time and a career shift, the company was closed. The owner, Scott, continued to putter around in the shop. After a few years, he purchased a remote cabin high in the mountains and this presented an opportunity to build and learn. Since the cabin was a second dwelling, many of the projects had to be completed with limited tools, help and materials. Most of the materials were recycled or scavenged. Thus, the Cedar Workshop was revived from the “saw dust” and modified to share information with other people in a similar situation.
is cheaper and a tad more work, but easier to position. Best to have some kind of kiln or oven to place the solar panel in. But, for a larger 24" x 48" panel, have to use a plug-in-the-wall hot air gun. If the EVA is not heated up hot enough it can unstick and peel off. I was told to put the mikly color down (but it's difficult to see the difference) Can't remember the temperature setting it was at, but it was around 120 degrees (med-high). Make sure to ask the EVA seller what the temperature range is... don't want to have a fire.
Best to try it out on a small panel to get the feel of it. If you like, I can send you a sample to play with.
Sylgard 184- Expensive $50 for a less than a quart.
For a 24" x 48" 60 watt panel- $100 - 200
The Sylgard 184 is the cats meow. It's main purpose is for exterior electrical encapsulation, keeps moisture out and is not vinger-based acidic (like clear caulking). Remains flexible in all types of weather and when poured in layers, it work really, really well. It's a 2 part solution which is mixed together and then poured over the back side of the cells. Has the constancy like corn syrup. Very hard to clean up. Through trial and error, pour a container on the glass, lay the strings face down and pour another container over the backside. One coat on the back in minimal for a large panel. In my West Coast climate, it took the panels 3 days to set. Made by Dow Corning
Note: I built my DIY solar panels about 3 years ago. It was a cheaper way to go at that time ($600/120watt panel in Canada). Sylgard is the best, but expensive for multiple large panels. But, all the DIY panels I have built, encapsulated in Slygard 184 are still working.
I'll try to post some pics on my blog for you to see. Feel free to contact me for pictures.
For the last couple of months, I been researching on how to build a wooden hot tub. If you haven't seen one, it's a six foot round barrel about 4 feet high. Normally made from vertical laid Western Red Cedar planks that are fitted together. A heavy duty banding is wrapped around the outside to keep the vertical planks from bursting. A snorkel style of wood stove is used to heat the water up. The stove sits just under the water line. Of course, I could pony up the $3500.00 a buy one. But, that's not in the budget. The deck at the cabin comes first.
Anyway, after travelling on the internet, came across a story about another dude that wants to do the same thing...
"Hi folks, I am considering taking on the construction of an outdoor cedar hot tub. I want to build it using a joint that I have seen in use by kits I have assembled. The joint is called a canoe joint and it is used on 2x6 edges. I looked online to purchase a shaper/router bit set to achieve this joint and have only found ones that have smaller radius than i require for my staves. Any help you can provide in a source for this bit set would be very much appreciated. Thanks, Jerry"
So, I'm like cool. I'm not the only one. Found a post response and he/she suggested a Round Nose Router Bit by Freud. Freud makes really sweet saw blades, but I haven't tried the bits yet. Looks like I'll head down to the local Windsor Plywood store and pick one up.
Back in July 2011, I was sitting out front the cabin having my morning coffee and starring at the fixed solar panels. Figured there was a better way to catch all the rays of sun with a rotating solar panel. After a few quick sketches on a scrap piece of paper, I went to the shop and found a bunch of left over plumbing parts and aluminium angle iron. The mount is based on a 1" galvanized "T" that has two arms and a body (pole) that is treaded into a 1" pipe union. The union sits nicely on top of a patio umbrella metal pole, which is inserted into a wider galvanized fence post. The left and right "arms" are standard 24 inch lengths that thread into the Tee. A U-Clamp was used to secure the pipe to an angle iron.The angle iron was bolts with stainless steel bolts to the solar panel frame. No really high tech, but it works. There is just enough friction on the union that the wind does not spin the panel, but can be easily turned by hand. The solar panel can be adjust up or down to match the summer or winter latitude. See the video below!