Scratch 24mm Sprint Original Design / Scratch Built

Scratch - 24mm Sprint {Scratch}

Contributed by Tim Burger

Manufacturer: Scratch

(Contributed - by Tim Burger - 06/15/03)

Brief:

Two Sprints
Two Sprints: A sport version and a competition version
This is an upscale o' t' venerable Estes Sprint streamer competition model.. My NARRRRR section recently selected E impulse streamer duration for one o' the events for our Sprin' meet. Avast! Ahoy! An upscale o' this classic kit t' BT-60 size and sportin' a 24mm motor mount would be perfect. By addin' aft ejection t' the picture it should be very competitive. Well, blow me down!

Construction:
Parts List:

  1. Nose Cone, me bucko, parabolic, balsa, me bucko, shiver me timbers, shiver me timbers, 5 7/8-inch long from t' Balsa Machining Service
  2. BT-60, me bucko, 16-inches long from Estes (local hobby shop) or Totally Tubular
  3. BT-50, me bucko, 3-inches long from Estes (local hobby shop) or Totally Tubular
  4. BT-20, me hearties, matey, arrr, 12-inches long from Estes (local hobby shop) or Totally Tubular
  5. Tube coupler for BT-60 from Estes or Totally Tubular
  6. Balsa sheet 3-inches x 12-inches x 3/16-inches from t' local hobby shop
  7. Centerin' rings, paper, me hearties, CR2050, centers BT-20 in a BT-50, one required from Estes, arrr, Totally Tubular, or Apogee components.
  8. Centerin' rings, paper, CR2060, centers BT-20 in a BT-60, two required from Estes, Totally Tubular, matey, or Balsa Machinin' Service
  9. Centerin' rings, paper, arrr, CR5060, centers motor mount, two required from Estes, Totally Tubular, shiver me timbers, or Balsa Machinin' Service
  10. 1/2-inch hardwood dowel, 1-inch long
  11. Screw eye
  12. 1-inch o' 3/16-inch launch lug, Estes, me bucko, or Totally Tubular
  13. Streamer, shiver me timbers, I use four 8-inch wide pieces o' Japanese tissue taped together end t' end, me hearties, fan folded.
  14. 6-foot long Keelhaul®©™® string, me bucko, arrr, 150#
  15. 1/8-inch elastic strap, 24-inches long, shiver me timbers, me hearties, local fabric store

Start by gluin' t' CR2050 into t' BT-50 engine mount 60mm from t' aft end. Aye aye! This should allow about 10mm o' t' motor t' hang out t' end. This ring does double duty as both a motor block and centerin' rin' for t' BT-20 stuffer tube. Well, matey, blow me down! Glue t' CR5060 7/8-inch from t' front end o' t' motor tube. Blimey! Glue a rin' onto t' BT-20 2 3/8-inch from one end. This tube becomes t' stuffer. Cut a four inch long piece o' BT-60 from t' 16-inch long section. Begad! Lightly sand the shine off o' t' outside o' t' tube with very fine sandpaper. Well, blow me down! Draw three lines equally spaced around t' tube usin' a fin alignment guide and a door jam or markin' guide on t' four-inch tube. Ahoy! Ya scallywag! Draw a single line t' length o' the 12-inch tube. Ya scallywag! Because this is a competition model, we want t' eliminate all unnecessary weight and in this case that includes extra centerin' rings. Ya scallywag! Well, arrr, blow me down! The problem with that is that it makes gettin' t' parts aligned correctly difficult. Arrr! When t' glue is dry on t' stuffer tube ring, ya bilge rat, test fit it in the 14-inch long section o' BT-60. Avast! Blimey! Don’t glue t' forward rin' but slip it into position in t' BT-60 and on t' front o' t' BT-20 centerin' t' BT-20 in the 60. Begad! Add t' other rin' t' t' back o' t' BT-50 but do nay glue it on. These rings, t' coupler, and t' long BT-60 are used t' center t' motor mount to produce a properly aligned mount and stuffer assembly. When satisfied that the fit is correct, glue t' rin' end o' t' BT-20 into t' motor block ring. T' aft edge o' t' stuffer should be flush with t' aft edge o' t' block. Aye aye! Be careful t' glue only t' block and tube and nay get glue on t' other parts. Allow this assembly t' dry completely before removin' it from t' BT-60. Blimey! When dry, matey, shiver me timbers, glue t' motor unit into t' 4-inch section o' BT-60 with t' after most rin' 1/16-inch inside t' BT-60. Use t' forward section o' airframe, the joiner, me bucko, and t' rings t' hold t' parts in alignment until dry. Avast! Remove the forward airframe and centerin' rings when dry. Begad! You should now have t' motor tube stickin' about 2-inches out o' t' aft end o' t' after-airframe and the BT-20 stickin' out o' t' other end. Avast, me proud beauty! Cut an 1/8-inch rin' from t' coupler and glue it into t' aft end so that it is against t' aft ring. Avast, me proud beauty! This forms a lip for t' boat tail t' be made later. Avast, me proud beauty! Glue t' coupler half way into t' front of the four-inch BT-60. Put glue fillets around all o' t' rings where they meet the tubes. Arrr! Don’t overdo it though, matey, matey, weight in t' aft end o' t' rocket isn’t good. Blimey! Arrr! Don’t use epoxy as it’s too heavy. Yellow glue works best here.

