Category Archives: Puzzle Creation

Karakuri Work Kit – Kakukaku box

General Kit Comments

The Karakuri group offer a reasonable number of DIY puzzle boxes which they refer to as “Work Kits”. Each of the kits consist of a number of pre-cut plywood pieces, some decorative pieces (like the beautifully made acorn on the Acorn Box), and any hardware needed for the mechanism, if it’s not just a straight forward sliding panel or suchlike. The kits are all perfectly cut, and of the kits I own there have been no issues with the fit or finish on any of the pieces.

Something which is worth noting about the kits is the price. They all come in at around the $25 USD mark, so in terms of affordability, these are really affordable boxes. The quality of the cuts on the pieces is excellent and the fit is as good as you will find with anything from the Karakuri group, so I’d say from that side of things, they’re great value.

One thing to note is that the build instructions for the kits are in Japanese language only. Don’t be put off by that however as with a little thought, and some careful study of the diagrams, you’ll build the kits just fine. Failing that, have a look at my Build Instructions section below, where I have detailed the steps (in English) to build the kit.

Kakukaku Kit Review

The first of the kits I built was (as you already know from the title of this post) the Kakukaku Box. I picked this one for no other reason than liking the look of the box. Interestingly it was the last of the four that I picked, and really the only reason was that I had set a budget and this fit within that budget after having picked the three others I wanted.

The completed top and bottom of the box

As you can see from the picture above, the box itself is fairly simple. The ply is visible on the top of the box, but personally I don’t think that’s an issue. If you don’t like having the ply exposed, you could glue some veneer onto the top panel just to make it neater. The laser cut tree certainly adds to the look of the box, and is also a clue as to the solution.

Building the kit was fairly simple. The diagrams on the build instructions are very clear, and there’s nothing complicated to this kit, so I didn’t have any issues building it. The video is real time, so it took about 15 minutes to put together, and would probably be quicker if you’re not recording a video and talking through everything you’re doing!

As far as the puzzle box itself is concerned, I’ll be honest that I was a little disappointed with the box. I have two reasons for this, and at first they seem contradictory, but bear with me.

The locking mechanism is both too difficult to open, and too easy to open at the same time. If you attempt to open the box using the ‘solution’ provided, it can be very difficult to move the two parts of the box in the right way to get them to open. The fit is pretty good, and as such the movements need to be made very precisely to get the box open. Sadly, there is a much simpler way to open the box. If you hold the top of the box, and shake it, the bottom falls out on its own, making it far too easy!

As a kit I certainly enjoyed building it, and you will understand the mechanism once you’ve built the box, so it certainly meets the expectations that the Karakuri group set out to achieve. If you’re thinking of buying one (or more) of these kits, I’d say that there are better boxes in terms of the end puzzle that you could get, but if you just want to add them all, then go get it!

Build Instructions

In this section I will try to give my guide to building this kit. Please note that this is in no way a translation of the Karakuri Group’s instructions, but my own instructions based on having built the kit. If you have issues following my instructions, feel free to get in touch and I’ll help you if I can, and update things below to clear up any confusion.

Build instructions - Click image for full size

The instructions below match to the numbers on the diagram above.

Tools Needed

Before starting, you’ll need a couple of tools.

Wood Glue / Elmers hobby Glue
Pencil
Ruler (or some measuring device)
Tape – I recommend blue painters tape
Glue Brush (optional)
Engineers Square (optional)

Unhappy Childhood

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No, this isn’t a post about how I had a hard life growing up, or anything of that nature. I had a pretty happy childhood as it happens. Most of you will know already, that this is one of Stewart Coffin’s puzzle designs, #41 in his numbering system, consisting of 10 pieces, made from 5 cubes each, which come together to form a 5x5x2 rectangle with a checkerboard pattern.

Unhappy Childhood, boxed in the unique checkerboard solution.

This particular copy was made by me and is made from Rosewood and Maple, with a Myrtle Burl box. It measures 3.7″ x 3.7″ x 1.5″ for the pieces, and 4.25″ x 4.25″ x 1.7″ in the box.

