Jim Michalak's Boat Designs
1024 Merrill St, Lebanon, IL 62254
A page of boat designs and essays.
(15 August 2023) We look at sharpie sprit sail rigging. In the 1 September issue we wonder more about "horsepower".
THE BOOK IS OUT!
BOATBUILDING FOR BEGINNERS (AND BEYOND)
... is out now, written by me and edited by Garth Battista of Breakaway Books. You might find it at your bookstore. If not check it out at the....
ON LINE CATALOG OF MY PLANS...
...which can now be found at Duckworks Magazine. You order with a shopping cart set up and pay with credit cards or by Paypal.
ALSO...In addition to the Duckworks downloads I also now have access to a large format inkjet printer which is making very nice full sized prints on paper. So I can return to what I started 30 years ago, you order direct from me by snail mail using the address above only with cash or check in US funds with the prices shown on this website, and I mail you full sized 2'x 3' paper prints. The price includes first class mail to US and Canada.
Looks like a homemade oarlock socket. Just a piece of tube welded to a piece of angle. To replace one "lost" somewhere which was a match to the aluminum socket shown which was salvaged 30 years ago maybe from a older junker. Actually those aluminum sockets were about the best I ever used right down to their nylon bushings that never squeaked and never needed lube. Here I am replacing the outer lamination of my old Roar2's wale which was cracked in several places and well worn from cartopping. The replacement lam is now raised a bit above the inner lam to hopefully allow a smoother slide on the car racks. Same for setting the sockets in a recess. The sockets here have always been on the outside of the wale which gives a wider spread of the locks, better for longer oars and a deeper swing without interference. But they would be murder when coming alongside a rich man's yacht.
1024 Merrill St,
Lebanon, IL 62254
Send $1 for info on 20 boats.
Rigging Sharpie Sprit SailsBACKGROUND...
My first homebuilt boat, in 1981, was a Bolger Teal rigged with a 59 square foot sharpie sprit sail. Next boat was the Bolger Jinni with a 96 square foot main and small mizzen, both sharpie sprits. Later came Birdwatcher with a 126 square foot sharpie sprit. I've used the sharpie sprit on lots of my own designs thinking it about the best sailing cheap rig (although it has its disadvantages too). In this essay I'll pass along what I think I've learned about it.
THE BASIC ELEMENTS...
Figure 1 shows the basic elements of the sharpie sprit rig. We'll talk about them one by one. The basic elements are the MAST, the SAIL, the MAST/SAIL ATTACHMENTS, the SPRIT, the SPRIT ATTACHMENTS. Here we go...
The sharpie sprit mast is actually one of its main disadvantages...the mast needs to be long compared to something like the mast of a balanced lug rig. For example my 12' Teal needed a 16' mast to set enough sail to be interesting, the Jinni needed a 21' mast on its 15' hull, and the Birdwatcher needed a 24' mast on its 24' hull. In general the mast needs to be longer than the boat, sometimes by a goodly amount. That causes problems in trailering and cartopping, especially with the smaller boats. It's at its worst with a small row/sail boat like Teal. If you have to row the boat after sailing, you need to leave the rig standing. Where are you going to put a 16' mast in a 12' boat? If there is any wind about, rowing the boat with the rig standing is very difficult. On Jinni I put a set of crutches fore and aft to stow the rig. The crutches were off centerline so I could launch and row the boat with the rig still stowed - very important. Never stow such a rig on centerline if you don't have to. Actually the mast length problem would be no different for any triangular sail rig.
As for mast material, low tech wood is the way to go. I've tried aluminum and other pieced together solutions and I'll report on them some issue. But the single straight stick seems to be the best. The three boats I mention all had masts with square cross sections (even though the Birdwatcher was supposed to be octagonal). The square masts are a lot easier to build than the octagonal or round masts. I suspect they work about as well. They are stiffer for the size and can easily be built hollow like a box if you want, although if you crank through the numbers you might find that a hollow mast in the size we are talking about saves very little weight. But I don't think a mast should ever be made of a single piece of wood, at least not the wood my sources carry. Always laminate from at least two layers to minimize warping.