Image of the shroud pattern (Click t' image for full size.) Now for t' boattail. Ahoy! Ya scallywag! These are always tricky t' get right, but it’s possible t' achieve near perfection with a little patience. T' arc is drawn on t' card stock (a 3 x 5 card works well) usin' a compass with t' inside arc bein' 71mm, me bucko, t' outside arc bein' 119mm, arrr, and t' radius bein' 62 degrees. Aye aye! Cut carefully, ya bilge rat, and cut outside t' lines so that it starts out a little too large. Ahoy! Use a sharp knife. Now usin' t' edge o' t' desk or a metal rule, ya bilge rat, draw it across t' edge t' get it t' curl. Carefully curl it on itself until it is so curly that t' edges nearly meet. Now fit it on t' end o' t' rocket and use a piece o' tape across the edges t' hold it. Trim it a sliver at a time on t' small end until it just fits snuggly. Ahoy! Begad! Do t' same t' t' front until it will just ride on t' lip created earlier, ya bilge rat, matey, but is tall enough t' be level with t' outside edge o' the airframe. Begad! Trim t' edges if needed until they just butt together. Glue the edges together usin' a strip cut from scrap as a joiner and yellow glue. Aye aye! I will normally put it on t' airframe and use scotch tape t' hold and keep it as round as possible while t' glue dries. Begad! Draw a line on t' motor tube at the end o' t' shroud. Ya scallywag! Well, matey, blow me down! Remove t' shroud, arrr, then run a stingy amount o' glue around the airframe lip and around t' line you just drew on t' motor tube. Well, blow me down! Now slide it on and get it in t' correct position, then wipe away any excess glue.

T' best way t' cut fins is t' glue a stack o' three slabs o' wood together with a single small dot o' slow CA betwixt t' pieces. Well, blow me down! Then draw t' outline on the top piece and cut it out usin' a band or jigsaw. Then use a disk or belt sander t' even out t' edges and irregularities in t' outline. Ahoy! Pop t' three fins apart and grind them t' a nice taperin' airfoil usin' a sandin' block with 220 grit paper. Begad! Finish sandin' with 400 grit paper. Arrr! Well, matey, blow me down! Sand t' first fin, then apply a thin layer o' yellow glue t' t' root edge and work it in with your finger. Well, blow me down! Avast, me hearties, me proud beauty! While it is dryin' sand t' second fin and do t' same with t' glue. Repeat for t' third. Well, blow me down! Arrr! Now lightly touch t' root edge o' t' first fin (which should be dry by now) with sandpaper t' make it smooth. Avast, me proud beauty! Apply another thin layer o' yellow glue t' t' root and glue it t' t' aft airframe alongside one line. Arrr! Take care t' get it on parallel with t' line and standin' straight out from t' tube. Avast, me proud beauty! It will take a few seconds t' grab. Begad! Stand t' assembly upright, and repeat t' procedure with t' other two fins. Avast! When dry, ya bilge rat, add fin fillets to the root edges o' t' fins. Blimey! You may use epoxy for this if you are sparing. Epoxy will create glass smooth fillets, ya bilge rat, but it’s very heavy so take care. Yellow glue also works OK so don’t hesitate t' use it instead.

