Willie Sandry, Author at Woodworking | Blog | Videos | Plans | How To https://www.woodworkersjournal.com/author/wsandry/ America's Leading Woodworking Authority Thu, 14 Mar 2024 19:38:23 +0000 en-US hourly 1 https://wordpress.org/?v=6.0.7 PROJECT: Stickley Small Server https://www.woodworkersjournal.com/project-stickley-small-server/ Thu, 14 Mar 2024 19:38:23 +0000 https://www.woodworkersjournal.com/?p=69275 Build this rare, single-drawer version of a Stickley classic. Its timeless styling and compact size will complement any room.

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Originally cataloged as a sideboard, this #802 Gustav Stickley Server was a wider, two-drawer version. The full-size form was very popular in the early 1900s and has continued to be prized by collectors. Voorhees Craftsman, a purveyor of antique Arts & Crafts-style furniture in Pasadena, found a rare single-drawer version that they dubbed a small server. It might have been a one-off custom order from the Stickley factory in Syracuse, New York, or perhaps a rare uncatalogued form. At any rate, its compact size functions perfectly as a server for a smaller home. It would also make a nice entry table or nightstand. If you’ve built other tables with drawers, this project should be well within your skill set.

Preparing Quartersawn Stock

Cutting leg parts for serving table from lumber slab
Rough out the leg blanks at the band saw from 8/4 stock. If the board is warped or twisted, it’s helpful to cut the plank lengthwise before jointing one face flat and planing the workpieces to final thickness.

Round up some attractive 4/4 quartersawn white oak so you can make the four big panels for this project — the top, two side rails and the shelf. The top is large enough that if you don’t have a large planer or drum sander, you might need to glue it up in sections. While the panels are in clamps, mill the 1-3/4″-thick leg blanks from some 8/4 stock, making sure they come out flat and square. Go ahead and make blanks for the front, back and shelf rails as well as the backsplash from 3/4″ material.

Using crosscut sled to cut server parts to size
Once the leg stock is ripped into leg blanks, crosscut them to 33-1/4″ long. The author does this using an oversized crosscut sled equipped with an adjustable flip stop.

I often mutter, “Joinery before curves” and “Mortises before tenons,” and we’ll take both of those mottoes to heart with this build. Lay out the 1/4″-wide mortises as shown in the Leg Mortise/Taper Detail Drawings, and machine or chop them with your best method. Cut 1/4″-wide x 3-1/2″-long mortises on the inside of the front legs to receive the curved front rail. Start these mortises 4-1/4″ from the tops of the legs, and inset them 3/8″ from the front faces. The back rail requires 1/4″ x 4-1/2″ mortises that start 1/2″ from the top of the legs. Position them 1/2″ in from the back faces of the back of the legs so the outward face of the back rail will be flush with the back faces of the legs. The mortises for the shelf rails need to be 2-1/2″ long, and they start 7-3/4″ up from the bottom of the legs. Locate these mortises 5/8″ away from the inside edge of the leg so they will be properly positioned once the legs are tapered.

Marking leg parts for serving table
Label the legs 1 through 4 in a clockwise direction, starting at the front left to help keep their orientation clear when marking the mortises.

I was tempted to make the centered 11″-long mortises for the side rails with a router and edge guide, but clamping the workpiece for that operation is sometimes problematic. So, I used a 1/4″ hollow chisel in my mortising machine instead. Take note that the mortises for the side rails are only 3/4″ deep, while all the other mortises are 1″ deep.

Cutting leg mortises with mortising machine
Chop them with a mortising machine or your preferred method.

Once the mortises are chopped and cleaned out, it makes sense to work on the tenons next. When you look over the plans for this project, there are admittedly some cross-grain issues, and it would be difficult to build this form conventionally without violating some rules of wood movement. That’s why, as with the original, the grain of the side rails runs vertically and not horizontally. With a dado stack installed on the table saw, cut 3/4″-long tenons on the side panels to fit the long mortises.

Using table saw to cut side rail tenons for server
Form 3/4″-long tenons on the side rails with a dado blade and sacrificial rip fence at the table saw. Notice that these tenons are located on the long-grain edges of the side rails to avoid wood movement problems.

Aim for an easy friction fit, because these long-grain tenons are somewhat vulnerable to breaking until the frame is glued together, if they are flexed. Then reset the rip fence for making 1″-long tenons on the front, back and shelf rails. The front rail has a simple centered “blind” tenon, however the back rail is a little different.

