November/December 2013 Archives - Woodworking | Blog | Videos | Plans | How To https://www.woodworkersjournal.com/magazine-issue/novemberdecember-2013/ America's Leading Woodworking Authority Thu, 04 Apr 2024 14:23:09 +0000 en-US hourly 1 https://wordpress.org/?v=6.0.7 Project: Jigsaw Puzzle Tray https://www.woodworkersjournal.com/project-jigsaw-puzzle-tray/ Wed, 11 Apr 2018 18:21:51 +0000 http://rocklerwj.wpengine.com/?p=43939 Puzzle building takes lots of space and time. Assemble yours where and when you want to with this handy, portable Jigsaw Puzzle Tray.

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When Grandma Jan visits for the holidays, we lose our kitchen table for a week to family puzzle making. I’m all for that tradition, but holding a dinner plate on my lap does get old. If you can relate, then here’s a project that can take back your table without ruining the good time. Our Jigsaw Puzzle Tray gives you space to assemble a 500- piece puzzle, and two pullout trays let you spread out the pieces. Now you can do puzzles wherever you like, or pick it all up and move midway through without dismantling it. Portability at last! Here’s how to make a tray for your puzzle fans.

Building the Housing

Taping end caps on puzzle board panel
Rip overly wide wood strips for capping the ends of the top panel, and glue and tape them in place.

Study the Exploded View Drawing, and you’ll see that this project consists of a main housing with grooved and mitered sides that hold a pair of top and bottom panels in place. A center support helps keep the 1/4″-thick panels flat. The pullout trays slide in and out on a pair of grooves in the sides, and they are held open or closed with magnets recessed in the housing bottom panel and on the bottom inside ends of the trays.

Trimming edge of puzzle board with router
When the glue dries, rout the overhanging edging flush.

Start by cutting your top (piece 1) to size, according to the Material List dimensions. I used Baltic birch plywood throughout. Cut two edging strips (pieces 2) from solid wood to cover the ends of the top panel and dress it up. I made mine 1/4″ thick by 3/8″ wide before centering and gluing the edging in place. When the glue dries, trim the edging flush with the plywood using a small router and a flush-trim bit to reduce it to its 1/4″ x 1/4″ final size. Now measure your top panel’s overall length, and cut a bottom panel (piece 3) to match it. The bottom panel has no wood edging.

Clamping puzzle board panel to workbench for routing
The author clamped the workpiece against a long, notched scrap to add stability for the router base.

Next, mill a 32″-long piece of 1/2″-thick, 4-1/8″-wide stock so you can make both side pieces (pieces 4) at the same time. (You’ll split them down the middle when you’re through.) Notice in the Drawings that the top and bottom panels fit into 1/4″-deep grooves in the sides. Since plywood is undersized in thickness, even a 1/4″-wide dado blade will be too wide for cutting these grooves. So, I just used a standard ripping blade with flat-topped teeth for this task. Start by setting your rip fence 1/4″ away from the blade and cut the outermost grooves for the top panel first; flip the workpiece end-for-end after the first cut to make a matching cut along the other edge (it will become the second side piece). Shift the fence and cut again to widen the first cuts until the grooves fit the top panel snugly. When you are satisfied, reset the rip fence 1-1/2″ away from the blade and repeat the process for forming a pair of grooves to accept the bottom panel. Then finish up the sidepiece grooves with enough side-by-side passes to create two, 1/2″-wide tracks for the tray side pieces. Start these wider grooves with the fence set 3/4″ from the blade. I recommend carrying out this grooving process on a matching test piece before you cut each of the grooves on your final workpiece. That way, you’ll have your fence settings dialed in and know exactly where each of these grooving cuts will land.

Test fitting puzzle board panel in saw cut grooves
Make a test piece to help dial in your blade settings for cutting snug-fitting grooves in the sides.

Now head to the router table with your side workpiece so you can rout a channel through the middle of it. We’ll use a 1/2″ straight bit here as a nifty way to create the curve-ended profile for the feet on the bottoms of the side pieces.

