Steering Wheel

I've been making the steering wheel. This has fitted in well around the Christmas interruptions and my lathe, drill press and CNC mill are in a cooler workshop - it is very hot here at the moment!

I want a wheel with a ring and spokes with handles - see the mockup in the previous post. I had already made the hub and its aluminium bush. This is visible in the left hand photo below. There is a slot through one end of the bush with a pin through the axle to stop it turning. Also in this photo are the pieces of the ring temporarily assembled with their loose tenons. The six segments of the ring were cut out on my small CNC mill; they are oversize to provide for the eventual clean up. They had to be flat on the outside with square corner so they could be stood on edge in a jig while the slots for the loose tenons were milled. The right hand photo shows the sticky mess after gluing all the pieces together.

With the glue set I roughly cut the outside to shape and trimmed off the excess of the tenons. On the lathe the ring was held on the outside of the chuck jaws while the outside was carefully finished to size and one flat side faced off. Then a "jam chuck" was turned in a piece of scrap timber; this has a recess turned in the face which is a tight fit on the outside of the ring. With the ring hammered into the recess the inside and the other flat face can be turned to size. The LH photo below shows ring and hub  on the assembly board.

The RH photo below shows the setup for drilling the holes in the hub and ring. These holes have to be accurately drilled or the spokes simply will not fit. The phot shows the hub being drill. It is clamped to the jam chuck used on the lathe which now has a ring of holes in it exactly 60 degrees apart. The jam chuck can rotate on a bolt which holds it to a vertical board on the drill press table. The board also has the same 6 x 60 degree spaced holes. At the 6 o'clock position a drill is locking the rotating chuck to the fixed support while one hole is drilled. Then the chuck is turned by 60 degrees and the next hole drilled. The ring was drilled with it jammed into the chuck.

 The LH photo below shows the wheel assembled with pieces of dowel and no glue. It went togehter very easily - it is far easier to get those holes right than to position and size the photos on this page! I turned 6 handles with a hole the same size as the dowel and then glued the whole wheel together.

Now I am debating whether to stain it or leave it natural.

Stern Tube and Steering

A week or so ago I collected the rudder, the rudder bearings and the stern tube from David O'Shea at Speed Propulsion Pty Ltd. David has been very helpful with advice and has done a good job on the parts he supplied. Here is the rudder. He will make up the propeller shaft when I have found a propeller and I am working on this as I write.

I'm debating whether to fix some plywood to the flat steel place and give the rudder and aerofoil section. At low speeds this probably won't make much difference but it might look nicer. Either way I will paint it to match the hull.

The stern tube was put through the oversize hole in the skeg and keel and lined up carefully using temporary supports for a straight steel bar through the tube. With the tube in place the space between it and the woodwork at both ends was packed with thickened epoxy. When this had set unthickened epoxy was poured into the rest of the space around the tube through a funnel until it come up through a riser hole at the highest point of the space.

The plan is to use wheel steering with the wheel mounted at the forward end of the cockpit in front of the coaming. I've been making up the parts for this and the arrangement is shown below.

There is a brass axle through nylon bushes in the deck framework. The wheel is at one end and a steering drum is under the foredeck. The steering lines will pass through turning blocks (under the deck shelf) and run under the side decks to a quadrant on the rudder shaft.

The black wheel is just a profile cut from a piece of scrap ply so help me gauge the size of the final wheel. I think the handles need to be slightly longer.

The newspaper was to catch any drips of the walnut wood stain as I applied it to the coaming. There will be a capping strip along the top of the coaming and laminating this will be a challenge!

Cockpit Coaming

Someone mentioned that it is Christmas Day tomorrow - I thought I had noticed some frenzied supermarket shopping and a fat guy with a red outfit! So it seems like a good time for a catch up post or even two!

Because the sheer line rises and the coaming needs to be vertical the laminations needed to be quite wide - I worked out that the forward section needed to be 250mm wide. I made up a light mould for this; it only needs to be light because the bending ply easily takes the shape and the mould only has to withstand the clamping forces. Here are some photos of this process.