This is a pretty tough puzzle to solve, as there is only one solution where you end up with the checkerboard pattern on both bottom and top as you can see in the picture above. There are however 2,408 possible solutions if you ignore the checkerboard. So no shortage of ways to get a 5x5x2 solution! (Stewart Coffin reports that “a computer analysis by Beeler, these pieces pack into a 5 x 5 x 2 box 19,264 different ways”, however Burr Tools shows just 2,408)

The following is a look at the creation of this puzzle. Hope you enjoy!

This is one of the puzzle designs that I had been looking at making for a while, since it seems no-one has made any in some time, and I don’t have one in my collection. Really that’s where this all started, looking to add a new puzzle to my collection, and having spent (far) too much on puzzle already this year, what better way than to make it myself.

It all starts with cubes

So the puzzles that I’m making currently are all cube based, and that’s where it all starts. 50 wooden cubes, 25 Rosewood, and 25 Maple is the starting point for the UC. The darker tops on some of the Maple cubes at the bottom of the picture is actually the natural wood. Since I love the look of wood, I’m not selectively removing pieces which don’t look perfect. After all each puzzle is unique given the grain and natural colour of the wood, which is something I love. When I put the pieces together, I’ll orient the pieces so that very little of this is visible, because I’m really aiming for the contrast between the two woods in this puzzle. If the couple I’ve made, only one has this distinctive colouring on some of the pieces.

50 Cubes to be Bevelled

One row done, 9 more still to do!

Half way there!

Some time later, and I'm done!

This is one of the most time consuming parts of the process (currently). I have to take all 50 cubes, and put a very small bevel onto each edge of the cube. All in all it takes between 1.5-2 hours with my current method. There’s been a fair old discussion in one of the puzzling forums about beveling cubes, so I’m sure I can cut this down significantly, but that’s going to need a new jig, and some more tools in the shop so for now I’m stuck with what I have.

If you’re interested, the checkerboard piece of wood in the pictures isn’t some sort of template, it’s actually what will become the base of the box that the puzzle sits in. I just happened to be working on it at the same time, hence it ended up in the pictures.

Next up I made the 10 pieces of the puzzle from those 50 cubies, and as it happens I don’t have any pics of the process. I’ll need to take a few from the next one I make and update this at a later point. Anyway with that done, I turned my attention to the box. I now had dimensions for the box, based on the final size of the pieces, so I took the burl I was using to the saw, and cut it to the right lengths for the box, and created a dado in the edges of two sides, to allow me to get a stronger joint for the corners.

The outside edges of the box

Despite the very small contact area, wood glues are remarkably strong, and will hold the frame together with no issues. In fact, to take it apart would probably break the wood, before the glue would let go. Using blue tape, I tape the corners, (no clamping required) and that will hold the box well enough for the glue to set. I do a quick check to make sure that the corners are square, and leave it to dry, while I turn my attention to the base.

The unfinished base, with the sides sitting on top

As you can see, the base is unfinished. The pencil marks were to allow me to line up each of the strips for gluing everything together. As you can see I still have some sanding to do, since there’s glue and all sorts on the base. Thanks to the random oscillating hand sander I got for my birthday, it will make short work of that!

A quick dry fit before gluing the box together.

With the sanding done, I have a quick dry fit with the pieces in place to make sure everything fits as expected before gluing the base in place. Note at this point, Ive sanded the inside of the box to its final point, as it will be pretty touch to get into the corners once it’s all glued together, so best do that before the final glueup.

Box glueup from the top

Box glueup from the bottom

It’s probably worth pointing out at this stage, that I’ve spent around 3-4 hours making this box. Given that I decided I wanted a checkered base, that meant cutting thin, equally sized strips, gluing them together, then cutting them into strips once dry, flipping the strips to create the checkerboard, and re-gluing, then sanding, etc etc. All in all probably the most labor intensive part of the puzzle build, but hopefully worth it!

Finishing. First coat of thinned lacquer applied

With all the individual pieces ready, it’s time to look at finishing the puzzle. The box was all sanded on the outside, and it’s looking pretty good. I start off by applying a coat of thinned lacquer to all the pieces. It’s 1 part lacquer, 2 parts thinner that I’m using. It gives a very thin coat, but does the job or really making the grain pop. If you compare this to the pictures of the dry fir you’ll see what I mean.

