StiobNotes 

Vol. 7 mt Issue 37 


Issue 37 


0 Small Parts Cabinet a Making Dovetail Keys 
n Chisel Case ■ Wood Plugs ■ Shop-Tested Tips 




EDITOR'S NOTE 



Issue 37 January 1998 


publisher Donald B. Peschke 
editor Tim Robertson 

assistant editor Bryan Nelson 
art director Cary Christensen 

SR. GRAPHIC DESIGNER Kui t Schultz 
senior illustrators Roger Reiland 
Mark Higdon 


creative resources 

Creative Director: Ted Kralicek • Project Developer: Ken 
Munkel * Project Desixptevs.-Ted Wong, Kevin Boyle * Project 
Coordinator: Kent Welsh • Shop Mgr.: Steve Curtis • Shop 
Craftsman: Steve Johnson • Photography Director: 
Lark Smothermon • Sr. Photographer: Crayola England 

BOOKS 

Executive Editor: Douglas L. Hicks • Art Director: 
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CIRCULATION 

Sub. Seav. Dir.: Sandy Baum • New Bus. Dir.: GlendaBattles 

• New Bus. ikfy/::Tbdd L. Bierle • Renewal Mgr.:Psige Rogers 

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Maint.: Ken Griffith • Special Pro/. Dir.: Saville H. Inman 


MAIL ORDER 

Operations Dir.: Bob Baker •Mat’lsMgr.: MarkMattiussi • 
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Cutoffs 


I f there's a woodworking show 
nearby, you can bet I'll be at it. 
What better place to check out a new 
jig, try out a dozen different cordless 
drills, or just “kick the tires" on a sta- 
tionary power tool? 

EDGE SANDER. It was at one of these 
shows that I saw an edge sander for 
the first time. Basically, it reminded 
me of a huge portable belt sander lying 
on its side. The belt was as big around 
as a tractor tire. And a large, cast iron 
table supported the workpiece next to 
the belt. 

Together, they made this edge 
sander seem like the perfect tool for all 
kinds of sanding jobs — removing saw 
marks from a tapered leg, sanding the 
“pins” on a dovetailed box flush with the 
sides, or sanding a workpiece to shape. 

But besides making quick work of 
tough sanding jobs, there was some- 
thing else that impressed me even 
more about this edge sander — the belt 
sanded in line with the length of the 
workpiece. So there were no cross-grain 
scratches like you get with a disk sander. 


The only drawback to this edge 
sander was the cost. With a price tag of 
over $1000, I'd have to admit it was an 
impractical tool for most small shops. 

But shortly after that, several man- 
ufacturers began making edge sanders 
for the home shop. That's when we 
decided to buy an inexpensive model for 
our shop. Unfortunately, we “bought” 
some problems along with it. 

The sander vibrated and shook like a 
wet dog. And we were constantly fid- 
dling with the tracking to keep the 
sanding belt adjusted properly. But the 
real clincher was when the bearings 
started that high-pitched scream 
that's a sure sign they're wearing out. 

SHOP-BUILT SANDER. That’s when 
Ken (our project developer) suggested 
that we build our own edge sander — a 
heavy-duty version with all the fea- 
tures of an industrial quality tool. 

At first I thought he was joking. But 
he soon came up with a jig to solve one 
of the biggest problems — making the 
rollers. Or, to be more exact, creating a 
barrel-shaped “crown” that would 
center the sanding belt on the roller. 

The jig was unusual looking — a 
small box with a crank on the side that 
turned the roller on the inside. As he 
turned the crank, I couldn't help thinking 
of an old-fashioned organ grinder. But 
there was no music. And no monkey. 

Instead, he passed a hand-held 
router across the gently curved sides 
of the box to form a perfect crown 
on the roller. (For more information 
on the edge sander, see page 16.) 
HELP WANTED. We’re looMng for an 
associate editor to join our staff here at 
ShopNotes. Ideally, this person 
will be enthusiastic about wood- 
working and have writing experi- 
If you're interested, send a 
resume and letter to: J. S. Moore, 2200 
Grand Ave., Des Moines, IA 50312. 




2 


ShopNotes 


No. 37 





ISSUE THIRTY-SEVEN 


* Contents 


Techniques 


Dovetail Keys 12 

Small wood “keys’’ create the traditional look of a 
dovetail joint — without all the work. Plus, they add 
strength to the mitered corners of a box. 

Cutting Wood Piuge 30 

What’s the secret to making a wood plug blend invisibly 
with the area around it? And which plug cutters are 
best? We take a look at the answers to both questions. 

Projects 



Chisel Case 6 

Made of quartersawn white oak and mahogany, this 
chisel case is as attractive as it is practical. Whether 
the case is hanging on a wall or sitting on a bench, a 
unique tilting rack provides easy access to your chisels. 


Edge Sander 16 

This shop-built edge sander makes quick work of tough 
sanding jobs. It’s made of common materials and 
hardware. Yet it offers a precision tracking system for 
the sanding belt, two adjustable sanding tables, and a 
convenient dust hook-up for your shop vacuum. 


Departments 

Readers 9 Tips 4 

A small parts cabinet with a special drop-down 
sorting tray is just one of the shop-tested tips 
provided by our readers. 


Shop Solutions 14 

Use these tips from the guys in our shop to get 
professional looking results on the projects in this issue. 



Sources 31 

Here’s a list of hardware, supplies, and mail order 
sources for the projects in this issue. 



Chisel Case page 6 



Dovetail Keys page 12 



Edge Sander page 1 6 



Cutting Wood Plugs page 30 


No. 37 


ShopNotes 


3 







Readers’ Tips 



NOTE: BACK OF 
CABINET ANP TRAY 
FRONT ARE y 4 " HARPBOARP; 
ALL OTHER PIECES ARE MAPE 
FROM 3 /4"-THICK STOCK 


HOOK 


PLASTIC 
CUP WITH 
SCREW-ON LIP 


■ The plastic cups in this cabinet 
provide a handy way to organize 
small pieces of hardware. But 
there's something else about it I 
like even more — a drop-down 
sorting tray that doubles as the 
door of the cabinet. 

After lowering the tray, you 
just dump out the contents of 
one of the cups to find the piece 
you want. Then sweep the 
remaining pieces through a hole 


in the tray and back into the cup 
that's held below, see photo and 
detail ‘b.' 

Before building the cabinet, 
it's a good idea to have the plastic 
cups in hand. (I bought cups with 
screw-on lids from a medical 
supply company.) 

What's nice about these cups 
is you can screw the lids under 
the shelves (or the top) of the 
cabinet, see drawing and detail 


'a.' This way, all it takes is a 
quick turn of the wrist to remove 
a cup (or put one back). 

The cabinet is quite simple — 
just an open box that's hinged to 
the tray. Attaching a short chain 
provides support for the tray 
when it's open. And when it's 
closed, a hook and screw eye lock 
the tray securely in place. 

Stephen Shaw 
Long Beach , California 


4 


ShopNotes 


No. 37 



TIPS & TECHN 


Quick Tips 



A By locating a block with a self- 
adhesive magnet near each tool, 
D. Hicks of Urbandale, Iowa 
never misplaces his metal rules. 



A To provide better coverage 
when applying stain to a dowel, 
R. B. Himes of Vienna, Ohio cuts 
a V-shaped notch in a foam brush. 



A With a scrap of Plexiglas carpet- 
taped to his work, M. TeRonde of 
Madrid, Iowa keeps the point of a 
compass from marring the surface. 


Overhead Storage 



■ Finding space in my basement 
shop to store short cutoffs was 
always a problem. At least until 
I realized that the steel I-beam 
running overhead offered a 
great storage solution. 

To store these short pieces up 
out of the way, I hang support 
arms made from “two-by” mate- 
rial from the bottom flanges of 
the I-beam, see drawing. 

Each support arm is held in 
place by two L-shaped hooks. 
The hooks are simply threaded 
into the support arms until they 
pinch tight against the I-beam. 

Ted Moravec 
Palatine , Illinois 



Wood screw Ti. 



■ When installing woodscrews 
in the edge of manufactured mate- 
rials like MDF, it’s all too easy to 
split the sides of a workpiece — 
even if you drill a pilot hole first. 

To prevent this, I support the 
sides by clamping an ordinary 
handscrew across the workpiece. 

Walter Peachey 
Port Moody , B.C. 


Send in Your Tips 

To share your original tips and solu- 
tions to problems you’ve faced, send 
them to: ShopNotes, Attn.: Readers’ 
Tips, 2200 Grand Ave., Des Moines, 
IA 50312. (Or if it’s easier, FAX 
them to us at: 515-282-6741.) 

We’ll pay up to $200 depending on 
the published length. Please include a 
daytime phone number so we can call 
you if we have any questions. 


