Category Archives: wood

Wood milling demo at Belle Grey Farm

51HP of diesel powered, hydraulically controlled, wood milling goodness!

On January 16, 2016, Nova Labs members were treated to a wood milling demonstration at Belle Grey Farm in Upperville, VA. The 51HP diesel powered, hydraulically controlled portable saw mill ran through the wood with ease.

Members were shown how entire trees were rough cut down to boards. The boards were then put into a solar kiln to dry for at least several months and sometimes as much as several years. Once dried the boards make it to the shop where they are used to make equestrian jumps.

Check out our Facebook page to see a video of it in action!

Wood milling demo at Belle Grey FarmPosted by Nova Labs on Wednesday, February 24, 2016

Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm Wood milling demo at Belle Grey Farm

STAR TREK DOOR Continues

So, the STAR TREK DOOR has been a slow, “back-burner” project for a while. Recently, I got a little time, so I sat down and figured out how to hook up the air valves to a set of relays, and control those relays with an Arduino.

Here’s a video overview of the physical doors themselves and how we plan to open and close them with air valves.

This is a joint project, working on this with my brother-in-law, Fred. The doors are between his garage and workshop. Fred has been working on the doors themselves, the wall and framing, and mechanical connections. I’ve been working on figuring out the software, controls, and electronic magic that will drive everything.

STAR TREK DOOR ContinuesThe physical doors themselves are done, except for paint. Fred has also been making a pretty neat frame for the garage side. He cut alternating widths of wood and then glued them together for the nice light-colored wood on the inset of the planks that will frame out either side of the door. A similar piece will cross the top of the door.

I got all the main components – Arduino, breadboard, relay board, 12V power fuse panel, and air valves themselves all screwed to a piece of plywood. At this point, it’s not pretty, but it is functional.

STAR TREK DOOR ContinuesWe have a nice industrial door control with OPEN/CLOSE/STOP buttons on it. Those are momentary on buttons, but through the power of the Arduino, I can make them be whatever I want. I started with a Button Tutorial, and then modified it to suit my purposes, and added a Delay(1500) command after activating the air valve. That way, the valve will stay open long enough to fully open or close the door, even if the button is just pressed for a moment.

I programmed the pin for the STOP button to test out a sequence to open the door, pause (long enough for a person to walk though,) and then close the door. It seemed to work pretty well. If the timing is wrong for the real-world application, all I have to do is simply change the delay times. (It will also need a safety. We don’t want the door closing on a person!)

STAR TREK DOOR ContinuesAt this point, the basics of the control panel are working. The STOP button is just wired up as a “stand-in” for a single button we already have installed on the garage side of the door. It’s a capacitive touch button that lights up either blue or white with internal LEDs. It’s a neat looking button, but it’s only a SINGLE button. So, it needs to have functionality to both open AND close the door. I’d also like to explore using a variable in the Arduino that states whether or not the door is open, and then changes the functionality of that button based on whether the door is open or not. The air cylinders themselves also have built-in position sensors, which would be neat to use possibly as both a safety AND a “Is the door open or not?” sensor.

Here’s a video clip showing all the components actually working together. At this point, if the panel was simply mounted above the door, and air connected between the compressor and air cylinders, we would actually have functioning doors.

STAR TREK DOOR ContinuesI don’t like the look of how the air valves and tees are held together right now. I was able to find some not-too-expensive push connectors (similar to PEX Sharkbite style) for air, which might make it a little easier to connect all the air components and look cleaner. Once I really have everything finalized on what’s going on at the breadboard, I also need to decide if I want to pull the breadboard out and replace it with a custom circuit  board. One thing I DO need is a simple way to connect the tiny pin connectors to the larger wires going to the buttons AND provide strain relief. For the moment, I just used staples to nail the 18 ga lamp cord wire to the plywood and then made the electric connection with alligator clips. What would be the BEST/CLEANEST way to do this? Some sort of small screw down terminals?

I also have a rather large fuse panel mounted on the plywood. It was free, and I already had it. It supports many separate circuits, but for this project, a single DC fuse would probably be fine. I’m also using a bit of an overkill 12V power supply. I’ll want to replace that with a simple wall-wart. Lastly, the Arduino is running from USB power. I’ll need to solder up a 12V DC barrel connector so that it can run off the same power as everything else. I think we will make a switched electric outlet, and plug the wall-wart in to that. If the system is ever not working right, just switch off the power and manually open and close the door as needed.

I’ll definitely want to hang out with the guys at the Makerspace sometime soon talking Arduino, specifically how to integrate some more sensors and get feedback used to activate the doors fully automatically.

-Ben Nelson

Leafing with the Mogul

Before #1: Your basic 3/8″ plywood

Before #2: My front door, in need of paint, some aesthetic happiness, a fixed doorhandle, and summer. My desire to add a little decoration to the door is, in part, what led me to the Makerspace. I had an idea for panels to go on either side of the door, but no equipment for making what was in my head. When I saw that the Makerspace had cnc routers…

Leafing with the Mogul

 

IN THE MIDDLE

I took photos of leaves from the oak tree in our yard:

Leafing with the Mogul

I traced the leaves in Illustrator, and — by looking at the structure of the tree — made my initial design. I exported the file into svg (with hints from Shane), and Ed helped me use Cambam to convert the svg file into the gcode that the Mogul desires.