Cutting ends of side rail tenon
Without changing the rip fence position, raise the blade to 1/2″ and turn the panel up on end to create shoulders on the ends of the side rail tenons. Back these cuts up with a miter gauge equipped with a sacrificial fence.

To position the outer face of the back rail flush with the outer faces of the back legs, an off set tenon is required. So, raise the blade incrementally to cut those tenons until they fit the 4-1/2″-long mortises you made in the back legs. When all the tenons are sawn, fine-tune their fit with a shoulder plane until they slide easily but not sloppily into their mortises.

More Preliminary Details

Side-by-side comparison of side rail and shelf tenons
The shelf rail tenons are longer than the side rail tenons by 1/4″, so make sure the resulting “shoulder-to-shoulder” dimension is 12-3/4″ for both parts.

Now that the basic joinery for the server is complete, go ahead and mark out the curve on the front rail. Use a flexible strip of wood or a thin metal yardstick to lay out this line so it creates a smooth, flowing arch and leaves the front rail just 1-1/2″ wide at the apex of the curve.

Cutting back rail joinery with table saw
With the rip fence set for a 1″ long cut, create offset tenons on the back rail. Raise the blade incrementally until these 1/4″-thick tenons fit the leg mortises and the outside face of the back rail is flush with the back legs.

Cut the arch at your band saw or with a handheld jigsaw, sawing just to the waste side of the layout line. Then fair and smooth the curve up to your layout line using a drum or spindle sander. Start with 80- or 100-grit, and work up from there.

Using hand plane to clean up tenon cuts
Trim the tenons as needed with a shoulder plane until they slide into their mortises with a bit of friction; they shouldn’t need force.

This is also a good time to cut 1/4″-deep grooves along the inside faces of the side rails to receive the shelf. Center these 3/4″-wide grooves on the rail widths. I have found it easiest to cut the grooves first, then plane the shelf’s thickness down until it fits the grooves without gaps. Then, assemble all the parts you’ve made so far to confirm the actual size of the shelf. Measuring directly off the project will give you confidence to proceed with trimming the shelf to final size.

Cutting parts to hold server table shelving
Plow a 3/4″-wide, 1/4″-deep groove along the inside face of the shelf rails and centered on the part widths.

Next up, we need to taper the legs on two sides. There’s a long taper on the front face of the front legs and on the back face of the back legs.

Test fitting server table base framework
Dry-assemble the server’s frame, and use “pinch sticks” to measure an accurate length for the shelf. The bottom clamp, with one jaw reversed so it can be used as a spreader, is positioning the legs 18″ apart.

The left or right outer faces of all four legs have two tapers instead of one: a short one on top and a long one below it, which matches the long tapers on the adjacent faces of the legs. The four long tapers remove 1/2” of material at the bottom of the legs, reducing them to 1-1/4″ x 1-1/4″ at the floor.

Using tapering jig to shape server table legs
Taper the legs on two outside faces with a tapering jig. Complete the first long taper, then rotate the leg away from the blade for the second cut.

These primary tapers are 25″ long, stopping just short of the upper rail joinery. The subtle top outer tapers are 4″ long, and they remove just 1/8″ of material from the top left or right faces of the legs. This gives the server “hips” when viewed from the front.

Completing second tapering cut
Finish up by sawing the short taper on the outside left or right face of each leg. It removes 1/8″ of width from the top of the leg.

While you could certainly band-saw the tapers, I like the precision of using a tapering jig at the table saw. Mark the taper cuts carefully and saw the first long one on each leg. Then rotate the leg blank away from the blade to make the second long taper cut. The single short side taper at the top of each leg can be completed in the same way.

Assembling serving table side sections
Glue and clamp the server’s frame together in stages, starting with two side assemblies. Be sure to align the top edges of the side rails flush with the tops of the legs.

Take a little time now to ease edges of the parts you’ve made. Pay particular attention to “safe edges” or areas you don’t want to round over. Notably, these are where the back legs intersect the back rail. Likewise, the back edge of the top panel stays crisp for the addition of the backsplash. None of the shelf edges should be eased, either. Finish-sand all the parts up to 150- or 180-grit.

Assembling the Sideboard Framework

Attaching front and back portions of serving table frame
Bring the two side subassemblies together with the front rail, back rail, and shelf to complete the framework. The top edge of the front rail should be positioned 4″ down from the tops of the front legs.

Retrieve the backsplash workpiece you made earlier so you can round both of its top corners to a 1/4″ radius before attaching it permanently to the top panel. Finish-sand both of these workpieces up to 150- or 180-grit first.