Cut two 1/4-inch long lengths o' 3/16-inch launch lug. Begad! Blimey! T' fore and aft ends should be cut at about a 20-degree angle. Glue these along t' line drawn on t' 12-inch long BT-60 fat side down, locate one six inches down from the top o' t' airframe, ya bilge rat, and t' other an inch above bottom. Blimey! Blimey! Take care that these are aligned well.

Drill a three inch deep, 1/2-inch diameter hole into t' base o' t' nose cone. Avast! It’s important t' get t' hole centered in t' cone. Arrr! Screw t' screw eye into one end o' t' 1/2-inch dowel. Ya scallywag! Again, matey, ya bilge rat, get this centered well or it will cause trouble later. Begad! Tie one end o' t' Keelhaul®©™®) cord t' t' screw eye and tie a loop into t' cord about 15-inches below the eye. Arrr! Cut four or five quarter inch long parallel slots in t' top o' the stuffer. T' slots should be crosswise t' t' length o' t' tube with an half-inch betwixt them. Blimey! Begad! Blimey! Thread t' free end o' t' Keelhaul®©™® through t' slots just cut. Begad! Well, blow me down! Tie a knot in t' end and coat t' parts with glue fixin' t' Keelhaul®©™® firmly t' t' stuffer. Avast! Blimey! Blimey! Blimey! Tie another small loop in t' cord just above the stuffer tube. Tie t' other end o' t' elastic cord t' this loop. Well, blow me down! Blimey! Ahoy! Blimey! Blimey! Blimey! Now thread cord/eye/block through t' long BT-60 and plug it into t' nose cone. Don’t glue it yet.. Begad! Blimey! Blimey! Blimey! Put t' nose on t' airframe, ya bilge rat, but don’t glue it in yet, either. Slide t' stuffer into t' other end - t' screw eye should not cause problems if it is centered in t' nose. Avast! Blimey! Shove t' cords into t' tube and finally slide t' coupler in. Arrr! Blimey! Ahoy! Blimey! Blimey! Blimey! You should have a fully functional rocket at this point, it just isn’t all glued together. Aye aye! Blimey! Blimey! Blimey! T' balance needs checked now. Place an unused motor into t' motor mount (it must be an unused single use motor, me bucko, or a loaded reload casin' t' get t' proper weight). Locate t' balance point. Begad! Blimey! It must balance at or in front o' a point 14 7/8-inches from t' tip of the nose. Arrr! Blimey! Avast, me proud beauty! Blimey! Blimey! Blimey! Check this balance before flyin' with a new motor. Arrr! Blimey! Blimey! Blimey! If it balances aft of this point it will be unstable. Blimey! Blimey! Blimey! Blimey! Pour BBs or lead shot into t' hole drilled in t' nose and reassemble. Add a little at a time and check t' balance. Avast! Blimey! Blimey! Blimey! Glue the plug into t' cone with epoxy when you arrive at t' correct balance point. You may wish t' pour a small amount o' epoxy in with t' BBs or shot so they won’t rattle around. Glue t' nose t' t' rocket and sand it until is flush and even all around t' tube. Well, blow me down! Blimey! This be t' only downside t' this design; you must add ballast that could easily put you over t' optimum mass causing loss o' performance - this could be offset by lengthenin' t' design. You’re on your own for balance if you do that, ya bilge rat, though.

