Skateboard Banjo: Difference between revisions
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== Frets and Pegs == | == Frets and Pegs == | ||
Fretting - it really is worrysome! I nearly had a breakdown over this. Without a replaceable fretboard I had no real room for error but the errors kept-a-comin'! | Drilling the headstock for the pegs was trivial but it was nice to see them put in place. I still had a lot of sanding to do so I didn't fully install them yet. | ||
Fretting - it really is worrysome! I nearly had a breakdown over this. Without a replaceable fretboard I had no real room for error but the errors kept-a-comin'! Using the Japanese pull saw with depth gauge was quite a trial - the grain of the fretboard top ply goes lengthways so I had to use the cross-grain edge. The cuts were easier to make and more accurate than with the cheap pull saw I used for the test fret. Getting the fret wire to go in and stay in was a bit of a challenge. I gave up after 3 frets and returned home to read up on the subject. It was clear I needed a way to safely bend the fret wire to fit the convex deck. | |||
<gallery widths=300px heights=300px> | <gallery widths=300px heights=300px> |
Revision as of 15:44, 16 July 2013
Project Plan
Use old skateboard decks to make the neck (and other parts) of a tenor banjo. A skateboard deck has a natural bend at the kicktail for the headstock making the underside of the deck a slightly convex fretboard due to the deck's concave. Skate decks are typically 7-ply Canadian Maple and are very stiff. I will be laminating two decks together for extra depth and stiffness. I want to retain the authentic used skate deck damage (within reason) on the fingerboard.
General
- http://en.wikipedia.org/wiki/Banjo
- Hmmm, 5-string or Tenor? I'd love a 5-string so I'll try to make that work
- compare with commercially available, e.g. Ozark: 2102G 5-String Open Backed Banjo (Scale length - 697mm = 27.45")
- NB: I now _do_ have a good idea of what I'm doing!
- neck: this is the skate deck part - I have two identical old decks (same pressing, same concave) which I've glued together with Gorilla Glue (see pics)
- body/pot: I'm going to use a wooden hand drum with tensioners which will give me a basic body for little cost and little work. In the future I want to glue up and turn my own rims on the lathe.
- bridge: current thinking - just a piece of skate deck
- nut: current thinking - just a piece of skate deck
- tuning hardware: ebay cheapest set of 6 guitar tuners 3x left 3x right
- strings: whatever becomes available
- tensioning bars: I'll see how the hand drum and neck come together
- tailpiece: cheapest ebay magic!
Geometry, plans and other info: -
Banjo | # frets | scale |
---|---|---|
Gibson 26-1/4" | 22 | 26.250" |
Long-neck 32-1/4" | 25 | 32.250" |
Tenor 22-1/4" | 19 | 22.250" |
Vega 27" | 22 | 27.000" |
- a Tenor banjo has 19 frets and a 22.250 inch scale
- http://www.stewmac.com/FretCalculator
fret | from nut | fret to fret |
---|---|---|
1 | 1.249" | 1.249" (nut-1) |
2 | 2.428" | 1.179" (1-2) |
3 | 3.540" | 1.112" (2-3) |
4 | 4.590" | 1.050" (3-4) |
5 | 5.581" | 0.991" (4-5) |
6 | 6.517" | 0.936" (5-6) |
7 | 7.400" | 0.883" (6-7) |
8 | 8.233" | 0.833" (7-8) |
9 | 9.020" | 0.787" (8-9) |
10 | 9.763" | 0.743" (9-10) |
11 | 10.463" | 0.700" (10-11) |
12 | 11.125" | 0.662" (11-12) |
13 | 11.749" | 0.624" (12-13) |
14 | 12.339" | 0.590" (13-14) |
15 | 12.895" | 0.556" (14-15) |
16 | 13.420" | 0.525" (15-16) |
17 | 13.916" | 0.496" (16-17) |
18 | 14.383" | 0.467" (17-18) |
19 | 14.825" | 0.442" (18-19) |
Progress
Here we have some progress photos of the deck lamination and slice-up. Note: I selected the two decks that had the most accurately matching concave without too much damage. Also, I removed the griptape! As Norm Abram says, "You can never have too many clamps". Using bamboo chopsticks as dowels to align the bolt-holes, fill them in, and perhaps add a little strength.
The skate deck glue-up has been sliced down to about 95mm wide. The nose and tail beyond the bolt-holes are about 135mm and 125mm long. The truck bolt mountings are 59mm long each and there is 350mm between the innermost bolt-holes. The bolt-holes are 35mm between (46.5mm including holes).
The nut is to be located immediately before the kicktail starts to drop away. A centre line is scribed that also defines the location of the third string. The scale length will be decided when the hand drum is obtained and the neck-body join is decided.
The width of the neck at the nut is 1 1/4 inch on a lot of banjos I've seen but I think I'd like to use 1 3/8 inch to be more like my ukulele. This width will fall almost exactly between the bolt-holes.
- 35 millimeter = 1.377 inch and 1.375 inch (1 & 3/8) = 34.925 millimeter
The neck at the nut will be slightly offset from the centreline due to the asymmetric narrowing after the 5th string. The width where the neck meets the body is yet to be decided.
The width of the headstock will be decided largely by the string tensioning hardware and the aesthetics of whatever skate-style I can incorporate (e.g. a rounded head like modern popsicle decks or something more old-school)
Neck and pot mounting: I watched some yoochoob vids on the subject and for my purposes I'm going to have to see how things look when I get the hand drum (ebay bid in progress!). What is immediately clear is that the neck thickness needs to be increased where it joins the pot (forgot what the name of that bit is!)