Securing server table backsplash with biscuit joint
Attach the backsplash to the top panel with glue and #20 biscuits, dowels or some variation of loose tenons. Leave the back edge crisp where it intersects the backsplash for a nice tight joint.

Glue alone is sufficient for strength, but I always add a row of #20 biscuits for alignment when attaching a backsplash in this manner, so cut those mating biscuit slots if you decide to do the same. Glue and clamp the backsplash to the top panel with the biscuits installed, then start assembling the server’s frame. First, create a pair of side assemblies by gluing two pairs of legs together with their side and shelf rails. Be sure the top edges of the side rails are flush with the tops of the legs as you draw the clamps tight. Allow those joints to dry.

When the side assemblies come out of the clamps, bring the two together by gluing the front and back rail tenons into their mortises and the shelf in its rail grooves. Double-check the height between the top of the front rail and the tops of the front legs, which should be 4″. Tighten the clamps, and set the frame aside to dry overnight. Then drill 7/8″-deep holes through the long tenons, centered 3/8″ from the edge of the leg, so you can peg the joints with 3/8″-diameter dowels. The front and shelf rails receive two pegs per joint.

Building a Side-Hung, Center-Guided Drawer

Routing dovetail joints for serving table drawer
The author cuts these half-blind dovetails with a router jig. He uses two routers to produce cleaner cuts. The first, with a 1/4″ spiral bit installed, hogs out the pin sockets, followed by the second with a dovetail bit for final shaping.

You can construct the drawer box however you like, but I thought half-blind dovetails were a proper choice for a Stickley-style reproduction. You can see the dovetail layout I used with my router dovetail jig in the Dovetail Detail Drawing. The original server appears to have a “piston-fit” drawer, but I elected to use a different Stickley hallmark: a side-hung
and center-guided drawer. While there’s a little more work constructing a drawer with these features, it promises trouble-free operation for a long time. The center runner prevents racking and conveniently acts as a drawer stop, while the top edges of the side runners are the only points of contact when sliding the drawer in or out. (To see side-hung, center-guided drawers in action, look for a video on my YouTube channel, The Thoughtful Woodworker.)

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Joint and plane enough oak stock for the drawer front, back, sides and divider, and cut them to the Material List sizes. Then saw the dovetails by hand or using a routing jig as I did. Now mill a 1/4″-wide, 1/4″-deep groove for the plywood drawer bottom, spaced 1/2″ up from the bottom edge. You also need to mill a 1/4″ x 2-1/2″ mortise 1/4″ deep underneath the drawer bottom groove on the drawer front workpiece. (It will house the front end of the drawer center track.) The drawer sides also require a 1/8″-deep x 5/8″-wide dado for the drawer divider. It serves as a false drawer back, which creates an interesting secret compartment behind the main drawer compartment.

Dovetail joint cut with router bit
Rout a 1/4″ deep stopped-groove in the drawer sides with a 3/4″-diameter bit capable of making plunge cuts. Reference the top edge toward the router fence for both cuts so these grooves match on both drawer sides.

Now rout a groove in the drawer sides to receive the side runners. This 3/4″-wide groove needs to stop about 1-1/4″ from the front of the drawer sides, and it’s best cut on the router table. Make sure to use a router bit capable of making plunge cuts, as one of the grooves should be made by tipping the drawer down over the bit with the drawer standing on its side and against the router table fence (often referred to as a “drop cut”). The groove in the other drawer side can be cut in the traditional fashion, starting the groove from the back edge of the drawer instead of at the stopped end of the cut. Set the length of these groove cuts with a stop block clamped to the router table fence. The reason for routing these two side runner grooves differently — a drop cut for one and a typical groove cut for the other — is to ensure that both grooves line up exactly with one another across the drawer so it will hang evenly in its opening and slide smoothly.

Cutting groove for drawer installation
Lower the bit height to 1/16″ and make a through groove in the filler strips with the same router table setup. This shallow groove will register the drawer slides in the perfect position, without trial and error.

Loosely assemble the drawer to check the final sizing of the drawer bottom panel. Cut a plywood panel for it to size Finish-sand all the drawer parts, then prefinish the drawer front. Once the finish dries, glue the drawer together with the bottom and divider in place.

