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Hidden
Pivot Bookcase Installation
Not every project I build comes out perfectly. As a matter
of fact, I can’t recall too many that didn’t have
at least some small minor mistake. Of course I mean something
that no one else would notice, though some of you might. Without
a doubt, I've never built a perfect pivot bookcase, one that's
completely invisible to the eye and works smooth as silk years
down the road. Even the bookcase in this article isn't perfect.
Each time I build one I learn something new, after all, hidden
bookcase doors are a lot more complicated than an ordinary
door—there's a lot of variables, both in design and
construction, especially on openings that have to swing out,
where there isn't space inside the closet or small room for
the bookcase to swing in.
In this article, I’ll point out a few of the mistakes
I made so hopefully you won’t make them—and maybe
I won't make them again. If you notice any others, please
let me know. I'll include your contributions in an up-to-date
article on my website, so that we can all profit from each
others experiences. Hidden door bookcases aren’t easy
to design or build, but they're intriguing. Maybe one day
we'll all be able to build one that’s perfect in every
way.
DRAWINGS
Several people have asked for more details. If you want to download copies of the Sketchup files I used for the drawings, so you can get more accurate measurements or change the design to suit your installation, right click on the links below and choose "save as" to download a copy of the files. You'll need Sketchup to open the files, which can be downloaded for FREE from this site.
Elevation
Plan View
Rixon Hinge Details
HINGES & WHEELS
I’ve seen and installed a lot bookcase doors, many that
swing on regular butt hinges. I’ve always used 4 1/2
or 5 in. heavy-duty ball bearing hinges, and they work alright,
though the hinges tend to sag a little when the case is really
loaded down with books. And they always need some adjustment
down the road. Plus they require a lot of jamb clearance,
which has never seemed right to me. Besides, butt hinges only
work on swing-in bookcases—there's no way to hide them
completely on a swing-out deign.
I’ve also seen cabinet shops build these types of doors,
using euro hinges. Trust me, those never work, no matter how
many of those little hinges you use, they always sag. I’ve
seen carpenters use piano hinges, too, but then it’s
tough to take the case off or adjust the hinge. Besides, even
a piano hinge is hard to hide in the trim on a swing-out case.
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| Swinging bookcases always sag a
little, too. I’ve tried installing wheels and rollers
on the bottoms of swinging bookcases, and they work okay,
as long as the floor is a smooth hard surface and if there’s
no throw rugs, though sometimes the roller leaves a tell-tale
track on the floor, especially over carpet. When you use
a roller, at the very least you have to leave a gap at
the bottom of the case for floor clearance, and that’s
a dead giveaway, too. Plus it's almost impossible to really
hide the joints in the baseboard, no matter how cleverly
you disguise them. From what I've learned, the best way
to design and build a durable swing-out bookcase door,
one that can be adjusted easily, and one that’s
truly invisible, is to design the door to swing above
the baseboard, and hang it on a center-hung pivot hinge.
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Start with a drawing
There are few projects I work on today without doing a
scale drawing first. When in comes to bookcases, especially
swinging ones, Sketchup has saved my life. I started this
project with a three dimensional drawing, one that allowed
me to pivot the door in the drawing. That’s how
I found the correct location for the pivot point, which
took some experimenting. |
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In the drawing above that the
door, when wide open, butts against the trim on the
hinge side. That clearance is determined by the depth
of the bookcase and the location of the pivot measured
from the hinge jamb toward the strike jamb. I also wanted
the case to have a minimal amount of clearance between
the jambs, so it would just clear the trim on the hinge
side (previous drawing), and wouldn’t require
wide trim on the strike side. That clearance is determined
by the setback of the pivot from the face of the wall.
(look for a future video lesson on how to use Sketchup
to draw rotating doors.
While I’m on the subject, I’ll point out
my first mistake. Being able to pivot the door in the
drawing distracted me so much that I failed to finish
the drawing properly. I was playing around with the
trim design, moving the casing back and forth to see
which method provided the best function and clearance.
I learned that leaving a reveal on the jamb worked best.
But in my excitement, I failed to carry that conclusion
over to the strike side! Notice in the top drawing how
the trim on the strike side covers the case, as it does
on most bookcases. Of course I followed the drawing—at
least that side of the drawing, when I built and trimmed
the case the first time. I wasn’t aware of the
mistake until I swung the case open and it pinched on
the hinge-side casing before opening even 90 degrees.