Sharpie sprit masts are usually unstayed, that is they have no supporting guy wires. That means a heavier mast but a simple and easily assembled structure. I think a stayed mast would work as long as you were on the lookout for interference between the wires and the sprit as it projects forward.
I might add that from a practical standpoint the 24' Birdwatcher mast, which weighs perhaps 35 pounds, is about all one man can put up by himself with repeatable ease. Even then you must use care, practice and patience and be in control of the thing all the time. You must really rig the boat on shore. The small skiffs often don't have the stability needed to allow you to stand up in the boat trying to balance a 16' stick on end. In rough water it is not possible without good luck. And with the larger ones you may have the stability to try to raise the mast while afloat but any passing wave that rocks the boat as you stand a 24' mast on end will invite disaster.
Up until a month ago all the sharpie sprit sails I had made were of real Dacron sailcloth using instructions from SailRite books. As far as I'm concerned they all went quite well. The SailRite books contain all the information you need although the book I used, written 20 years ago, was a bit jumbled. But since then I think I've learned a few things needed to tweak the general instructions to sharpie spritdom.
For one thing, almost any sharpie sprit sail will benefit from having its leech (trailing edge) hollowed out. If you don't do that the leech will flutter with a loud motor boat sound in higher winds. Usually 2 or 3" on a 20' leech might be enough. I don't think there is any special number, but you do have to hollow it out.
Next, the foot of the sail should be cut more or less as if the sail had a boom which is to say with some "round". I've always use the SailRite instructions for getting the round. I've seen Phil Bolger write that the foot should be cut straight. But I can't see that if you are looking for shaping in some camber. My feeling is that the tension in the foot of these sails is so high that the foot is going to straighten out due to the load no matter how you shape it, so it ends up as if you had laced it to a straight boom.
Next, the luff of the sail needs a lot of "round" mostly to allow for the backward bend of the unstayed mast, which can be considerable. Here again SailRite gives good guidance in suggesting the mast be supported at it ends, a weight equal to half the sail area suspended in the middle, and the resulting deflection "mapped" and applied to the luff. The "round" needed to allow for sail draft shaping is added to the deflection round but it is usually a lot smaller than the deflection round. You might be surprized how much round the luff may need - a 14' luff may need 5" or 6" of round, especially if the mast is limber!
As for allowance for draft, I think a camber of 7% to 10% is fine. I recall somewhere that Marchaj, who wrote the book on scientific testing of this sort, said there is no reason to ever give a sail more than 10% camber by any testing he has seen.
Lastly, I've been experimenting with a small polytarp sharpie sprit sail recently and should have a full report with "how to" within a few months.
This is where the sharpie sprit sail starts to get interesting. Because the sprit must be attached to the mast well above the foot of the sail, the sharpie sprits of old could not use a regular halyard. If they did so, the sprit attachment would interfere with the normal sail attachments of the time - hoops or lacing. As the sail is lowered with the halyard, the hoops or lacings needed to pass over the sprit attachment and there is no simple way to do that. So traditional sharpie sprits had no halyards! The sail is tied to the mast head forever. You can never raise and lower sail in the usual way.
Once you accept that you have no halyard, some economies become apparent. Not only are the halyard and block eliminated, but the mast compression that results in the downward pull of the halyard is gone (as it is in high tech rigs where the halyard is secured over a stop at the top of the mast as with a Hobie cat). And the mast can be thinner up top for that. I think the top of the Birdwatcher mast, 24' long overall, is no more than 1" square.
Not needing a halyard allows for a very simple sail/mast connection, indeed. Bolger likes best simple ties every 18" or so around the mast. If one tie fails it is of little consequence. This is what the Birdwatcher used. The sail stays tied to the mast at all times. Bolger suggested a way to furl and stow such a rig.
Here is a photo of my Birdwatcher with mast and sail furled. The sprit has been stowed, the sail rolled up like a sausage and the roll secured to the mast with a bungee. (On a small boat you can actually roll the sprit up inside the furl.) Looks great and simple doesn't it.