Metric Scale Length
I have marked the fret locations, measuring carefully from the nut on each occasion. The fret wire I have available at the hackspace is rather fine (for a uke) but we don't expect any real problems to result from it. The 596mm fret scale is 25" in old money so it is slightly smaller than a typical old-time open back banjo.
596 mm fret scale fret | from nut | fret to fret 1 | 33.451 mm | 33.451 mm (nut-1) 2 | 65.024 mm | 31.573 mm (1-2) 3 | 94.826 mm | 29.802 mm (2-3) 4 | 122.954 mm | 28.128 mm (3-4) 5 | 149.504 mm | 26.550 mm (4-5) 6 | 174.564 mm | 25.060 mm (5-6) 7 | 198.218 mm | 23.654 mm (6-7) 8 | 220.544 mm | 22.326 mm (7-8) 9 | 241.616 mm | 21.072 mm (8-9) 10 | 261.506 mm | 19.890 mm (9-10) 11 | 280.280 mm | 18.774 mm (10-11) 12 | 298.000 mm | 17.720 mm (11-12) 13 | 314.725 mm | 16.725 mm (12-13) 14 | 330.512 mm | 15.787 mm (13-14) 15 | 345.413 mm | 14.901 mm (14-15) 16 | 359.477 mm | 14.064 mm (15-16) 17 | 372.752 mm | 13.275 mm (16-17) 18 | 385.282 mm | 12.530 mm (17-18) 19 | 397.109 mm | 11.827 mm (18-19) 20 | 408.272 mm | 11.163 mm (19-20) 21 | 418.808 mm | 10.536 mm (20-21) 22 | 428.753 mm | 9.945 mm (21-22)
More parts and progress
I spent a hot sunny afternoon in Nottingham touring around all the music shops and I picked up a few supplies: I got myself some medium gauge banjo strings, a 5-string bridge, and a bone nut blank. I didn't really want to use bone but since my drum head is likely to be goat skin I don't think it will be winning any ethical build prizes! (I do plan to replace the head with a typical Remo banjo head if all goes well).
The hand drum has arrived! It may be a bit shallow but it has a finger hole about 20mm in diameter that will hold the dowel stick. I have glued up the heel so it is 5 decks thick. I had no remaining parts or the original 2 decks that had a suitable concave so I used some spare bits of my old Enjoi Rodney Mullen deck that I got back off Jake who is using it for his Ukelele Bass project (thanks Jake!). I was looking around for 20mm dowel and I found the broken stick from my old Nimbus 2000 pool sweeping brush in the shed. It's just over 21mm and is well weathered so I was able to get a snug fit in the hand drum with a bit of dremel sanding of the hole. The dowel will be embedded in the heel end of the neck and the other end will set the action height with a possibly adjustable/shimable screw-slot end that passes through the far end of the drum rim.
Now we look at fitting with a dowel stick and start to consider the neck shaping and heel carving. Some pro tips at http://blog.boymeetsbanjo.com/2011/10/14/carving-the-neck/ and inspiration at http://www.deepcreekstrings.com/p/instruments.html
Neck Shaping
I had a bit of a mental crisis when it came to shaping the neck - it felt too horrible to start to cut into what is just a throwaway blank at the end of the day! I got quite wound up thinking that I needed to CNC it in order to get it "right" and make laser cut templates and jigs so I could get good lines with a router. It took a day or so to get my mind straight and get to work shaping just by hand with rasps, files and sandpaper. I found it very absorbing and I put in a crazy amount of time observing the ply layers and grain, working at the imperfections and getting a pleasing shape that felt right.
For the tuning head I want the place the tuning pegs in the standard (new-school) truck bolt-hole pattern and shape the end like a miniature new-school deck. The holes need to be 2.1" x 1 5/8" apart (== 42.1mm x 53.3mm). I need to leave enough tail to wear down like a well used deck -- the existing worn-down nose/tails had to be cut off to avoid massive voids when laminating. The tuning head needs to be significantly thinner if I am to use standard sized tuning pegs. I intend to cut a scoop out of the back side to about 13 ply thick (griptape side of the decks!) which will lighten up the tuning head and hopefully bring out some of the beauty of the wood.
Tuning Head and Neck Mounting
I managed to spend large parts of both Saturday and Sunday in the Hackspace workshop working on thinning the headstock and mounting the pot to the neck. I made a router template so I could cut the recess for the tuning rim. The first pass brought out the beautific green laminate but unfortunately it was slightly too shallow and I had to chisel it out a little further. I spent a lot of time setting up to drill the dowel hole in the neck, creating a makeshift jig to ensure that the hole was exactly vertical... and then finding that the pillar drill was not exactly vertical! Thankfully I discovered my assumption before making the cut. The dowel had to be sanded to fit the hole then glued and screwed. Additional screws might to be necessary to give additional strength to the heel ply layers.
Frets and Pegs
Drilling the headstock for the pegs was trivial but it was nice to see them put in place. I still had a lot of sanding to do so I didn't fully install them yet.
Fretting - it really is worrysome! I nearly had a breakdown over this. Without a replaceable fretboard I had no real room for error but the errors kept-a-comin'! Using the Japanese pull saw with depth gauge was quite a trial - the grain of the fretboard top ply goes lengthways so I had to use the cross-grain edge. The cuts were easier to make and more accurate than with the cheap pull saw I used for the test fret. Getting the fret wire to go in and stay in was a bit of a challenge. I gave up after 3 frets and returned home to read up on the subject. It was clear I needed a way to safely bend the fret wire to fit the convex deck.