Mark your fence so you can start and stop the cuts accurately to rout a centered, 24″-long channel. Start the milling process with the bit set low, and raise it with each pass until it pops through the top of the workpiece. Flip the wood end-for-end after each pass to keep the channel centered. Then, widen the slot to 5/8″ by shifting the fence 1/16″ further away from the bit and making two more passes. Finally, chuck a chamfering bit into your router, and form 1/8″ chamfers along the outside edges of your “sides” workpiece. Rip it in two back at the table saw with a standard 1/8″-kerf blade.

Cutting grooves in puzzle board tray siding
A standard ripping blade can mill both the narrow panel grooves and the wider tray grooves in the doubled-up blank.

You’re ready to miter-cut the ends of your side pieces to 45°, but measure the length of the top and bottom panels carefully to verify where to make these cuts. The inside corners of the miters on the side pieces should just intersect the ends of the top and bottom panels when they’re installed in their grooves.

Routing curve in puzzle board panel for foot shape
Rout a stopped channel along the workpiece to form curved feet on the housing sides.

Once the miters are cut, set the sides aside and prepare a piece of 1″ x 1″ stock for the center support (piece 5). Cut a pair of 1/4″-long, 1/2″-thick tongues on its ends, either with a standard blade or a dado set. These tongues should seat neatly in the wider tray grooves on the housing sides. Glue the center support across the middle of the bottom panel’s top face.

Cutting panel in half to make two sides of puzzle board
Then split the board to form the project’s two housing sides.

Round up four rare-earth magnets (pieces 10) for the bottom panel. They will keep the trays closed during transport or from falling out of the housing when pulled open. Locate them according to the Bottom Drawing. Use a 3/8″ Forstner bit to drill shallow holes that will sink the magnets until they’re flush with the panel’s top face. Attach them with dabs of epoxy, but first, make sure their “face up” polarity matches, before gluing them in place.

Checking fit of puzzle board tray
Dry-fit the sides, top and bottom panels to check the final size of the center support. It should seat easily in the tray grooves and fit flush between the inside panel faces.

Final-sand the housing parts, and apply a coat of finish onto the top face of the bottom panel and the bottom face of the top panel. When it dries, go ahead and glue the panels into their grooves in the sides to complete the housing. I glued the panels to one side piece at a time — it made the assembly process easier.

Making the Trays

Adding magnets for puzzle board catch
Drill shallow holes for four rare-earth magnets in the bottom panel, and cement them in with two-part epoxy.

Form the tray frame ends (pieces 7) the same way you made the housing sides: start with a double-wide workpiece plus an eighth inch for blade kerf, mill a 1/4″-deep groove for two tray panels (pieces 6), and cut a centered channel at the router table to create feet on these two parts. Split the workpiece to bring the tray ends to final width. Don’t forget to add the top chamfers. They should match the chamfer proportions on the housing sides. Then miter-cut the tray frame ends carefully, “nibbling up” on a good fit against the housing’s side miters.

Assembling puzzle board tray panel
Glue and clamp the top and bottom panels to each side piece to create the main housing. Grooved offcuts left over from mitering the housing sides made handy clamping aids here.

Rip thin strips of solid stock to create four side pieces (pieces 8) for the trays. The last parts yet to make are the 3/4″ x 3/4″ inner ends of the trays. Take two 20″ sticks and plow a 1/4″-deep, centered groove along one edge of each piece to fit over the tray panels. Then recess and glue a single magnet into the bottom faces of these two parts, centered on their length and width. Make sure their polarity will attract the bottom panel magnets first, before attaching them.

Attaching side segments of puzzle board with nail gun
The author found a 23-gauge pin nailer helpful in keeping thin, narrow parts aligned as he glued and attached the tray sides flush with bottom faces of the tray panels.

Finish-sand the tray components and assemble them in this order: Glue the mitered ends to the panels, making sure the parts are square. When the glue dries, add the inner ends. Then miter-cut one end of the tray sides to fit against the tray end miters, and glue them in place. Align their bottom edges flush with the bottoms of the panels. A few 23-gauge pin nails were a big help for me to keep these thin, narrow parts aligned.

Slip the trays into their openings to check their action in the housing grooves. If there’s resistance, hand-sand the tray sides as needed to loosen their fit a tad. Then, topcoat the remaining bare surfaces, and your new Jigsaw Puzzle Tray is ready for many hours of puzzle making to come. I hope it’s a holiday hit!

Download the Drawings and Materials List.