No. 37 


ShopNotes 


5 






SHOP PROJECT 




A To "unlock” the chisel 
case, simply rotate a turn- 
button on each side. The 
turnbuttons also keep the rack 
from tipping too far forward\ 
when the case is mounted on 
the wall, see photo above. 


Chisel 


A Made of quartersawn white 
oak and mahogany, this 
chisel case is as attractive 
as it is functional. 


Case 

Whether you hang this case on a 
wall or set it on a bench, a tilting 
rack keeps your chisels right at hand. 

T here's no question that this chisel case is a 
great looking project. It's made of quartersawn 
white oak. And we used mahogany for the dovetail 
“keys” in the corners and the small accent pieces. 

But what really intrigues me about this case 
isn't how it looks. It's how it ivorks. 

TILTING RACK. The chisels are held securely in 
place by a tilting rack. The unique thing is the rack 
locks in tivo different positions. This way, it pro- 
vides easy access to your chisels whether the case 
is mounted on the wall (see photo above) or sitting 
on a bench, see center photo below. 

WALL-MOUNTED. To “unlock” the case when it's 
hanging on a wall, you simply rotate a small wood 
tumbutton, see photo below right. Then flip up the 
cover, reach inside the case, and pull the rack for- 
ward. The cover drops neatly behind the rack, see 
Wall Mounted detail on page 7. And when you tip 
the rack back up, the turnbuttons lock it in place. 


When working at your bench, the ► 
cover of the case props the rack at 
a convenient angle which makes it 
easy to remove a chisel. 


HANGING SYSTEM. But just because the chisel 
case is mounted on the wall doesn't mean it's a per- 
manent fixture. We've incorporated a hidden 
hanging sysem that lets you quickly remove the 
case and take it to your workbench. 

BENCHTOP. With the chisel case lying flat on the 
benchtop, the rack needs to be propped up so youj 
can slide the chisels in and out. 

Here again, just tilt the rack up out of the case 
and lowering the cover behind it, see Benchtop 
detail. But here, the cover fits in a special wood 
catch that's attached to the back of the 
rack. This holds the rack at a conve- 
nient angle and locks it in place. 


6 


ShopNotes 


No. 37 





CLEAT 


POVETAIL 

KEY 


UPPER 

COVER 


WOOP 

PLUG 


KEEPER 

STRIP 


RACK® 


SACK 


SCREW 
SOTTOM 
CLEAT 
TO WALL 


SUPPORT 

STRIP 


TURNSUTTON 


SLAPE 

REST 


#6 x r 
Fh SRASS 
WOOPSCREW 


V) CATCH 


Wall Mounted . ► 

A two-piece cleat is used 
to hang the case on a 
wall. The beveled edges 
of the cleats hook together 
and allow you to lift the 
case off the wall. 


LOWER 

COVER 


SLAPE 

SLOCK 


◄ Benchtop. With the chisel 
case lying flat on a bench , 
the cover hooks into a wood 
catch in back of the rack 
to prop it at an angle. 


MO 


Materials 

A 

Rack (1) 

% x f/a - 10% 

S 

Blade Rest (1) 

V z x 5 7 /s - 10% 

C 

Support Strip (1) 

V 2 x 3 / 4 - lOVa 

D 

Catch (1) 

V 2 x 3 / 4 - 10% 

e 

Blade Block (1) 

7 la x W% - 2% 

F 

Sides (2) 

%x2%- 14 

G 

Ends (2) 

3 /&x2 7 / a -11 

H 

Back (1) 

ICP/a x 13% - % Ply. 

1 

Dovetail Keys (12) 

%x%-1% 

J 

lower Cover (1) 

% x 10' /a - 2 3 U 

K 

Upper Cover (1) 

3 /ax10%-9 ,5 / 16 

L 

Lip (1) 

3 /,6 x 3 4 - 10% 

M 

Turnbuttons (2) 

X 

5? 

1 

N 

Keeper Strip (1) 

% X 1% - 10% 

0 

Cleats (2) 

%x2- 10’U 


No. 37 


ShopNotes 


7 




SHOP PROJECT 


Tilting Rack— 

The best way I found to make 
this chisel case is to work from 
the inside out. This way, I could 
customize the tilting rack to fit 
my chisels, then build the case 
around it. 

RACK. I began by making a 
hardwood rack (A), with key- 
hole-shaped openings that hold 
the chisels securely in place, see 
drawing and Fig. 1. 

The rack starts out as an extra- 
wide blank. Before determining 
the length of this blank, you'll 
need to lay out the locations of 
the openings for the chisels. This 
depends on the size of the handles 
at their thickest point. 

To provide plenty of finger 
room when removing a chisel, I 
allowed %" between the handles, 
see Fig. 1. And I laid out the cen- 
terpoints of the openings starting 
1" in from one end, see Fig. la. 
After allowing an additional 1" at 
the opposite end, I cut the blank 
to length (lOVg” long in my case). 

Another thing to consider is the 
size of the openings. They need to 
be large enough to allow the 
metal ferrules on the handles to 
fit down inside, yet small enough 
that the chisels don't fall through. 



Also, to keep 
the cover on the case 
from hitting the chisels when 
it's closed, the openings are 
located so the handles set back Vs" 
from the front edge, see Fig. lb. 

Once you've laid out the open- 
ings, it's just a matter of drilling 
a series of holes (Fig. 2), then 
cutting intersecting notches, see 
Fig. 2a. 

BLADE REST. The next step is to 
add the blade rest (B), see Fig. 3. 
Besides supporting the rack, it 
provides a flat surface for the 
backs of the blades to rest against. 

The blade rest is the same 


/ 

© 
CATCH 


length as the rack, 
and its height (width) 
is designed to work 
for chisels up to ll 1 //- 
long. Cutting a bevel along the 
top edge provides clearance for 
the tapered necks on the chisels, 
see Fig. 3a. (In my case, this 
bevel was 12°.) 

At this point, you're almost 
ready to attach the rack. But first, 
you'll need to trim it to final width. 
The idea is to end up with a V 2 " 
overhang in back of the rest, see 
Fig. 3a. This way, the back edge of 
the rack will serve as a “stop" 
when it's lowered into the case. 




8 


ShopNotes 


No. 37 






SHOP PROJECT 


An easy way to determine the 
final width of the rack is to set a 
chisel in the opening at each end 
and press the blades against the 
rest, see Fig. 3. This moves the 
rack into its correct position so 
you can mark and trim it to width. 

ATTACH RACK. Now you’re 
ready to attach the rack. It sits 
on the top edge of the blade rest. 
Since this edge is quite thin, I 
added another hardwood strip to 
provide extra support, see Fig. 4. 
This support strip ( C) is simply 
glued to the rest and the rack. 

CATCH. The next step is to add 
a catch (D) to the back of the 
blade rest. It’s a thin strip of 
hardwood that keeps the cover 
from dropping into the case 
when the rack is propped up. To 
form a lip that holds the cover in 
place, the catch is rabbeted and 
then glued in place, see Fig. 4a. 

BLADE BLOCK. To complete 
the rack, I added a blade block 
( E ), see Fig. 5. It’s a thick block 
with grooves that form pockets 
for the blades on the chisels. 

I cut these grooves V 2 " deep. 
You’ll want to check that they’re 
deep enough that they don’t 
restrict the blades when you lift 
out the chisels. 

In addition to protecting the 
chisels, the blade block works 
together with the rack to sup- 
port the two-part cover. So to 
ensure that both covers are flush 
when the case is closed, the 
blade block is thicknessed so it’s 
in line with the front edge of the 
rack, see Fig. 5. 

GRAIN. One last thing to note is 
the grain direction of the blade 
block. It runs up and down (the 
same direction as the lower 
cover that’s glued on later). This 
means that it’s opposite the grain 
direction of the blade rest. 

So to allow for expansion and 
and contraction with changes in 
humidity, the block is attached to 
the rest by drilling oversize shank 
holes and screwing it in place. 



Using a piece of 
scrap as a spacer 
makes it easy to 
properly position 
the catch. 



No. 37 


ShopNotes 


9 








Case 


SHOP PROJECT 


© TURN BUTTON 


With the rack complete, all that’s 
left is to build the case around it 
and add a two-part cover, see 
drawing at right. 

The case starts out as a 
shallow box consisting of 
thick sides (F) and ends (G), see 
Fig. 6. They’re joined at the cor- 
ners with miters and strength- 
ened with dovetail shaped keys. 

WIDTH. Establishing the width 
of these pieces is easy. They’re 1" 
wider than the thickness of the 
rack. This provides the depth 
that’s needed inside the box for 
the rack. And to provide visual 
interest, it will allow the covers 
to be recessed Vs" below the top 
edge of the case. 

LENGTH. You’ll also need to 
determine the length of the 
pieces. The ends are Vs" longer 
than the width of the rack. And 
the sides are 14" long to accommo- 
date chisels up to 11 Vs” in length. 


