Kite construction plan
The copyright of the Raaseri plan (except the photographs) is owned by Simo Salanne.
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Raaseri logo is designed by and copyright of Peter Ulfheden.
|Copyright © 1994...1997
Version 2.2, 1-Dec-97
Raaseri is a high performance dual line stunt kite designed for individual precision and ballet flying. It flies rather slow and thus can be used for pair and team flying, too. Raaseri will axel and do some other "radical tricks" but it is not a genuine trick kite.
For more background information read Raaseri Story.
If you are not familiar with basic stunt kite construction techniques, I suggest you to study Stunt Kites to Make & Fly, by Servaas van der Horst and Nop Velthuizen. ISBN 90-6868-052-8 Available from kite shops or Vlieger-Op.
The dimensions in the drawing are in meters and from a flat, unassembled kite, when assembled e.g. the wing span is smaller than in drawing.
|Sail||Icarex P31||Icarex P31||Icarex P38|
|Leading Edge Spars||3P/Res12||RCF-7||RCF-7|
|Upper Spreader||RCF-6 Strong||RCF-7||RCF-7|
|Lower Spreader||RCF-6 Ultra||RCF-7||RCF-7|
|LE tunnel||Icarex PL62||Dacron tape||Dacron tape|
However, if you have to cut SkyShark spar, you loose the re-enforced end(s). That's why Exel RCF-6 Ultra was used for spine and lower spreaders.
Exel RCF-6 Strong for the upper spreader in Raaseri-L was not selected for strenght reasons, but to move the center of gravity forwards. Same effect can be achieved by inserting some 4 mm carbon or glassfibre rod inside of Exel RCF-6. Originally I had the upper spreader made of Exel RCF-6 Ultra. When I flew Raaseri-L and walked down to gain field, it had tendency to lift it's nose. That's why I had to add some weight. The balance may vary depending on the construction details, e.g. on the weight of cross and LE connectors. If you are lucky, you may need no rebalancing and can use Exel RCF-6 Ultra as upper spreader.
Exel RCF-7 is very nice spar for medium and high wind kites; it's stiff, strong and has attractive price tag. The extra weight - compared to 6 mm sticks - gives more inertia for the kite and e.g. makes Raaseri-M to axel much easier than Raaseri-L. I haven't broke any of Exel RCF-7s in my Raaseris. The leading edge of Raaseri-M and Raaseri-H is made from one piece of 1.65 m long spar; no weakening joint in the middle! If you don't have Exel RCF-7 available, SkyShark 7P will also do well in Raaseri-M and Raaseri-H. Beman Ultra Light 21 is also a very good choice.
If you are not going to build the whole set of Raaseris, Exel Extreme-6 or SkyShark Vp frame will make a good all around kite for 3...8 m/s winds.
Although the drawing gives the lenght of the upper spreader, don't use it! Instead assemble the kite and find the lenght of the spreader by trying a piece of stick in it's place. You may need to adjust the lenght to find optimal tune - it's recommended to start with a longish spreader and going towards a shorter one.
Templates can also be made by printing a postscript file on a postscript viewer/printer:
Mike Emery has converted the templates to KiteFlight/PLOT format, which supports dot-matrix and ink jet printers without postscript.
Postscript file prints multiple A4 (or legal) size sheets, which should be glued together to make 1:1 size templates. There's a 25 x 25 mm grid and page coordinates (0/0 being lower left hand corner, 1/0 right to it and 0/1 above it) to help positioning. Before cutting your fabric check that the spine lenght of your template is about 110 cm as in the drawing. Some people have got "maxi" version templates from their printer (!?). Have a look at the beginning of file template.ps, there's a line:
/mag 9.5 def
which defines the scaling of templates. If your first printing results templates e.g. with spine lenght of 131 cm instead of 110 cm, you should change the ps code to:
/mag 110 131 div 9.5 mul def
If you then want to make a 3/4 version of Raaseri, just change the ps code to:
/mag 3 4 div 110 131 div mul 9.5 mul def
Scaling does not affect to the grid size, it will stay 25 x 25 mm. In the end of template.ps file there is a comment line explaining how to select the pages, which are printed. When you adjust the scaling you may need to play with this part of the postscript if you want to avoid printing a few "empty" pages, having just the grid on them.
Templates are of 'final' size of the panels. You have to add your favourite seam allowance and fabric for the spine tunnel to the templates. "#" like symbols indicate the nonsquare grain/bias direction for Icarex P-31.
I sew first all left side panels together and right side panels together. Then, taking care of the symmetry, sew them together by making the spine tunnel. The purpose of the spine tunnel is to the keep sail centered and prevent the sliding in tight turns. If you prefer simple solutions, forget the spine tunnel. Next the trailing edge, and then leading edges. One thing in the order is important: you have to sew all the panels together before the trailing edge, otherwise you can't get the tensioning line through the TE hem!
Template dimensions expect you align the LE of the ripstop with the fold on LE re-enforcement tape. As the re-enforcement tape does not stretch, the LE sewing is not an easy task because of the curved shape.
Use zig-zag stitch on LE to sail seam.
If you have problems to get a smooth alignment, make the re-enforcement of four tape pieces as decribed in the following drawings.
The curved part from upper to lower spreader is made from two pieces of tape like this:
Leading edge from nose to upper spreader and from lower spreader to the wing tip are made of one folded piece of tape.
Wing tips are tensioned along the LE by a bungee cord. TE as described in Trailing Edge .
The shunt leg should be tuned so that in lower part of the wind range it is loose. When the wind increases and lower spreaders bend, the shunt leg should get tight and take part of the load before lower spreaders break. Bridle dimensions in the drawing are measured from an assembled kite and can be used as starting point to tune all three Raaseri versions to your taste. When you have found the tune, you can tidy the bridle lines by cutting the extra ends away.
I have Raaseri-L tuned lower (towards tail) than Raaseri-H (toward nose)!
I was looking for a stronger mesh (gauze) than the one used e.g. in Flexifoil front, and by accident invented to recycle sun screens from my car to the vents in kite! Sun screen mesh is pretty tight and does not stretch at 'diagonal' direction. However it is porous enough to reduce the pull of the kite in high winds. Panel 3 is mesh in Raaseri-H. Connecting mesh and ripstop needs rather wide seam. I have used 20 mm wide flat fell seam with three straight stiches and one 3-sticht zig-zag.
No. Templates are for the final size of the sail panels.
All seams joining sail panels are straight.
There's two (2) standoffs, one on each side of the kite. Standoffs are attached to the sail on third panel (counting from spine) at the tip of the V-shaped panel.
No, a normal "wide" nose construction is OK:-)
The centers of the cutouts on the leading edge are 0.33 and 1.03 m from the LE/nose corner. The length of the lower spreader is 0.76 m. The lenght of the upper spreader determines the shape of the upper part of the sail. 0.56 m is a good choice, if your sail is within +/- 0.5 cm the size of the plan.