The secret to fitting this type of drawer is to mill the 1/2″-thick filler strips with the same router table setup as the side runner grooves you just made. So, make up a pair of filler strips from scrap stock and lower the router bit height to 1/16″. Rout a groove into one face of each filler strip along its full length. Mark the edge of each filler strip that was against the router table fence “top.” Then bore three pocket holes that face the “top” edge of the filler strips for attaching the top panel later. Fasten the filler strips to the inside faces of the side rails with screws. Set their marked “top” edges flush with the top edges of the rails. Then head to the table saw and trim 1/16″ of width from the drawer parts on both the top and bottom edges to set the drawer reveal. Hand-plane the divider’s top edge flush with the other edges.

Adding wooden slide to server for mounting drawer
Install the center slide into the 1/16″-deep notches in the top edges of the cleats and secure it with a pair of wood screws, one driven through each of the slide’s tongues.

At this point we’ve laid the groundwork for a really nice drawer, and there are just a few remaining parts to build. Make up a pair of drawer runners from maple or other dimensionally stable hardwood. Size them to slide easily in the drawer grooves, and notch their back ends so they’ll fit around the back legs. Mount them in the filler strip grooves with countersunk screws.

Attaching drawer slide notch to drawer framework
Insert the center track’s tongue into the mortise below the drawer bottom in the drawer front, and drop it into the notch in the back of the drawer. Two screws at the rear secure the track to the drawer.

The back of the drawer also needs a 1/4″ x 2-1/2″ centered notch to make room for the track that’s mounted underneath it. Saw that notch now. Then make the drawer track component from 1/2″ stock, and cut a tongue on one end to fit the mortise you made earlier beneath the bottom panel groove in the drawer front. The track also needs a 1/4″-deep x 2-1/2″-wide groove plowed into its bottom face and centered on its width to receive the center slide. Install the track on the drawer by fitting its tongue into the drawer front mortise and securing the back end in the notch in the drawer back with a couple of small screws.

You’re ready to install cleats in the server to support the center slide. Make up the 1″-wide cleats from scrap stock. Cut centered notches, about 1/16″ deep, into the top edges of both cleats to register the slide before fastening the cleats to the inside faces of the front and back rails with screws. Locate them so the top edge of the front cleat is flush with the top edge of the front rail. Position the back cleat’s top edge 4″ down from the top edge of the back rail.

Make up the center slide from a piece of dimensionally stable hardwood. Cut a notch into its front and back bottom edges, leaving a 3/8″-thick tongue to fit into the slide cleat notches. Set the slide into place in the server and test the drawer action. If it opens and closes smoothly, fasten the slide’s tongues to the cleats with countersunk screws.

Applying a Multi-step Finish

Rubbing brown dye on serving table drawer side
The author uses a two-stage coloring process: dye first, followed by gel stain.

I use a multi-step stain-over-dye technique, which enhances the figure of quartersawn white oak and lends a vintage appearance to the piece. I start with TransTint Dark Mission Brown Dye. To avoid raising the grain, I mix 1-1/2 ounces of concentrated dye into a quart of a 50/50 mix of denatured alcohol and lacquer thinner. Apply the dye with a terrycloth-wrapped sponge. Adding five to 10 percent lacquer retarder will slow the drying time and help avoid lap marks. I then seal the dye with a light coat of sprayed shellac (don’t wipe or brush on the shellac, as it will resuspend the alcohol-based dye) before applying General Finishes Antique Walnut Gel Stain. I complete the finish by spraying on two coats of satin lacquer.

Coating serving table drawer panel with gel stain
He applies a barrier coat of dewaxed shellac after dying the wood to seal it in. The final topcoat is satin lacquer.

Attach the top panel to the server’s frame by driving 1-1/4″ pocket screws up into the filler strip pocket holes. You will notice that I added dowel pins to the tops of the front legs. They are optional but do help to register the top evenly. Complete this lovely little server by installing a reproduction Stickley drawer pull, centered on the drawer front.

Click Here for the Drawings and Materials List.

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Project: Ginkgo Leaf Table https://www.woodworkersjournal.com/project-ginkgo-leaf-table/ Wed, 16 Sep 2020 19:29:57 +0000 https://www.woodworkersjournal.com/?p=58814 While this table is the author's original design, he drew inspiration from Japanese furniture and architecture.

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Although it’s my original design, the inspiration for this ginkgo leaf table draws heavily from Japanese influence. Tapered elements that are wider at the base, and rafter-like members that project through legs and posts, are common in Japanese designs — in both furniture and architecture. Other elements of the table, such as the solid panels with leaf cutouts, are reminiscent of Dutch designs dating back hundreds of years. I found that this table’s angled joinery makes it both a joy and a challenge to build.