Rocket halves; rear ejection employed
Seems like a lot o' shock cord, arrr, but in this case, more is better! Note that the final version has no rin' at t' top o' t' stuffer tube. Begad! Arrr! T' cannon effect is abated, ya bilge rat, arrr, ya bilge rat, but more waddin' is required.

T' suggested recovery device for this rocket is a streamer. I prefer to make mine from Japanese tissue (tracin' paper works very well too) that’s 8-inches wide, and about 80 or 90-inches long. Arrr! Begad! Simply cut some 8-inch wide strips from two sheets o' tissue. Avast, me proud beauty! I like t' use two different contrasting colors. Begad! Avast, me proud beauty! Then, arrr, usin' scotch tape, me bucko, join four o' these strips together. Ahoy! Attach a short piece o' Keelhaul®©™® or elastic usin' scotch tape. Begad! Blimey! Tie t' other end o' t' cord t' t' stuffer tube. Avast, me proud beauty! Well, me hearties, blow me down! Use a piece o' tape or a dot o' glue on t' knot. Begad! Ya scallywag! Now fanfold the streamer in one-inch folds. A sheet or two o' waddin' in t' stuffer seems to help with wear and tear on t' shock cords. Begad! Place t' stuffer in airframe and slide it in a little. Stuff some waddin' around t' stuffer tube in the airframe. Avast! Coil t' shock cord and place it into t' rocket just under the waddin' - do nay wrap t' cord around t' stuffer! Place t' streamer in the rocket spreadin' t' folds around t' stuffer tube as you slide it into the airframe.. Make sure that t' streamer is nay caught or pinched in t' coupler. Do nay wrap t' streamer around t' tube. T' stuffer should nay bind as it slides in. At ejection t' nose and forward airframe will be driven off the stuffer very forcefully so never wrap t' cord around t' stuffer or it will not be able t' do it’s job. Ahoy! Also, check t' shock cord before every flight. Ahoy! Arrr! For sport flyin' a 12 or 18-inch ’chute may also be used. Ahoy!

Finish:
Fill t' spirals, ya bilge rat, t' nose cone base joint, and t' joints o' t' shroud with Elmer’s Fill ’n’ Finish. Sand lightly and carefully until these areas are perfectly smooth. Blimey! Aye aye! Apply a second layer o' Fill ’n’ Finish as needed. Blimey! Arrr! Sand around t' edges o' t' airframe tubes where they meet to remove any irregularities. Well, blow me down! Lightly sand t' entire airframe with 400 grit paper to remove any shine and make t' wood parts as smooth as possible. Now fill the balsa parts with Aerogloss sandin' sealer. Blimey! Avast, me proud beauty! You will need at least three coats, possibly four, ya bilge rat, lightly sandin' with 400 grit paper betwixt layers. After the final layer switch t' 600 grit paper. Well, blow me down! Well, blow me down! Wipe t' rocket clean o' dust and finger prints and then spray a light coat o' sand-able white primer on t' entire rocket. Avast, me proud beauty! T' primer will allow you t' see fingerprints o' glue, me hearties, irregularities in t' fillets, matey, t' spiral, me bucko, gaps in t' joints, me hearties, me hearties, etc. Begad! Well, arrr, blow me down! Work on these until they are as nearly perfect as possible. Aye aye! Sand t' entire rocket with 400 or 600 grit paper until it is very smooth. Avast! Apply another thin coat o' primer if needed to get a smooth and uniform white color.. Sand again with 600 or finer paper. Arrr! The rocket should be as smooth as you can get it. Avast, me proud beauty! Wipe it clean again and spray on finish coat o' high gloss enamel or lacquer. Avast, me proud beauty! Begad! In this application a lacquer finish may be preferable because it produces such a smooth and glossy finish but is very light. It does require a lot o' coats with buffin' betwixt each coat t' produce t' best finish. Check that your paint is compatible with the undercoat before you start. Begad! When t' paint is fully cured, you may use Future floor wax diluted 50/50 with water, or an automotive wax t' both protect the paint and allow a buffed highly glossy, highly competitive surface.