First Coat of Watco Satin Wax.

Second Coat of Watco Satin Wax.

Once that’s dry, the puzzle gets two coats of wax. I’m using a liquid wax, Watco Satin Wax to do the job. I leave the wax for around 5-10 minutes, then wipe off any excess with a rag. This is building up a nice finish on the pieces, but there’s still one more step to complete the process. That’s a final buffing with some Renaissance Wax.

The pieces, next to the finished box

A final view from the side, showing the effect of the checkered base. The myrtle burl box almost looks like its floating.

The final puzzle ready to be played with!

So there you have it. I hope you enjoyed the build as much as I enjoyed making it.

Birthday Puzzling

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As some of you know, I celebrated my birthday last week, and the day came with some shiny new puzzles and tools thanks to my family.

Some Zebra Wood to make puzzles, and a few new tools

It seems that my fiancée had been hard at work, talking to a few of my friends and figuring out what and how to get me a few puzzles and tools. Not only was I lucky enough to receive three puzzles from Mr Puzzle, but there were also some tools to help in making more puzzles myself, and three board feet of Zebra Wood to make into puzzles as well.

I have been talking about getting a small random orbit sander for quite a while now. Believe it or not, up to this point, all the sanding that Ive done, regardless of the size of the project has all been done by hand. So to get a nice palm sander plus several different grits of paper was really nice. I have a couple of biggish projects that I’m working on just now, including the charity build of two children’s rocking horses, so that will come in really handy there, as well as finishing the outer surfaces on some of the puzzles I’ve been making.

Also among the tools was a nice hand plane. It’s another tool that I didn’t own and will make a nice addition to my tools. I have a very small plane for fine work, but this will help for some of the bigger projects that I have planned. Finally there’s an interesting corner clamp. I have no doubt this will come in very handy for making boxes for some of the puzzles.

Three puzzles from Mr Puzzle

From the puzzle side, I had mentioned to my fiancée that I really wanted to have a proper go at Mr. Puzzle’s IPP exchange puzzle from IPP 31 this year, the Houdini’s Torture Cell. Well it seems that when she went looking for it, she decided it wasn’t very expensive, and had a look around some of the other puzzles on the site to pick up a few puzzles for me. In the end she decided on the Cable Car from the San Francisco IPP, and One Four All & All Four One from IPP30 designed by Arcady Dyskin & Pantazis Houlis.

I’ll be writing full reviews of all the puzzles once I’ve had a chance to play with them all so keep an eye out for them soon.

Involute – Finishing a Puzzle

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Recently I wrote about my first attempt at building a puzzle in wood, from scratch. You can read about that here.

At the end of that post, I had a working puzzle, that I was very proud of, but it still wasn’t finished. By that I mean that it was finished to the point it worked as a puzzle, but there was no finish on the wood. So I set about resolving that and with advice from a few fellow puzzle makers, here’s the result of that process.

Involute - Lacquered and unfinished side by side

First up was to sand the outside of the puzzle, so it is ready for the eventual finish, and to break all the edges of the puzzle. Working my way through the grits, I sanded at 120, 150, 180 and 220 grit. Straight off the saw, the edges are all very sharp, and it’s not the nicest thing to hold. By passing the edges over some 220 grit sand paper, it takes that sharp edge off, and makes the puzzle much more appealing in your hands.

Next thing to do was to apply a coat of lacquer to the puzzle pieces. This does a couple of things. It brings out the grain in the wood and gives some sort of protection to the wood from our greasy fingers. Going with some recommendations, I used 1 part satin lacquer, 2 parts lacquer thinner to apply a very thin coat. Leaving the pieces for 10 minutes after applying then rubbing off any excess with a soft clean rag.

The results are pretty obvious when you look at the two puzzles side by side. Given how much time I spent getting the tolerances right, you’ll be pleased to know that the lacquer really doesn’t add any thickness to the pieces given how thinly the lacquer mix is applied. It’s pretty much flush with the surface, so no real issues that I can tell, and my puzzle making friends seem to concur.