There were two problems with this method of stowing. One is that wind can get into the roll high above the tie and unroll the sail making for uncontrolled thrashing and noise and danger. It can undo you with its violence if you try to furl the rig say at the approach of a thunderstorm which later produces very strong wings. I found a nice easy solution. I tied a light line to the masthead which led down the side of the mast to a cleat near the deck. After I had the sail rolled up I would uncleat that light line and wrap it around the sail/mast working from the deck and spiraling the line around and around. Tug hard and recleat the line and the sail was secured from tip to toe. And that is how the rig was stowed for trailering too. Never came loose.
But I never solved the second problem with this furl. A sail rolled like this will eventually take a permanent curl at its trailing edge. It can't be good for the sail shape. The only thing I could think of to solve this was to roll the sail a different way each time.
Simple lacing works well too. There are lots of lacing schemes but here are two I tried with Jinni and both worked well. Actually these lacings can work with a halyard given some tricks which we'll look into next time.
I found the masthead lacing to be a special challange. The sail needs to be pulled up at the masthead and also pulled close to the mast. With simple ties, two separate ties will do the job. But with lacing you need to try to give a special extra loop around the mast at the top grommet so that the lacing pulls both up and into the mast. Be ready to tinker.
After I had tried all of the above with Jinni I went to the method the plans called for - standard sail track. I found an oldster in selling 20' of sailtrack for $20 in Messing About In Boats classifieds and scooped it up because now the stuff costs $5 a foot if you can find it at all. It worked perfectly, better than all the lacing schemes. But if I had to pay retail for the track, I would go back to lacing. I think in many ways that the old traditional ways of rigging boats are coming back because the materials, like sailtrack and Dacron sailcloth which made the traditional ways obsolete, are now getting too expensive to consider.
As for the tack attachment, like the masthead attachment it is best done with two separate lines, one around the mast to hold the sail close to the mast, and another pulling down on the sail. The one that pulls down is best done this way: Have a line tied through the base of a cleat near the bottom of the mast. Run the line up through the tack grommet and back to the cleat where you belay it. This way you will have a two-to-one advantage here (ignoring friction) and can really crank in some luff tension if you need it. If you see the luff of your sail starting to pucker between its luff grommets in higher winds, you can remove the puckers with more tension on the tack attachment. This way is a lot easier that trying to retension any halyard, if you have a halyard. In fact it might be worth setting the tack line to a spring loaded cam cleat instead of a regular cleat to allow for instant adjustments. Like this:
In a lot of ways the sprit makes the rig into a bow-and -arrow affair and makes the sharpie sprit a high performer. The sprit itself is in compression and can usually be fairly light. I used a 1-1/2" square sprit for Jinni's 96 square foot main and a tapered 1-1/2" x 3-1/2" sprit for Birdwatcher's 16' sprit.
The sprit itself sort of floats free with its aft end tied to the sail's clew, and usually attached to the sheet there. The fore end is attached to the mast with a tackle called a "snotter" More on that later.
But if you put tension in the snotter you put compression in the sprit which forces the clew aft. That tensions the foot and leech which in turn pulls the masthead aft. Here is what happens.:
By varying the tension in the snotter you can preload the mast bend to what you want and that varys the draft of the sail to something you want. It's actually quite adjustable although there are limits to it all. So this very simple rig can do things for which other boats need adjustable stays, etc. I always found the thing works very well. I have a feeling that, as with most "preloaded structures", the preloaded bendy mast retains the shape that you put into it until the wind force overcomes the preload. So the sail shape will stay constant until that wind force is attained, the sail shape does not change with the wind below that threshold. So I've always felt that the rig should almost always be preloaded to some degree. I never bought into the idea that one should set the snotter tension light for light winds and high for high winds. I kept the snotter tension high all the time and hoped for a constant sail draft and shape.