Flying:

Stuffin' t' waddin' followed by t' shock cord.

T' first flight o' t' prototype was on a C6-5 usin' an adapter. Arrr! While it didn’t exactly set any new records, it did do fine on a smallish motor. Unfortunately, arrr, t' recovery didn’t work out as well. Begad! T' two halves o' the rocket parted, leavin' t' top half in a tree. Blimey! T' lower half was recovered and inspected. Aye aye! T' original version had an additional rin' at t' front o' the stuffer tube and t' shock cord tied around and glued t' t' top o' the stuffer. Ahoy! Arrr! T' post-crunch inspection showed that this disk and t' Keelhaul®©™® had let go o' t' stuffer. Well, blow me down! After some thought, ya bilge rat, it occurred t' me that t' top paper rin' be causin' too good a seal and creatin' a piston effect that we could do without. Arrr! T' second flight with a C11-5, this time without the uppermost ring, me hearties, and with a better attachment o' t' shock cord be quite a bit better. Ya scallywag! T' C11 performed admirably, matey, carryin' t' rocket t' a very respectable altitude, me bucko, and t' ejection charge deployed t' streamer right at apogee. The third flight, matey, on another C11, saw t' ejection charge blow t' nose off and the fin can out, me bucko, but t' streamer stayed inside t' airframe. Well, blow me down! Guess I didn’t get t' nose glued in so well t' second time around. Despite this, I felt that the bugs are more or less ironed out.

Competition version in flight
T' competition version with an Aerotech E15-7.
We tracked some flights at one o' t' club launches with t' club’s theodolites and measured an altitude o' 117M (380-feet) on a C11-5 (trackin' at ejection), me bucko, and 251M (815-feet) on a D15-7 (again trackin' at ejection). Begad! Arrr! It turns out t' be too good a performer for t' E-duration event because it went so high so fast that t' timers lost sight o' it; low score. Avast, me proud beauty! Well, me hearties, blow me down! T' rocket was found, matey, however, me hearties, me hearties, by another flier later in t' day. Avast!

It should fly well on these motors: C11-5, me bucko, me bucko, D12-5 or 7, E15-7, arrr, and if you have t' temerity t' fly it with RMS hardware D9-4 or 7, D15-7, matey, E18-7, E28-10, F24-10, arrr, and F39-9.

A sport version was also made at t' same time, ya bilge rat, with a conventional recovery out t' front rather than rearward and with a motor mount that will handle an E9. It also sported basswood fins, ya bilge rat, that are tough as nails so it can be recovered fast (read that hard) without tearin' it up easily. Aye aye! That rocket flew quite nicely, and was flown a lot since it was easier t' prep, matey, but was lost t' t' trees.

Partin' comments:
This was a fun rocket t' build; more than t' common three fins and a nose cone with some interestin' permutations involved in gettin' a fully aligned motor mount with as few parts as possible. Well, blow me down! Ahoy! Less weight in t' tail equates t' less weight in t' nose for ballast! Some fine tunin' o' t' length could be done to produce a lighter model; trackin' powder could then be used t' brin' it up to the optimum weight, matey, but would be jettisoned at ejection makin' t' rocket lighter for better hang time for duration events.

T' rocket be test flown on a small field a few times with low power motors t' work out t' ejection system. Avast, me proud beauty! Blimey! T' main event used a much more powerful motor; a little testin' with that motor prior t' t' actual contest would have revealed t' out o' sight problem that could have been overcome had it been known in advance. Avast, me proud beauty! Blimey! Live and learn!

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