Building Wooden Planing Forms
by Don
Schneider
Building your own wooden planing forms is not difficult but it is time consuming and exacting work. Having the proper tools available is helpful. Some tools you can get by without, and extend the building time, however I dont see how you can do this project without one of the following: a drill press or a doweling jig. Think about what you are trying to accomplish, building a tool to make tapered bamboo strips accurate to within 001 or less. All of the holes you drill not only have to be in the correct location, they must be parallel to each other otherwise the form will not open or close properly. Objective: Straight adjustable form that has a V groove in each side, top and bottom, with a slope of taper .001/inch from one end to the other. Close doesnt count.
Choose the
wood: The
wood for this project should be a hardwood. Maple is a good choice. Maple
drills well, you can tap threads in it, finish it smooth and it is durable.
Make sure your selection is straight, no twists and has a straight tight grain.
No visible grain at all is better yet.
Start: The first thing you have to
decide is the size of your form. The choice is yours. 62 length will allow you
to build any two piece rod 10 or less. If you are never going to build
anything over 8, make a 50 form. If you want to build one-piece rods 8 or less,
make a 98 form. Its up to you. If you are keeping tract of these lengths, you
will notice that the form is 2 longer than the max length of the rod. Reason:
The first adjusting station is located 1 from either end of the form.
Lets
build a 62 form where each of the two finished pieces are 1 Ό X 1 Ό X 62.
What we are going to do is mill a piece of wood 2 Ύ X 1 Ό X 72. Why 2 Ύ
wide? Reasons:
1.
After
we drill all of the dowel and pull holes we are going to rip it down the middle
and the finish off the sawn surfaces back to 1 Ό. This will also ensure all of
our holes line-up by drilling first.
2.
Why
72 length? Later when cutting the grove its nice to have the extra length for
run-out of the cutting tools. When done cutting the grove on both sides,
cutoff the form to its 62 finished length.
3.
Why
a finished form, when closed, 2 ½ wide? To me it gives you a much more stable
surface to work from, especially when using grooved sole planes. With forms
that are only 1 ½ wide it is very easy for the sole of the plane to go over
the edge resulting in a planed form. Also makes it easier to get the feel or
since how level you are planning.
Drill the adjusting & dowel holes: Lets
use Ό or 3/16 Hex Bolts. Take your pick. Make sure you drill all of the dowel
and pull holes, 25 total, with the TAP SIZE DRILL. Thats 12 dowel & 13
pull holes. All holes are mid-way top to bottom of the form. Pull holes are on
5 centers starting 1 in from what will be the end of the 62 finished form.
Dowel holes are on 5 centers mid-way between the adjusting stations. I would
suggest when drilling the holes that you use the same form to drill press or
doweling jig orientation so that if either does not drill exactly perpendicular
at least the holes will be parallel. We will drill the 13 Push holes later
after we rip saw and resurface the piece. You may have to tune your drill press
table or doweling jig to drill the holes perpendicular to the sides of the
form. When you can drill a hole mid-way up the side of a piece of scrap and
exit mid-way on the other side you are ready.
Rip saw and
plane the pieces: Its a good idea to put a pencil mark across one end of the piece
before you do the rip cut so you know the orientation of the two pieces later.
Rip saw the piece down the middle. You will end up with two pieces 1 Ό thick,
1 Ό+ wide and 72 long. Plane the sawn edges so you end up with two pieces 1
Ό X 1 Ό X 72.
Drill the push
holes:
The push holes are only drilled through one side of the form. Mid-way top to
bottom locate the hole ½ inboard of the pull holes starting from each end of
the form. Which side of the center pull hole should you drill? Take your pick.
So now you have 13 push holes drilled. Remember that the drill size is the tap
size for the hex bolts you are using. Now tap all 38 holes in this side of the
form. Next enlarge all 25 holes in the other part of the form to the shank
size, snug fit, of the pull and dowel bolts. After some use the push bolt chew
up the rail they are pushing against. This can be over come by drilling a small
guide hole smaller than the shank size of a roofing nail and cutting a recess
for the head. Insert the roofing nail. Now the push bolt has something solid to
push against.