Walnut leg for making a table leg
The author created 1-3/4″-thick leg blanks from two strips of 7/8”-thick stock glued together. He then planed the flattened blanks to 1-5/8″ square.

Mine is constructed from solid walnut lumber. If you’re fortunate enough to have 8/4 stock available, you can simply cut the legs from a plank of walnut. My best-looking stock was only 7/8″ thick, so I laminated leg blanks from two strips of wood.

Cutting notches in table leg with a tenoning jig and table saw
Using a tenoning jig and dado blade, form a 2″-deep x 3/4″-wide notch in the top of each leg. Cut from both sides of the leg to center these bridle joint notches.

Rip eight strips of walnut 1-3/4″ wide, and glue them together in pairs to make four legs. Once the glue cures, flatten and plane them to a finished size of 1-5/8″ square by about 19-1/2″ long (the legs will be trimmed to final length later).

Testing fit for table leg joinery
Plane a test board to 3/4″ thick, and use it to gauge the width of the leg notches. Incrementally adjust the rip fence as needed, and make more passes until the test board eases into the notch.

Leave their ends square for now, as the notch at the top of each leg needs to be cut before the legs are angled. Use a tenoning jig and dado blade to form those 3/4″-wide x 2″-deep notches at the table saw. I installed a 5/8″-wide dado stack and cut each notch in two passes, flipping the legs to opposite faces for the second cut. This centers the notches perfectly.

Trimming table leg joint with table saw
With the miter gauge swiveled to 5 degrees, trim the top ends of the legs. Remove just enough material to create the required angle.

Once the notches are completed, go ahead and miter-cut the top and bottom ends of the legs at a 5-degree angle. This operation can be tackled at either the table saw or on a miter saw. I chose to use a standard blade and my miter gauge equipped with a long auxiliary fence at the table saw.

Trimming table leg ends at table saw
Now slide the leg down the auxiliary fence and set a stop block to trim all four legs to the same length. Keep their orientation the same for this cut.

First, miter-cut the top of the leg, then slide the leg down the miter gauge fence, making sure to keep the leg in the same orientation. Set a stop block on the auxiliary fence, and trim the leg to a final length of 18-7/8″ (measured “long-to-short”).

Creating the Side Assemblies

Tapering jig for cutting table panel angles
A shop-made tapering sled handily slices the side panels to their 5-degree tapers. This one is guided by a wooden strip riding in the miter slot.

Next, glue up a pair of side panels from 3/4″ stock. Trim these panels to overall size. Their pleasant tapered shape is 5 degrees along each edge, so set a bevel gauge and draw layout lines to mark these taper cuts.

Cutting groove in table panel edge
Form stopped grooves in the side panels with a 1/4″-wide dado stack. Note the clamp on the rip fence here, acting as a stop block.

I used a shop-made tapering sled at the table saw to cut the angles uniformly. If your shop isn’t equipped with one, a circular saw with edge guide could also work fine. When you trim off these edges, be sure to save the offcuts for use as the table’s corbels.

Cutting stopped groove in table leg
Reset the rip fence for a centered cut on the legs, and make one stopped groove in each leg. A featherboard and push pads help control the cut.

There are a number of ways you can attach the legs to each side panel. Loose tenons or biscuits typically work well for this sort of application, as do splines and grooves. Dowel joinery would be problematic because it wouldn’t allow any adjustment to align the parts. I decided to go with loose splines fitted into grooves in the legs and panel edges.

Cutting and smoothing table panel decoration template
Shape the ginkgo leaf template with flat and round files. Make sure the stem portion of the design is at least 7/16″ wide.

To mill the stopped grooves, install a 1/4″-wide dado blade in your table saw. Start by setting the blade height to 1/4″, and position the rip fence for a centered cut on the panels. Clamp a stop block to your table saw’s rip fence to limit the length of cut to 15″, so the groove stops about an inch from the bottom of the panel.

Routing table panel design through template
A plunge router removes the waste inside the leaf cutout in a multi-step process.

Complete all four grooves this way, before adjusting the rip fence for a centered cut on the legs. Each leg receives one groove, also approximately 15″ long. Make some spline stock to fit these grooves, and test fit the legs with the side panels. Don’t glue the side assemblies together just yet, as we have a couple more steps to complete first.

Bushings and bit for routing table panel decoration
The author used two guide bushing sizes and a 1/4″ spiral bit.

