So, I decided to make a wooden set of the hexagonal tiles for Settlers of Catan (for those who don't know, it is a very popular board game)
In the basic board (you can get extensions), there are 6 tile types for which I used 6 wood types - all 6mm planks as shown below
- Iron Ore - purpleheart
- Wood - teak
- Brick - mahogany
- Wheat - boxwood
- Sheep - sycamore
- Desert - lacewood
I did lots of testing with my laser engraver and eventually went with outlines of the icons for each resource type / tile (laser is a Neje Master 2 20W)
Then each tile was engraved onto the lengths of wood - in the background you can see the grid on the support board - the laser engraving software (lightburn) which is brilliant - has a grid of 1cm squares to make up the 170mm x 170mm engraving area - after working out where the engraver would sit on the board, I simply got it to engrave this grid onto the backing board and now I can line up the wood on the board and it pretty accurately lines up with the image in the engraving software - at some point I will get a camera added, but for now this works well...
each board was then put through the bandsaw to do a rough cut close to the lines (I am not hugely accurate yet on the bandsaw!)
leaving lots of offcuts and sawdust (all hoovered up, and yes I have masks and air filtration in the workshop!)
this then gave me a pile of 19 tiles across the 6 woods, all cut close to final. In the game, the tiles are randomised each time and then a set of numeric counters put on top in the same pattern (gives unique games), these counters are c25mm round cardboard disks - in the game they just sit on the cardboard hexagon, but I though I would recess the space for them to give a neater finish, and eventually I will cut some counters from 25mm dowelling and then engrave them with the numbers... You can see here the small cross on each tile as the drill locating spot... initially I drew a circle outline thinking that was the best option, but of course it makes it much harder to accurately drill out and leave no line behind - this means that the guide point vanishes with the waste material...
here you can see a tile after the hole has been drilled - just down a couple of mm (on a 6mm piece the remaining 4mm means no structural weakness) - I need to sand down the interior - but drilled using a forstner bit at 25mm
each piece was then taken to the belt / disk sander and sanded on 6 sides back to the line - I have an 80 grit on the disk and 240grit on the belt, so the waste material was removed on the disk and then a quick polish sanding on each side on the belt to 240 - every board was initially sanded to 400grit with a hand orbital sander before engraving - even though the engraving pretty much starts the construction process as you then use the engraved hexagon to make the pieces, you have to sand up front not at the end or you will lose detail from the engraving...
so, the one main issue - sanding to the lines is not mm accurate - you can't use a fence for the first two sides as all 6 sides start irregular - one you have two you can use a 30 degree fence to guide the sides two on from each, and then those to guide the last sides... but ultimately it is done by eye, and while I improved there is irregularity... so to the big question...
bearing in mind all the above...
how would you accurately finish a hexagon and retain the exact shape - I have a number of hand tools - but they will have the same issue as above because I / my lack of experience or practice is the reason for the inaccuracies - for power tools I have the following:
- band saw (fence issue here / bandsaw doesn't cut exactly straight anyway)
- scroll saw (freehand, brings in my inaccuracies)
- jig saw (freehand again)
- mitre saw (not sure how I would do it and they seem very small pieces to trim on a mitre saw)
- router (not very experienced with it but I guess there could be an option for a jig of some type?)
- band and disk sander (my inaccuracy leads to the above results - could just keep on practising!)
- dremel (with router and other attachments - not sure how it would help!)
ultimately - the above pieces are still very nice - and once I have sanded inside the indent and then finished them with wax / lacquer / something they will be lovely to play with - but I would love to know how to cut hexagons accurately (and a CNC machine is not on the cards!) so any ideas would be welcome...
In the basic board (you can get extensions), there are 6 tile types for which I used 6 wood types - all 6mm planks as shown below
- Iron Ore - purpleheart
- Wood - teak
- Brick - mahogany
- Wheat - boxwood
- Sheep - sycamore
- Desert - lacewood
I did lots of testing with my laser engraver and eventually went with outlines of the icons for each resource type / tile (laser is a Neje Master 2 20W)
Then each tile was engraved onto the lengths of wood - in the background you can see the grid on the support board - the laser engraving software (lightburn) which is brilliant - has a grid of 1cm squares to make up the 170mm x 170mm engraving area - after working out where the engraver would sit on the board, I simply got it to engrave this grid onto the backing board and now I can line up the wood on the board and it pretty accurately lines up with the image in the engraving software - at some point I will get a camera added, but for now this works well...
each board was then put through the bandsaw to do a rough cut close to the lines (I am not hugely accurate yet on the bandsaw!)
leaving lots of offcuts and sawdust (all hoovered up, and yes I have masks and air filtration in the workshop!)
this then gave me a pile of 19 tiles across the 6 woods, all cut close to final. In the game, the tiles are randomised each time and then a set of numeric counters put on top in the same pattern (gives unique games), these counters are c25mm round cardboard disks - in the game they just sit on the cardboard hexagon, but I though I would recess the space for them to give a neater finish, and eventually I will cut some counters from 25mm dowelling and then engrave them with the numbers... You can see here the small cross on each tile as the drill locating spot... initially I drew a circle outline thinking that was the best option, but of course it makes it much harder to accurately drill out and leave no line behind - this means that the guide point vanishes with the waste material...
here you can see a tile after the hole has been drilled - just down a couple of mm (on a 6mm piece the remaining 4mm means no structural weakness) - I need to sand down the interior - but drilled using a forstner bit at 25mm
each piece was then taken to the belt / disk sander and sanded on 6 sides back to the line - I have an 80 grit on the disk and 240grit on the belt, so the waste material was removed on the disk and then a quick polish sanding on each side on the belt to 240 - every board was initially sanded to 400grit with a hand orbital sander before engraving - even though the engraving pretty much starts the construction process as you then use the engraved hexagon to make the pieces, you have to sand up front not at the end or you will lose detail from the engraving...
so, the one main issue - sanding to the lines is not mm accurate - you can't use a fence for the first two sides as all 6 sides start irregular - one you have two you can use a 30 degree fence to guide the sides two on from each, and then those to guide the last sides... but ultimately it is done by eye, and while I improved there is irregularity... so to the big question...
bearing in mind all the above...
how would you accurately finish a hexagon and retain the exact shape - I have a number of hand tools - but they will have the same issue as above because I / my lack of experience or practice is the reason for the inaccuracies - for power tools I have the following:
- band saw (fence issue here / bandsaw doesn't cut exactly straight anyway)
- scroll saw (freehand, brings in my inaccuracies)
- jig saw (freehand again)
- mitre saw (not sure how I would do it and they seem very small pieces to trim on a mitre saw)
- router (not very experienced with it but I guess there could be an option for a jig of some type?)
- band and disk sander (my inaccuracy leads to the above results - could just keep on practising!)
- dremel (with router and other attachments - not sure how it would help!)
ultimately - the above pieces are still very nice - and once I have sanded inside the indent and then finished them with wax / lacquer / something they will be lovely to play with - but I would love to know how to cut hexagons accurately (and a CNC machine is not on the cards!) so any ideas would be welcome...
another one to explore though - thanks...