Dowel pins: I personally dont think
they are needed but if it makes you grin, use them. Cut the hex heads off the
12 dowel bolts. Round the end of the shank. The length of the remaining shank
on the bolt should be long enough to protrude slightly through or well into the
form when the form is closed. I would suggest threading the same rail that the
heads of the pull bolts are located.
Some use floating dowel pins, if this is your choice I would point out
that when you are drilling holes prior to rip sawing, use a smaller drill than
the dowels for their location. Drill out the hole to snug fit size deep enough
for the forms to close in each rail later.
Put the form
together:
Install the dowels, if you are using them, in their location. Seat the dowels
to the start of the shank. For the floating type just put wax on them and put
them in the holes. Put some wax or carnuba on the dowel shanks and in the their
prospective holes. Put the two pieces together starting the aligning dowels in
their snug fit holes.
Put
wax on the threads and shanks of the pull bolts and install. Put wax on the
push bolt threads and install. You now have a form that can be pulled together
or pushed apart. Close the form. The rails should fit together with no gaps and
top and bottom aligned flat. If all is well you may not be able to see the
joint when the form is closed. If the top and bottom have a slight edge at the
joint and you have a planner, no sweat. With the form closed make a very light
pass on the top surface and then make another pass on the bottom surface until
flat.
The procedure
from here on will work for wood or metal forms. Please note that this
procedure only requires the setup adjustment once prior to cutting the grove
for both sides. Once set, dont change it. Some may ask, Why do you have the
butt end on the same end of the form on both sides? Its so you dont have to
readjust the form from one side to the other to cut the groove.
Cutting the
grooves:
One side of the form will be used to make tip sections and the other to make
butt sections. The finished slope of the groove on either side will be
.001/inch.
Lay
the closed form, with pull bolts facing you, on the bench in front of you. Draw
a line across the top of the form directly over each pull adjusting bolt. Label
the lines starting on the far-left 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12.
This will be the TIP side of the form.
Turn
the form over front to back. The pull bolts should be facing away from you.
Draw a line across the form directly over the pull adjusting bolts as before.
Label the lines starting at the left 12, 13, 14, 15, 16, 17, 18, 19, 20, 21,
22, 23, 24.
Objective:
Cut a groove on each side of the form so that the slope of the grove is .001/
inch. so that tip station 12 and butt station 24 will be the butt end of their
respective sides.
With
the Tip side up, open the form slightly, about 1/16, its entire length. With a
60° point installed on your Dial Indicator start at tip station 12 and set your
Dial Indicator to 0. Move to station 11 and set the form so the DI reads
.005 deeper. Continue towards station "0" setting each station so
that the DI reads.005" deeper than the pervious.
Recheck
your work. When you are done your readings will look like this:
0 1 2 3 4 5 6 7 8 9 10 11 12
.060 .055 .050 .045 .040 .035 .030 .025 .020 .015 .010 .005 0
Tip-
Do Not change the setting of your DI, you will use it later to check your
progress of cutting the groove. You also shouldnt need to change the setup to
cut the grooves in the either side.
Example:
Tip side station 0 to have a .030 depth with the forms closed. You are
finished cutting the grove in the tip side when ALL stations and every thing in
between reads .090 with the above setup. You are finished cutting the grove in
the butt side when ALL stations and everything in between when the DI reads
.150 The resulting groves will have slopes of .001/inch.
Results:
Closed form groove depth dimensions of the finished form:
Tip side
0 1 2 3 4 5 6 7 8 9 10 11 12
.030 .035 .040 .045 .050 .055 .060 .065 .070 .075 .080 .085 .090
Butt side
12 13 14 15 16 17 18 19 20 21 22 23 24
.090 .095 .100 .105 .110 .115 .120 .125 .130 .135 .140 .145 .150
Getting ready to cut the 60° groove: You will need to make a couple of cutting tools. Here are two: 60° Lathe Bit Plane, for fast cutting and the File Plane, for final cutting. The FP is featured along with how to use it in Power Fibers October 2001 issue.
1.
60° Lathe Bit Plane: Mount a 3/8 60° lathe bit in
a self-centering plane type hardwood block. The bit must be adjustable up and
down. You will find out that very small cuts are best. You can push it
or pull it but you must keep the bit centered in the gap of the form.