LOWER v 
COVER © 
Q) LIP 



TURN BUTTON DETAIL 


T\ Z 


* p 

i%“i ® 

LIB 

\ 

i WASTE 

/ 

/ 

/ 


NOTE: TURNSUTTON 
IS %"-THlCK HARDWOOD 


BACK. To enclose the rear of 
the case, I added a plywood back 
(H), see Fig. 6. It fits into a 
groove near the bottom of the 
ends and sides. 



KEYS. After gluing the box 
together, I routed slots across 
the corners and glued in dovetail 
keys (I), see Fig. 6. (For more on 
this, refer to page 12.) 

COVER. Once the case is com- 
plete, you can concentrate on the 
cover. It’s made up of two parts: 
an upper cover that swings 
behind the rack to prop it up, and 
a loiver cover that’s attached to 
the front of the tilting rack. 

To produce a consistent grain 
pattern, I made both covers 
from a single glued-up blank, see 
Fig. 7. It’s Vs" narrower than the 
case opening and about 2" longer. 

The next step is to cut the 
lower cover (J) to match the 
length of the blade block and 
glue it in place. But before you 
cut the upper cover to length, 
there are two things to take into 
consideration. 

First, there’s an Vs" gap 
between each cover and the ends 
of the box. And second, after a 
lip is attached later to the upper 
cover, there’s an Vs" gap between 
the covers. 

Once the upper cover (K) is cut 
to length, I drilled a finger hole 
to make it easy to lift the cover, 
see Fig. 7. Also, a thin lip (L) 


10 


ShopNotes 


No. 37 





SHOP PROJECT 


5EC0NP: slip in shims 

Vie" SHIM 


SHIM 



FIRST: 

SET SPACERS 
UNDER SLADE REST 
AND UPPER COVER 


THIRD: TIGHTEN CLAMP 
ACROSS ENDS OF CASE 


SET Va' -THICK SPACER 
UNDER SLADE REST 



that’s glued to the upper cover 
will hook into the catch on the 
back of the rack. (I used mahogany.) 

ASSEMBLY. At this point you’re 
ready to attach the covers (with 
rack attached). To allow the 
covers to swing in and out of the 
case, they’re held in place with 
metal pins. 

These pins pass through coun- 
terbores in the sides and into 
holes in the upper and lower 
covers. Locating these holes is 
easy. The trick is keeping the 
parts from shifting as you drill 
the holes. 

The best way I found to do 
this is to place a spacer under the 
blade rest and upper cover, see 
Fig. 8. The idea is to size the 
spacers so the covers are flush 
with each other. After fitting 
shims into all the gaps, tighten a 
clamp across the ends and drill 
the holes, see Figs. 9 and 9a. 

Now just push each pin into 
place and glue in a plug to hide 
the pin. (For more on cutting 
wood plugs, see page 30.) 

TURNBUTTONS. Next, I added 
two mahogany turnbuttons (M), 
refer to drawing on page 10. 

They rest in curved recesses 
drilled in the sides and cover, see 
Fig. 10. To minimize chipout, I 
clamped a scrap to each side of 
the case and carpet-taped two 
more scraps to the cover. 


KEEPER STRIP All that’s left to 
do is glue in a hardwood keeper 
strip (N), see Fig. 11. It keeps 
the chisels from slipping out of 
the rack when you carry the case. 


CLEATS. Finally, to hang the 
case on a wall, I used two beveled 
cleats (0), see Fig. 12. Mounting 
the case is just a matter of 
“hooking” the cleats together. iL 




No. 37 


ShopNotes 


11 












Dovetail 

Keys 


I f you take a 
quick glance 
at the corner of this 
box, it may appear to be 
held together with traditional 
dovetail joints. But it’s not. 

A closer look shows that the 
comer pieces are mitered. And 
there are dovetail-shaped “keys” 
(splines) running across the miter. 

STRENGTH. One big advantage 
of these keys is they help 
strengthen the miter joint. 
That’s because they’re glued into 
slots that are routed across the 
miters, see photo at right. This 
creates a stronger glue joint 


than the end grain surfaces of 
the mitered pieces. 

CONTRAST. In addition to pro- 
viding extra strength, the wood 
keys also produce a striking con- 
trast. Take the chisel case shown 
on page 6 for instance. We used 
mahogany for the keys to contrast 
with the oak sides of the case. 

SLOTS & KEYS. Although adding 
dovetail keys to a box looks like 
it might be complicated, that’s 
really not the case. Basically, it’s 
just a simple two-part process. 

First, the slots are routed 
across the miter joints. (You’ll 
need a dovetail bit and a “cradle” 


LAYOUT 


L NES 


14° DOVETAIL 
BIT 


I To locate the cleats, align the center mark 
on the box with the middle of the slot in 
the base. Then screw the cleats in place. 




2 Now rout each center slot by fitting the 
corner of the box down into the V- 
groove and sliding the jig across the bit. 


to hold the box steady for this, 
see page 13.) And second, the 
keys are cut to fit the slots. 

SLOTS 

Routing the slots for the dovetail 
keys is easy. The trick is getting 
the slots in one corner to align 
with those in the others. 

CLEATS. The best way I’ve 
found to do this is by “fencing” 
the box in the jig with two cleats. 
By preventing 
the box from 
shifting as you 
rout the slots, 
the cleats ensure 
a uniform look. 

To position 
the cleats, all 
you need to do 
is lay out the 
location of the 
slots on one of 
the corners of 
the box. 

Since the chisel case has an 
odd number of slots, I centered 
one mark on the corner, see Step 
1. The two outside slots will be 
routed using the same setup, so a 
single mark takes care of both. 

ROUT SLOTS. Once the cleats 
are attached, it’s just a matter of 
routing the center slot in each 
corner, see Step 2. 

Before routing the remaining 
slots, you’ll need to reposition 
the cleats. This is where the 
second layout mark comes in 
handy, see Step 3. 

After reattaching the cleats, 
you won’t have to move them 
again. Just rout all of the slots 
near one edge, see Step 4. Then 
flip the box around to rout the 
remaining slots. 



3 To reposition the cleats, align the outside 
layout mark with the center of the slot in 
the base. Then simply reattach the cleats. 


FIRST: 


SECONDr 

ALIGN OUTSIDE LAYOUT 
MARK ON CASE OVER 
CENTER OF SLOT IN JIG 



4 After routing the bottom slot in each corner, 
there's no need to move the cleats. Just 
turn the box around to rout the rest of the slots. 


12 


ShopNotes 


No. 37 



TECHNIQUE 


KEYS 



Once the slots are completed, it’s 
just a matter of adding the dove- 
tail keys, see photo. 

The keys are 
HHM made using the 
same dovetail bit 
used to rout the 
slots. Since the keys 
are quite small, it’s best to 
stall with a long, extra-wide blank. 

The goal is to rout dovetail- 
shaped strips on the blank that fit 
tightly in the slot, see Step 1. To 
do this, I “sneak up” on a perfect 
fit by making a series of passes 
and checking the fit frequently. 

Ideally, the strip should feel 
like it's almost too tight. At that 
point, you can rip the strips from 
the blank (Step 2) and cut them 
into individual keys. 

Before gluing the keys into 
the slots (Step 3), check the fit 
again. You may have to sand one 
side lightly to get a perfect fit. 

After the glue dries, it’s a 
simple matter to remove the 
excess waste, see Step 4. A 




1 After raising the bit Vie" higher than the ^ To rip the strips from the blank , position the 
depth of the slot, rout dovetail shaped fence on the table saw so the blade cuts 
strips on the blank that fit tightly in the slots. to the waste side of the shoulder. 



3 After cutting the strips into short pieces , 
apply 9^ to the key and the slot. Then 
push the key all the way through the slot. 



4 Once the glue dries, trim off the waste 
with a hand saw and sand the keys flush 
with the sides of the box. 



It's easy to rout a slot for a dove- 
tail key in the mitered corner of 
a box. The hard part is holding 
the box at the proper angle. 

That's where this sliding 
“cradle” comes in. The corner of 
the box rests in a V-shaped groove 
in the base, see drawing. And a 
runner guides the base in the 
miter slot of the router table. To 
keep the box from shifting, you'll 
also need to add two cleats . 
Note: These cleats are attached 
later, refer to text. 

One thing to be aware of is 
the base raises the corner of the 
box above the router table, see 
detail 'a.' So to rout the slot, 
you'll need to raise the dovetail 
bit high enough that part of the 


shank is exposed. 

To clear a “path” for this part 
of the shank, rout a slot in the 
base with a straight bit first, see 
Step 1. Then complete the slot 
with a dovetail bit, see Step 2. 