Hard to Find Hardware

Rare Earth Magnets (6) #44833

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Project: Mission Oak Knockdown Desk https://www.woodworkersjournal.com/project-mission-oak-desk/ Wed, 07 Feb 2018 19:15:20 +0000 http://rocklerwj.wpengine.com/?p=42418 Inspired by designs from 1910, our author built these knockdown desks for his daughters as they headed off to college. They save space and are easy to assemble and disassemble by college kids on the move!

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This year, both of my daughters were off to college in two different cities, so moving furniture was much on my mind. I wanted them to have a nice desk to work at, but I certainly did not want to burden them (or myself) with having to lug a large unwieldy piece up and down stairs. I collect antique woodworking books and found the answer in G. A. Raeth’s book, Home Furniture Making. In it, he provided instructions and drawings for two different writing desks. Published in 1910 at the height of the Craftsman movement, one design features wedged through tenon construction, making it ideal as a “knockdown” piece that can be easily disassembled with no tools, and shipped flat (way ahead of IKEA). I knew that this design would have great appeal for young adults who want quality furniture but tend to move a lot, so I set to work updating the design.

In order to make the desk more stable and accommodate a typical laptop, I increased the depth to 16″. I added a second tenon to the bottom shelf to stiffen the desk, and included a cutout for more leg room under the desk, along with some other minor changes.

Not every woodworker has a shop equipped to easily handle sizing and flattening large glued-up panels, so I decided to order two sets of panels from online sources to see how much they would cost and to test the quality of panels bought this way. You certainly can lay up your own, but if large, flat solid-wood panels are hard for you to deal with, ordering your panels pre-made may be an option.

Large Solid-wood Panels

Running desk panel through jointer
Joint one edge of each side panel to ensure a straight reference edge for ripping these workpieces to width. A magnetic featherboard on the jointer table helps keep the tall panels pressed against the fence.

If you decide to glue up your own panels, make them just over the actual part sizes shown in the Material List. Not knowing exactly what I would receive in terms of quality, I ordered the pre-made panels well oversized. The panels for the middle and upper shelf were sized to include enough stock for the door frame, so I did not need to buy and size rough oak lumber. This also helps ensure that the door will match the color and grain of the desk. You will also need a half sheet of 1/2″-thick oak plywood for the door panels and the back of the desk.

Packaged lumber for building desk
The author purchased plainsawn oak panels from KenCraft Co. (www.kencraftcompany.com, 419-536-0333) and quartersawn panels from Advantage Trim and Lumber (advantagelumber.com, 877-232-3915).

The panels were delivered from both vendors in multiple packages. They were very well wrapped and protected, and none of them suffered any damage in shipping. One vendor provided me with quartersawn white oak, and the other with plainsawn. I unpacked the panels and laid them flat with stickers in between for a couple of days to allow them to acclimate. Both sets were uniform in thickness and sanded to what looked like about 80-grit. There was some minor bowing in the plainsawn panels not seen in the quartersawn stock, but that is as expected, and none of the bowing was enough to worry about. I was very pleased with the quality of what I received. The quartersawn set was $409 with shipping and the plainsawn ended up at $337.

The Side Template

Cutting out desk part shape with jigsaw
Use a template to draw the shapes of the desk sides on the panels, and cut them slightly oversize with a jigsaw. Any resulting tearout from the blade can be cleaned up with a router.

In order for the desk to come out square and straight, the two sides must be exactly the same, so taking the time to make a full-scale template pays off. I laid out the dimensions on a quarter sheet of 1/2″ plywood. I cut and sanded the profile and mortise locations. Make sure that everything is true: any flaws in the template will be repeated on the parts. Also be sure that the mortises are sized properly for the thickness of the panels you are using. You want the tenons to be a bit loose in the mortises. And do not forget to drill the hinge location hole as well.

When the template is ready, clamp it in place and mark the outline of the sides on both larger (18″ x 50″) panels. Removing the template for now, use a jigsaw or band saw to cut out the side shape, being careful to leave about 1/16″ extra around the outside edges in case of some splintering here or there.

Routing mortises in desk side panel
A router and a flush-trim bit removes waste from the mortises before squaring them up with a chisel. The bit’s bearing follows cutouts in the template, which is clamped below the workpiece.