Leafing with the Mogul

After generating the gcode, we cut the first panel. For me, watching the cutting was like Christmas: exciting — while for Ed, stepping me through the process, this must have been like a long slooooooooow Christmas, watching the design appear through the three passes the router bit made to cut each (complicated) path. (In truth, Ed’s patience and help were the real Christmas present for me.)

Leafing with the Mogul

This panel was an experiment for me, to learn about how thin and delicate the connecting pieces could be in such cutting. And I learned: what you cannot see in the picture above is how two of the leaves broke off quickly.

In the next Illustrator file I made (which I then cut on the Mogul with Steve Pilon’s also very generous and patient help), the leaves overlap and made their stems thicker. You might be able to see this in the final picture below, which shows the panels painted and mounted. Merry Christmas!

 

THE END

Leafing with the Mogul

QWERTY (and nothing else)

I built a QWERTY keyboard that types the letters Q, W, E, R, T and Y, and nothing else. No space, no return, no escape.

It’s a fully-functional USB device, you know, as long as you just want to type words that can be composed with Q, W, E, R, T and Y. (WET, WRY, YET, TRY, there’s a bunch of them!)

I wrote plenty more about this project on my blog, and if you want to read about the history of the QWERTY layout, and its connection to Milwaukee, and why the way we interact with technology is interesting and sometime ridiculous, well… I got that too.

Square(ish) Pegs

Often laser cut parts gt attached at 90 degree angles, using finger joints, or screws and t-slots, but there may be times when you want to stack pieces of wood and have them aligned…

Pegs might be the answer!

Here’s a few photos of the pegs I’ve been experimenting with. For these pieces I don’t have a lot of room to have multiple pegs at opposing angles, but I can see where that might be useful. For these pieces the peg is really just for assembly alignment when gluing it all together.

Square(ish) Pegs

Weekend Project: Wine Rack

Last weekend I made a 60 bottle wine rack from some 1″ pine.  I sized it to fit on a counter top in my basement, under the upper cabinets. I was pretty happy with the design of a somewhat smaller Belgian beer rack I made in the past, so I copied some of its basic style. I really like the strong vertical lines of this design, as it contrasts with the strong horizontals of most wine racks.

With the compound miter saw and table saw, I transformed three 6′ long pine 1″ x 12″ boards into the necessary 150 pieces! The rack holds 60 bottles, so I cut 120 10″ x 9/16″ x 3/4″ pieces. These are connected to 26 uprights that measure 18.1″ x 3/4″ x 1.5″, which are connected to 4 horizontals that are 52″ x 3/4″ x 1.5″.  Note that a spacing of 3.1″ is sufficient for wine bottles, but 3.35″ is the minimum for most champagne bottles. Also note that for strength reasons, the 10″ long pieces need to be cut along the grain, not across it.  Here are all the pieces, just before I nailed them together:

Weekend Project: Wine Rack

It took about 1.5 hours to cut the pieces, and 1.5 hours to assemble them. Note that I used a nail gun and 1″ long, 18 gauge nails for most connections, except the uprights to horizontals, where I used 2″ long nails.  Check out the completed wine rack, in use!

Weekend Project: Wine Rack

Be careful what you ask for!

Several months ago, a humorous request went out for a Zamboni that could be used on the Nerdy Derby track.

Last year the Milwaukee Makerspace held a Maker Fest and a Nerdy Derby track was made for the occasion. The design allowed the track to be disassembled in 4 foot long sections.

When the track was reassembled, earlier this year, for the South Side Chicago Maker Faire, it was found that the joints did not match up as well as when it was first put together. Small ledges, that went up and down, would cause the cars to bounce off the track or hit the bottom of the car. Both of these scenarios prevented the cars from traveling freely down the track.

As many of you know, we just had a GREAT Maker Faire here in Milwaukee last month and the Nerdy Derby track was needed again!

We produced, and ran, over 1000 Nerdy Derby cars over the 2 day event. Wow!

Be careful what you ask for!

A month or so before the event I started working on an idea for a Zamboni type of device. My first thought was of a custom contoured planer that could be used at each joint to smooth them out. This idea seemed like too much work so I proceeded forward with my second design. This consisted of a simple sled hat used a drum sander, which smoothed out the high spots. Wood putty was then used to fill in any low spots.

 

October 14, 2014 Class: How to use the band saw

What
Safety, setup, put-away, changing the blades, cleaning the interior, basic do’s and do not’s of cutting.
We’ll be chopping up scrap from the laser cutter so no need to bring anything.

When
2014-10-14 (Tuesday) at 20:00

Where
VHS shop room

Who
You! No need to be a member (but it helps). Max 5 people for this first time.

How
…much: $5
…long: 30 minutes or less.

Your job
RSVP to this thread.
Tie long hair back or tuck under a hat.

 

October 21, 2014 Class: How to use the chop saw

What
Safety, setup, put-away, basic do’s and do not’s of cutting. We’ll be chopping up scrap 2×4.

When
2014-10-14 (Tuesday) at 20:00

Where
VHS shop room

Who
You! No need to be a member (but it helps). Max 5 people for this first time.

How
…much: $5
…long: Class should take 30 minutes or less.

Your job
RSVP to this thread.
Tie long hair back or tuck under a hat.