A template is useful to make matching ginkgo leaf cutouts that dress up the side panels. I made a full-size template for them from 1/4″ plywood. Lay out the ginkgo leaf shape on the template using a set of French curves and following the gridded Drawing. Cut out the template’s shape with a jigsaw or scroll saw, and refine it with files.

Completed table panel design and template
Start with a 7/16″ bushing installed to rough out the inner waste material in several clockwise passes. Then switch to a 3/8″ guide bushing with the same router bit for a final cleanup pass. The resulting shape needs very little sanding.

Once the template is complete, clamp it to a side panel, and rough out the shape with a router. I used two different router setups to cut out the leaf shapes. My first was a 1/4″ spiral bit paired with a 7/16″ O.D. guide bushing.

Routing table panel mortise
A router equipped with an edge guide and 1/2″ spiral downcut bit handles the mortises. After the through mortises are cut from the outside face, flip the panel over and extend the mortises on the inside face (shown here).

Make several clockwise passes to remove the material, increasing the depth of cut with each pass. This will invariably leave some lines and ridges, so there’s one more step to clean up the cut: I switched to my 3/8″ O.D. guide bushing and made one final clockwise pass around the template cutout. This left a nice clean surface that only required some light hand sanding.

Cleaning out table panel mortise with a chisel
Chisel the corners of the four through mortises square. Make these cuts into the outside faces of the panels to reduce the chances of chipping the mortise edges. That damage would show after final assembly.

Through mortises in the side panels for the lower shelf come next, and that’s another job for the router. Carefully lay out the mortise locations on both faces of the side panels. Outfit your router with an edge guide and a 1/2″-dia. spiral bit, and cut just short of your layout lines. I plowed the 3″-long x 1/2″-wide mortises into the outside face first.

Then maintaining the same edge guide settings, I flipped the side panel over and extended the mortises to an overall length of 7-1/2″ (I trimmed the material between the mortises to a depth of 1/4″ on the inside face as well to preserve the strength of the panel). Finish the job by squaring up the four mortise ends.

Adding glue to table panel to attach legs
Glue a pair of legs to each side panel using splines. Note the panel offcuts temporarily attached with painter’s tape to act as clamping cauls.

At this point, all the joinery for the side assemblies is complete. Go ahead and sand all the parts you’ve made, and glue a pair of legs to each side panel with the splines installed. Use your panel offcuts as clamping cauls when you bring each side assembly together.

Attaching corbels to table legs with biscuits
Then glue the offcuts to the legs to act as corbels.

Once the glue sets up, trim the panel offcuts to a length of 12″, and install them as corbels — one on each leg. I used a pair of #20 biscuits to center and attach these corbels on the leg. Align the corbels flush with the top of the legs, and glue them in place.

Making the Shelf

Cutting tenons for table shelf with table saw
Once the shelf’s long tenon thickness is established with a dado blade and miter gauge, turn the shelf on edge to cut the end shoulders.

Glue up a panel for the shelf, if you’re working with narrow stock, then cut it to 9-1/2″ wide and 15-3/4″ long. Now switch to a wide dado stack, and install an auxiliary fence on your miter gauge so you can raise a 1″-long tenon on each shelf end.

Cutting center portion of the table shelf tenons
Next, lower the blade height to 3/4″ and turn the shelf on end to divide the tenons. Test the tenons against the mortises frequently, aiming for a snug fit.

Make multiple passes until the tenons ease into the mortises from the outside face. Once the tenon thickness is established, turn the shelf on edge and raise the dado blade to a height of 1″ to form its outer shoulders. Finally, turn the shelf up on end, lower the blade to 3/4″ and make side-by-side cuts to separate each long tenon into two with a 1/4″-tall shoulder in between.

Notch cut into side of table shelf with router
The shelf receives a V-notch detail on both long-grain edges. Here a template is clamped beneath the shelf, and the shape is routed with a 1/4″-dia. flush trim bit.

I added a V-notch detail in the long edges of the shelf to echo the ginkgo leaf motif. You could make a template for pattern routing these notches, or simply make the cuts at the band saw and sand them smooth. Use a file to refine the point of the “V” here the bit can’t reach, if you rout these notches.

Using bar clamps to help assemble base for ginko leaf table
Clamp the side assemblies together with the shelf using parallel clamps. The middle clamp bears on a wooden block to direct pressure between the tenons. Use just enough pressure to close the joints.

You’re rounding third now and on the home stretch with this intricate little table! For the final glue-up, bring the two side assemblies together with the shelf. Small blocks may be helpful to direct clamping pressure between the protruding tenons. Ease the edges of the clamping blocks to avoid denting or damaging the side panels.