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Bottom Clearance
The real improvement in this design is swinging the bookcase
above the baseboard, so it won’t drag on a throw
rug and can be trimmed out without any visible gaps. I
wanted to end up with the case about 2 3/4 in. above the
floor, to clear 2 1/2 in. baseboard. For taller base,
the bottom of the case would be even farther from the
floor.
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Another drawing, this one detailing
the hinge parts and clearance requirements, confirmed
that mounting the pivot base on two layers of 3/4 plywood
would get me close to 2 1/2 in. above the floor. Because
I could install the toe kick after swinging the case,
the exact dimension didn’t matter, which made
execution a lot easier.
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| Bookcase Construction
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To prevent the
case from sagging, I dadoed the sides to accept
the shelves, something I don't always do for built
in cases. For cutting dados, I normally use a templates
guide on my router, which makes it easier to build
a compact template and provides a cleaner tighter
dado, but I was lazy. I didn’t have a Porter-Cable-style
3/4-in. template guide for this new router and rather
than running to the tool store, I made the router
template exactly the width of the router base. I
installed the cross pieces allowing enough space
for both bookshelf sides plus and extra 3/16 in.—so
I could slide the template up and down without hanging
up, and used a long shim and spring clamps to lock
the template in place. |
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An even easier
tool for cutting dados is a Festool mft table and
router guide rail. This system is designed perfectly
for the task and requires no template and no special
clamping setup. Simply layout the book shelf sides
with clear pencil lines for each dado (I used a
Sharpie so the lines would be more visible in the
photographs). Rather than running my router bit
dangerously close to the guide rail, I adjust the
router so that it cuts almost 1/4 in. away from
the rubber edge. To make it easier to align the
boards for each cut, I attached a sacrificial fence
to the table. The first pass cut a neat dado in
the fence, and I aligned all the cuts with that
dado. To make sure the boards didn't slip as I moved
them through the cutting station, I screwed a 3/4
in. cleat on top of the layout marks for one of
the shelves. Once that cleat came up near the guide
rail, I removed it and pressed it into the dado,
where it locked the two boards together. |
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Here's a trick
I learned at Festool School: the dust collection
system will collect almost all the saw dust if you
don't dado right through the first piece. Instead,
plunge the router into the workpiece about 1/2 in.
from the edge, cut the dado, then clean up the front
when you're finished. That little dam is all that's
needed to stop the dust from shooting out the dado,
leaving it at the mercy of the dust collector. |
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Edgebanding plywood shelving
I’ve done a lot of edgebanding and always hated
the hair-line crack that develops between the plywood
and the solid stock. That gap is caused by the inner
plywood endgrain swelling from the glue, which puts
a little belly in the edge and forces the banding
away from top and bottom of the plywood. To prevent
edge swelling problems, I used a Collins Ply-Prep
bit and ‘routed’ a slightly concave nose
on each shelf, (www.collinstool.com: $20.00).
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In order to work
properly, the The Ply-Prep bit requires a router
fence with infeed and outfeed surfaces slightly
offset to accommodate the very slight amount of
material removed from each shelf. I made a shallow
pass, less than 1/16 in. deep, half-way across a
temporary fence. A line etched into the bit helps
center the bit vertically on the stock, which is
vital—otherwise the edge won't be cut square. |
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After fastening the solid mahogany
banding on with glue and 23ga pins, I ran a laminate
trimmer on each side to cut the surfaces flush. |
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The last piece I milled was the strike side of the
case, which required a bevel. I made the first cut on
my table saw, but the blade height wouldn't cut to daylight,
so I cleaned up the bevel with a power plane. |
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Assembly
Before assembling the pieces, I pre-finished everything,
a lesson learned the hard way after making dozens of
bookcases—it’s just too hard to finish all
those inside corners and edges without getting runs,
drips, and finish all over my wrists. I used a water-based
polyurethane and a roller, brushing out each piece to
remove air bubbles. If I were smarter, I'd own an hlv
system, and spray the three coats on, but I'm not and
so I don't. |
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To ensure a tight box that wouldn’t
sag, I glued and fastened the shelves with screws, too,
brushing the glue into each dado. |
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Finished sides,
added after the case is swinging, cover the screws.
I also cut the finished sides 1/2 in. wider, so
that they cover the 1/2-in. plywood back.
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That way, the sides don't require
rabbets. I glued and screwed the back flush with the
sides, so that the case would never rack |
The Hardware Preparation |
 Pivot
hinges are the only way to fly when it comes to supporting
a heavy bookcase and achieving an invisible door. I
used a Rixson Model 370 bottom pivot, which can accommodate
up to 500 lbs. and doors up to 3' 8" x 8' 6".