After that it’s time to apply a couple of coats of wax to the pieces. This helps to make sure that things slide nicely. I had a liquid wax recommended to me, as it’s much easier to brush a liquid into a corner than it is to use a wax paste and a rag. If you’re interested, I’m using Watco Satin Finishing Wax.

Finished involute, the Ren wax just adds that extra polish

Finally I use some Renaissance Wax to buff and polish the outside faces. It’s not cheap stuff, but it is effective. You really don’t need much which is probably just as well. This really brings out the wood, and gives a good protective layer to the outside of the puzzle. If it’s good enough for the British Museum, its got to be good enough for my puzzles!

If you’re wondering, the first fully completed puzzle is now in the collection of a good friend. I’m waiting for him to open the puzzle to let me know what he thinks of it!

Hadrian’s Box

a DIY Puzzle Box

Some time back, I purchased a couple of DIY puzzle boxes from BH Pen & Laser Crafts which are kits based on Bruce Viney’s designs.

Bruce makes a large number of puzzle box designs, and supplies plans for you to cut your own pieces. He uses an interesting measuring system based on the thickness of the wood, so you can use any stock you have as long as you mark everything up based on thickness.

Rather than cutting all the pieces myself, I purchased the pre-cut kits to make my life easier. I didn’t really feel like spending days cutting all the parts myself, not to mention that some of the pieces are pretty small, making for some challenging cuts.

The video shows the full process from start to finish, using time-lapse. Overall, it took around 2.5 hours actually working on the kit. Including time for the glue to dry, it was around 5 hours.

Overall, it’s a good kit, despite the small issue I had. Since I’ll be receiving some replacement parts to fix that issue, I really can’t complain. If you’re thinking about getting one of these, I highly recommend the kit as it’s both well made, and Bruce’s instructions are pretty easy to follow. There’s minimal sanding needed, so pretty much anyone should be able to build on of these, and get pretty good results at the end.

Coffin Involute

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My first home built Puzzle

After the successes with creating both Square Sticks and Cubes, I had to go do something with them; and see if I could create a puzzle. I decided to make some of Stewart Coffin’s designs, and having been in touch with him, he very graciously gave me permission to try to recreate any of his designs, and encouraged me to do so. With that endorsement, I was off and running. Well, almost!

I had to work out which puzzle I was going to create. There’s so many to choose from that it’s not an easy decision. In the end, I decided to create something that I didn’t already own, so I’d be adding to my collection if it turned out to be any good. So I settled on a copy of STC #214, the Involute puzzle. The Involute is the third in a series of puzzles from Stewart Coffin, each an improvement over the predecessor.

My first attempt - Involute by Stewart Coffin

The first was Convolution, a 4×4 interlocking cube which requires a rotation in the solution. Due to the rotation, some material needs to be removed from one of the cubes in the solution (if you have a tight fit) to allow the rotation to happen. You can read my review here. Stewart Coffin notes that given the rotation, and the nature of cubes (which don’t like to be rotated when hard against one another), that this design could be improved. In his book “The Puzzling World of Polyhedral Dissections”, he leaves it to the reader to see if they can find a solution to this problem.

At the same time, Stewart Coffin had already solved the problem, and created STC #198, Involution. Again a 4×4 cube with a rotation required in the solution, but this time because of the design of the dissection, no material needs to be removed from the pieces to allow the rotation. I’ll not give away how this is done, as it would spoil the puzzle, but I will say it’s a simple and clever solution! I was able to play with one of Scott Peterson’s copies that he had made on my recent visit to see Scott, so I can say I’ve solved both the Convolution and Involution puzzles at this point.

The third in the series is STC #214, Involute. This is the final puzzle in the series, and is again an improvement over the Involution and Convolution. Again there is a rotation required in the puzzle, and again, no material needs to be removed for the rotation to take place. There’s an extra trick in this puzzle, that I’ll get to in a bit which makes it just that bit more devious.

All three puzzles in the series look identical from the outside, each having the same cross pattern on all six faces, so without knowing which puzzle you have in your hand, it could easily be any one of the three. Have I mentioned that this Coffin is a devious bloke?

Thanks to Allard and Kevin who both reviewed their copies of the Involute puzzle, I was able to model the pieces in burr tools, and from that create myself a parts list and a gluing diagram to be able to build the puzzle.