No. 37 


ShopNotes 


13 






TIPS & TECHNIQUES 


Shoo 


Solutions 


TIPS FROM OUR SHOP 


CIRCLE-CUTTING JIG 



■ Cutting the disks that make up 
the rollers of the edge sander (page 
16) is easy. All it takes is a band saw 
and a simple circle-cutting jig. 

JIG. The jig consists of three 
parts: a base and runner made 
from MDF, and a short steel pivot 
pin , see drawing at right. 

A runner sized for the miter 
slot in the table of the band saw 
fits a groove in the base. To keep 
from cutting into the jig, the 
groove is located so the base is 
Vie" from the saw blade, see detail. 

Before adding the runner, you'll 
need to drill a counterbore for the 
pivot pin. The distance from the 
centerpoint of the counterbore to 
the saw blade equals the desired 
radius of the disk, see detail. 

SETUP Using the jig to cut a 
disk is a simple three-step 
process. The first step is to posi- 
tion the jig so the center of the 


WORKING WITH 
STEEL ROD 

■ When making the rollers 
for the edge sander, I used 
dia. steel rod for the shafts. 
But when I tried to slip the 
bearings (which had an inside 
diameter of %") onto the ends 
of the rod, they wouldn't fit. 

That's because the rods had 
been shear cut to length, and 
this had flared the ends just a 
bit. So to get the bearings to 
fit, I filed the ends of the rod. 

But even then, there was an 



extremely thin coating on the 
rods that kept the bearings 
from sliding up and down. Here, 
a little sanding with silicon car- 
bide sandpaper was an easy fix. 



pivot pin is directly across from 
the leading edge of the blade, see 
Step 1 below. Then set a stop 
against the front edge of the jig 
and clamp it to the table. 

CUT DISK. With the stop in 
place, fit the hole in the blank 


over the pin. Then hold the blank 
securely as you slide the jig for- 
ward. When the front edge con- 
tacts the stop, rotate the blank 
clockwise to cut the disk. Once 
you've come full circle, slide the 
jig back and remove the disk. 





14 


ShopNotes 


No. 37 








“TURNING” WITH A ROUTER 


■ The rollers on the edge sander 
(page 16) are barrel-shaped with 
a slight “crown” in the middle. 
This keeps the sanding belt cen- 
tered on the rollers and prevents 
it from slipping off. 

To form this crown, I used a 
hand-held router with a straight 
bit and a simple “turning” jig, 
see photo at right. 

TURNING JIG. The jig is just an 
open box with two sides and two 
ends, see Fig. 1. What makes it 
work is a curved “track” along the 
top edge of the sides that guides 
the base of the router. As the 
router follows the track, an iden- 
tical crown is routed on the roller. 

To lay out the curve for the 
track, I used an old trick. With a 
helper bending a scrap of hard- 
board to the desired shape, mark 
the curve along the top edge of 
the side, see Fig. la. 

After sanding the sides to 
shape, you can complete the 
track by routing a rabbet along 
the top edge, see Fig. lb. 

In addition to the rabbets, 
you’ll need to cut a pair of dadoes 


in each side to accept the ends. 
The spacing between these dadoes 
allows the roller to fit between 
the ends with a Vie" of clearance. 

ENDS. With the sides complete, 
you can turn your attention to the 
ends. They’re cut to length so the 
base of the router fits between the 
rabbets in the sides. Also, you’ll 
need to chill a centered hole in 
each end to accept the metal rod 
that runs through the roller. (It’s 
the 3 / 4 "-dia. rod used when gluing 
up the roller.) 

CRANK. Once the holes are 
drilled, you can add the crank 
that’s used to turn the metal rod. 
The crank consists of a hard- 
wood arm and a handle made 
from a short dowel, see Fig. 1. 

The handle is simply screwed 
into a counterbore drilled in one 
end of the arm. At the other end, 
there’s a hole with an inter- 
secting kerf. A screw squeezes 
the kerf together and pinches 
the arm on the shaft. 

SETUP Now it’s just a matter 
of setting up the jig. Start by 
placing a roller inside the box 


and sliding the rod all the way 
through. Then set the base of 
the router in the track so the bit 
is centered on the length of the 
roller, see Fig. 2a. When deter- 
mining the depth of cut, you 
want to adjust the bit so it just 
grazes the top of the roller. 

ROUT CROWN. Now you’ll need 
a helper to turn the roller while 
you rout the crown. The idea is 
to turn the roller counterclock- 
wise while you slowly rout from 
one end of the roller to the other 
(starting near the crank), see Fig. 
2. Note: You’ll need to make sev- 
eral passes to clean up the roller. 



No. 37 


ShopNotes 


15 






Shop-Built 

Edge 
1 Sander 


few years back, we bought an inex- 
pensive edge sander for the shop. It 
sounded like a great way to take the 
drudgery out of sanding. 

The basic principle of this sander was simple — 
it was like a huge portable belt sander lying on its 
side. With a long, wide sanding belt running around 
a pair of rollers, it removed stock in a hurry. And 
since the rotation of the belt was in line with the 
workpiece, it didn't leave cross-grain scratches. 

In spite of that, I was still disappointed with the 
edge sander. It vibrated and shook like an old 
washing machine. And it was a pain trying to keep 
the tracking on the sanding belt adjusted properly. 
So when the bearings on the rollers finally seized 
up and died, all I could say was good riddance. 

SHOP-BUILT SANDER. That's when Ken (our pro- 
ject developer) came up with the idea of building 
our own edge sander. At first, I thought it was a 
crazy idea. But now, I have to admit it. When you 
turn on the switch, this big, green sanding 
machine is an impressive tool, see photo. 

It runs smooth and strong — just like you'd 
expect from an industrial quality tool. And when you 
adjust the tracking (see inset photo), the belt not only 
shifts up or down on the rollers instantly — it stays put. 

If you combine that with the other features incorpo- 
rated in this edge sander (see photos below), I’m con- 
vinced — this shop-built edge sander really is better. 





▲ Curved Pieces. An end table 
“wraps” around a roller so you 
can sand curved workpieces. 



A Changing Belts. A quick- 
release tension device makes it 
easy to change sanding belts. 



A Stop. Clamping a stop to the 1 
front table allows you to sand the 
ends of a workpiece square. 


16 


ShopNotes 


No. 37 



FEATURE PROJECT 



Flange Bearing 
supports shaft 
of drive roller 


Dust Hood 
connects 
to shop 
vacuum 


Core adds rigidity and 
keeps rollers aligned^ 


DRIVE 

ROLLER 


PULLEY 

GUARD 


Springs apply 
tension to 
sanding belt 


Pulleys 
'step down 1 
speed of 
^ motor 


3 4" hp 
Motor 


Stop clamps to 
table when sanding 
ends square 


Sleeve 
houses 
core and 
tracking 
system 


Mounting 
Panel 
supports 
front table 


Front Table 
provides solid 
support for 
large workpieces 


Slotted supports let 
you adjust height 


H Sleeve Sidee (2) 24 5 /& x 30 - 3 / 4 MPF 

I Core Support (1) 3 / 4 x 3 - 30 

J Lower Sleeve Ends (2) 3x 14V& - 3 U MPF 
K Upper Sleeve End (1) 3 x 9 - 3 / 4 MPF 

L Prive Roller Support (1) 3 / 4 x 3- 13'/ 2 


M Leg Fanele (2) 

N Rear Leg Fiecee (2) 

O Front Leg Fiecee (2) 

F Support Block (1) 

Q Top (1) 

Pulley Guard & Platen 


17x34’/ 2 - 3 / 4 MPF 
2 x 34 , / z - 3 / 4 MDF 
107 2 x 34V 2 - 3 U MPF 
3x9 - 3 / 4 MPF 
3 U x 4'/2 - 357s 


R Upper Front Cover (1) 
5 Lower Front Cover (1) 
T Pack Cover (1) 

U End Piece (1) 

V Platen (1) 


9 3 / 4 x&/ 2 - 3 / 4 MPF 
7x7 - 3 l 4 MPF 
2'h x &h - 3 U MPF 
3 / 4 x 3 - 14’/ 2 
6 V 2 x 30 - % Ply. 