The bottom pivot includes two pieces: the bottom pivot
spindle which mounts directly to the floor (upper right),
and the bottom bearing (lower right), which must be
mortised into the bottom of the door. The top pivot
is a standard model 340, consisting of a retractable
jamb-mounted pivot spindle and finished cover plate
(middle and upper left), which are mortised into the
jamb head, and a top guide (lower left), which is mortised
into the top of the door. |
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 I
learned a long time ago to always make templates for
door hardware, especially hinges, first because it's
easier to position and cut the mortises perfectly—that
means mortise depth, too; and second because once
you've used any special type of hardware, you're bound
to use it again and soon—it's just a law of
the jungle, like thermo dynamics. In this case, the
bearing guides and the top jamb pivot are the same
width and thickness, but because their centers vary,
along with their lengths, each piece of hardware requires
a custom template.
I started by ripping stock for the center spreaders.
A standard door-hanging template guide and router
bit (1/2-in. bit and 9/16-in. template guide) will
cut 1/16 in. short of the template bushing, so I made
the template openings 1/8 in. wider and longer than
the hardware. I ripped the spreader stock to 1 3/8
in. for the 1 1/4-in. plates. I centered the spreaders
between two outer rails, spacing the spreaders apart
the length of each plate plus 1/8 in., then fastened
the templates together with pocket screws
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Of course I didn't discover the
difference in the centers until after I made what
I thought would be a convertible template. That small
block of wood was supposed to convert the template
so that I could use it on the top and bottom of the
case.
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After I began laying out the stops I discovered the
centers on each pivot were different. That meant that
each pivot required a separate template.
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Laying out the template stops was critical because
that's what positions the pivots perfectly. For each
template, I marked a center line on both axes (parallel
to the wall and perpendicular to the wall), then measured
from those center lines to locate the stops. For the
bookcase templates, I measured 2 1/4 in. from the
pivot center to the back of the first side, knowing
the second finished side would add an additional 3/4
in. resulting in a 3 in. backset. For the front backset,
I measured 1 3/4 in. from the pivot to the front of
the template and attached stops on that line.
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Setting the router depth was simply a matter of adjusting
the depth stop above the turret exactly the thickness
of the hardware.
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I clamped both templates to the case and mortised
the brackets without a second thought.
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I fastened the bottom pivot immediately (above left),
pre-drilling the double-thick bottom shelf for the
#10 screws. The top pivot (above right) mounts flush
with the top of the case-the bushing must be mortised
into the case. I traced the location of the center
of the bushing..
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...drilled out the hole with a paddle bit, then mounted
the bracket. The top shelf is only 3/4 in. thick,
but a false shelf, installed after the case is swinging,
hides the bushing.
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I designed the case 3/4 in. short to allow for this
second jamb head, which I mortised in my shop, before
installing the case.
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The top jamb bracket includes a linkage arm that
draws the pivot spindle out of the top bushing in
the case, so it's easy to install and remove the case
or a door. I drilled a 1 in. hole at each end of the
mortise for the linage arm,
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Then connected the holes with a jig saw.
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At the closet door jamb, I traced the mortise for
the linkage arm onto the existing head jamb,...
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...drilled out and cleaned up the mortise, and installed
the top jamb pivot. I can't stress how important it
is to check the laser plumb dots with measurements
to the jamb—regardless of what type of door
you're hanging, whether it's new construction or a
remodel. It's vital to have a complete understanding
of the whole picture, otherwise you have to move hardware
after everything is installed (one guess how
I know this). Sometimes dead plumb and perfectly square
aren't the only concerns when hanging a door—bookshelf
or otherwise. I wanted the 'door' to fit the jamb,
with even gaps. The opening was little cross-legged,
too, and I wanted the casing to fit flat against the
case--the case had to be almost perfectly flush with
the jamb. The measurement mark was off by only 1/8
in. so I followed that rather than the laser plumb
marks.
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A laser works great for transferring the plumb line.
Just place the red dot on the center of the top pivot
and mark the location of the bottom pivot.
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Rixson also offers an accessory plumb bob that mounts
directly to the top pivot, a slick way of finding
the bottom pivot location.
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Notice that the bottom support base is 1/2 in. back
from the face of the jamb. That 1/2 in. allowed me
to recess the bottom toekick so the case would project
over the kick--hiding the 1/8 in. gap between the
top of the kick and the bottom of the case.