Cutting notch in table stretcher with dado blade
Make a centered notch in the stretcher rails with a dado blade. Since the edge of this part receiving the notch has already been angled, it’s important to hold the rail flat against an auxiliary fence.

Next up, make the two stretcher rails that will nestle into bridal joints atop the legs. These 3/4″-thick rails are 2-1/8” wide x 24″ long.

Test fitting stretcher rails on table base
Test fit the stretcher rails in the legs’ bridle notches. The stretcher rails project 3-15/16″ beyond the legs, so make sure to center the rails for the next step.

The only wrinkle here is that the top edges of the rails need to be angled to sit flush with the legs.

Cutting angled notches in table rails with dado blade
Tilt a dado blade to 5 degrees to cut opposite-facing notches in the cross rail. Use a full 3/4″ dado stack plus a .004″ shim to ensure the parts will come together without a wrestling match.

So tilt your table saw blade to 5 degrees and rip the stretchers to width as needed until the parts fit. Then crank the blade back to 0 degrees and cut the cross rail to size.

Forming Half Laps and Adding the Top

Fitting cross rails into ginko table assembly
Since the rail joinery is angled, the parts won’t drop right together. You may need to use a clamp, reversed as a spreader, to gently flex the stretcher rails apart to ease the half-lap joints into place.

Go ahead and install a 3/4″-wide dado stack so you can form the table’s half-lap joints. Set the blade height to about an inch, and cut a centered notch on the top edge of each stretcher rail. Now two complimentary notches need to be formed in the bottom edge of the cross rail. For this part of the half-lap joint, tilt the arbor on your table saw to 5 degrees, and make the two opposite-facing notches. To locate these notches correctly, install the stretcher rails on the table legs and measure directly from these parts. Use a bevel gauge to mark the exact location of the angled notches.

Planing angles into ginko table rails
Tidy up the tapers on the ends of each rail by making repeated passes with a block plane. Hold the plane at a skewed angle while making these smoothing passes to minimize tearout.

While the cross rail is still a loose component, drill it for the figure 8 tabletop fasteners. You’ll also need one centered and two elongated pilot holes for screws at each end. Then you can create tapered ends on all three rails. Mark a line that leaves their ends about 7/8″ tall. Cut these angles at the band saw, and plane them smooth.

Attaching walnut tabletop to table base
The solid walnut top is attached with figure 8 fasteners to allow for seasonal movement. Three screws through the cross rail offer additional anchor points.

If the half laps fit together correctly, you’re ready to permanently attach them with screws and glue. Countersink and pre-drill the stretcher rails for #8 x 2-1/2″ screws, driven into the legs from the top. The cross rail can be attached in a similar fashion to the stretcher rails with a pair of #8 x 1-1/2″ screws.

All that’s left to make is the tabletop. It starts out as a 22-5/16″-wide x 26″-long panel. Lay out a curved treatment along its edges with a bowstring, so the ends of the tabletop are reduced by the curves to 18-1/4″ wide. Band saw these barrel-shaped curves and sand the top smooth. Round over any sharp edges, and give the table a final inspection with a shop light to check for any imperfections.

Applying stain to ginko table tabletop

As far as finishing goes, I often use a medium color “fruitwood” oil-based stain on walnut projects. While some may argue that walnut doesn’t need stain, I find that it darkens the wood in a pleasant way and tends to unify the parts. If you choose a liquid stain as opposed to a gel stain, the natural grain of the walnut won’t be obscured. After the stain on my table dried overnight, I sprayed on a top coat of pre-catalyzed lacquer in a satin sheen. Attach the top with figure 8 fasteners to allow for seasonal movement, and this Asian-inspired side table is ready to display your favorite vase.

Click Here to Download the Drawings and Materials List.

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Installing Cam Locks with a Biscuit Joiner https://www.woodworkersjournal.com/installing-cam-locks-with-a-biscuit-joiner/ Wed, 01 May 2019 16:44:22 +0000 https://www.woodworkersjournal.com/?p=51864 Willie Sandry lays out his process for installing cam locks in the drawers of his Limbert-style hutch.

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If you’ve ever built a project with drawers, you know there’s a veritable maze of hardware selections available. Selecting the type and size of drawer slides, and picking the hardware pulls are important choices that affect the final results of the project. Now you need to decide if the drawers should be lockable.