The first 2 photos are of the forward coaming clamped up and waiting for the epoxy to go off. The 3rd photo is of the aft coaming ; it is surprisingly stiff now that 3 layers of the bending ply are glued together. The coamings are 15mm thick.

Next step was to glue both coamings in place. A bit tricky holding them in place while clamps were applied. The spring clamps are hold some pieces of scrap timber that sit on the deck to keep the coaming at the right height. The F clamps hold the coaming in place until the glue sets.

With fore and aft coamings in place the 3 laminations of the side sections were laminated in situ. There is a butt joint in each lamination at the end of the side sections and these butt joints are staggered by about 50mm. I didn't like the white timber in the bending ply so I stained the fore and aft sections before I fitted them in place thinking that it would be easier to do the inside face of the coaming below the deck while it was exposed. That was true but.....

With the coaming in place I trimmed to top and bottom edges to follow the sheer line. Then I discovered that I could not match up the stain across the joints in the sections of coaming and also that I didn't really like the cedar colour I had used because it was too red. So it all got sanded off and some darker walnut stain applied.

Deck Framing

After the primer and undercoats went on the inside of the hull I started on the framework rhat supports the fore and aft decks. The framework is has a camber across the boat (6mm in 300mm) and follows the sheerline in the fore and aft direction.  Here is a photo of the aft deck.

In the above the top of the framework is all straight: The part with the curve rises in the centre to the high point of the camber, the rest of the pieces are higher than the curved line of the camber and sheer. In the following photos the curved part has been built up by glueing scrap ply on top of it. All of the framework was then faired with a hand plane to provide the camber.

The square hole in the middle of the deck will be a round hole providing access to the steering quadrant. There isn't much room under the deck so the hole needs to be big enough to insert and remove the quadrant from above. The circular coaming is laminated from 2 layers of 5mm thick bending ply.

Bending ply has 2 thick outer veneers and a very thing inner veneer. I don't think the glue is completely waterproof so I will coat the coaming in epoxy.

There will have to be a removable hatch cover and I am still wondering how to make this!

This last photo shows the 6mm ply sub-deck roughly cut to shape and pinned in place temporarily. I took the photo and then took the panels off again! Suddenly the boat looks almost complete but there is a long way to go yet.

I will finish the woodwork under the edges of the opening and then complete the painting of the inside of the boat (including the underside of the ply sub-deck) before I glue the sub-deck in place. Much easier than crawling into the small spaces at the ends of the boat.

No More Sanding!

I will probably have to eat the words in the title of this post! All the fillets are in the corners inside the hull. All the fillets have been sanded (actually the surfaces next the fillets have been cleaned up) and the inside of the hull has 2 coats of epoxy.

Next will be primer and undercoat so that at long last the inside of the hull will be a uniform colour. There might even be some finish coats in front of the forward bulkhead while it is still relatively easy to get at.

I have been doing a lot of sorting out of stuff that is simply taking up space, stuff that has been kept because "it might come in useful one day". Two large steel cabinets have moved out of my boat workshop leaving me more useful space. Moving them also gave me access to a corner that hasn't seen the light of day for more than 5 years. Look what I found.

Behind one of the cabinets there was a rat's nest with a long dead resident. At least he/she wasn't preparing to leave the sinking ship before it is even launched!

I had forgotten about this - it has been a long time hiding in the corner. About 10 years ago I was going to build a model steam launch (before I started building large boats and before I moved to Brisbane) and Paul Gartside kindly provided a lines drawing of one of his steam launches. I digitised the lines and then used my small CNC milling machine to make this plug. It's 1 metre long and bears an uncanny resemblance to the bigger version of the Paul Gartside launch that is the subject of this blog. Maybe I will finish the job, cold moulded with some veneer over this plug! Perhaps I should finish the big one first!

Inside Hull Ready To Paint - Well Almost!