My piece and gluing diagrams for the Involute.

Given that it took several hours to create the diagrams, including the time to create the model in burr tools and so on, I’m not going to give you the whole thing. Not to mention it would spoil how to solve the puzzle (or would it – I’ll come back to that thought). But the image above gives you an idea of what I created.

All the pieces needed to build the Involute

With the design in hand, I went off to the saw, and using the crosscut sled and my stops, I cut all the necessary cubes to make the puzzle. There’s quite an array of pieces there when you see them all sitting together. Also in the picture is one jig I hadn’t talked about previously. This is my cube gluing jig. It’s not overly complicated, just three pieces of MDF cut and glued together to hold a 4×4 cube cut to my 3/4″ stick size which has all edges at 90 degrees, and has been waxed to prevent any glue from sticking to it. I also have three ‘end panels’ which will distribute the clamping pressure evenly across all the blocks so as not to twist the blocks while the glue dries.

At this point I made something of a realisation. Sitting looking at this array of blocks, and my gluing diagram, gluing up one of these puzzles is hugely complicated. You’re working in three dimensions gluing any number of pieces together, all of which needs to be accurate, and with no glue squeeze-out. If you thought Ikea furniture plans were Convoluted, then this is much more challenging!

Dry fit in the gluing jig - bottom layer.

Dry fit in the gluing jig - three layers.

Dry fit in the gluing jig - full puzzle.

Dry fit in the gluing jig with clamp blocks.

Next up I placed all the pieces into the gluing jig, to match my plans. This serves a couple of purposes. Initially, it shows me how good the fit is, and also verified that my plans were correct (at least in as much that I had the correct number of pieces). The other benefit to the dry fit is that it allows me to select which pieces I want to put where in the puzzle. Looking at the grain in the wood, I can select the ‘nicest’ grain to be on the outside of the puzzle, or look at creating grain patterns by selecting pieces carefully from the pile. Given that this was a first ever attempt, I wasn’t too concerned with the grain pattern, but I didn’t entirely ignore it either.

Since this was the first glueup I’d be doing, I decided to go with gluing up two layers at a time. This meant that I didn’t have to work quite as quickly to get the clamps on the jig to ensure that tight fit I was going for. Fortunately, the way the pieces go together, there is a flat surface after every second layer, which was ideal as a stopping point. I also have a smaller glue bottle, where I’ve decanted some of the glue from my big bottle. This small bottle has a fine nose, and is much easier to work with that the full sized bottle. Given the small amount of glue I’d need for each piece, this is the only way to work.

Involute in layers ready for the glueup

With all the pieces separated into layers, I was as ready as I was ever going to be to start putting this together into a puzzle. Fingers crossed!

First layer glued in place.

Two layers glued up and clamped.

Working reasonably quickly, I glued up the first two layers, and thanks to tips from Scott Peterson, I managed to do so with little to no glue squeeze-out. That’s pretty important since any glue squeeze-out will glue blocks together that shouldn’t be, making the puzzle unsolvable. You’ll notice the fairly large block of wood on the top of the gluing jig in the photo on the right. That’s because I only have two layers build at this point, so the puzzle is half way inside the side plates. I needed to add some height to be able to clamp the puzzle effectively.

Glueup completed, clamped and waiting nervously.

After the glue had set, I came back and added the remaining two layers, building on the two I already had. This time, you can see that the puzzle fills all the space, and there are no extra spacers required. I then had to wait a few hours for the glue to dry properly before I could take the clamps off, and see whether I had created a puzzle or a paperweight.

They may have a been a few of the longest hours I have experienced in a long time. My fiancée was about ready to kill me, as I wanted to go take the clamps off and see what I had, she kept telling me to leave it alone. I was like a kid on Christmas morning waiting to see what presents I had. I could barely sit still! When things had been left for long enough, I was finally allowed to go take the clamps off and see what I had.

I should note at this point, that I have never solved an Involute puzzle prior to making this one. Given that rotations are required in the solution, Burr Tools can show that there is a solution, but it can’t animate the assembly for you (or in my case the dissassembly), so I have no idea how to take the puzzle apart. I’m now in new territory, and given that I don’t know how to take things apart, or whether the pieces are glued together correctly, and not glued to one another I know this is going to be interesting!