One major point about the sprit geometry is how high up the mast the snotter attachment should be. The higher up you go the greater the tension in the leech and foot and the more rigid in general the arrangement. I should mention now that another advantage of the sharpie sprit is that it is "self vanging" which is to say the clew does not lift up as sheet tension varies as with a normal sail. With a regular boomed sail, the sheet pulls downward on the sail and boom to resist the upward pull of the leech. When the boom is swung forward as when running downwind, the sheet usually no longer pulls downward and the boom usually lifts up. That allows the leech to go slack, the sail looses its shape and sometimes its control. So often regular boomed sails have a vang that runs from boom downward and forward to the mast to eliminate the lifting of the boom. The sharpie sprit doesn't need a vang because the sprit is always pushing the clew down. The greater the angle between the sprit and foot, the greater the affect. So sometimes you might see the snotter tackle attached up quite high to take full advantage. I suppose the optimum would be when the sprit sort of bisects the angle formed by the leech and foot.
But it can be overdone from a practical standpoint and here is why. On both Jinni and Birdwatcher I've had the snotter attachment break or rattle loose while underway. It only happens in bad conditions, course. You need to repair it quickly because you won't have control of anything until you do. If the snotter attachment is more than chest high, you will be in danger at repairing it. Having to stand on a deck to effect the snotter attachment is a total no no as far as I'm concerned. You won't be able to do it in the bad conditions that caused the failure to start with. So that's why I place my snotter tackles somewhat lower than some other designers and builders.
One thing to keep in mind about the sprit is that it sometimes must be rigged very quickly. Another thing to keep in mind is that if it comes loose you loose everything!
Here is how I like to connect the sheet and sail to the sprit's aft end. A simple open based cleat is attached to the sprit there. The sheet has a stopper knot about two feet from its end and is led through the base of the cleat until the stopper knot bears against the cleat, then through the sail's clew grommet, and the belayed back on the cleat. Be sure there is enough rope beyond the stopper knot to do all of this quickly. Variations on this are that on smaller boats it can be nice to leave the sheet permanent to the sprit, in which case a second stopper knot can be tied in above the cleat, capturing it. Another variation is to have a snap hook tied in to the end of the sheet so that instead of having to belay the sheet after looping it through the clew, you simply snap the hook into the clew.
Here is how I like to connect the snotter tackle. In my opinion all snotter tackles should be at least 2:1 to allow power to easily preload the mast. So a small sail, say less that 100 square feet, should have something like in Figure A. Again an open based cleat is attached to the fore end of the sprit. A snotter line is prepared with a stopper knot and passed through the base of the cleat, around the mast and back to the cleat where it is belayed. Some sort of eyepad will be needed on the mast to keep the snotter located on the mast. For larger boats, the multi part tackle shown in Figure B is suggested. It can be put on in an instant with the snap hook. The end of the sprit is slotted to take the loop holding the block and the slot needs to be just the right width to allow a press fit of the loop rope. This is the rig I use on Birdwatcher. The snotter lead is then lead down to a belaying pin near the base of the mast.
CORMORANT, CABIN SAILBOAT, 32' X 8', 2500 POUNDS EMPTY
Cormorant is the largest boat I've ever designed. I always warn folks to think twice and three times before building a big boat because you can buy a good used glass boat for less, maybe a lot less. But a homebuilt boat can have features that aren't available in a production boat and so it is with Cormorant. This one is really a 20% enlargement of Caprice.
Straight enlargements rarely work perfectly and so it was with Cormarant from Caprice. (Don't forget that Caprice was an enlargement of Frolic2, etc., etc., right on down to my Toto canoe.) In this case I narrowed it from a straight enlargement to keep the width within simple towing limits since this large boat is supposed to live on its trailer most of the time. The layout is quite similar. The idea is that the adults sleep in the center cabin and the kids sleep in the forward room.
Like Caprice, Cormorant has water ballast, over 1000 pounds of it. Total floating weight with family is going to be up to 4500 pounds. You don't tow a boat this large behind a compact car but I think towing this sort of weight is common today, all done with expensive large trucks I'm afraid.