This is a status report because 3 weeks have passed since the last post. I've been busy doing other things and there has been little boatbuilding. My aim has been to put in all the fixed woodwork inside the hull and to bring it to a state where I can apply 2 or 3 coats of epoxy and some paint. I wanted to do the finishing work before adding the deck and supporting woodwork, that is to do as much of the painting etc while the inside of the hull is easy to access.

I managed to put in a few hours yesterday and glued in the last two floors. I also shaped the side supports for the forward bulkhead and while doing that realised that I could not glue them in place until the deck beam above the bulkhead was also glued in. So I glued in the deck beam first and then the side supports. Here are a couple of photos showing the floors and bulkhead supports.

In the next photo you can see the "engine" bearers between the last 2 floors and also the steering quadrant on the temporary  (broomstick) rudder shaft.

Here's a close up of the homemade quadrant; laminated plywood with an aluminium bush. The two holes about halfway along the straight sides are where the ends of the steering line will come through to be clamped.

The next photo shows the two aft floors with the engine bearers fitted loosely. When the final drive arrangements are sorted out the bearers will be glued in place. The temporary propellor shaft is in place held in alignment by a couple of wooden bushes in the stern tube hole. The tapered pads on both sides of these floors are where the thrust bearings for the the propellor shaft will be bolted.

I've made a temporary bracket out of scrap plywood to get a feel for how the electric motor will be mounted. The motor runs at too high a speed (about 4000 RPM max) for direct drive and so will need to be geared down. My plan is to do this with a belt drive; small pulley on motor shaft and larger pulley on prop shaft to get down to about 1000 RPM at the prop. The white tin is about the size of the 3kW motor I plan to use. The motor is aprox 180mm diameter and 100mm thick - not very big!

Here is an overhead view, the big pulley (more scrap timber!) is 170mm diameter. When I sort out the final details of the belt drive the height of the motor bracket may be reduced.

Floors and Deck Beams

It has been a while since the boat was turned over and in that time I have been filling and sanding the inside of the hull. Waiting for the filler to dry so it can be sanded makes it into a one or two day cycle and because it is also boring I started working on the floors and then the deck beams.

Here is the start of laying out the deck beams. The aluminium box section is 100mm high; its top is at the waterline, its bottom is at the top of the floors. The cross pieces of scrap timber are where the floors will be.

This is how I found the shape of the floors. I could have obtained these profiles from the lofting but this is probably quicker. It isn't my idea, I saw it used in this thread on the Wooden Boat Forum. The pieces of cardboard are stapled to the crosspiece and then this assembly is lifted out and the shape transfered to a piece of scrap plywood.

The plywood should fit but if not can easily be fine tuned. Once the shape is determined it can be transferred to the real timber and cut out with confidence. In the middle sections of the boat where the shape changes slowly the sawn floor should fit. Towards the ends of the boat where the shape changes more quickly the sawn floors need to be bevelled to make a good fit.

In the next photo the two aft floors are in place ready for a pilot hole to be drilled on the centre of the propellor shaft which will pass through them. The drill is fixed in the end of a length of 16mm MS bar with loctite. The bar is long enough to reach through the stern tube hole and is held central in two bushes. The floor to be drilled is held in place by the pavers. Worked like a charm!

With the first pilot hole drilled the floor was removed and two wedge shaped pieces of ply glued either side to provide surfaces at right angles to the prop shaft. These provide the mounting surface for the flange mount bearings that support the inboard end of the propellor shaft. With the first floor complete a 50mm clearance hole was drilled through it. This allowed a pilot hole to be drilled in the second floor. Here are the two floors completed.

The rest of the floors were made and fitted through to the front of the boat. Since then I have been working on the deck beams at both ends. None of the floors or deck beams are glued in place yet but they are more or less ready to be fixed after the inside of the hull has some paint on it. 

While all of this has been going on it has occurred to me that the process of building a boat is one where large pieces of wood are reduced to smaller and smaller pieces. Here are a couple of photos of my scrap boxes. It is amazing how often I can find just the right piece of wood for a particular job in one of these places.