Since I know where the key piece is, I can remove that fairly easily, but then spend the next ten minutes pushing and pulling on various pieces hoping that something else will move in the puzzle. I can see that there is movement in the pieces, so at least it’s not all glued together, but I am having real problems in finding the second move. The pictures that follow were taken by my fiancée, so are unedited as I make progress. That grin on my face is real!

The moment where I figure out move 2.

Now what?

Seeing the individual pieces of the Involute for the first time.

As I mentioned, I’ve never solved the Involute before, so I had no idea how the puzzle was supposed to come apart. The key piece in the puzzle is really well hidden, and without knowing where it was I would have struggled to start, especially not knowing if the puzzle was entirely glued together at this stage. The second move is also very clever. One thing that Stewart Coffin regularly has in his designs is pieces which are created so that the average person will hold the puzzle in such a way that you will be holding the piece you need to move, effectively pushing the puzzle closed and preventing it from being opened. The Involute is no different, and has this very same trick to allow move two. The look on my face when what looked like half of the puzzle slid to the side perfectly must have been quite the picture. I think for me not only was I solving a puzzle for the first time, which always brings a smile to my face, but also it was a puzzle I had built, and seeing it work the way it is supposed to is an ever bigger achievement.

I took the puzzle fully apart, and was left with the eight individual pieces sitting on my sofa, with a huge grin on my face. I then realised that I had absolutely no idea how to put the whole thing back together! In my excitement of taking the puzzle apart, I wasn’t paying any attention to how the pieces were coming apart! I then spent the next 15 minutes with my gluing diagram trying to put the puzzle back together. Remember I mentioned that having the full diagram may not help that much! I did get there, and the smile on my face seeing the puzzle back together was truly from ear to ear.

Closeup of the fit between pieces

The rotation in the puzzle works perfectly, and I haven’t removed any material from the rotational piece to make that move easier. The fit of the pieces is superb. It’s difficult to tell individual pieces apart as you can see from the closeup above. This makes finding how the pieces come apart even more difficult that if the pieces fitted loosely together as there is no movement between the pieces. In case you’re wondering, that tiny gap that looks like there’s a chunk taken out of one of the pieces isn’t tear-out as a result of a poor cut, but was some natural holes in the walnut. It’s also worth noting here that there is no sanding done on any of the pieces, these are all straight off the saw. Many people in the puzzle community have noted that sanding reduces the accuracy of the pieces, and that a good clean cut can have every bit as good a finish as a sanded piece, perhaps better, since sanding is effectively scratching the surface.

Yes, I made a second to prove it wasn't a fluke!

To prove that it wasn’t just a fluke and this was a one-off, I went off and created a second copy of the Involute. So what you’re seeing here isn’t some clever photography, but the two copies side by side.

Taking one of the cubes apart

And just to show that it works, there’s a partially assembled version next to the fully solved cube.

I was really happy with the results. Over the weekend I produced two copies of the involute puzzle, and both have a very snug fit, and I’d be happy to add these to my collection. In case you’re wondering, they’re made from walnut with redwood corners. And not to sound like an American advert trying to get you to place an order for something you didn’t want …

But that’s not all!

There’s another of Stewart Coffin’s designs that I’ve wanted to play with for a while. That’s his “Half Hour Puzzle”, STC #29. So I drew up the diagram for that, and made one of those too! The brilliant thing about the half hour puzzle is that even though Stewart coffin designed it to only have the cube solution, there are hundreds of possible solution shapes that can be made with the pieces. I’ve created a burr tools file with many of the solution shapes, so if you’re interested in a copy of the file, just let me know.

STC #29 - Half Hour Puzzle

Three Coffin's

So there you have it. Three puzzles in one weekend, all which I am very proud of, and is the start of hopefully great things. As Allard has put it, “One day there’ll be a couple of us around who can say that we had one of the very puzzles created by someone the whole puzzling community now knows as the Juggler-guy! :-)” Maybe … one day.

Neil's Puzzle Building Blog

The journey from puzzler to puzzle creator.