The sail rig looks pretty modest with a 207 sq foot main. I'll bet it is enought since this shape is easily driven. I don't think you can go any larger and still hope to handle it without extra crew and gear.Tthe lug sail shown is similar in size to Bolger sharpies and they seem to get by OK. Experience will show if it is too big/too little.
Constuction is taped seam, with no jigs or lofting. Unlike smaller designs this one does not come with a plywood panel layout drawing. Over the years I've learned two things about the ply layout page. First is that almost no one uses it. Second is that with a larger boat the work of finding and drawing and fitting all the pieces to the boat on scale plywood sheets overwhelms all the other work. So part of the deal with doing the design was that there would be no plywood layout drawing. However this is still a true "instant boat" in that all of the parts that define the boat are drawn in detail and you can scale them up on plywood, cut it out and fasten together with no need for lofting or a building form.
Garth Battista, who is a book publisher at Breakaway Books where he publishes sporting books including my Boatbuilding For Beginners (And Beyond), is a true boat nut and has worked himself up from dinghies and canoes to the big Cormorant. He took it initially on a quick shakedown run on a lake near his home and shortly later to Long Island Sound for a week with his family. Here are his comments:
"We had an amazing time living aboard Cormorant (christened "Sea Fever") in Provincetown harbor for 5 days. The tide there was rising and falling about 12 feet a day with the full moon. We'd be high and dry up on the beach for breakfast, swimming off the boat at lunchtime, walking the flats again by dinner. It was a blissful time for me and my wife and two girls. We moved around, took little sails here and there across the harbor (West End to Long Point, then to the lighthouse, then to the East End, etc.) anchoring here and there, usually just running it aground as the tide allowed and staying for a while. Many shells were collected, and tidal pools investigated. Of all the harbors I've ever seen, it is the most alive. It's a couple of miles across and fresh sea water flushes the whole place twice a day. The number of snails, clams, crabs, fish of all sizes, mussels, eelgrass, etc. was just mind-boggling. On high tides I'd go spearfishing (many attempts, no luck) where at low tide I'd been walking around.
We rigged a 8' x 15' white tarp with tent poles running crosswise as a canopy over our cockpit and hatch, supported along the mast folded down in the tabernacle, so we could escape the mid-day sun. Most days were hot and humid and mild, with only gentle winds. We rode out a nighttime thunderstorm with no trouble, just stayed up and watched the lightning. We attended a few wedding-related events, just walking ashore for one party, and for the wedding itself we returned late at night and rowed our dinghy out to the boat, our sleepy children just awake enough to get themselves aboard.
For our last two days we gave up the shallow-water life and sailed from P-town down to Wellfleet, about 7 miles, surfing along on gentle 3-foot waves with a following wind. We beached the boat at Great Island, walked the beach, had a picnic dinner, swam and played, spent the night, and left the next morning at 6 a.m. to beat the falling tide. Our weather radio mysteriously quit working that morning, so all we had was the prior day's forecast of 10-15 knot winds from the SW.
The wind had shifted into the west during the night, so we had to beat out of the harbor, and once we turned north to return to Provincetown, huge rollers were coming in off the bay, more or less directly into our port side, lifting us, rolling us, occasionally breaking and spraying water into the boat. We stayed well offshore to avoid the breakers in by the beach -- but with the falling tide it seemed that we needed to be nearly a mile out. It went from exhilarating to worrisome to mildly terrifying as we neared P-town and the wind kept picking up, past 20 knots to 25 and higher in gusts, and the waves just kept growing. The swells were in the 8-10 foot range, with a high percentage of them breaking at their tops, whitecaps everywhere.
But bless this boat! With its 1000 lbs. of water ballast, and the leeboard mostly up, we were able to bob and roll and slide over nearly all the swells. The worst of them were very steep and threw us sideways, maybe tilting us to 40 or 45 degrees briefly. We had two reefs in the main and the mizzen rolled down to about half-size, and still we blasted along on this nasty rollercoaster of a beam reach. It was the sort of trip that would be scary fun if it was just you and a buddy, but it's awful when you have your loved ones aboard, and you wonder who might get thrown overboard, and how you'd managed a rescue in the rough conditions.