Cam lock installed in cut biscuit slot
This photo shows the lock installation complete. The cam engages nicely with the biscuit slot, without interfering with drawer operation. Here, the cylinder lock is shown with optional trim ring installed (Antique Brass finish).

On a recent file cabinet project, I wanted to have two locking drawers. I selected cam locks to do the job, and even found them in an antique brass finish. Since I was installing the locks on drawers with false fronts, I needed the cam barrel to be long enough to reach through the entire drawer front … 1-1/4″ thick in my case. I purchased 1-3/4″ cylinder locks and set out to install them on my finished drawer boxes.

Cutting cam lock hole in hutch door with drill press
Start the cam lock installation with drill press accuracy. Drill a 3/4″ hole in the false drawer front.

The first step is to mark the location of the hole in the false drawer front. To determine where the hole should be located, assemble the cam lock and choose which cam arm to use. The kit comes with a short, bent-arm cam and a long, straight cam. Based on the dimensions of my cabinet frame, I selected the long, straight cam.

Finish cutting cam slot in Limbert hutch false door front
Finish drilling the hole in place. Permanently mount the false drawer front, and finish drilling through the drawer box.

With the center of the hole location marked on a piece of painter’s tape, head to the drill press. Use a 3/4″ Forstner bit to drill a hole through the false drawer front. Make sure to back up the cut to prevent chipout on the back side.

Proper cam lock cylinder orientation
There is a small tab on the cylinder lock. As you install the lock, orient the tab to the 12 o’clock position.

Next, mount the false drawer front onto the drawer box as you normally would. Set the false drawer front for an even reveal, and screw it to the drawer. Now chuck the 3/4″ Forstner bit into a handheld drill and finish drilling through the drawer box. Clamp a scrap of wood to the inside of the drawer to back up the cut.

Installing stop on Limbert hutch cylinder lock
Choose a stop. The kit comes with 90° and 180° stops. The author selected the 90° stop, and installed it on the cylinder lock as pictured.

Install the cam lock into the drawer, and use the optional trim ring if desired. A two-pronged washer pierces the inside of the drawer to prevent the lock from turning. That is followed by the nut to hold everything firmly in place. Then select either the 90° stop or 180° stop. I use the 90° stop for a shorter locking action. That is followed by the cam and cam retaining screw.

Straight cam being installed on Limbert hutch drawer
Install the cam. The kit comes with a short, bent-arm cam or a long, straight cam (pictured). Install the cam of your choice with a machine screw and locking washer.

Great; now the cam lock is installed on your drawer and you’re just about finished. There’s just one problem … there’s nothing for the cam to engage in the cabinet. The usual solution is to mount a small metal tab inside the cabinet frame.

Cutting biscuit slot in Limbert hutch cabinet frame
Slot the cabinet frame. Plunge a single biscuit slot in the framing member above each drawer. The slot is the perfect shape and size to receive the cam.

The problem with this method is the tab hangs down and can snare the file contents as you open the drawer. To get around this limitation, I used a biscuit joiner to cut a slot in the cabinet frame. Mark the location where the cam meets the cabinet when the drawer is fully closed. For the 1-3/4″ long cam lock, the slot was centered 1-3/4″ back from the front of the drawer. Then set your biscuit joiner for maximum depth of cut. Mine is marked “0,” “10,” “20” and “M.” I selected the M setting for maximum depth of cut. Adjust the fence on the tool until the blade aligns with your mark and plunge a single slot for each drawer. Reinstall the drawer and test the lock operation. If the cam tab hangs up on the edge of the slot, make a small fence adjustment on your biscuit joiner and widen the slot.

Download the PDF of This Article.

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PROJECT: LImbert Style Hutch https://www.woodworkersjournal.com/project-limbert-style-hutch/ Wed, 24 Apr 2019 18:24:14 +0000 https://www.woodworkersjournal.com/?p=51676 Style from one of last century's designers endures in this two piece project, with an open hutch and enclosed lower cabinet.

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Century-old elements of Limbert style, like plank legs and decorative cutouts, still look fresh in today’s two-piece hutch.

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PROJECT: Arts and Crafts Limbert Desk https://www.woodworkersjournal.com/arts-crafts-limbert-desk-project-plan/ Wed, 12 Dec 2018 19:54:45 +0000 http://rocklerwj.wpengine.com/?p=48829 Our author updates an Arts & Crafts classic. Building it will give your woodworking machines and skills a hearty workout.

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This desk was inspired by an Arts & Crafts original, but it’s been upsized and updated.

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