Counter Stool

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Finished Counter Stool made from 2x8 Yellow Pine construction lumber.

The sides are made from 2 x 8 yellow pine, planed to 1 1/8 inches thick and 28 inches long. The tenons at the top are 1 1/8 inch square, and 2 1/2 inches long. Two boards were edge jointed with two #20 biscuits aligned between the cutout sections. The finished sides are 14 inches wide at the bottom and 8 inches wide at the top before the tenons are made.

After sanding the sides, a design was drawn freehand on the outside of each side, and then a router with a V-bit was used to remove stock. Transtint dye mixed with denatured alcohol was used to color the design. After allowing to dry for two days, natural Watco Danish Oil was applied to protect the colors.

The top was made from two lengths of 2 x 10 yellow pine, planed and glued to a final size of 9 inches x 18 inches x 2 1/8 inch thick. The waste removed from the sides were used as a template to angle the sides to the bottom of the seat (about 5 degrees). The size and location of the bandsaw formed tenons on the sides was transferred to the bottom of the seat to locate the seat mortises. Notice the notches cut in angled templates to allow clamping to the seat.

The same side waste templates are placed under the seat when drilling a 1 1/8 inch hole in the seat with a forstner bit. Take care starting the bit, as the angled surface makes proper positioning a bit tricky.

A chisel guide, also created from another of the side waste pieces, is used to maintain the correct angle when chiseling out the waste around the round mortise hole to create the required square mortise.

The bottoms of the sides, and the top of the sides must be angled at about 5 degrees to allow the seat and feet to sit flat. This should be measured with bevel when the seat is first fitted on the sides. I used my scroll saw to remove the waste. Make sure you remove it from the correct surface of the side!
After ensuring that the seat mortise and tenons fit nicely, the top of the seat can be shaped to accommodate the derriere. I made a series of saw kerfs with a circular saw. The deepest spanning 2 inches at the center were 1/2 inch deep, followed by a 2 inch section on either side at 3/8 inch, then additional 1 inch spans at 1/4 inch, and finally 1/8 inch.

The saw kerfs provide visual reference when removing the waste with a bench chisel. The initial paring begins even with the outside of the mortises and continues toward the center until the saw kerfs disappear.

I next assembled the top and sides to layout the location of the cuts in the sides for the stretchers on each side. The top of the stretcher was position 17 inches down from the top of the stool. After marking this dimension, I used a straight edge that spanned both sides to mark the horizontal top of the stretcher. The shape of the end of the stretch locks the sides in place. It is created by measuring down the width of the stretcher stock less 1/4 inch on the outside of side and the width of the stretcher stock less 1/2 inches on the inside surface of the same side. Join the 2 marks with an angled line to complete the profile. Extend the lines on the face at right angles back along the sides to the thickness of the stretcher stock. I used my scroll saw to remove the waste from the sides.

After the stretcher cutouts were made with the scrollsaw, I reassembled the stool, and then positioned the stretcher blank over the cutouts on each side, and scribed their location on the blank. I then used the bandsaw to remove the waste. This method allows a more accurate fit, since it is easier to make precise cuts on the smaller stretcher stock, than on the more unwieldy sides.

The glue-up is the final assembly step. I first partially inserted the seat onto the sides, then glued and inserted the side stretchers. I then removed the top seat (the side stretchers hold the sides in place), and placed glue in the bottom half of the seat mortises, and around the tenons. I then reinserted the seat and used pipe clamps to draw it down snugly against the top of the sides. Note that it is much easier to use pipe clamps to do this with a tight fit, than trying to use bar clamps. After the seat is drawn down tight, I removed the pipe clamps and used bar clamps to prevent movement while using small bar clamps to pull the stretchers tightly into the side cutouts.

After letting the glue dry for a couple of hours, I used my Japanese pull saw to cut off the top of the tenons flush with the surface of the seat. I then used my random orbit sander to smooth the seat surface, starting at 80 grit and working up to 220. Take care to relieve the sides of the seat as well to facilitate easy getting on and off. I finished the seat with Watco Danish Oil Fruitwood. This gives an almost pinkish tone to finely sanded yellow pine.

Stickley Side Table

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Stickley inspired side table. This was featured in a recent FineWoodworking article: http://www.finewoodworking.com/Gallery/GalleryImage.aspx?id=26838. I used white oak for the legs and African mahogany for the top and lower stretchers.

I started with the top. Notice how I angled the pieces on either side of the middle section. Not only, did I use less material doing this, but it also alternated the grain, which some say results in a reduced tendency to warp after the top is removed from the clamps. I used freezer paper to keep glue squeeze out from sticking to my clamping blocks under the C clamps.

I used a circle cutting jig with my bandsaw to get the top perfectly round. A hole was drilled in the bottom side of the top which engages a pin in the jig.

I pre-drilled the mortise slots using a forstner bit. I let the depth stop on the drill press to just allow the center spur to penetrate the bottom side, then flipped the piece over to finish drilling the hole to eliminate any tearout. The fence was adjusted to center the bit in the leg.

The mortise was then completed using a 1/2 inch mortise chisel at the ends, and a bench chisel for the sides. The leg was held securely by my tail vise.

The top stretchers fit into dovetails cut into the top of the legs. Here I clamped scrap pieces of oak to the leg. This helped me keep the pull saw straight when a cut the partial angled side cuts and also insure that I kept my chisels square to the work piece when chopping out the remainder of the waste.

The through tenon cheeks on the bottom stretchers were cut using my home-made tenoning jig, which rides over the top of my table saw fence.

Here are three bases assembled. You can see where I used marine epoxy on the ends of the top stretchers. It filled in any gaps made when I fitted the stretchers to the legs. I used Titebond III on the lower stretchers. I inserted the tensons about 1/3 the way into the mortises before applying any glue, to ensure that the part of the tenon that protruded would not have any glue on it. Not shown in this photo, is the hole I drilled in the top stretchers where they crossed. This was used as an index point along with the hole in the bottom the top to accurately position the top in the center of the base. Four screw holes were drilled an counter sunk in the bottom the of top stretchers as well. One of the holes was elongated to allow for seasonal movement in the top.

Here I am applying the Watco Oil finish to the bases using a small paint brush. Not bad weather for February!

I decided to make the top for the third table different. I used the same Celtic Tree Of Life design as I used on one of my footstools (see http://www.stencilkingdom.com/catalogue/catalogue.php?page=celtic/catalogue_body_celtic_celtic51.php). I again used my router to remove about 3/32 of material from the top, and then filled in the areas with epoxy colored with transtint dye.

Here is the finished top. This picture was taken in sunlight, so the colors are difficult to distinguish.