Duet Hood 

W Dust Hood Side e (2) 

X Back (1) 

Y Cap (1) 

Sanding Tables 

Z Mounting Fane/ (1) 
AA Adjuet. Flatee (2) 

BB Suppt. Brackete (4) 
CC Front Tabletop (1) 

PP Guide Block (1) 

EE Stop (1) 

FF Mounting Flate (1) 
GG Exteneion Stripe ( 2 ) 
HH Adjustment Flate (1) 
JJ End Tabletop (1) 


3 Ux1 3 /&-3 

3 / 4 x4Y 2 -11 3 / 4 

3 / 4 x2%-4 ] / 2 

16x23 1 / 2 - 3 / 4 MPF 

3 / 4 x4 3 U-16 

3 / 4 x3-16 

V/a x12- 35 

3 Ux1-4 

3 / 4 x4-12V 2 

6x12- 3 / 4 MPF 

3 / 4 x2V 2 -12V 2 

3 / 4 x6-12 

1 % x 12 - 12 


You’ll also need: (1) 7 1 I 2 x31 " (rgh.) piece of plastic 
laminate, and (3) 3 / 4 " x 6" hardwood dowels 


IDLER 


ROLLER 


Quick-release 
^l^ension assembly 
makes it easy to 
change sanding belts 


Tracking adjustment 
changes position 
of sanding belt 
on rollers 


Mounting Plate 
guides end table 
up and down 


Platen with 
plastic laminate 
"skin" provides 
replaceable 
sanding surface 


Material e 


Rollers & Core 

A Pisks (16) 

3 Spacers ( 6 ) 

C Sides (2) 

P Cover (1) 

End Cap (1) 


6 x 6 (rgh.) - 3 U MPF 
2x3 - s / 4 MPF 
3x25- 3 I 4 MPF 
3 / 4 x3-29'h 
3 / 4 x 3 - 3V 2 


Tracking System 

F Fixed Block (1) 3 / 4 x 2 3 / 4 - 3 

G Adj. Block (1) 3 I 4 x 2 3 /. 4 - IO 


* 


Heavy "slab" 
legs dampen 
vibration 


End Table 
"wraps" around 
idler roller 
so you can 
sand curved 
workpieces 


No. 37 


ShopNotes 


17 




FEATURE PROJECT 


Rollers 




A Drive Roller. 

A motor and a 
V- belt provide 
power for the drive 
roller at one end of 
the edge sander. 


A Idler Roller. 

The opposite end 
houses an idler 
roller that spins 
with the rotation of 
the sanding belt. 


Just like a belt sander, this edge 
sander has two rollers that guide 
the sanding belt: a drive roller 
and an idler roller , see margin. 

DISKS. Each roller con- 
sists of a stack of eight 
disks made from 3 /i" MDF, 
see Fig. 1. The disks start 
out as 6"-square blanks. 
(You’ll need 16 altogether.) 

To form pockets for a 
pair of bearings (added 
later), I drilled a counter- 
bore in two of the blanks. 
And there’s a a / 4 "-dia. hole 
in each blank to accept 
the shaft of the roller. 

After drilling all the 
holes, the disks (A) can 
be cut to shape. To ensure 
that each one is uniform 
in size, I used a simple 
circle-cutting jig, see page 14. 

GLUE-DP. Now you’re ready to 
glue the disks together to form 
the rollers. An easy way to keep 
the edges aligned is to slip the 
disks onto a 3 / 4 "-dia. steel rod. Note: 
The two counterbores on the idler 
roller face the outside. 

CROWN. When the glue 
dries, you’ll need to rout 
a slight (Vi6 M ) crown 
across each roller. This 
crown centers the belt on 
the roller and keeps it 
from slipping off. A 
hand-held router and 
“turning jig” make quick 
work of this, see page 15. 

SHAFTS. The next step 
is to add a metal shaft to 
each roller, see Figs. 2 
and 3. (You’ll have to remove the 
rod first.) Each shaft is cut 
from a length of 5 /8"-dia. steel rod. 
But the shafts are not identical. 

IDLER SHAFT. One thing to 
note about the shaft for the idler 
roller is there’s a hole near the 
bottom end, see Fig. 2. Later, 
this hole will accept a pin that’s 
used to fasten the shaft to the 
tracking system. 


To center the shaft inside the 
roller, a bearing is slipped over 
each end and pressed into the 
counterbore drilled earlier. The 
purpose of these bearings is to 
allow the idler roller (not the 
shaft) to spin freely. 

With the bearings installed, 
it’s just a matter of positioning 
the roller on the shaft. It’s held 
in place by slipping a lock collar 
onto each end of the shaft and 
tightening a set screw. 


DRIVE SHAFT. All that’s left is 
to add the shaft for the drive 
roller, see Fig. 3. This shaft is 
longer than the one for the idler 
roller. (The extra length allows a 
pulley to be attached later.) And 
it isn’t fixed. Instead, the shaft is 
“welded” to the roller with 
epoxy so they spin together as a 
unit, see margin on page 19. 

BUSHINGS. Before the epoxy 
cures, you’ll need to press a 
bushing into the opening at each 




18 


ShopNotes 


No. 37 



FEATURE PROJECT 


end of the roller. These bushings 
center the shaft inside the roller. 

FLANGE BEARINGS. To allow 
the shaft to spin without building 
up heat, it's supported by a 
flange bearing that slips over 
each end. This is just a bearing 
that’s housed in a metal flange. 

Later, the flange is secured 
with carriage bolts. So it’s easiest 
to install the bolts now, then 
tighten a set screw that holds 
each flange bearing on the shaft. 



Core 

Now you can turn your attention 
to the core. It’s part of a system 
that applies tension to the 
sanding belt. 

The core is a simple, rectan- 
gular assembly that consists of 
three narrow blocks sandwiched 
between two sides, see drawing. 

Each block is made by gluing 
up two spacers (B), see Fig. 4. 
Before gluing on the sides (C) of 
the core, it’s easiest to drill three 
holes in one of the blocks for a 
tension assembly that’s added later. 

COVER. The core is enclosed 
by a long, narrow cover ( D ), see 
Fig. 5. An oversize hole near one 
end accepts the shaft on the idler 
roller. To keep the shaft from 
denting the cover, I drilled holes 



in a washer and screwed it over 
the hole, see detail above. Note: 
You’ll need to first enlarge the 
hole in the washer, see margin. 

END CAR To complete the core, 
I added a short, hardwood end 


cap (E), see Fig. 5. It has a hole 
for a mechanism that releases 
tension on the sanding belt. After 
gluing the end cap to the cover 
and cutting a curve on the end, 
just screw the cover in place. 




A A slow-setting 
epoxy fills the gap 
between the shaft 
and the drive roller. 
Before it "welds” 
them together 
press a bushing 
into the opening. 



A To accept the 
end of the shaft on 
the idler roller, I 
screwed a V2" 
washer to a scrap 
and enlarged the 
hole with a 5 /q bit. 


No. 37 


ShopNotes 


19 





FEATURE PROJECT 




A A countersink on 
the bottom of the 
aluminum channel 
recesses the screw 
head. The one on 
top forms a pocket 
for any wood fibers 
that pull out as you 
drive in the screw. 


The heart of the edge sander is a 
unique tracking system that lets 
you quickly adjust the position of 
the sanding belt on the rollers. 

This system consists of a pair 
of U-shaped pieces of aluminum 
channel that fit around two wood 
blocks, see drawing. A short, fixed 
block is permanently attached to 
the channel. And a long block 
slides back and forth inside. 

The significant thing about 
the sliding block is it captures 
the bottom end of the shaft on 


the idler roller, see detail above. 
This means that the shaft tilts to 
one side or the other as you 
adjust the block in or out. It's 
this tilting action that causes the 
sanding belt to travel up or down 
on the rollers. 

ALUMINUM CHANNEL. I began 
by cutting the two pieces of alu- 
minum channel to length, see 
Fig. 6. Drilling a pair of counter- 
sunk holes in the side of each 
piece will make it easy to attach 
the fixed block later. Also, it’s 


best to drill holes in the top and 
bottom which will allow the core 
to be attached, see margin. 

BLOCKS. After drilling the | 
holes, you can concentrate on the 
two blocks. They start out as a 
single oversize blank of hard- 
wood, see Fig. 6. It’s thicknessed 
to fit snug inside the channel, yet 
still slide back and forth. 

Once you’re satisfied with the 
fit, the blank can be ripped to 
width. The idea here is to make 
the combined width of the blank 



20 


ShopNotes 


No. 37 




FEATURE PROJECT 


(with the aluminum channel 
Jattached) equal to the thickness 
of the core. This way, you'll be 
able to slide the entire assembly 
smoothly into a sleeve which is 
added later. (To accomplish this, 
I ripped my blank 2 3 / 4 n wide.) 

FILLER STRIPS. After slipping 
both pieces of channel onto the 
blank, I added two filler strips, 
see Fig. 6. These are thin (Vs") 
strips of hardwood that are 
ripped to width to fit between 
the channel then glued in place. 

CUT BLOCKS TO LENGTH. When 
the glue dries, it's just a matter 
of removing the channel and cut- 
ting the fixed (F) and adjustment 
block (G) to length, see Fig. 7. 

With blocks in hand, I drilled a 
hole in the end of each one for a 
threaded rod that's part of the 
adjustment mechanism. Note: I 
used a jig to hold the long adjust- 
ment block steady, see margin. 