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Hanging the case isn't difficult. Like most doors,
I retracted the top pivot spindle by backing the out
the set screw. When I'm hanging a door, I usually
set the door perpendicular to the jamb. place it on
the bottom pivot, then lean it back against the top
pivot. That way, I have comfortable control over the
door while backing out the set screw and retracting
the top spindle. It's easy to position the door directly
under the spindle then run the set screw back in,
pinning the door into place. But with a bookcase it's
not so simple.
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Fortunately this was one problem I anticipated, which
made me feel pretty good. I made the case 1/4 in.
short of the opening, providing just the right gap
between the top of the case and the head jamb. I backed
out the set screw half way, then placed the case on
the bottom pivot and straightened it up in the opening.
The top of the case barely scraped across the bottom
of the set screw, while the top jamb pivot spindle
dragged over the top of the case and then dropped
like magic right into the pivot guide. Amazing!
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I installed the false sides on both sides of the
case, driving fasteners from inside the case so they
wouldn't be visible as the 'door' opened. Of course,
no one would ever see the finished side near the hinge
unless they stood inside the closet.
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| Before starting
the trim, I installed a shim made from UHMW (ultra-high
molecular weight) plastic, which is pretty slippery
stuff ($18.00 from www.smallparts.com). I ripped a 1
1/4 in. length of the material from a 3/4 in. x 12 x
12 blank ($17.00), then I cut a long shim using a Festool
guide and saw. I sized the shim to just touch the bottom
of the case when the door is closed, which prevents
any minor settling. That way moving joints in the trim
at the top of the case stay tight. |
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Trimming the top of the case is tricky. The joint
between the architrave molding (parting bead) and
the top of the case must be invisibly tight, yet still
provide 1/16 in. clearance for the case to swing.
And that’s where I made another mistake. I should
have ripped the new top jamb down, to make it at least
1/2 in. back from the face of the jamb, so that the
architrave molding runs back inside the jamb, past
the bookcase, which helps to hide the joint.
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Realizing I couldn't hide the joint any other way,
I swallowed hard then removed everything from the
opening. After ripping down and replacing the head
jamb, I hung the case back in the opening and started
installing the trim again. Another good reason not
to use a piano hinge.
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The horns on the architrave molding must be scribed
to fit the wall and butt against the head jamb inside
the opening.
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I next installed a frieze board and finished the
entablature with a two-step cap rabbeted in several
passes on my table saw.
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The base details went on next. With the case closed,
I milled a piece of mahogany toe kick and scribed
it to the floor, leaving 1/8 in. clearance to the
bottom of the case.
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| I attached the
plinth blocks with trim head screws, and the casing,
too, especially the strike side piece that remains on
the cabinet and acts as stop when the cabinet swings
closed. |
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It was at that
moment I realized I couldn't reach the set screw with
a screw driver: I couldn’t run the screw in to
secure the case completely, and I couldn't back the
screw out to remove the case. I didn't feel so smart
anymore, and it got worse.
On my first attempt at drilling a simple 3/8 in.
access hole through which I could reach the set screw
with a narrow screw driver, I couldn't seem to find
a drill bit sharp enough to drill through the plywood.
I dried a paddle bit first, then a twist drill. On
the third attempt, I realized I was drilling right
into the cast hardware.
Determined to overcome my own stupidity, I thought
through the problem carefully and located a second
access hole, located on a radius layout so I could
swing the case clear of the top guide and reach the
top pivot set screw. Fortunately the third time was
charm and the new hole lined up perfectly. I turned
the screw and drove the pivot spindle all the way
into the top guide. Notice the first hole is aligned
perfectly with the hardware mounted in the top of
the case.
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With the case tight against the wall and under pressure
from a slight amount of cross leg, I drilled a 3/4
in. hole through the side and into the jamb. A 3/4-in.
x 5-in. long dowel, with a mahogany grip, locks the
case in the opening. I hide the grip with a stack
of books so no one will know how to open it.
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There's no door knob, and the case rubs just a hair
on the UHMW plastic shim, but a slight tug on the
shelves slips the case free from the shim, and the
door swings open with a swoosh of air. Sure, one day
I might even tape and mud the joint between the jamb
and the wall…but no one but me and my dog should
ever see that anyway.
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| True to my original
drawings, the case pivots back from the hinge-side trim
and just clears the strike jamb as it swings open to
exactly 90 degrees. Don't try this in a small closet.
In fact, a 3/0 closet would work best, though this 2/8
opening has enough access with a 7 in. deep case. |
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