Once again, clamp the template to the side, making sure it is within the rough cut just made. Chuck a 1/2″-diameter flush-trim bit into a handheld router, then trim the side to the template, being careful that the template does not shift as you are working. Before removing the template, you can also rout out the mortises. Use a 1/16″ pilot bit to drill through the center of each mortise location on the template, then drill a 5/8″ hole with a Forstner bit, using the pilot hole as your guide. Drill halfway through with the Forstner, then flip the part and drill through from the other side. This prevents tearout as the bit cuts through the other side.

With the router turned off, set the flush-trim bit through the hole, ensuring that the bit is not touching the wood. Hold the router steady as you turn it on and remove the waste inside the mortise. Now the template can be removed and the mortises squared up with a chisel. If you try to chop through from one side, the grain can break away as you reach the bottom of the mortise. Work through from both faces toward the middle for the best results.

Routing groove for installing back panel of desk
The sides need a groove to receive the back. A router and straightedge are the best way to make this cut. Here, the author’s router attaches to a base that rides along the straightedge.

Next, mill a groove to accept the back. This is the point where the sides become left and right, so lay them out carefully. The important thing is that the sides are mirrored to each other. Use a straightedge and rout a 1/2″ groove from the top of the part to the mid-point of the bottom mortises. The groove should be 1/2″ in from the back and 3/8″ deep.

The last step is to drill the pivot hole for the hinge. Lay the template on each inside face and drill the 9mm pivot hole 1/2″ deep into each side part. Be careful not to drill all the way through the sides.

The Shelves

Drawing lines for cutting a mortise
A simple two-piece story stick is helpful for marking the mortise shapes on the shelves. It provides dimensional reference marks for uniformity as well as a square edge for drawing lines.

Take your panels to the jointer to straighten one edge, and rip them to final width at the table saw. The bottom shelf is ripped to 16″, the middle to 12-1/4″ and the top shelf to 9″ wide. Save the offcuts, especially from the middle and top shelves, and set them aside for now. (This will be the stock for the door’s frame.) Now crosscut the shelves to 14-1/2″ long.

The middle and top shelf get a single tenon on each end, exactly centered. (See the Drawings for details.) Each tenon gets a through mortise for the wedge. These will need to be chiseled out from both faces, just as you did with the mortises in the sides, so be sure to mark both shelf faces before you cut the tenon shoulders to shape.

Since all the tenons are the same size, I made a story stick to speed the layout. Mark the shoulder line and three lines for the through mortise, as shown in the dimensioned Drawings. Cut the shoulders away, being careful to keep them square to the face of the shelf. Once the shoulders are removed, you can cut the outside corners of the tenon at 45 degrees using the layout lines.

Chopping out mortise with hand-drawn guide
The outer walls of the mortises need to be angled by 1/8″, top to bottom, to accommodate the tapered wedges. A chisel makes short work of these cuts. Two layout lines establish the limits of these angles.

The mortises can now be chopped through. You want to cut the mortises 3/4″ across the grain, but only 5/8″ along the grain. The outside face of the mortise is cut at an angle to match the wedges, but for now just cut them 5/8″ wide. Again working from both faces to the center, drill a 1/2″ hole through the waste, and square up with a chisel.

To create the angle for the wedge, choose the best face to be the top of the shelf. With this face up, use a chisel to chop from the outer line of the mortise down to the existing opening at the bottom of the mortise.

The bottom shelf gets two tenons on each end. They are made the same as those on the other shelves, but they are NOT centered. The back panel of the desk sits on top of the lower shelf, so be sure to lay out the tenons so that the back shoulder of the shelf is 1″ longer than the front.

The top shelf gets a 9-degree bevel cut along the front edge for the door to rest against when it is closed. Be sure to orient this cut so that the bottom face of the shelf is wider than the top face.

The bottom shelf gets a section cut out of the front edge for some extra leg clearance. Use a jigsaw to cut this out, and sand the edge smooth. This is a good time to dry-fit the desk and confirm that all the tenons line up properly and fit in their mortises.

The Back

Rip the 1/2″ oak ply to 30-3/4″, then crosscut one end square. Edge-band this end with a thin piece of solid oak, left over from ripping the panels, to hide the panel’s edge plys. After the glue dries, trim the banding flush if needed and crosscut the panel to 36-1/4″ long. The back slides into the grooves in the sides and rests on the bottom shelf. If the fit is snug and the back is square, it will keep the desk square during use.

The Door

Test fitting center panel of frame-and-pane door
The door is a standard frame-and-panel construction. Make the inside face of the panel flush with the frame to create a flat worksurface.

The door is a standard frame-and-panel style. The only critical detail is that the back of the door becomes the work surface of the desk when opened. This means that the panels must be flush with the frame in back, and have no real gap between the panel edges and the frame.

Start by cutting two panels, 11-3/8″ x 11″, from the leftover 1/2″ plywood. Next, rip the leftovers from your shelf panels to 3″ wide, and crosscut them into two stiles, two rails and one center stile according to the Material List. Next, set up a stacked dado and cut a 1/4″-wide by 1/2″-deep groove into one edge of the stiles and rails, and both edges of the mid-stile.

If the ply panel were exactly 1/2″ thick, this groove would be centered on the stiles and rails. But you will have to adjust for the actual panel thickness. With the grooves cut, widen the dado stack and cut 1/2″-long tenons on both ends of the rails and mid-stile. Remember, your groove is probably off-center, so you have to cut the tenons in two setups to match any offset.

Once the frame parts fit properly, cut a 1/2″-wide rabbet all the way around your panels. The depth of the rabbet must be the same as the inside shoulder of the frame. This should leave a 1/4″-thick tenon on the panel edge that fits perfectly in the frame groove. Assemble the door and set it aside to dry.

Wedges

You can cut the eight wedges out of the scrap left over from the sides or the bottom shelf. They are 3″ long, 3/4″ thick and taper from 7/8″ at the top to 1/2″ at the bottom. They are small, so cutting them out on the band saw and sanding them smooth is the safest way to go.

Finishing

Since the desk is designed to assemble without fasteners, finishing is easy. All the parts were sanded to 120-grit prior to staining. I used Minwax® Toffee water-based stain to simulate a traditional fumed oak finish. There are large areas to cover, so apply the stain to small areas, wipe it off right away, and keep a wet edge working to maintain as even a tone as possible.

The water base will raise the grain, so sand again using 220 once the stain is dry, then apply your top coat. I sprayed on several coats of Minwax Polycrylic, sanding with 400-grit between coats. I also applied a generous coat of paste wax to all the parts. This greatly helps with assembly and disassembly when the desk needs to move.

Assembly

Using scrap block to guide folding desktop chain installation
A scrap block clamped to the door is used to steady the bit for drilling an off-centered mortise for the support chains. A 5/8″ Forstner bit will produce nice, flat-bottomed mortises here.

With the finishing done, the door needs hinges added and chains attached to hold it flat when being used. The hinges mount on each end of the door with the pivot pin 1/2″ up from the door bottom. They are surface-mounted with two supplied screws, and can be adjusted to square up the door when closed.

The easiest way to assemble the desk is to stand one side on its back edge and slip the bottom shelf through the side, securing it with two wedges. Then the middle and top shelves can be locked in as well. The second side is slid over the shelf tenons and the door pivots inserted into the sides just before the second side is seated. Insert the rest of the wedges and stand the desk up. Lastly, slip the back into place.

The final bit of assembly is to attach support chains for the door. Flat-link brass sash chain is a good choice here. Cut two lengths of chain at 18″ long. The chains attach to the door in a small mortise on each side. A 5/8″ Forstner bit cuts the mortise. (I used a roller stand to support the door and hold it parallel to the floor as I attached the chains.) Since the mortise is offset to one side, a block clamped to the door keeps the bit from “skating” as you drill about 1/2″ deep. Attach the chains with a panhead screw driven into each mortise. Center the screws.

Hard to Find Hardware

Pivot Hinges (2) #30007
Threaded Brass Inserts (2) #33183
Brass Thumbscrews (2) #70003

Click Here to Download the Materials List and Drawings.

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Turned Knitting Bowl and Stand Plan https://www.woodworkersjournal.com/turned-knitting-bowl-stand-plan/ Fri, 18 Nov 2016 16:16:38 +0000 http://rocklerwj.wpengine.com/?p=34256 A knitting bowl that holds knitting needles, feeds yarn, fits in your car and more, and it's simple to make!

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I have been exposed to spinning, weaving, knitting and needlework all my life, for my wife is a talented fiber artist. I say “all my life,” for fiber art was my mother’s passion as well. In many years of teaching woodworking and woodturning classes, I have found a lot of my students have spouses who engage in some form of fiber art. Therefore, a knitting bowl seemed a good project. It is a simple bowl that will hold one or several balls of yarn and has a scroll-shaped cutout and holes to dispense yarn without allowing it to tangle. The holes also allow storing of a pair of knitting needles. You skewer the yarn ball with the needles and pass them through the holes.

It is a practical, attractive and fun gift for the knitters in your life — and I even came up with a way to “take it mobile.”

Knitting Bowl

easily break when cutting and machining the shape). Center punch the hole centers and bore the openings. (See the photo sequence at left.) Using a drill with a brad point, drill carefully from the outside until the point just pokes through the inside. Now drill from the inside where the point poked through. The result is a perfect breakout on both sides. Use a coping saw to follow the outline of the J-shaped design. I use a blade that cuts in any direction, as the frame cannot clear a bowl with a normal blade. Follow up with the rotary tool to refine the shape and smooth the edges. Files are useful here as well. Getting a good, smooth edge is a bit trickier in practice than it may seem. I am afraid that you will need to hand sand the form as well. Any rough bit of edge will snag the yarn and cause troubles for your favorite knitter. Don’t forget to apply finish to the edge of the cutout scroll. I hope that next holiday season your effort gets you a nice pair of hand knitted socks or a hat to keep you warm. After all, one good turn deserves another.
The bowl should have fairly straight sides, or it can even be a slightly closed-in form (the rim is smaller than the biggest diameter).

Depending on your knitter, the bowl should be between 5″ and 7″ in diameter and 3″ to 4″ tall. It can be from green or kiln-dried wood but should be sanded to a very smooth surface and a slippery finish applied. I recommend a shellac-based friction finish. Polish it out nicely with some 0000 steel wool. While it is important that it look nice, it is more imperative that it be smooth. Yarn cannot snag anywhere! (If your knitter uses wool yarn, the lanolin in the yarn will add a smoothness all its own after a while.)

A jam chuck that is faceplate-mounted will allow you to refine the bottom of the bowl to accept the riser base you’ll turn later.
A jam chuck that is faceplate-mounted will allow you to refine the bottom of the bowl to accept the riser base you’ll turn later.

The wall thickness is not very important, but a thinner wall looks nicer and it is much easier to cut the scroll-shaped opening if the wood is not too thick. If you want to keep it really simple, in place of the scroll you can simply drill a hole of generous diameter for the yarn to go through, but your knitter will have a bit more rigamarole in starting the yarn.

A closed grain wood like maple is a good choice for a yarn bowl. It lends itself to a smooth surface, which is an important design aspect.
A closed grain wood like maple is a good choice for a yarn bowl. It lends itself to a smooth surface, which is an important design aspect.

In any event, you will need two additional holes near the scroll. They are to store the knitting needles when not knitting. The knitter skewers the ball and then passes the needle through the holes. A 3/8″-diameter hole will allow needles up to Number 13 to pass. The biggest needle is a #19 and will require a 3/4″ diameter hole, but a hole that size may well be impractical for a bowl like this. These holes can also be handy if a knitter is working with multiple balls of yarn (they can put a different colored yarn in each hole to keep them separate but under control).

Base for Use in a Car

A base that’s perfectly sized to fit into your car’s cup holder will allow the knitter to make effective use of time in the car while keeping the yarn under control.
A base that’s perfectly sized to fit into your car’s cup holder will allow the knitter to make effective use of time in the car while keeping the yarn under control.

My mother always knitted when riding in the car, so a good design addition is to make a base with a long foot that is the diameter of the cup holder.

The base is turned separately, as it would be impractical as a bowl-base turning. Test-fit it to your car’s cup holder to be certain that the fit is tight enough to hold well, but loose enough to slide in and out of the hole.
The base is turned separately, as it would be impractical as a bowl-base turning. Test-fit it to your car’s cup holder to be certain that the fit is tight enough to hold well, but loose enough to slide in and out of the hole.

This allows the bowl to fit in the drink holder, thereby elevating and immobilizing it during travel. Turning the bowl and base from one piece is impractical, so the base is spindle turned as a separate piece.

n oil finish for the base is recommended. Allow it to cure well before putting it into use in your car.
An oil finish for the base is recommended. Allow it to cure well before putting it into use in your car.

The extended base needs to be 5″ to 8″ high, around 2″ in diameter at the bottom, with about a 3″ shoulder to stabilize it, depending on your car. Careful measurement of your car’s cup holder is imperative for this scheme to work well — it needs to be a firm friction fit to keep the whole assembly secure.

Carving the Scroll

The scroll for the yarn can be made in a number of ways. I used a coping saw to remove the bulk of the material. I then employed a rotary tool to smooth and fair the scroll and chamfer all the edges. It leaves a superlative finish that needs less sanding. Once sawn and carved, the scroll must be sanded very smooth, especially at the edges, so that yarn slides smoothly at all times.

Pattern for Scroll

For the scroll cut’s terminal hole, drill carefully with a brad point from the outside until the point just pokes through.
For the scroll cut’s terminal hole, drill carefully with a brad point from the outside until the point just pokes through.

On one of the two face grain sides of the bowl, lay out the hole that is the terminus of the scroll plus a hole to either side for knitting needles or more balls of yarn to come through. Do not lay this out on the end grain sides, as this will cause structural problems (the edges of the scroll can easily break when cutting and machining the shape).

Then drill from the inside for a perfect breakout.
Then drill from the inside for a perfect breakout.

Center punch the hole centers and bore the openings. Using a drill with a brad point, drill carefully from the outside until the point just pokes through the inside. Now drill from the inside where the point poked through. The result is a perfect breakout on both sides.

Lay out the design for the scroll itself in pencil.
Lay out the design for the scroll itself in pencil.

Use a coping saw to follow the outline of the J-shaped design. I use a blade that cuts in any direction, as the frame cannot clear a bowl with a normal blade. Follow up with the rotary tool to refine the shape and smooth the edges. Files are useful here as well.

Cut to the layout lines with a coping saw (third photo), using a blade that cuts in any direction.
Cut to the layout lines with a coping saw, using a blade that cuts in any direction.

Getting a good, smooth edge is a bit trickier in practice than it may seem. I am afraid that you will need to hand sand the form as well. Any rough bit of edge will snag the yarn and cause troubles for your favorite knitter. Don’t forget to apply finish to the edge of the cutout scroll.

Finally, smooth saw marks and break edges. The author used a Dremel rotary tool.
Finally, smooth saw marks and break edges. The author used a Dremel rotary tool.

I hope that next holiday season your effort gets you a nice pair of hand knitted socks or a hat to keep you warm. After all, one good turn deserves another.

Click Here to Download the Drawings for This Project.

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Making Picture Frame Moldings Flat During Glue-Up https://www.woodworkersjournal.com/making-picture-frame-moldings-flat-glue/ Mon, 28 Oct 2013 15:09:17 +0000 http://wwj-dev.windmilldesignworks.net/?p=2601 Woodworker's Journal's Editor in Chief Rob Johnstone expands on the picture frame making techniques found in the November/December 2013 issue, showing how to get a flat cut to make your moldings.

The post Making Picture Frame Moldings Flat During Glue-Up appeared first on Woodworking | Blog | Videos | Plans | How To.

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Woodworker’s Journal’s Editor in Chief Rob Johnstone expands on the picture frame making techniques found in the November/December 2013 issue, showing how to get a flat cut to make your moldings.

The post Making Picture Frame Moldings Flat During Glue-Up appeared first on Woodworking | Blog | Videos | Plans | How To.

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How to Turn a Knitting Bowl https://www.woodworkersjournal.com/turn-knitting-bowl/ Mon, 28 Oct 2013 14:56:35 +0000 http://wwj-dev.windmilldesignworks.net/?p=2598 In this video, Ernie Conover shows you how to use your turning skills to make a handy, perfect gift for...

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In this video, Ernie Conover shows you how to use your turning skills to make a handy, perfect gift for the knitter in your life.

The post How to Turn a Knitting Bowl appeared first on Woodworking | Blog | Videos | Plans | How To.

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