Before assembling the tracking 




I system, you'll need to drill a few 
more holes in the adjustment 
block. A hole that intersects the 
hole for the threaded rod will 
hold a barrel nut (added later.) 

Also, drilling two additional 
holes will allow you to secure the 
shaft of the idler roller. A slot 
provides clearance for the shaft 
as it tilts from side to side. And 
an intersecting hole in the edge 
will accept a metal pin that holds 
the shaft in place. 


ASSEMBLY. Now you're ready 
to assemble the tracking system. 
Start by screwing the fixed block 
(F) to one piece only of the alu- 
minum channel, see Fig. 8. Then, 
after fitting the adjustment block 
into the same channel, you can 
add the adjustment mechanism. 

The key to this mechanism is a 
threaded rod that passes through 
the hole in the fixed block, see 
detail in drawing on page 20. 


There's a knob tightened against a 
lock nut on one end of the rod. And 
a spring and two washers slip over 
the other end to prevent any 
vibration from affecting the 
adjustment. Now simply thread 
the rod into the barrel nut that fits 
in the hole in the adjustment block. 

IDLER ROLLER. At this point, 
it's just a matter of securing the 
bottom end of the shaft on the 
idler roller. It fits in the slot in 
the adjustment block. 

To hold the shaft in place, just 
tap a metal pin into the hole in the 
edge and through the hole in the 
shaft drilled earlier. Fitting the 
second piece of channel over the 
blocks and screwing it in place 
traps the pin. 

ATTACH CORE. All that's left is 
to attach the core to the channel. 
After setting the cover (D) over 
the shaft of the idler roller, the 
channel is simply screwed to the 
sides (C), see Figs. 9 and 9a. Note: 
To avoid kinking the channel, 
don't overtighten the screws. 




A An L-shaped 
support with a 
vertical cleat 


makes it easy to 
drill a hole in the 
end of a long 
workpiece like the 
adjustment block. 


No. 37 


ShopNotes 


21 








base 


Besides connecting the legs, the 
sleeve forms an opening that allows 
the core assembly to fit inside. 

SIDES. The sleeve is made 
up of two large sides 

(H) with narrow strips 
sandwiched in between, 
see Fig. 10. This creates 
an opening at the top for 

the core assembly. The important 
thing is the size of this opening. 

To ensure the correct amount 
of tension on the sanding belt, it 
needs to be wide enough (and 
tall enough) so the core slides 
smoothly without binding. At 
the same time, you want a snug- 
fit so the tension won’t pull the 
rollers out of alignment. 

To create this “friction fit,” I 
ripped a hardwood core support 

(I) to width so it’s just a hair 
wider than the thickness of the 
core assembly. It’s positioned so 
the core assembly (which sits on 


OVER 


SLEEVE 


PAD 

(W x 1!4"- 
Va'-THICK 
STOCK) 


LEG 


#8 x 2Vz" Fh 
SHEET METAL 
SCREW 


top of it) 
will end up 
just below 
the top of 
the sides. 

The ends of 
the sleeve are 
enclosed by two lower 
sleeve ends (J) and an 
upper sleeve end (K). The thing 
to be aware of is the upper sleeve 
end doesn’t extend all the way 


down to the core 
support. Instead, a V-tall 
opening allows a support for the 
drive roller to slide inside. 

DRIVE ROLLER SUPPORT. After 
gluing and screwing the sleeve 
together, you can add the drive 
rolle)* suppori (L). It’s an extra- 
long strip of hardwood that can- 
tilevers past the end of the sleeve. 

The end that sticks out acts as 
a mounting platform for the lower 


SLEEVE 


DRIVE 

ROLLER 


The edge sander is supported by 
a heavy-duty base. It consists of 
four parts: a sleeve that houses the top 

core, two legs , a tension assembly 
to keep the belt from slipping, 
and a top , see drawing at right. assembly 


DRIVE 

ROLLER 

SUPPORT 


TENSION 

ASSEMBLY 



22 


ShopNotes 


No. 37 



FEATURE PROJECT 



flange bearing on the drive roller, 
prefer to Fig. 13b. So it's best to 
drill holes now for the shaft of 
the roller and the bolts that 
secure the flange, see Fig. 10b. 

The end inside the sleeve has a 
short slot cut in it, see Fig 10a. 
Later, this allows you to make 
the initial adjustment on the drive 
roller. But for now, just “snug” 
the support down with a screw. 

LEGS 

Once the sleeve is complete, 
you're ready to add the legs. 

SLAB. Each leg is a slab made 
by gluing up three pieces of MDF. 
There's a large leg panel (M) on 
the outside, see Fig. 11. And on 
the inside, a narrow rear (N) and 
wide front leg piece ( 0) form a 
groove that accepts the sleeve. 

ATTACH SLEEVE. The sleeve is 
simply glued and screwed to the 
legs. Note: To position the 
sleeve, place the drive roller 
support and core assembly on 
top of the legs. 

TENSION ASSEMBLY 

At this point, you can add the 
tension assembly. Basically, it 
prevents the sanding belt from 
slipping on the rollers. 


SPRINGS. The secret is a set of 
three heavy-duty springs that fit 
loosely over hardwood dowels, 
see Fig. 12. By pushing against 
the core, the springs exert out- 
ward pressure on the idler roller. 
It's this pressure that applies 
tension to the sanding belt. 

To make this work, the dowels 
are glued into holes in a support 
block (P). Once the support block 
is glued to the upper sleeve end (K), 
the opposite end of the dowels fit 
into the holes in the core as you 
slide it into the sleeve, see Fig. 12a. 

TOP 

Now all that's left is to add a hard- 
wood top. In addition to enclosing 
the upper part of the sleeve, the 
top has two other jobs. 


ANCHOR. First, one end of the 
top ( Q) anchors the upper flange 
bearing on the drive roller, see 
Figs. 13 and 13a. So here again, 
you'll need to drill holes for the 
shaft of the roller and the bolts 
that secure the flange bearing. 

TENSION RELEASE. To make it 
easy to change sanding belts, the 
opposite end of the top has a 
mechanism that releases tension 
on the belt. This requires drilling 
two holes — one in the end, and 
an intersecting hole in the top. 

When the top is screwed in 
place, the rod passes through the 
end cap (E) and threads into the 
barrel nut. Tightening a knob on 
the end of the rod moves the core 
assembly farther into the sleeve 
so you can slip a belt on or off. 







A The heavy-gauge 
coils on these 
springs (actual 
size shown) exert 
pressure that 
applies tension to 
the sanding belt. 



A Be sure to keep 
the flange bearings 
greased to prevent 
them from 
overheating. 


No. 37 


ShopNotes 


23 




FEATURE PROJECT 


Electrical 


• (1) hp Motor 
wf 5 /e>" arbor 

• (1) Switch Sox 

• (1) Switch Cover 

• (1) 15 Amp., 120 
Volt Switch 

• (1) 125 Volt Plug 

• (2)#&x 5 /&“ 
Panhead Screws 

• (2) 3 /&" Cable 
Connectors 

• (2) Wire Nuts 
(Yellow) 

• (2) No. & Spade 
Terminals 

• (1) Grounding 
Pigtail (12 ga.) 

• 16-3 SJ Power 
Cord (10 feet) 


Motor & Pulley Guard 


Once the base is complete, the 
next step is to mount the motor 
and add a pulley guard. 

motor. Because of the dust 
produced when sanding, I used a 
Totally Enclosed, Fan-Cooled 
(TEFC) motor. It’s a % hp motor 
with a %" arbor, see Fig. 14. 

The motor spins at 3450 rpm's. 
But I didn't want the sanding 
belt to turn that fast. At that 
speed, it's likely to burn the sur- 
face of the workpiece. 

PULLEYS. So I reduced the speed 
of the belt by using two different 
size pulleys. A 3"-dia. pulley on 
the motor is secured with a key 
that fits a groove in the arbor. 
And a 4V2"-dia. pulley on the 
drive roller is held in place by a 
set screw that tightens into an 
indentation drilled in the shaft. 

MOUNT MOTOR. To mount the 
motor, start by slipping a V-belt 
onto the pulleys. Then, with the 
motor positioned so the belt is 
taut and the pulleys are aligned, 
mark and drill holes for the bolts 
that hold the motor in place. 



PULLEY guard. The next step 
is to add a guard to cover the pul- 
leys and V-belt, see Fig. 15. The 
pulley guard is “pieced” together 
around the drive roller support. 

The area above the pulleys and 
in front of the motor is enclosed 
by three cover pieces ( R , S , and 
T) made from MDF. And a hard- 
wood end piece (U) completes the 


guard. To support a dust hood 
that's added later, I slipped a bolt 
through a hole in the end piece 
before attaching the pieces of the 
pulley guard with screws. 

SWITCH. All that's left is to add 
an on/off switch. After mounting 
it to the lower front cover, just run 
a power cord between the motor 
and the switch, see box below. 



Electrical Hookup 



24 


ShopNotes 


No. 37 



FEATURE PROJECT 


Platen 

(To produce a smooth, even sur- 
face when sanding, the belt on 
the edge sander runs across a 
platen attached to the sleeve. 

The platen (V) is a piece of V4"- 
thick plywood with plastic lami- 
nate glued to the front, see Fig. 
16. (I used contact cement.) 

To ensure that the platen sup- 
ports the entire width of the belt, 
the top and bottom edges extend 
V4" above and below the rollers. 

By attaching the platen with 
screws only (no glue), it’s easy to 
replace if the laminate gets worn. 




▲ To make the 
platen easy to 
replace if it gets 
worn, it’s simply 
screwed to 
the sleeve. 


Installing the Belt 


With the platen in place, you're 
ready to install the sanding belt. 

SANDING BELT. This edge 
sander is designed to use a 6"-wide 
sanding belt that's 89" long, see 
margin at right. 

Of course, a belt that size isn't 
Something you just pick up at 
your local hardware store. And 
you probably won't find one at a 
woodworking store either. That's 
because a long, wide belt like this 
needs to be specially made. 

Now that may sound expen- 
sive. But that's really not the case. 
The belt we're using only cost 
$13.47. (We ordered it from a com- 
pany that specializes in sanding 
supplies, refer to page 31.) 

GRITS. Okay, you've found a 
place to get a sanding belt. So 
which grit should you get? For 
most work, I've found that a 100- 
grit belt works just fine. But 
occasionally, if I need to “hog" off 
a lot of material, I'll switch to an 
80-grit belt. And you may want 
to consider getting a 120-grit belt 
for more delicate work. 

RELEASE TENSION. With a 
sanding belt in hand, the next 
step is to release the spring- 
I loaded tension that's pushing the 
two rollers apart. To do this, just 
tighten the tension adjustment 


knob, see Step 1 below. This 
pushes the entire assembly (the 
idler roller, tracking system, and 
core) into the sleeve. 

INSTALL BELT. Now it's just a 
matter of slipping the belt over 
the rollers. To put tension back 


on the belt, loosen the adjust- 
ment knob, see Step 2. There's 
no need to “back" the adjust- 
ment mechanism all the way out. 
A half turn is all it takes to “pop” 
the core back out of the sleeve 
and apply tension to the belt. 





A This 6" x 89" 
sanding belt 
makes quick work 
of tough sanding 
jobs. (For sources, 
see page 31.) 


No. 37 


ShopNotes 


25 





FEATURE PROJECT 


Adjusting the Tracking 


Making the initial tracking adjust- 
ment on the edge sander not only 
keeps the sanding belt centered 
on the rollers. It also establishes the 
final position of the drive roller. 

Start by rotating the sanding 
belt by hand as you turn the 
tracking adjustment knob (Step 
1) or tap the drive roller support 
in or out, see Step 2. Then flip 
the power switch quickly on and 
off to check the tracking. 

Once you get the belt to track 
accurately, screw the drive roller 
support in place and cut off the 
waste at the end with a hand 
saw, see Step 3. 



1 7o adjust the tracking, slide the sanding belt across the platen by 
hand. If the belt rides too high (detail 'a') or too low (detail 'bj, 
turn the adjustment knob to move the roller in the direction shown. 



k Slide the dust 
hood all the way 
forward for the 
most efficient dust 
collection (top). 
Move it back to 
allow long pieces 
to extend past the 
dust hood (bottom). 




2 Now tap the support in or out to position the belt on the drive 
roller. Clamping the support snug (not tight) keeps the tension on 
the belt from shifting it out of position as you make the adjustment. 


3 Finally, secure the drive roller 
support with screws and cut 
the end flush with the pulley guard. 


Duet Hood 


To collect the fine dust produced 
when sanding, I added a dust hood 
that hooks up to my shop vacuum. 

The dust hood is quite simple. 
Two sides (W) and a back (X) 
form a U-shaped assembly that 
corrals the dust, see Fig. 19. And 
a cap (Y) encloses the top. 

Before gluing up the dust hood, 
you'll need to cut a hole in the 
back to fit the hose on your shop 
vacuum. Also, there's a slot that 
fits over the bolt in the pulley 
guard. This lets you slide the dust 
hood back and forth, see margin. 



26 


ShopNotes 


No. 37 




FEATURE PROJECT 


Front Table 


|This edge sander has a large 
front table that provides solid 
support for a workpiece. To take 
advantage of the full width of the 
sanding belt, you can raise the 
table up and down. 

MOUNTING PANEL. The table is 
held in place by a large mounting 
panel (Z), see Fig. 18. It’s 
attached to the sleeve so the top 
edge is lVs" above the legs, see 
Fig. 18b. This way, the mounting 
panel acts as a stop that keeps 
the tabletop from dropping 
below the belt, see Fig. 18a. 

Before screwing the mounting 
panel in place, I slipped two bolts 
into counterbored shank holes in 
the back. The/re used as “hangers” 
to hold the table in place. 

table supports. The next 
step is to add two hardwood 
table supports. Each one consists 
of a slotted adjustment plate 
(AA) and a triangular support 
ibracket (BB) that are glued and 
screwed together, see Fig. 19. 

TABLETOP. Now you’re ready 
to add the tabletop (CC). It's a 
thick, glued-up slab of hardwood. 
To “soften” the look and feel of 
the tabletop, I shaped the outside 
corners in a curve and rounded 
over all the edges except the one 
closest to the sanding belt. 

To provide support right up 



next to the belt, the tabletop is 
attached to the supports so 
there's a slight overhang. Note: 
To make it easy to position the 
tabletop, you may want to fit the 


table supports on the bolts first. 

STOP Finally, to make it easy to 
sand the ends of a workpiece 
square, I added a two-part stop that 
clamps to the table, see Fig. 20. 




No. 37 


ShopNotes 


27 



FEATURE PROJECT 


End Table 

This edge sander does more than 
simply sand a surface flat. It can 
also be used to sand a curved 
workpiece. All you need to do is 
push the workpiece against the 
curved sanding surface created 
by the idler roller, refer to page 29. 

To provide support for the 
workpiece, I added a sturdy end 
table that “wraps” around the 
idler roller. Like the front table, 
it adjusts up and down. So you 
can set both tables at the same 
height to increase the overall 
size of the worksurface. 

MOUNTING PLATE. The end table 
is held in place by a mounting 
plate (FF), see Fig. 21. Here again, 
a bolt slipped through from the 
back serves as a hanger, see Fig. 
21a. Screwing the mounting plate 
to the leg traps the head of the bolt. 

TABLE SUPPORTS. The next 
step is to add two table supports. 
As before, each one starts out as 
a triangular support bracket (BB), 
see Fig. 22. But here, I glued an 
extension strip ( GG) to each one. 
These strips do two things. 

First, the strips are attached 
to a slotted adjustment plate (HH) 
to form a wide, U-shaped opening. 
This opening fits snug over the 
mounting plate (FF) which 



keeps the end table aligned as 
you slide it up and down. 

The second purpose of the 
extension strips has to do with 
the front table. Since it overhangs 
the leg, the strips act as spacers 


to provide clearance between 
the two tables, see Fig. 21a. 

TABLETOP. Once the table sup- 
ports are complete, you can add 
the tabletop (JJ). Like the front 
tabletop, it’s made of lVg'-thick 



28 


ShopNotes 


No. 37 




FEATURE PROJECT 


Jiardwood. But to provide sup- 
port for the workpiece all the 
way around the idler roller, there's 
a curved notch on the inside edge. 

In addition, I cut and sanded a 
curve on the outside corners. 
Then I eased the sharp edges by 
routing a roundover on all the 
edges except around the notch. 

ATTACH TABLETOP. Now it's just 
a matter of attaching the tabletop. 
It overhangs the support by V4". 
Also, you'll want to check that 
there's a consistent amount of 
clearance between the notch and 
the idler roller. & 



◄ When sanding a 
curved workpiece, 
raise the end table 
so the thickness of 
the piece is 
centered on the 
length of the roller. 


Cutting Diagram 


48" x 48" - 34" MDF 



48" x 96" - %" MDF 


Hardware 


(2) 1"x1" - 33" Aluminum Channei 
C/&" thick) 

(1) %" x 9V 4 " Steel Rod 
(1) %" x 12“ Steel Rod 
(1) %" x 2 */ 4 u Steel Rod 
(1) 'U-20 x 9 V 4 " Threaded Rod 

(1) V 4 - 2 O x 6 3 / 4 " Threaded Rod 

(2) 5 /a" l.D. x 1 3 /&" O.D. Bearings 
(2) 5 /a n l.D . Lock Collars 

(2) 5 /& n l.D. Flange Bearings 
(1) 3” Motor Pulley ( 5 /&” Bore) 

(1) 4 V 2 " Motor Pulley ( 5 /&" Bore) 

(2) %" l.D. x 3 / 4 " O.D. Bushings 
C /2 long) 

(3) V/ 4 " x 4 5 /& n Springs (.120 ga.) 