Using Maple stock:
Mill 2 piece 3/4 X 1 X 12 (stock for sides of tool)
Mill 1
piece 3/8 X 1 X 12 (spacer
stock)
Mill 1
piece 3/8 X 3/8 X 12 (guide
stock)
Cut: 2
piece 4 long from spacer stock.
Cut remaining in half.
Cut a 60° V bevel point on each end of the 3/8 X
3/8 guide stock, then cut in half.
Lay one of the side pieces on a flat surface.
Using the lathe bit and the two 3/8 X 3/8 as
spacers place the lathe bit in the center with a 4 piece on either side
followed by a V block on either side followed by one of the 2 scrap pieces.
Glue the pieces without gluing the bit and V blocks. Glue the remaining side in
place.
When everything is dry trim the ends of the scrap
pieces flush. You should now have a block approximately 1 high 12 long and 1
7/8 wide with three 3/8 square holes. At the center hole, drill and tap a
Ό-20 hole for a setscrew to hold the bit adjustment.
The forward and trailing V guide blocks are needed
to keep the bit centered in the gap. They must also be able to move up and down
freely to follow the width of the gap. Drill a Ό dowel hole at a location
where the V blocks downward travel can not project more than 3/8 below the
bottom surface of the plane. Glue a dowel leaving a projection out each side.
Mount a flat spring pushing down on the dowel.
You may want to mount a handle like a block plane or
a ½dowel projecting to either side or simply round and sand the trailing edge
of the plane. Just rounding works fine.
2.
File Plane: The second tool works on the
principle of a parallelogram. The cutting tool is a three-corner file. Epoxy
the file to one side of the parallelogram later. Mid way on the opposite side
drill and tap a Ό-20 hole. Now, with a Ό-20 thumb bolt you can force the
parallelogram apart.
The short sides of the parallelogram are made from steel strap with Ό inch holes on about 1 1/8 centers.
The long sides are slightly thicker than the flat
width dimension of the file. The length will depend on the file you wish to
use, probably about 6or 7. Mill a piece about 24 long, you will use the
scrap latter. The width will be about 5/8. Drill a Ό hole ½ from the ends.
Cut a slot, thickness of strap material, in each end of the long sides. Using
Ό steel dowel pins, length equal to thickness of long sides thickness, put the
parallelogram together. The slots are cut deep enough so the long sides will
come together. Now you can center and epoxy the file in place.
Build a box, open top and bottom, to hold the
parallelogram. The inside width will be the same as the thickness of the long
sides of the parallelogram. The inside length will be the length of the
parallelogram when the long sides are touching. The height will be slightly
less than the total height of the parallelogram when fully extended, not
including the file.
Mill two ½ thick pieces of stock for the sides of
the box. Cut two pieces from the left over scrap from the long side of the
parallelogram to a length equal to the height of the box. These are the ends of
the box. Glue one piece aligned to the right-hand edge of the side piece. Using
the parallelogram as a guide with the long sides touching, position and glue
the second end piece.
Take the parallelogram apart. Glue the top piece,
the one with the bolt hole, aligned with the top edge of the box and butted against
the left end piece. Please note: The cutting direction of the file will be
pointing to the left when assembled.
Sand both sides of the piece that has the file
epoxied slightly. We want this piece to be able to move up and down in the box,
not a jam fit. Put the parallelogram back together with the files cutting
grain pointing to the left.
Glue the other side in place, add some Ό dowels for
strength if you wish, trim off the ends, relieve the edges and sand. Round over
the trailing top end for palm comfort.
Cutting the grove:
Secure the previously setup form, butt end tip side up to the left for right handers, to the bench top. This is where the extra length of the form will be used as run-out to help keep the 60°LBP centered.
Using the 60°LBP set the lathe bit to just touch the gap
on the butt end of the form. You will quickly find out that you can not be too
aggressive in the amount of maternal you try to remove per pass. You want to
shave it, not hog it out. When the tool will no longer cut adjust the bit down
and shave some more. Continue this process until the lathe bit is making
contact with the form the entire length of the gap. When you get to .004-.005
of the final depth of the groove switch to the FP. You will find the FP will
load up rapidly when filing wood. Clean often and take your time. This is not
the time to screw-up. When you get to the dimensions as stated above at all
location along the groove, youre done with this side. Turn the form over and
do the other side.
File Plane
:
60°LBP:
