Pockets for the knives

After completing a test piece, it was time to route out all the pockets for the knives. 19 knives in total, with the pockets to be routed in a beautiful piece of 7/8″ thick tiger maple. A little nerve wracking to say the least!

Here are some progress pictures. The Eagle head of the pocket was routed first as that was the deepest pocket.

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Next the main body of the knives were routed out.

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I then removed the 1/4 plywood template from the back of the maple. That in itself was a struggle, it’s amazing how strong double sided carpet tape is! Using a 1″ forstener bit I drilled semi circles above the template of each knife. This was to be the guide to route out a small finger pocket. I then clamped the plywood to the front of the maple and using a plunge router with a core bit and collar cut out the finger pockets.

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Here is a detail shot of one of the knife pockets.

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Finally here is a shot of the tiger maple board complete with all the knives. I was pleasantly surprised when each knife dropped neatly in it’s designated pocket 🙂

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The next step will be to make the frame of the case. I plan on using African Mahogany with half blind dovetail joints inlaid with maple.

Pockets for knife display case – test piece

I decided to do a test piece for the pockets I will be making for the knife display case. I’ve learned the value of test pieces from bitter experience. The extra time taken always seems to pay dividends as you figure out a process using a piece of scrap wood.

The first step was to trace the pattern of a knife onto a piece of 1/4″ plywood and onto a piece of scrap maple. I also drew a line on the pattern separating the thicker eagle head portion of the knife from the rest of the handle.

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Using my scroll saw I cut out the eagle head portion of the pattern in the plywood. On the maple piece I hogged out the same portion using a 3/4″ forstner bit in my drill press. I set the drill press so that it would drill to a depth just slightly less of the final depth of the pocket.

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Then, taking care to orientate it correctly, I attached the plywood to the back of the maple with double stick tape, and using a 3/4″ router bit and the Daisy Pin Router, I routed out as much of the pocket as I could.

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Because of the diameter of the 3/4″ router bit I was not able to route out the area of the pocket at the eagle’s beak. So I switched to a 1/8″ router bit and also changed the guide pin in the Daisy Pin Router to 1/8″. With the smaller diameter bit I was able to access and rout out the area at the eagle’s beak.

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I then removed the plywood from the maple test piece, and took it back to the scroll saw, where I cut out the rest of the pattern. I also took the maple piece back to the drill press and hogged out as much as I could with the forstner bit. You can see that portion of the pocket will not be as deep as the eagle head portion.

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The 1/4″ plywood was taped to the back of the maple piece again, and I switched both the router bit and Daisy Pin Router guide pin back to 3/4″. Then the pocket was routed out. Because this section of the pocket was not as deep I did not have to do a plunge cut with the router. I simple placed the piece over the router bit in the deeper pocket, turned the router on and then moved the piece across to route out the shallower section.

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The completed pocket with the knife sitting in it.

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With a total of 19 pockets to create in the actual knife display case, it was worth taking the time to make a test piece and find the most efficient and accurate method.

Daisy Pin Router

My initial plan to create the slots holding the knives in the display case was to use my scroll saw. However, the case dimensions were 16″ x 30″ which would have been to big for my scroll saw. Further, when I took delivery of the knives I saw the eagle part of the handle was considerably thicker than the rest of the handle. This meant the slots would have to be at a varied depth in order for the knives to sit flat. The only way to achieve this would be with a router.

Rather than having to factor in the thickness of a router collar when making the template, I decided to buy a Daisy Pin Router from MLCS Woodworking. Like I really needed an excuse to buy a new tool 🙂 The pin router includes four steel guide pin of varying sizes (1/4″, 5/16″, 3/8″ and 1/2″) and I also purchased the corresponding set of router bits to go with the pin router. As always, with MLCS, shipping was prompt and the package arrived in good condition. As you can see in the next shot, some assembly and set up is required.

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After attaching the lever to the arm, I screwed the 1/2″ guide pin into the collet of my router. I then moved the arm around to see where it would fit best. Ideally I would have preferred bolting it to the table on the fence side of the router. However, I had very limited access to the underside of my router table at that location, so it would have been difficult tightening and removing the bolts. I ended up locating it to the left and back of the router. This meant that I would need to feed the workpiece from right to left, which shouldn’t be a problem as I have enough of the table in front of the router to support the workpiece. I also took care to make sure the arm did not cover the access hole for the router lift.

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The next step was to mark where the four holes were to be drilled in the router table. I used a transfer punch to do this accurately. I drilled the holes carefully using a 5/16″ bit. The directions called for using a 3/8″ bit, but that seemed a bit big to me.

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The next shot shows the pin router bolted to the table with the 1/2″ pin still secured in the router collet.

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I was excited to take it for a test drive, so I cut a scrap piece of 1/4″ plywood, drilled a hole in it with a forstner bit and then secured it to a piece of maple with double sided tape. I set the guide pin so that it was just above the maple, but below the height of the plywood.

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Routing the outside profile was quick and easy. I did it in four passes, raising the bit each pass. I routed the end grain first and then the side grain to avoid tear out.

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Routing the interior profile took a bit more care, but was still quick and easy. I raised the guide pin, started the router, then carefully positioned the workpiece over the bit taking care to ensure the guide pin was inside of the hole cut out in the plywood. Then I plunged the workpiece down on the bit, held the workpiece securely while dropping and locking the guide pin in place. Then it was just a matter of moving the workpiece around within the constraints of the guide pin in the cut out hole. I had to perform these steps a couple of times, turning off the router and raising the bit incrementally each time. When I flipped the piece over it was good to see a perfect reproduction of the circle in the workpiece!

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Overall I’m very pleased with the Daisy Pin Router. I think it will work great for the knife display case and I’m sure I will come up with many more uses for it as time goes by.

Knife Display Case

I have received a commission to build a display case for a set of knives. The knives are a Harley Davidson collection and there are a total of 19 knives. They have been sitting in a closet for a number of years and the lady who commissioned me wants to give her husband a case to display them in for their anniversary.

After consultation we decided to build the case out of Tiger Maple and African Mahogany. The background will be maple with the frame of the case made from mahogany. I felt the Tiger Maple was a good choice, the light color would make the knives stand out. It also has some nice figure, but not enough to over power the focus of the display, namely the knives. The room the knives will be displayed in has some mahogany furniture, so using mahogany for the frame was a natural choice and it will contrast nicely with the maple.

After looking at a number of different ways to lay the knives out we decided on a grid of five columns and four rows. As there are nineteen knives the knife in the lower right corner will be displayed in the open position. Each cell is 4″ x 5″. The final dimension of the case will be around 16″ x 30″.

Open knife bottom right

I managed to pick up some nice boards from Chipmunk Hardwoods in Edgewater.

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Here are a couple more close up shots showing the knives. It is quite a collection!

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Now back to the shop to make some sawdust. This is going to be a fun project!

Cutting Board Design Software

imageA while ago I wrote about how I made an end grain cutting board.   One of the difficulties was trying to visualize what the final pattern was going to look like.

Well I was looking around on The Wood Whisperer blog and came across a link to a great piece of software that really helps with the design of both end grain and edge grain cutting boards.

The program, CBdesigner, was written by “jayman7” and you can download it here.

I will be making some more cutting boards as Christmas gets closer and this program will make it a lot easier to come up with some new designs.

Drilling for a handle on a drawer

I got this neat tip for marking out the holes on a drawer to drill for a handle from a recent issue of Fine Woodworking. In the course of my work I put a lot of hardware on cabinets. I have a jig for marking the doors and drawers. The typical distance between centers for pulls is 3″. My jig works well for these pulls but even though it is adjustable it does not work as well on some of the pulls where the distance between centers is greater than 3″.

Today I had to install pulls with centers of 5 1/8″. I tried out this method and it worked very well. Relatively quick and suprisingly accurate.

Assuming you are installing a pull with a distance between center holes of 3″. From each corner of the drawer mark in 3″. Then draw a series of diagonal parallel lines as shown in the image. Where they interesect will be at two points 3″ apart and centered on the drawer top to bottom and left to right. Pretty neat. I found that rather than measuring the 3″ from the corner of each drawer, it was quicker to cut a gauge block from a scrap piece of wood and use that to establish the marks from which to draw the lines.

Drilling a drawer

You can click on any of the images to see a larger version.

Dining Room Built In

I just finished installing this private job. I designed and built the cabinets. The design incorporated wrapping the existing base board and chair rail around the base cabinets as well as adding wainscoting to the door and side of the base cabinet to match the wainscoting on the walls. I was pleased with how it turned out and more importantly my client was very pleased.

Dining Room Built In

You can click on any of the images to see a larger version.

Continue reading “Dining Room Built In”

Making a Tool Handle – Part Three

To read Part One click here To read Part Two click here If you are interested in buying one of these tools they can be purchased at Woodchuck Lathe Tools I got a chance to turn the handles today. I mounted the blank between centers, locating a 60 degree live center in the channel opening at the headstock. After turning it round, I turned a tenon at the headstock side, sized to accept a brass coupler. I used a 1″ brass coupler cut in half. The coupler was originally just shy of 2″ long. I also marked the high points and low points of the handle and using a parting tool cut down to the final diameter of the handle at those points.

Making a Tool Handle

You can click on any of the images to see a larger version. Here is a shot of the handle, sanded and ready to be parted off.

Making a Tool Handle

I used 5 minute epoxy to secure the tools in the handle and to secure the brass coupler on the tenon. I finished the handles with a couple of coats of spray shellac. While not as hard wearing as some other finishes I like the feel of shellac. It is also not as shiny as some other finishes, which is fine by me for a tool handle. Lastly shellac is very repairable, any future coats will melt into previous coats.

Making a Tool Handle

I’m looking forward to trying out the tools tomorrow and giving a review of them.

Making a Tool Handle – Part Two

To read Part One click here

If you are interested in buying one of these tools they can be purchased at Woodchuck Lathe Tools

My tools arrived today! I’m glad I waited before gluing the handle blanks together. Either my 1/2″ router bit is not exactly 1/2″ or 1/2″ square bar is not 1/2″. Either way the tool bar did not fit in the grooves I had routed. The depth of the grooves was fine, but the width was a hair to small. I increased the width fractionally on the router table and the fit was perfect.

Here is a shot of one of the blanks glued and clamped. I left the bar in the groove temporarily while doing the glue up to make sure the channel lined up nicely. As soon as I was done clamping, I pulled the bar out. I also marked on the bar the depth it receded in the channels. I know I will have some clean up to do in the channels due to glue squeeze out and I want to make sure the bar is able to fit in as deeply as it did during the dry fit.

Making a Tool Handle

You can click on any of the images to see a larger version.

Here are a couple of shots of the business end of the two tools. One has the carbide cutter in place, the other just the holding screw.

Making a Tool Handle

Making a Tool Handle

Making a Tool Handle – Part Three

Veneer Cutting Jig

I use a lot of wood veneers in my segmenting. Initially I was cutting the veneers with a utility knife and ruler. I decieded I needed something more accurate and efficient. When I think accurate and efficient, I often think of my table saw.

The following pictures show what I came up with. The jig has a runner which fits in the miter slot. A couple of points when building the jig:

  • Assemble the base, leading and trailing edges first. When attaching the leading and trailing edges don’t use any metal attachments (brad nails or screws) in the area where the blade cut will be.
  • Attach the runner. Make sure the runner fits snugly in the miter slot with no play.
  • Raise the blade 1″. I used 3/4″ MDF so this meant the blade would be 1/4″ higher than the bed of the jig.
  • Run the bed through the saw. You now have a cut line in the bed of the base which is perfectly parallel to the miter slot without any measuring
  • Add the jig fence and hold down block with a handle. Make sure the screws attaching the handle of the hold down jig are well offset to the cut line! The bed of my jig will accept a piece of veneer just over 12″ long. I made the fence so that I could rip/crosscut a piece of veneer up to 2″
  • A good coat of wax on the base of the jig and runner will help it to glide smoothly.
  • Because the cut in the base is now a zero clearance kerf and you are supporting the top of the workpiece with the hold down block, I’m able to cut the veneer with no tear out at all.

    Veneer Cutting Jig

    You can click on any of the images to see a larger version.

    Veneer Cutting Jig

    Veneer Cutting Jig