(1) W x 2 13 A 6 " Spring (.062 ga.) 

(2) V 4 - 2 O Barrel Nuts ( 3 /&"-dia.) 
(1) V 2 " Fiat Washer 

(4) 3 /& n Flat Washers 
(&)%" Flat Washers 



BVz" x 96" - 5 A U HARPWOOP 


SB 

SB 

BB 

BB 



EE 


HH 


T x 96" - I’/s" HARDWOOD 

^DD 



cc 

CC 

JJ 

JJ 

• (4) 5 /w" Flat Washers 

• (3) #6 x V 2 " Rh Woodscrews 



• (4) 5 Zie" Hex Nuts 

• (1) #9 x 1 V 2 " Rh Woodscrew 




(6) V 4-20 Lock Nuts 
(4) %" x IV 2 " Carriage Bolts 
(4) 5 /i6 n x 2" Carriage Bolts 
(4) 3 /&" x 2" Carriage Bolts 
(2) 'U-20 Plastic Knobs 
(4) 3 /a-16 Plastic Knobs 


(24) # 3 x V /2 Fh Sheet Metal Screws 
(54) # 9 x 2 V 2 " Fh Sheet Metal Screws 
(36) # 9 x 2" Fh Sheet Metal Screws 
(14) # 9 x 3 / 4 n Fh Sheet Metal Screws 
(1) 1 / 2 " x 25” V-Belt 


— i 1 — gg — ~ 


— 


U | | 


No. 37 


ShopNotes 


29 










IN THE SHOP 


Cutting 

Wood Plugs 



2S When assembling a project with screws , I often 
use store-bought wood plugs to hide the heads of 
the screws. But sometimes the plugs draw more 
attention than if I had just left the screiv heads 
exposed. Whafs the problem? 

Jordan Anderson 
Fargo , North Dakota 

■ Most store-bought plugs are cut from the end of 
a dowel. When the finish is applied, the end grain 
of the dowel soaks it up like a sponge. 

This makes the plug darker than the 
wood that surround its. 

CUSTOM PLUGS. An easy way to get 
around this is to cut your own plugs. 

This way, you can cut a face grain plug 
that will accept finish more evenly. 

Another advantage is you can use 
the scrap pieces remaining from a pro- 
ject to create an almost invisible plug, 
see top center photo. Or maybe you'd 
like to highlight the plug by using a 
type of wood that contrasts in color, see 
bottom photo. 

PLUG CUTTERS. Regardless of the 
appearance, you'll need a plug cutter to cut the 
plugs, see box below. Although most plug cutters 
work the same way, there are a couple of tricks to 


ending up with a plug that fits in the hole like a 
cork in a bottle. 

SLOW SPEED. One thing that's easy to overlook is 
to cut the plugs using a drill press that's running at a 
slow speed. (I set the speed on mine to 640 rpm's.) 

You also want to lower the plug cutter slowly into 
the workpiece. This reduces chipout on the sides of 
the plug which results in an almost seamless fit. 

As long as you're cutting plugs, make quite a 
few extra, see Step 1 on page 31. This way, you'll be 
able to select a plug that best matches 
the color and grain of your project. 

REMOVE PLUGS. Once all the plugs 
are cut, you'll need to free them from 
the workpiece. I used to “pop" the plugs 
loose with a screwdriver. But this often 
leaves a tiny dent in the side that shows 
up as a gap when the plug is installed. 

To prevent this, I cut the plugs free 
with a band saw, see Step 2. 

MATCH GRAIN AND COLOR. With a pile 
of plugs, it's tempting to start gluing^^ 
them in the holes. But it's worth taking^^ 
a minute to select just the right plug — 
the one that comes closest to matching 
the grain and color of the wood around it, see Step 3. 

GLUE PLUGS. Now you're ready to glue the plugs 
into the holes. To avoid a big mess, I don't apply 



Straight or Tapered? 




Basically, there are two types of plug cutters. One cuts a plug 
with straight sides. And the other creates a gradual taper on 
the sides of the plug, see photos and drawings at right. 

STRAIGHT PLUG CUTTERS. Most of the time, a straight plug 
cutter produces a plug with a consistent diameter, so you get 
a pretty good fit. But if there's any runout in the drill press, 
the plug will vary in size. This can create a gap w^hen you tap 
the plug in the hole. 

TAPERED PLUG CUTTERS. A tapered plug cutter solves this 
problem. As its name implies, it cuts a plug with tapered 
sides. So even if there's a bit of runout in the drill press, the 
tapered sides allows the plug to w^edge tightly in the hole. 

In addition, a tapered plug cutter creates more of a 
shearing cut than a straight plug cutter. Because of this, 
there's very little chipout on the sides of the plug, so you don't 
end up with a gap around the plug. (For sources of both types 
of plug cutters, refer to page 31.) 




Straight 


30 


ShopNotes 


No. 37 





IN THE SHOP 


Sources 


PRODUCT INFORMATION 


Hue to the plug. Instead, brush glue around the hole and then 
np the plugs in place, see Step 4. Don’t overdo it — the plug 
doesn’t have to “bottom out” in the hole. All you’re looking for 
is a snug fit. 

REMOVE WASTE. Now it’s just a matter of removing the part 
of the plug sticking up above the workpiece. A fine-toothed 
saw works fine here. But there’s still enough “set” in the teeth 
that they can scratch the surface of the workpiece. So to pro- 
tect the workpiece, I slip a scrap of posterboard with a hole in 
it over the plug, see Step 5. 

SAND FLUSH. With the excess waste removed, it’s just a 
matter of sanding the plugs flush with the surface. A block 
and some sandpaper make quick work of this, see Step 6. & 




I With a plug cutter chucked Now clamp a tall auxiliary 

in a drill press, cut the plugs Jmt fence to the bandsaw 
a scrap from the project. table and cut the plugs free. 


Select a plug for each hole 
that matches the grain and 
color of the surrounding wood. 


4 After brushing glue around 
the sides of the hole, tap 
the plug in place so it’s snug. 




Set posterboard over the s' Finally, sand each of the 
plug to protect the work- O plugs flush with the sur- 
piece as you saw off the waste, face of the workpiece. 


ShopNotes Project Supplies 

is offering some of the hardware 
and supplies needed to build the 
projects in this issue. 

We’ve also put together a list 
of other mail order sources 
that have similar hardware 
and supplies. 



▲ Edge Sander 


The Edge Sander featured on page 16 
is an industrial quality tool that you 
can easily build in your own shop. 

ShopNotes Project Supplies is 
offering a hardware kit to build the 
Edge Sander. It includes all the hardware 
you need except the motor and elec- 
trical components. You’ll also need to 
supply the sanding belt and the plastic 
laminate that’s used for the platen. 

Note: We used a 3 4 hp, Totally 
Enclosed, Fan-Cooled motor (3450 rpm) 
and a 6" x 89" sanding belt. For mail 
order sources of these items, see margin. 

EDGE SANDER KIT 

6837-100 $ 249.95 



◄ Plug Cutters 

When cutting wood plugs, you 
can use two different types of 
plug cutters: a straight plug 
cutter (top photo), or a 
tapered plug cutter, 
see bottom photo. 

These plug cutters 
are available in many 
woodworking stores 
and catalogs. For 
mail order sources, 
see margin at right. 


MAIL 

ORDER 

SOURCES 

Woodworker’s 

Supply 

800 - 645-9292 

Tapped Plug Cutters , 
Electric Motors 

Lee Valley Tools 
800 - 871-8158 

Tapped Plug Cutters 

Woodworkers’ 

Store 

800 - 279-4441 

Tapped & Straight 
Plug Cutters 

Klingspor’s 

Sanding 

Catalogue 

800 - 228-0000 

Sanding Belts 

Tool Crib 
800 - 358-3096 

Electric Motors 


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No. 37 


ShopNotes 


31 








Scenes from the Shop 



▲ The large front table on our shop-built edge sander sanding belt, you can quickly adjust the height of the 
(page 16) provides rock solid support when sanding a table. Just raise one end and lock it in place. Then 
workpiece. To take advantage of the full width of the repeat the process at the opposite end of the table. 



A There’s more to this chisel case than good looks. A Small wood "keys ” create the traditional look of dovetail 

A tilting rack provides easy access to your chisels joints. And they strengthen the mitered corners of a box. 
on the wall (above) or at your bench, see page 6. Our simple step-by-step technique begins on page 12.