Anyway -- the white knuckles got to relax as we finally made it past the P-town breakwater, and with great relief ran her aground out on the flats. The gale (or near-gale) continued to blow all day, kicking up 3 and 4-foot waves even in the protected areas of the harbor. The only boats we saw going out were an 80-foot schooner and a big whale-watch boat. A lobsterman we talked to later said he'd stayed in as it was too rough to check his traps.
We had a hell of a time taking the boat out and getting her on her trailer for the trip home -- but all worked out in the end, with the assistance of some very kind strangers; and I'm left with the memories of incredibly happy days. -- And an incredible boat.
All best, Garth
P.S. Jim -- I should also mention that on Sunday afternoon as we turned the corner from our run down to Wellfleet to the close reach upwind toward the inner harbor, the boat just drove perfectly. It seemed we made 40 degrees off the wind. That maybe wishful thinking, but it was an angle far better than I'd imagined a lugsail could manage. It was a joy to sail, in all conditions. My hat is off to you.
P.P.S. The number of people who came over to admire the boat and exclaim at its uniqueness, its coolness, its obvious functionality -- well, they were beyond count. "
One more thing, Garth sent me this photo of himself working hard on his new sports book:
Plans for Cormorant are $60 when ordered directly from me.
We have a Picara finished by Ken Giles, past Mayfly16 master, and into its trials. The hull was built by Vincent Lavender in Massachusetts. There have been other Picaras finished in the past but I never got a sailing report for them...
And the Vole in New York is Garth Battista's of www.breakawaybooks.com, printer of my book and Max's old outboard book and many other fine sports books. Beautiful job! Garth is using a small lug rig for sail, not the sharpie sprit sail shown on the plans, so I will continue to carry the design as a prototype boat. But he has used it extensively on his Bahamas trip towed behind his Cormorant. Sort of like having a compact car towed behind an RV.
And a Deansbox seen in Texas:
Another prototype Twister is well along:
A brave soul has started a Robbsboat. He has a builder's blog at http://tomsrobbsboat.blogspot.com. (OOPS! He found a mistake in the side bevels of bulkhead5, says 20 degrees but should be 10 degrees.) This boat has been sailed and is being tested. He has found the sail area a bit much for his area and is putting in serious reef points.
AN INDEX OF PAST ISSUES
THE WAY BACK ISSUES RETURN!
MANY THANKS TO CANADIAN READER GAETAN JETTE WHO NOT ONLY SAVED THEM FROM THE 1997 BEGINNING BUT ALSO PUT TOGETHER AN EXCELLENT INDEX PAGE TO SORT THEM OUT....
THE WAY BACK ISSUES
1sep22, Measuring Prop Thrust, OliveOyl
15sep22, Leeboard Issues, Philsboat
1oct22, Prismatic Coefficient, Larsboat
15oct22, Figuring Displacement, Jonsboat
1nov22, Lugsail Jiffy Reef, Mayfly14
15nov22, Sharpie Reefing, Piccup Pram
1dec22, Making Oars, Batto
15dec22, Taped Seams, Sportdory
1jan23, Rowboat Setup, Normsboat
15jan23, Sail Area Math, Robote
1feb23, Bulkhead Bevels, Toto
15feb23, Trailering Boats, IMB
1mar23, Small Boat Rudders, AF4B
15mar23, Making Sink Weights, Scram Pram
1apr23, Sailrig Spars, RiverRunner
15apr23, Water Ballast, Mayfly16
1may23, AF3 Capsize, Blobster
15may23, Mast Tabernacles, Laguna
1jun23, Underwater Boards, QT Skiff
15jun23, Capsize Lessons, Mixer
1jul23, Rend Lake 2023, Vireo14
15jul23, Rigging Lugsails, Frolic2
1aug23, Horsepower, Oracle
Mother of All Boat Links
The Boatbuilding Community
Kilburn's Power Skiff
JB Builds AF4
JB Builds Sportdory
Puddle Duck Website
Brian builds Roar2
Barry Builds Toto
Table of Contents